crumbly/tinycode-a · Datasets at Hugging Face

content stringlengths 7 1.05M
# # @lc app=leetcode id=61 lang=python3 # # [61] Rotate List # # @lc code=start # Definition for singly-linked list. # class ListNode: # def __init__(self, x): # self.val = x # self.next = None class Solution: def rotateRight(self, head: ListNode, k: int) -> ListNode: curr = head length = 0 while curr: # get the length of the input ListNode head length += 1 curr = curr.next if length == 0: return None k = k % length # get the real rotation k places if k == 0: # no rotation required return head left = l = head for _ in range(length - k - 1): l = l.next right = r = l.next for _ in range(k - 1): r = r.next r.next = left l.next = None return right # @lc code=end # Accepted # 231/231 cases passed(40 ms) # Your runtime beats 86.85 % of python3 submissions # Your memory usage beats 6.45 % of python3 submissions(13.7 MB)
# https://programmers.co.kr/learn/courses/30/lessons/42584 def solution(prices): answer = [] length = len(prices) for i in range(length): now_value = prices[i] for j in range(i+1, length): if prices[j] < now_value or j == length -1: answer.append(j-i) break answer.append(0) return answer
############################################################################### # Done: READ the code below. TRACE (by hand) the execution of the code, # predicting what will get printed. Then run the code # and compare your prediction to what actually was printed. # Then mark this _TODO_ as DONE and commit-and-push your work. # ############################################################################### def main(): hello("Snow White") goodbye("Bashful") hello("Grumpy") hello("Sleepy") hello_and_goodbye("Magic Mirror", "Cruel Queen") def hello(friend): print("Hello,", friend, "- how are things?") def goodbye(friend): print("Goodbye,", friend, '- see you later!') print(' Ciao!') print(' Bai bai!') def hello_and_goodbye(person1, person2): hello(person1) goodbye(person2) main() # hello snow white how are things? # goodbye bashful see you later! # Ciao # Bai Bai # hello grumpy how are things? # hello sleepy how are things? # hello magic mirror how are things? # goodbye cruel queen see you later? # Ciao # Bai Bai
i = 0 while True: open(f'{i}', 'w') i += 1
""" Terminal client for telegram """ __version__ = "0.17.0"
# Example: Fetch a single transcription on a recording my_transcription = api.get_transcription('recordingId', 'transcriptionId') print(my_transcription) ## { ## 'chargeableDuration': 11, ## 'id' : '{transcriptionId}', ## 'state' : 'completed', ## 'text' : 'Hey there, I was calling to talk about plans for this saturday. ', ## 'textSize' : 63, ## 'textUrl' : 'https://api.catapult.inetwork.com/.../media/{transcriptionId}', ## 'time' : '2014-12-23T23:08:59Z' ## }
class Solution: def singleNumber(self, nums: List[int]) -> int: nums.sort() i=0 while i <len(nums): if ((i<len(nums)-2) and nums[i]==nums[i+1] ): i+=2 else: return nums[i] break
# -- encoding: utf-8 -- { 'name': 'El Salvador - Reportes y funcionalidad extra', 'version': '1.0', 'category': 'Localization', 'description': """ Reportes requeridos y otra funcionalidad extra para llevar un contabilidad en El Salvador. """, 'author': 'Aquih, S.A.', 'website': 'http://aquih.com/', 'depends': ['l10n_sv'], 'data': [ 'views/account_view.xml', 'views/reporte_ventas.xml', 'views/reporte_compras.xml', 'views/reporte_mayor.xml', 'views/reporte_kardex.xml', 'views/report.xml', # 'security/ir.model.access.csv', ], 'demo': [], 'installable': True, } # vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4:
"""Common environment variables unique to the discussion plugin.""" def plugin_settings(settings): """Settings for the discussions plugin. """ # .. toggle_name: ALLOW_HIDING_DISCUSSION_TAB # .. toggle_implementation: DjangoSetting # .. toggle_default: False # .. toggle_description: If True, it adds an option to show/hide the discussions tab. # .. toggle_use_cases: open_edx # .. toggle_creation_date: 2015-06-15 # .. toggle_tickets: https://github.com/edx/edx-platform/pull/8474 settings.FEATURES['ALLOW_HIDING_DISCUSSION_TAB'] = False settings.DISCUSSION_SETTINGS = { 'MAX_COMMENT_DEPTH': 2, 'COURSE_PUBLISH_TASK_DELAY': 30, }
class Solution: def minPathSum(self, grid: List[List[int]]) -> int: m = len(grid[0]) n = len(grid) if m == 0 or n == 0: return 0 for i in range(m): if i != 0: grid[0][i] += grid[0][i-1] for j in range(n): if j != 0: grid[j][0] += grid[j-1][0] if n == 1: return grid[0][-1] if m == 1: return grid[-1][0] for i in range(1, n): for j in range(1, m): grid[i][j] += min(grid[i-1][j], grid[i][j-1]) return grid[i][j]
print("Keep Talking And Nobody Explodes - Kronorox Solvers") print("On the Subject of Passwords") print("Version 1.01") print(" ") print("Remember to rack through the first six(using the arrows), then move to the second set of letters, and so on") #Loading the file, opening it, then adding it to the list, then closing def loadwords(): words = open("passwordslist.txt", "r")#open the file, read only access wordlist = []#our shiny new empty list to fill for line in words: #only letters 1-5 to stop "\n" being added wordlist.append(str(line[0:5])) words.close()#close the file, we weren't born in a barn! return(wordlist) def lettercheck(letters):#This checks the input to make sure it wasn't put in wrong if len(letters) != 6:#the input has to be six long return False for i in letters.lower():#the input has to be a letter(we lower case it briefly) if i not in ["a","b","c","d","e","f","g","h","i","j","k","l","m","n","o","p","q","r","s","t","u","v","w","x","y","z"]: return False else: return True #with our checker ready, lets input the words! #Inputting the letters available def letter_one(columns):#making the first list of letters letterlist_one = input("Input first letters: ") if letterlist_one == "admin":#some debugging to skip to the solver return solver(["sccccc","tccccc","uccccc","dccccc","yccccc"],loadwords()) if lettercheck(letterlist_one) == True: #if the format is correct print("Okay!")#if they get it right, tell them columns.append(letterlist_one.upper())#add it to the list of columns letter_two(columns)#move to the next set of letters else: print("You made a mistake!")#they made a fucky wucky letter_one(columns)#do it again, but right this time def letter_two(columns): letterlist_two = input("Input second letters:") if lettercheck(letterlist_two) == True: print("Okay!") columns.append(letterlist_two.upper()) letter_three(columns) else: print("You made a mistake!") letter_two(columns) def letter_three(columns): letterlist_three = input("Input third letters: ") if lettercheck(letterlist_three) == True: print("Okay!") columns.append(letterlist_three.upper()) letter_four(columns) else: print("You made a mistake!") letter_three(columns) def letter_four(columns): letterlist_four = input("Input fourth letters:") if lettercheck(letterlist_four) == True: print("Okay!") columns.append(letterlist_four.upper()) letter_five(columns) else: print("You made a mistake!") letter_four(columns) def letter_five(columns): letterlist_five = input("Input fifth letters: ") if lettercheck(letterlist_five) == True: print("Okay!") columns.append(letterlist_five.upper()) print("Solving...") solver(columns,loadwords()) else: print("You made a mistake!") letter_five(columns) #okay good you've inputted your letters and they're correct! time to check em! def solver(columns,wordlist):#import the inputted words, and the list of words newwordlist = [] #make a new wordlist we'll use to alter(to stop list editing failures, lazy af) for word in range(0, len(wordlist) ):#for every word in the word list newwordlist.append(wordlist[word])#add that word to our new word list, this is a bad way of doing this #print the table of the letters youve added for column in range (0, len(columns)):#for every column in the list of inputted columns for row in range (0,len(columns[column])):#and for every row in the list of inputted columns print(str(columns[column][row] + " "), end="")#print each letter, then add a space, don't add a new line print("")#print the new line once the row is printed #time to check the inputs! for word in range(0, len(wordlist)):#for every word in the wordlist for letter in range(0, len(wordlist[word]) ):#and for every letter in every word in the wordlist if wordlist[word][letter] not in columns[letter]:#check if the letter is in that column try:#just in case the word has already been taken out of our list newwordlist.remove(wordlist[word])#remove the word it can't be from our new list except:"Word already removed!" try: print("The answer is: " + str(newwordlist[0].upper()) )#print our new word list! except: print("I can't find the word, are you sure you inputted right?!") def play():#play script to launch the commands columns=[] letter_one([]) play()
class BeaxyIOError(IOError): def __init__(self, msg, response, result, args, kwargs): self.response = response self.result = result super(BeaxyIOError, self).__init__(msg, args, **kwargs)
class Solution(object): def lengthOfLongestSubstring(self, s): if not s: return 0 start, end = 0, 0 seen = set() ans = 0 while end < len(s): if s[end] not in seen: seen.add(s[end]) ans = max(ans, (end-start)+1) end += 1 else: while s[end] in seen: seen.remove(s[start]) start += 1 return ans abc = Solution() print (abc.lengthOfLongestSubstring(" "))
# generated from genmsg/cmake/pkg-genmsg.context.in messages_str = "/home/mayur/ros jade files/catkin_ws/src/Udacity-SDC-Radar-Driver-Micro-Challenge/ros/src/sensing/drivers/can/packages/kvaser/msg/CANESR.msg" services_str = "" pkg_name = "kvaser" dependencies_str = "std_msgs;visualization_msgs" langs = "gencpp;geneus;genlisp;gennodejs;genpy" dep_include_paths_str = "kvaser;/home/mayur/ros jade files/catkin_ws/src/Udacity-SDC-Radar-Driver-Micro-Challenge/ros/src/sensing/drivers/can/packages/kvaser/msg;std_msgs;/opt/ros/kinetic/share/std_msgs/cmake/../msg;visualization_msgs;/opt/ros/kinetic/share/visualization_msgs/cmake/../msg;geometry_msgs;/opt/ros/kinetic/share/geometry_msgs/cmake/../msg" PYTHON_EXECUTABLE = "/usr/bin/python" package_has_static_sources = '' == 'TRUE' genmsg_check_deps_script = "/opt/ros/kinetic/share/genmsg/cmake/../../../lib/genmsg/genmsg_check_deps.py"
file = open("input", "r") good_passwords = 0 for line in file.readlines(): poss, char, word = line.strip().split() pos_one, pos_two = poss.split("-") char = char[0] if (word[int(pos_one) - 1] == char) != (word[int(pos_two) - 1] == char): good_passwords += 1 print(good_passwords)
# Hotel Receptionist (1061100) \| Sleepywood Hotel array = [# Name, MesoCost, Map ID ["Regular", 499, 105000011], ["VIP", 999, 105000012] ] sm.sendNext("Welcome. We're the Sleepywood Hotel. " "Our hotel works hard to serve you the best at all times. " "If you are tired and worn out from hunting, how about a relaxing stay at our hotel?") selection = sm.sendNext("We offer two kinds of rooms for our service. " "Please choose the one of your liking.\r\n#b" "#L0#"+ array[0][0] +" sauna (" + str(array[0][1]) + " mesos)#l\r\n" "#L1#"+ array[1][0] +" sauna (" + str(array[1][1]) + " mesos)#l") if selection == 0: response = sm.sendAskYesNo("You have chosen the regular sauna. \r\n" "Your HP and MP will recover fast and you can even purchase some items there. " "Are you sure you want to go in?") elif selection == 1: response = sm.sendAskYesNo("You've chosen the VIP sauna. \r\n" "Your HP and MP will recover even faster than that of the regular sauna and you can even find a special item in there. " "Are you sure you want to go in?") if sm.getMesos() < array[selection][1]: sm.sendSayOkay("I'm sorry. It looks like you don't have enough mesos. It will cost you at least " + str(array[selection][1]) + " mesos to stay at our "+ array[selection][0] +" sauna.") else: sm.warp(array[selection][2], 0) sm.deductMesos(array[selection][1])
### Merge Sort def merge_sort(A): """ Given a list A, sort it using merge sort. First divide the list into two halves, then resursively sort each half. Return the sorted list. If the list has length less than 2, return the list since it's already sorted. """ n = len(A) if n < 2: return A mid = n // 2 #floor division left = merge_sort(A[:mid]) right = merge_sort(A[mid:]) return merge(left, right) def merge(left, right): """ Given two sorted lists, merge them into one sorted list. Save the sorted list into the result list. left: left sorted sublist right: right sorted sublist i and j are variables to be used later. i: index of the left sublist j: index of the right sublist """ result = [] i = j = 0 while i < len(left) and j < len(right): if left[i] <= right[j]: result.append(left[i]) i += 1 else: result.append(right[j]) j += 1 result += left[i:] result += right[j:] return result sorted = merge_sort([3,2,1,4,5,6,10,9,8,7]) print(sorted)
def init_parse(init): dicinit = {} init = open('%s'%init,'r') lines = init.readlines() lines = [x.strip( ) for x in lines] for line in lines: if line.startswith('#'): pass else: try: dicinit[line.split(' ')[0]] = line.split(' ')[2] except IndexError: break init.close() return dicinit
""" This is where we should implement any and all job function for the redis queue. The rq library requires special namespacing in order to work, so these functions must reside in a separate file. """
""" A decorator that makes a class a singleton """ # pylint: disable=too-few-public-methods class Singleton: """ A singleton class """ instances = {} def __new__(cls, clz=None): """ Returns a new instance ONLY if one does not already exist """ if clz is None: if cls.__name__ not in Singleton.instances: Singleton.instances[cls.__name__] = object.__new__(cls) return Singleton.instances[cls.__name__] Singleton.instances[clz.__name__] = clz() Singleton.first = clz return type(clz.__name__, (Singleton,), dict(clz.__dict__))
try: print("Enter the 20 input Number to get summary") num=[] for i in range(0, 20): temp = int(input()) num.append(temp) print(f"List with Number's : {num}\nlength :{len(num)}") count_p=0 count_n=0 count_odd=0 count_even=0 count_zero=0 for i in num: if i>0: count_p+=1 if i<0: count_n+=1 if i==0: count_zero+=1 if i%2==0: count_even+=1 if i%2!=0: count_odd+=1 print(f"Summary About List of 20 Number Entered\nnumber of positive numbers :{count_p}\nnumber of negative numbers :{count_n}\n" f"number of odd numbers :{count_odd}\nnumber of even numbers :{count_even}\nnumber of Zero's :{count_zero}") except Exception as E: print(E)
class Solution: def solve(self, strs): return sorted(strs, reverse = True)
""" You can uncomment on the setting parameters below ================================== """ """ This parameter is used to determine the specific user to executes the kolla ansible command """ # USER_EXEC_KOLLA_COMMAND = "root" """ This parameter is used to determine the location of the hosts file """ # CONFIG_DIR_HOST = "/etc/hosts" """ This parameter is used to determine the storage location for the multinode and globals.yaml files """ # CONFIG_DIR_MULTINODE = "/home/kolla/multinode" # CONFIG_DIR_GLOBAL_YML = "/etc/kolla/globals.yml" ALLOWED_HOSTS = ['*']
before_array_dict = [ {"theRealCat": "unavailable", "code": "callback-http-failure-status", "nestedDeeply": { "stillNesting": { "yetStillNesting": { "wowSuchNest": True } } }, "details": [{"nextId": "ued-abc123", "name": "callnextId", "superValue": "c-abc123"}, {"nextId": "ued-abc123", "name": "callbackStatusCode", "superValue": "404"}, {"nextId": "ued-abc123", "name": "totalDuration", "superValue": "55"}, {"nextId": "ued-abc123", "name": "responseDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "requestDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "callbackUrl", "superValue": "http://google.com"}, {"nextId": "ued-abc123", "name": "callbackMethod", "superValue": "POST"}, {"nextId": "ued-abc123", "name": "callbackEvent", "superValue": "hangup"}], "nextId": "ue-abc123", "message": "The callback returned an HTTP failure status", "time": "2017-02-28T15:40:35Z"}, {"theRealCat": "unavailable", "code": "callback-http-failure-status", "newErrorMessage": [ [ "a", "b", "c" ], [ "a", "b", "c" ] ], "errorMessagesABC123": [ { "valueLesser": [ { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEzzznabled": True, "bigDisabled": [ "abc", "123", "xyz" ] } ] }, { "valueLesser": [ { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] } ] }, { "valueLesser": [ { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] } ] }, { "valueLesser": [ { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] } ] } ], "details": [{"nextId": "ued-abc123", "name": "callnextId", "superValue": "c-abc123"}, {"nextId": "ued-abc123", "name": "callbackStatusCode", "superValue": "404"}, {"nextId": "ued-abc123", "name": "totalDuration", "superValue": "7195"}, {"nextId": "ued-abc123", "name": "responseDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "requestDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "callbackUrl", "superValue": "http://google.com"}, {"nextId": "ued-abc123", "name": "callbackMethod", "superValue": "POST"}, {"nextId": "ued-abc123", "name": "callbackEvent", "superValue": "incomingcall"}], "nextId": "ue-abc123", "message": "The callback returned an HTTP failure status", "time": "2017-02-28T15:40:03Z"}, {"theRealCat": "unavailable", "code": "callback-http-failure-status", "details": [{"nextId": "ued-abc123", "name": "messagenextId", "superValue": "m-abc123"}, {"nextId": "ued-abc123", "name": "totalDuration", "superValue": "37"}, {"nextId": "ued-abc123", "name": "responseDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "callbackStatusCode", "superValue": "405"}, {"nextId": "ued-abc123", "name": "requestDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "callbackUrl", "superValue": "http://google.com"}, {"nextId": "ued-abc123", "name": "callbackMethod", "superValue": "POST"}, {"nextId": "ued-abc123", "name": "callbackEvent", "superValue": "sms"}], "nextId": "ue-abc123", "message": "The callback returned an HTTP failure status", "time": "2017-02-27T16:45:54Z"}, {"theRealCat": "unavailable", "code": "callback-http-failure-status", "details": [{"nextId": "ued-abc123", "name": "totalDuration", "superValue": "20"}, {"nextId": "ued-abc123", "name": "responseDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "requestDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "callbackUrl", "superValue": "http://google.com"}, {"nextId": "ued-abc123", "name": "messagenextId", "superValue": "m-abc123"}, {"nextId": "ued-abc123", "name": "callbackStatusCode", "superValue": "405"}, {"nextId": "ued-abc123", "name": "callbackMethod", "superValue": "POST"}, {"nextId": "ued-abc123", "name": "callbackEvent", "superValue": "sms"}], "nextId": "ue-abc123", "message": "The callback returned an HTTP failure status", "time": "2017-02-27T16:45:50Z"}] after_array_dict = [{'code': 'callback-http-failure-status', 'details': [{'name': 'callnextId', 'next_id': 'ued-abc123', 'super_value': 'c-abc123'}, {'name': 'callbackStatusCode', 'next_id': 'ued-abc123', 'super_value': '404'}, {'name': 'totalDuration', 'next_id': 'ued-abc123', 'super_value': '55'}, {'name': 'responseDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'requestDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'callbackUrl', 'next_id': 'ued-abc123', 'super_value': 'http://google.com'}, {'name': 'callbackMethod', 'next_id': 'ued-abc123', 'super_value': 'POST'}, {'name': 'callbackEvent', 'next_id': 'ued-abc123', 'super_value': 'hangup'}], 'message': 'The callback returned an HTTP failure status', 'nested_deeply': {'still_nesting': {'yet_still_nesting': {'wow_such_nest': True}}}, 'next_id': 'ue-abc123', 'the_real_cat': 'unavailable', 'time': '2017-02-28T15:40:35Z'}, {'code': 'callback-http-failure-status', 'details': [{'name': 'callnextId', 'next_id': 'ued-abc123', 'super_value': 'c-abc123'}, {'name': 'callbackStatusCode', 'next_id': 'ued-abc123', 'super_value': '404'}, {'name': 'totalDuration', 'next_id': 'ued-abc123', 'super_value': '7195'}, {'name': 'responseDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'requestDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'callbackUrl', 'next_id': 'ued-abc123', 'super_value': 'http://google.com'}, {'name': 'callbackMethod', 'next_id': 'ued-abc123', 'super_value': 'POST'}, {'name': 'callbackEvent', 'next_id': 'ued-abc123', 'super_value': 'incomingcall'}], 'error_messages_abc123': [{'value_lesser': [{'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_ezzznabled': True}]}, {'value_lesser': [{'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}]}, {'value_lesser': [{'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}]}, {'value_lesser': [{'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}]}], 'message': 'The callback returned an HTTP failure status', 'new_error_message': [['a', 'b', 'c'], ['a', 'b', 'c']], 'next_id': 'ue-abc123', 'the_real_cat': 'unavailable', 'time': '2017-02-28T15:40:03Z'}, {'code': 'callback-http-failure-status', 'details': [{'name': 'messagenextId', 'next_id': 'ued-abc123', 'super_value': 'm-abc123'}, {'name': 'totalDuration', 'next_id': 'ued-abc123', 'super_value': '37'}, {'name': 'responseDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'callbackStatusCode', 'next_id': 'ued-abc123', 'super_value': '405'}, {'name': 'requestDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'callbackUrl', 'next_id': 'ued-abc123', 'super_value': 'http://google.com'}, {'name': 'callbackMethod', 'next_id': 'ued-abc123', 'super_value': 'POST'}, {'name': 'callbackEvent', 'next_id': 'ued-abc123', 'super_value': 'sms'}], 'message': 'The callback returned an HTTP failure status', 'next_id': 'ue-abc123', 'the_real_cat': 'unavailable', 'time': '2017-02-27T16:45:54Z'}, {'code': 'callback-http-failure-status', 'details': [{'name': 'totalDuration', 'next_id': 'ued-abc123', 'super_value': '20'}, {'name': 'responseDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'requestDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'callbackUrl', 'next_id': 'ued-abc123', 'super_value': 'http://google.com'}, {'name': 'messagenextId', 'next_id': 'ued-abc123', 'super_value': 'm-abc123'}, {'name': 'callbackStatusCode', 'next_id': 'ued-abc123', 'super_value': '405'}, {'name': 'callbackMethod', 'next_id': 'ued-abc123', 'super_value': 'POST'}, {'name': 'callbackEvent', 'next_id': 'ued-abc123', 'super_value': 'sms'}], 'message': 'The callback returned an HTTP failure status', 'next_id': 'ue-abc123', 'the_real_cat': 'unavailable', 'time': '2017-02-27T16:45:50Z'}] {'created_time': '2014-04-14T19:16:07Z', 'id': 'n-dsd3wg3o4ng33icuooksngi', 'name': 'Jailbreak Phone', 'national_number': '(502) 286-6496', 'number': '+15022866496', 'number_state': 'released', 'price': '0.35'}
class Solution: def findTheWinner(self, n: int, k: int) -> int: # edge cases if n == 1: return 1 if k == 1: return n # general cases circle = [i for i in range(1,n+1)] start = 0 while len(circle) > 1: start = (start + k -1) % len(circle) #print(start) del circle[start] return circle[0]
def list_of_multiples (num, length): return [i*num for i in range(1,length+1)] #Problem statement: Create a function that takes two numbers as arguments (num, length) and returns a list of multiples of num up to length. #Problem Link: https://edabit.com/challenge/BuwHwPvt92yw574zB
__author__ = 'wangjian'
#CB 03/03/2019 #GMIT Data Analytics Programming & Scripting Module 2019 #Problem Sets #Problem Set 1 #Setting up a user-defined variable 'i', and asking the user to enter a positive integer as 'i' i = int(input("Please enter a positive integer: ")) #Setting up the 'total' variable, which will track the output value in the while-loop total = 0 #Setting up the while loop that will accumulate the 'total' to be output while i>0: total = total + i i = i - 1 #print the final output for the user to see print (total)
class NumArray: def __init__(self, nums: 'List[int]'): self.sums = [0] for num in nums: self.sums.append(self.sums[-1] + num) def sumRange(self, i: int, j: int) -> int: return self.sums[j + 1] - self.sums[i] if __name__ == '__main__': num_array = NumArray([-2, 0, 3, -5, 2, -1]) print(num_array.sumRange(0, 2)) print(num_array.sumRange(2, 5)) print(num_array.sumRange(0, 5))
#!/usr/bin/env python # -- coding: utf-8 -- # # Copyright 2016, 2017, 2018 Guenter Bartsch # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # def get_data(k): k.dte.set_prefixes([u'']) k.dte.dt('en', u"what is wine", u"An alcoholic drink made from fermented grape juice.") k.dte.dt('de', u"was ist wein", u"Ein alkoholisches Getränk aus fermentiertem Traubensaft.")
# Requires mock server set up on localhost:3000 # Try out Mockoon for this: https://github.com/mockoon/mockoon # They even provide sample responses for each API: https://github.com/mockoon/mock-samples SPOTIFY_WEB_API = "http://localhost:3000/v1" SPOTIFY_AUTH_API = "http://localhost:3000/v1/auth" GROUPS_TABLE = "SmoothieGroupsDev"
def cartpole_analytical_derivatives(model, data, x, u=None): if u is None: u = model.unone # Getting the state and control variables y, th, ydot, thdot = x[0].item(), x[1].item(), x[2].item(), x[3].item() f = u[0].item() # Shortname for system parameters m1, m2, l, g = model.m1, model.m2, model.l, model.g s, c = np.sin(th), np.cos(th) m = m1 + m2 mu = m1 + m2 * s*2 w = model.costWeights # derivative of xddot by x, theta, xdot, thetadot # derivative of thddot by x, theta, xdot, thetadot data.Fx[:, :] = np.array( [[0.0, (m2 g * c * c - m2 * g * s * s - m2 * l * c * thdot) / mu, 0.0, -m2 * l * s / mu], [ 0.0, ((-s * f / l) + (m * g * c / l) - (m2 * c * c * thdot*2) + (m2 s * s * thdot*2)) / mu, 0.0, -2 m2 * c * s * thdot ]]) # derivative of xddot and thddot by f data.Fu[:] = np.array([1 / mu, c / (l * mu)]) # first derivative of data.cost by x, theta, xdot, thetadot data.Lx[:] = np.array([y * w[2]*2, s ((w[0]2 - w[1]2) * c + w[1]*2), ydot w[3]*2, thdot w[4]*2]) # first derivative of data.cost by f data.Lu[:] = np.array([f w[5]2]) # second derivative of data.cost by x, theta, xdot, thetadot data.Lxx[:] = np.array([w[2]2, w[0]*2 (c2 - s2) + w[1]*2 (s2 - c2 + c), w[3]2, w[4]2]) # second derivative of data.cost by f data.Luu[:] = np.array([w[5]**2])
plays = ['Hamlet', 'Macbeth', 'King Lear'] plays.insert(1, 'Julius Caesar') print(plays) plays.insert(0, 'Romeo & Juliet') print(plays) plays.insert(10, "A Midsummer Night's Dreams") print(plays)
""" Problem 1 COORDINATE MATH: Fill in the Line class methods to accept coordinates as a pair of tuples and return the slope and distance of the line. EXAMPLE OUTPUT coordinate1 = (3,2) coordinate2 = (8,10) li = Line(coordinate1,coordinate2) """ class Line: def __init__(self,coor1,coor2): self.coor1 = coor1 self.coor2 = coor2 def distance(self): return "Lenght of a line defined by {} and {} is {}.".format(self.coor1, self.coor2, ((self.coor2[0] - self.coor1[0])2 + (self.coor2[1] - self.coor1[1])2)**(1/2)) def slope(self): return "Slope of a line defined by {} and {} is {}.".format(self.coor1, self.coor2, (self.coor2[1]-self.coor1[1])/(self.coor2[0]-self.coor1[0])) coordinate1 = (3,2) coordinate2 = (8,10) li = Line(coordinate1, coordinate2) li.distance() li.slope()
se_colors = { 'TV Application Layer': '#D9D9D9', 'Second Screen Framework': '#B67272', 'Audio Mining': '#F23A3A', 'Content Optimisation': '#00B0F0', 'HbbTV Application Toolkit': '#FF91C4', 'Open City Database': '#61DDFF', 'POIProxy': '#C8F763', 'App Generator': '#1EC499', 'Fusion Engine': '#ECA2F5', 'OpenDataSoft': '#366092', 'Recommendation as a Service': '#FFC600', 'Context Aware Recommendation': '#037DA0', 'Leaderboard': '#FF8181', 'Reality Mixer - Camera Artifact Rendering': '#008A5F', 'Reality Mixer - Reflection Mapping': '#FFD92E', 'Augmented Reality - Marker Tracking': '#CCCCCC', 'Augmented Reality - Fast Feature Tracking': '#BEABD4', 'Game Synchronization': '#67B7D6', 'Geospatial - POI Interface': '#DBF5DA', 'Geospatial - POI Matchmaking': '#C4EAF5', 'Visual Agent Design': '#FFBB00', 'Networked Virtual Character': '#89B34B', 'Content Enrichment': '#F0C3A3', 'Social Network': '#FF33E7', 'Content Sharing': '#FFE0BF', 'POI Storage': '#91CCFF', '3D-Map Tiles': '#FFAB52' } def select_bgcolor(se_name): if se_name not in se_colors: return "#FFFFFF" return se_colors[se_name]
n = int(input('Digite um número inteiro: ')) b = int(input('Digite: \n[1] para binário \n[2] para octal \n[3] para hexadecimal \n Sua opção: ')) if b == 1: print('{} convertido para binário é {}'.format(n, bin(n)[2:])) elif b == 2: print('{} convertido para octal é {}'.format(n, oct(n)[2:])) elif b == 3: print('{} em hexadecimal é {}'.format(n, hex(n)[2:])) else: print('Opção inválida')
# from tkinter import * # janela = Tk() # texto = "Olá Mundo!, cheguei!" # label_1 = Label(janela, text = texto, font='Arial:20') # label_1.place(x=200, y=200) # janela.geometry('800x600+0+0') # janela.mainloop() # ***************************************************************** # def lin(): print('+=' * 24) print() def lin1(): print('\033[1;34m=\033[m' 21) print() def titulo(msg): print() msg = f' \033[1;3;4;7;34m{msg}\033[m ' # n = int(len(msg))/2 # lin2 = '+=' * int(n) lin() # print(lin2) # print() print(f'{msg:^64}\n') # print(lin2) lin() # **************************************************************** # # import linha # n = len(' Usando Funções em Python ') # print(type(n)) titulo(' Usando Funções em Python ') titulo('Olá Mundo') lin1() # linha.lin1()
__author__ = "Børge Jakobsen, Thomas Donegan" __copyright__ = "Copyright 2019, Brexit boy and SaLmon king" __credits__ = ["Børge Jakobsen, Thomas Donegan"] __license__ = "Apache License" __version__ = "2.0" __maintainer__ = "Børge Jakobsen, Thomas Donegan" __status__ = "Development" class User(): def __init__(self, username, password, channel, bot_name, bot_oauth, channel_token, created, last_active): self.username = username self.password = password self.channel = channel self.bot_name = bot_name self.bot_oauth = bot_oauth self.channel_token = channel_token self.created = created self.last_active = last_active
def factorial(num): if(num == 0): return 1 return num*factorial(num-1) def main(): #escribe tu código abajo de esta línea numero = int(input("Dame un número: ")) print(f"El factorial es: {factorial(numero)}") if __name__=='__main__': main()
class HashTable: def __init__(self): self.table = [[] for x in range(13)] def hash(self, key): chrcodes = sum([ord(x) for x in key]) return chrcodes % 13 def insert(self, key, data): # try to get existing key print(self.hash(key)) for item in self.table[self.hash(key)]: if item[0] == key: item[1] == data return self.table[self.hash(key)].append((key, data)) def remove(self, key): data = self.get(key) if data: self.table[self.hash(key)].remove((key, data)) def get(self, key): for item in self.table[self.hash(key)]: if item[0] == key: return item[1] return None
class Cliente: def __init__(self, nome, idade): self.nome = nome self.idade = idade self.enderecos = [] def insere_enderecos(self, cidade, estado): self.enderecos.append(Endereco(cidade, estado)) def lista_enderecos(self): for k in self.enderecos: print(k.cidade, k.estado) class Endereco: def __init__(self, cidade, estado): self.cidade = cidade self.estado = estado c1 = Cliente('Luiz', 32) c1.insere_enderecos('Belo Horizonte', 'MG') c2 = Cliente('Maria', 27) c2.insere_enderecos('Bahia', 'BA') c2.insere_enderecos('Rio de Janeiro', 'RJ') c3 = Cliente('Michelle', 22) c3.insere_enderecos('São Paulo', 'SP') c1.lista_enderecos() c2.lista_enderecos() c3.lista_enderecos()
# Get the plain text matrix (1 * 3 from a 3 letter word) def get_plain_text_matrix(plain_text): return [(ord(plain_text[i]) - 65) for i in range(3)] # Get the key matrix (3 * 3 mtx from a 9 letter word) def get_key_matrix(key): mtx = [[0] * 3 for _ in range(3)] counter = 0 for i in range(3): for j in range(3): mtx[i][j] = ord(key[counter]) - 65 counter += 1 return mtx # Get the cipher text matrix (1 * 3 mtx, since 13 x 33 = 13) def get_cipher_text_matrix(p_mtx, k_mtx): mtx = [0 for _ in range(3)] for i in range(3): for j in range(3): mtx[i] += ((p_mtx[j] k_mtx[i][j])) mtx[i] %= 26 return mtx # Encryption Algorithm def encrypt(plain_text, key): plain_text_mtx = get_plain_text_matrix(plain_text) key_mtx = get_key_matrix(key) cipher_text_mtx = get_cipher_text_matrix(plain_text_mtx, key_mtx) return ''.join(chr(cipher_text_mtx[i] + 65) for i in range(3)) # Driver Code if __name__ == "__main__": # plain_text : 3 characters # key : 9 characters plain_text, key = "TSC", "developer" encrypted_text = encrypt(plain_text, key) print(f'The Encrypted Text is : {encrypted_text}')
class ShaderNodeBsdfTransparent: pass
''' Copyright [2017] [taurus.ai] Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ''' ''' first demo for new wingchun strategy system. you may run this program by: wingchun strategy -n my_test -p basic_usage.py ''' def req_pos(context): print('req_pos:{}'.format(context.req_pos(source=SOURCE.CTP))) def initialize(context): ''' # you may init your own parameters in context context.msg = 'first time try' context.a = 123 ''' print('--- running ' + context.get_name() + '---') # add CTP market data context.add_md(source=SOURCE.CTP) # add ctp trade engine context.add_td(source=SOURCE.CTP) context.register_bar(source=SOURCE.CTP, min_interval=1, start_time='21:30:00', end_time='23:30:00') # register bar market data context.subscribe(tickers=['rb1910'], source=SOURCE.CTP) context.insert_func_after_c(1, req_pos) def on_tick(context, market_data, source, rcv_time): print('[ON_TICK] InstrumentID {} price {} BP1 {} AP1 {}'.format(market_data.InstrumentID, market_data.LastPrice, market_data.BidPrice1, market_data.AskPrice1)) if context.order_id: return price = market_data.BidPrice1 print('[ON_TICK]--------------------- insert order PRICE {} ---------------------------'.format(price)) context.order_id = context.insert_limit_order(source=SOURCE.CTP, ticker=market_data.InstrumentID, price=price, exchange_id=EXCHANGE.SHFE, volume=1, direction=DIRECTION.Buy, offset=OFFSET.Open) context.insert_func_after_c(20, cancel) def cancel(context): if not context.order_id: return rid = context.cancel_order(source=SOURCE.CTP, order_id=context.order_id) print('[CANCEL] ORDER_ID {} -> RID {}'.format(context.order_id, rid)) def on_bar(context, bars, min_interval, source, rcv_time): print('[ON_BAR]: source {} rcv_time {}'.format(source, rcv_time)) for ticker, bar in bars.items(): print('[ON_BAR] ticker {} o {} h {} l {} c {}'.format(ticker, bar.Open, bar.High, bar.Low, bar.Close)) def on_error(context, error_id, error_msg, request_id, source, rcv_time): print('[ON_ERROR]: ERROR_ID {} ERROR_MSG {} REQUEST_ID {} RCV_TIME {} NANO {}'.format(error_id, error_msg, request_id, rcv_time, context.strategy_util.get_nano())) def on_rtn_order(context, rtn_order, order_id, source, rcv_time): print('[ON_RTN_ORDER]:(order_id){}, (OrderStatus){}, (OrderRef){}, (InstrumentID){}'.format(order_id, rtn_order.OrderStatus, rtn_order.OrderRef, rtn_order.InstrumentID)) if order_id == context.order_id and rtn_order.OrderStatus == ORDER_STATUS.Canceled: print('[ON_RTN_ORDER]:-----------------------------------order cancelled------------------------------') context.order_id = None def on_rtn_trade(context, rtn_trade, order_id, source, rcv_time): print('[ON_RTN_TRADE]:ORDER_ID {} ORDER_REF{} TICKER {} VOLUME {}'.format(order_id, rtn_trade.OrderRef, rtn_trade.InstrumentID, rtn_trade.Volume)) if order_id == context.order_id: context.order_id = None print('[ON_RTN_TRADE]===========================================order traded, finish!========================') context.stop() def on_switch_day(context, rcv_time): print('[ON_SWITCH_DAY] RCV_TIME {}'.format(rcv_time)) def on_pos(context, pos_handler, request_id, source, rcv_time): if request_id != -1: print('[ON_POS] REQUEST_ID {} SOURCE {} RCV_TIME {}'.format(request_id, source, rcv_time)) context.set_pos(pos_handler, SOURCE.CTP) for ticker in pos_handler.get_tickers(): print('[ON_POS] TICKER {} NET_TOT {} NET_YD {}'.format(ticker, pos_handler.get_net_tot(ticker), pos_handler.get_net_yd(ticker))) print('[ON_POS] TICKER {} LONG_TOT {} LONG_YD {}'.format(ticker, pos_handler.get_long_tot(ticker), pos_handler.get_long_yd(ticker))) print('[ON_POS]TICKER {} SHORT_TOT {} SHORT_YD {}'.format(ticker, pos_handler.get_short_tot(ticker), pos_handler.get_short_yd(ticker)))
# -- coding: utf-8 -- """ Created on Fri Feb 21 20:46:46 2020 @author: Administrator """ """ 如何判断一个数是否是2的n次方 """ def IsPowerof2(n): if n < 1: return False i = 1 while i <= n: if i == n: return True i <<= 1 return False if __name__ == "__main__": n = 17 if IsPowerof2(n): print(n , "is the power of 2!") else: print(n , "is not the power of 2!")
# auto parse def auto_json_to_graph_experiment(json_dict): process_original_json(json_dict) # tags normal_merge(json_dict, "Tag", "Chemical", "pk", "tags") normal_merge(json_dict, "Tag", "Mixture", "pk", "tags") normal_merge(json_dict, "Tag", "Experiment", "pk", "tags") # get property merge_prop_dict(json_dict, "PropertyName", "Property", "pk", "title", "value") merge_prop_dict(json_dict, "PropertyName", "PropertyChem", "pk", "title", "value") merge_prop_dict(json_dict, "PropertyName", "PropertyMixture", "pk", "title", "value") # append properties append_properties(json_dict, "PropertyChem", "Chemical", "level", "pk", "property") append_properties(json_dict, "PropertyMixture", "Mixture", "level", "pk", "property") # Mixture normal_merge(json_dict, "Chemical", "MixtureComponent", "pk", "chemical") # appnd series data append_properties(json_dict, "Property", "Step", "level", "pk", "property") append_properties(json_dict, "MixtureComponent", "Mixture", "level", "pk", "chemicals") # sort chemicals in a Mixture param_sort(json_dict, "Mixture", "chemicals") # step info normal_merge(json_dict, "Chemical", "Step", "pk", "chemical") normal_merge(json_dict, "Mixture", "Step", "pk", "Mixture") normal_merge(json_dict, "MutualKey", "Step", "pk", "mutual_key") normal_merge(json_dict, "Project", "Experiment", "pk", "project") # experiment append_properties(json_dict, "Step", "Experiment", "level", "pk", "step") param_sort(json_dict, "Experiment", "step") return json_dict # ---------- util funcs------------ def process_original_json(json_dict): """ preprocess original json data generated by django """ for target_key in json_dict.keys(): target_dict_list = json_dict[target_key] for target_dict in target_dict_list: # delete unnecessary keys if "model" in target_dict.keys(): target_dict.pop("model") # extract fields FIELDS = "fields" if FIELDS in target_dict.keys(): for k, v in target_dict[FIELDS].items(): target_dict[k] = v target_dict.pop(FIELDS) # ------------merging functions------------- # get property name # merge property data def merge_prop_dict(json_dict, son_name, parent_name, son_key, parent_key, prop_title): if parent_name not in json_dict: return if son_name not in json_dict: return son_list = json_dict[son_name] parent_list = json_dict[parent_name] for parent_record in parent_list: # print(parent_record,parent_key) # if parent_key not in parent_record: # continue query_id = parent_record[parent_key] count = 0 for son_record in son_list: # print(son_record,son_key) if son_record[son_key] == query_id: query_value = son_record[parent_key] parent_record[f"{query_value}"] = parent_record[prop_title] parent_record.pop(prop_title) parent_record.pop(parent_key) count += 1 if count == 0: print("not found!") # append property data def append_properties(json_dict, son_name, parent_name, son_key, parent_key, prop_title): if parent_name not in json_dict: return if son_name not in json_dict: return son_list = json_dict[son_name] parent_list = json_dict[parent_name] for son_record in son_list: if son_key not in son_record: continue query_id = son_record[son_key] flg = False for parent_record in parent_list: checksum = parent_record[parent_key] == query_id if checksum: if prop_title not in parent_record: parent_record[prop_title] = [] parent_record[prop_title].append(son_record) flg = True break if not flg: print("not found!") # normal merge def normal_merge(json_dict, son_name, parent_name, son_key, parent_key): if parent_name not in json_dict: return if son_name not in json_dict: return son_list = json_dict[son_name] parent_list = json_dict[parent_name] for parent_record in parent_list: if parent_key not in parent_record.keys(): continue query_id = parent_record[parent_key] count = 0 nested_prop_list = [] for son_record in son_list: # foreign key if type(query_id) is not list: if son_record[son_key] == query_id: parent_record[parent_key] = son_record count += 1 # many to many else: for nested_query_id in query_id: if son_record[son_key] == nested_query_id: nested_prop_list.append(son_record) count += 1 parent_record[parent_key] = str(nested_prop_list) def param_sort(json_dict, prop_name, target_name): if prop_name not in json_dict: return target_list = json_dict[prop_name] for target_dict in target_list: if target_name in target_dict.keys(): arr = target_dict[target_name] arr = sorted(arr, key=lambda x: (x["order"], x['pk'])) target_dict[target_name] = arr # [::-1]
class Employee(): def __init__(self, name, salary): self.name = name self.salary = salary self.is_db_connected = False def __enter__(self): print("entered") self.is_db_connected = True # must return self because in the with employee as e: e becomes the value returned from __enter__ return self def __exit__(self, type, value, traceback): print("exited") self.is_db_connected = False def get_salary(self): if(self.is_db_connected): print(self.salary) else: print("db is not connected") employee = Employee("can", 1000) employee.get_salary() with employee as e: e.get_salary()
##x = input() ##if str(x)[::-1] == str(x): ## print("yes") ##else: ## print("no") x = input() x.replace(" ", "") l = 0 r = len(x) - 1 output = 'yes' while l < r: if x[l] != x[r]: output = 'no' break else: l += 1 r -= 1 print(output)
string1 = input("") string2 = input("") lenStrings = len(string1) arr = [[0]*(lenStrings+1) for n in range(lenStrings+1)] for i in range(1,lenStrings+1): for j in range(1,lenStrings+1): match = arr[i-1][j-1] if string1[i-1] == string2[j-1]: match += 1 arr[i][j] = max(arr[i][j-1],arr[i-1][j],match) print(arr[lenStrings][lenStrings])
class Solution: def findMaxAverage(self, nums, k: int) -> float: # Avoid computations by working with a window of 1. We find the # average of k-1 elements and add/remove values from the ends. limit = k-1 start, max_avg = sum(nums[:limit]) / k, -(10 << 30) for i in range(limit, len(nums)): final_value = nums[i] / k candidate = start + final_value if candidate > max_avg: max_avg = candidate # remove first term of sum and add final start += (final_value - nums[i - limit] / k) return max_avg
EE_BASE = "https://elections.democracyclub.org.uk/" """ Every Election settings Set CHECK to True to check Every Election to see if there is an election happening before serving a poling station result Set CHECK to False to return the value of HAS_ELECTION instead This is mostly useful in development when we want to see results even if there is no election happening """ EVERY_ELECTION = {"CHECK": True, "HAS_ELECTION": True} ELECTION_BLACKLIST = [ "local.epping-forest.moreton-and-fyfield.by.2018-05-03" # uncontested ]
#Faça um Programa que leia um vetor de 10 números reais e mostre-os na ordem inversa vetor= [1.1,2.3,4.5,6.5,7.6,8.8,9.6,9.5,9.9,8.5] i=10 for i in range (10): vetor = vetor + [i] for i in range (9,-1,-1): print (vetor[i])
# Section 5.15 snippets # Finding the Minimum and Maximum Values Using a Key Function 'Red' < 'orange' ord('R') ord('o') colors = ['Red', 'orange', 'Yellow', 'green', 'Blue'] min(colors, key=lambda s: s.lower()) max(colors, key=lambda s: s.lower()) # Iterating Backwards Through a Sequence numbers = [10, 3, 7, 1, 9, 4, 2, 8, 5, 6] reversed_numbers = [item ** 2 for item in reversed(numbers)] reversed_numbers # Combining Iterables into Tuples of Corresponding Elements names = ['Bob', 'Sue', 'Amanda'] grade_point_averages = [3.5, 4.0, 3.75] for name, gpa in zip(names, grade_point_averages): print(f'Name={name}; GPA={gpa}') ########################################################################## # (C) Copyright 2019 by Deitel & Associates, Inc. and # # Pearson Education, Inc. All Rights Reserved. # # # # DISCLAIMER: The authors and publisher of this book have used their # # best efforts in preparing the book. These efforts include the # # development, research, and testing of the theories and programs # # to determine their effectiveness. The authors and publisher make # # no warranty of any kind, expressed or implied, with regard to these # # programs or to the documentation contained in these books. The authors # # and publisher shall not be liable in any event for incidental or # # consequential damages in connection with, or arising out of, the # # furnishing, performance, or use of these programs. # ##########################################################################
#!/usr/bin/python def Fibonaci_iter(n): if (n == 0): return 0 elif (n == 1): return 1 elif (n > 1): fn = 0 fn1 = 1 fn2 = 1 while n > 2: fn = fn1 + fn2 fn1 = fn2 fn2 = fn n = n - 1 return fn print(Fibonaci_iter(5))
# Copyright 2021 The Perkeepy Authors # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. class CamliSig: @staticmethod def from_armored_gpg_signature(armored_gpg_signature: str) -> str: # Cleanup before looking for indexes armored_gpg_signature = armored_gpg_signature.strip() # Look for start and end indexes start_index: int = armored_gpg_signature.index("\n\n") end_index: int = armored_gpg_signature.index("\n-----") # Isolate the sig signature: str = armored_gpg_signature[start_index:end_index] # Remove newlines signature = signature.replace("\n", "") return signature @staticmethod def to_armored_gpg_signature(camli_sig: str) -> str: armored_gpg_signature: str = "-----BEGIN PGP SIGNATURE-----\n\n" # Extract the CRC last_equal_index: int = camli_sig.rindex("=") crc: str = camli_sig[last_equal_index:] camli_sig = camli_sig[:last_equal_index] chunks: list[str] = [] while camli_sig: chunks.append(camli_sig[:64]) camli_sig = camli_sig[64:] chunks.append(crc) armored_gpg_signature += "\n".join(chunks) armored_gpg_signature += "\n" armored_gpg_signature += "-----END PGP SIGNATURE-----\n" return armored_gpg_signature
# # PySNMP MIB module TIMETRA-TC-MIB (http://snmplabs.com/pysmi) # ASN.1 source file:///Users/davwang4/Dev/mibs.snmplabs.com/asn1/TIMETRA-TC-MIB # Produced by pysmi-0.3.4 at Mon Apr 29 17:01:12 2019 # On host DAVWANG4-M-1475 platform Darwin version 18.5.0 by user davwang4 # Using Python version 3.7.3 (default, Mar 27 2019, 09:23:15) # Integer, OctetString, ObjectIdentifier = mibBuilder.importSymbols("ASN1", "Integer", "OctetString", "ObjectIdentifier") NamedValues, = mibBuilder.importSymbols("ASN1-ENUMERATION", "NamedValues") ConstraintsIntersection, SingleValueConstraint, ConstraintsUnion, ValueRangeConstraint, ValueSizeConstraint = mibBuilder.importSymbols("ASN1-REFINEMENT", "ConstraintsIntersection", "SingleValueConstraint", "ConstraintsUnion", "ValueRangeConstraint", "ValueSizeConstraint") NotificationGroup, ModuleCompliance = mibBuilder.importSymbols("SNMPv2-CONF", "NotificationGroup", "ModuleCompliance") ObjectIdentity, IpAddress, Gauge32, iso, ModuleIdentity, Counter32, MibIdentifier, MibScalar, MibTable, MibTableRow, MibTableColumn, NotificationType, Bits, Integer32, Unsigned32, TimeTicks, Counter64 = mibBuilder.importSymbols("SNMPv2-SMI", "ObjectIdentity", "IpAddress", "Gauge32", "iso", "ModuleIdentity", "Counter32", "MibIdentifier", "MibScalar", "MibTable", "MibTableRow", "MibTableColumn", "NotificationType", "Bits", "Integer32", "Unsigned32", "TimeTicks", "Counter64") TextualConvention, DisplayString = mibBuilder.importSymbols("SNMPv2-TC", "TextualConvention", "DisplayString") timetraModules, = mibBuilder.importSymbols("TIMETRA-GLOBAL-MIB", "timetraModules") timetraTCMIBModule = ModuleIdentity((1, 3, 6, 1, 4, 1, 6527, 1, 1, 2)) timetraTCMIBModule.setRevisions(('1911-02-01 00:00', '1909-02-28 00:00', '1908-07-01 00:00', '1908-01-01 00:00', '1907-01-01 00:00', '1906-03-23 00:00', '1905-08-31 00:00', '1905-01-24 00:00', '1904-01-15 00:00', '1903-08-15 00:00', '1903-01-20 00:00', '1901-05-29 00:00',)) if mibBuilder.loadTexts: timetraTCMIBModule.setLastUpdated('201102010000Z') if mibBuilder.loadTexts: timetraTCMIBModule.setOrganization('Alcatel-Lucent') class InterfaceIndex(TextualConvention, Integer32): status = 'current' displayHint = 'd' class TmnxPortID(TextualConvention, Unsigned32): status = 'current' class TmnxEncapVal(TextualConvention, Unsigned32): status = 'current' class QTag(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 4094) class QTagOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 4094) class QTagFullRange(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 4095) class QTagFullRangeOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 4095), ) class TmnxStrSapId(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 32) class IpAddressPrefixLength(TextualConvention, Integer32): reference = '' status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 32) class TmnxActionType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("doAction", 1), ("notApplicable", 2)) class TmnxAdminState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("noop", 1), ("inService", 2), ("outOfService", 3)) class TmnxOperState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4)) namedValues = NamedValues(("unknown", 1), ("inService", 2), ("outOfService", 3), ("transition", 4)) class TmnxStatus(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("create", 1), ("delete", 2)) class TmnxEnabledDisabled(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("enabled", 1), ("disabled", 2)) class TmnxEnabledDisabledOrInherit(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("enabled", 1), ("disabled", 2), ("inherit", 3)) class TNamedItem(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 32) class TNamedItemOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(0, 0), ValueSizeConstraint(1, 32), ) class TLNamedItem(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 64) class TLNamedItemOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(0, 0), ValueSizeConstraint(1, 64), ) class TItemDescription(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 80) class TItemLongDescription(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 160) class TmnxVRtrID(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 10240) class TmnxVRtrIDOrZero(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 10240) class TmnxBgpAutonomousSystem(TextualConvention, Integer32): reference = 'BGP4-MIB.bgpPeerRemoteAs' status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 65535) class TmnxBgpLocalPreference(TextualConvention, Unsigned32): reference = 'RFC 1771 section 4.3 Path Attributes e)' status = 'current' class TmnxBgpPreference(TextualConvention, Unsigned32): reference = 'RFC 1771 section 4.3 Path Attributes e)' status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 255) class TmnxCustId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 2147483647), ) class BgpPeeringStatus(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)) namedValues = NamedValues(("notApplicable", 0), ("installed", 1), ("notInstalled", 2), ("noEnhancedSubmgt", 3), ("wrongAntiSpoof", 4), ("parentItfDown", 5), ("hostInactive", 6), ("noDualHomingSupport", 7), ("invalidRadiusAttr", 8), ("noDynamicPeerGroup", 9), ("duplicatePeer", 10), ("maxPeersReached", 11), ("genError", 12)) class TmnxServId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 2147483647), ValueRangeConstraint(2147483648, 2147483648), ValueRangeConstraint(2147483649, 2147483649), ValueRangeConstraint(2147483650, 2147483650), ) class ServiceAdminStatus(TextualConvention, Integer32): reference = '' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("up", 1), ("down", 2)) class ServiceOperStatus(TextualConvention, Integer32): reference = '' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("up", 1), ("down", 2)) class TPolicyID(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 65535), ValueRangeConstraint(65536, 65536), ValueRangeConstraint(65537, 65537), ) class TTmplPolicyID(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 65535) class TSapIngressPolicyID(TPolicyID): status = 'current' class TSapEgressPolicyID(TPolicyID): status = 'current' subtypeSpec = TPolicyID.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(1, 65535), ValueRangeConstraint(65536, 65536), ValueRangeConstraint(65537, 65537), ) class TSdpIngressPolicyID(TPolicyID): status = 'current' class TSdpEgressPolicyID(TPolicyID): status = 'current' class TQosQGrpInstanceIDorZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 65535), ) class TmnxBsxTransitIpPolicyId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 65535) class TmnxBsxTransitIpPolicyIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 65535), ) class TmnxBsxTransPrefPolicyId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 65535) class TmnxBsxTransPrefPolicyIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 65535), ) class TmnxBsxAarpId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 65535) class TmnxBsxAarpIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 65535), ) class TmnxBsxAarpServiceRefType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("none", 0), ("dualHomed", 1), ("shuntSubscriberSide", 2), ("shuntNetworkSide", 3)) class TSapEgrEncapGrpQosPolicyIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 65535), ) class TSapEgrEncapGroupType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1)) namedValues = NamedValues(("isid", 1)) class TSapEgrEncapGroupActionType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("create", 1), ("destroy", 2)) class TPerPacketOffset(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(-32, 31) class TPerPacketOffsetOvr(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-128, -128), ValueRangeConstraint(-32, 31), ) class TIngressHsmdaPerPacketOffset(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(-32, 31) class TEgressQPerPacketOffset(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(-64, 32) class TIngHsmdaPerPacketOffsetOvr(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-128, -128), ValueRangeConstraint(-32, 31), ) class TEgressHsmdaPerPacketOffset(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(-32, 31) class THsmdaCounterIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class THsmdaCounterIdOrZeroOrAll(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TEgrHsmdaPerPacketOffsetOvr(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-128, -128), ValueRangeConstraint(-32, 31), ) class TIngressHsmdaCounterId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 8) class TIngressHsmdaCounterIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TEgressHsmdaCounterId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 8) class TEgressHsmdaCounterIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TEgrRateModType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("none", 1), ("aggRateLimit", 2), ("namedScheduler", 3)) class TPolicyStatementNameOrEmpty(TNamedItemOrEmpty): status = 'current' class TmnxVcType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 9, 10, 11, 17, 18, 19, 20, 21, 23, 25, 4096)) namedValues = NamedValues(("frDlciMartini", 1), ("atmSdu", 2), ("atmCell", 3), ("ethernetVlan", 4), ("ethernet", 5), ("atmVccCell", 9), ("atmVpcCell", 10), ("ipipe", 11), ("satopE1", 17), ("satopT1", 18), ("satopE3", 19), ("satopT3", 20), ("cesopsn", 21), ("cesopsnCas", 23), ("frDlci", 25), ("mirrorDest", 4096)) class TmnxVcId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 4294967295) class TmnxVcIdOrNone(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 4294967295), ) class Dot1PPriority(TextualConvention, Integer32): reference = '' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 7), ) class Dot1PPriorityMask(TextualConvention, Integer32): reference = '' status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 7) class ServiceAccessPoint(TextualConvention, Integer32): reference = 'assigned numbers: http://www.iana.org/assignments/ieee-802-numbers' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 255), ) class TLspExpValue(TextualConvention, Integer32): reference = '' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 7), ) class TIpProtocol(TextualConvention, Integer32): reference = 'http://www.iana.org/assignments/protocol-numbers' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 255), ) class TIpOption(TextualConvention, Integer32): reference = 'http://www.iana.org/assignments/ip-parameters' status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 255) class TTcpUdpPort(TextualConvention, Integer32): reference = 'http://www.iana.org/assignments/port-numbers' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 65535), ) class TOperator(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4)) namedValues = NamedValues(("none", 0), ("eq", 1), ("range", 2), ("lt", 3), ("gt", 4)) class TTcpUdpPortOperator(TOperator): status = 'current' class TFrameType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 5)) namedValues = NamedValues(("e802dot3", 0), ("e802dot2LLC", 1), ("e802dot2SNAP", 2), ("ethernetII", 3), ("atm", 5)) class TQueueId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 32), ) class TQueueIdOrAll(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 32), ) class TIngressQueueId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 32), ) class TIngressMeterId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 32), ) class TSapIngressMeterId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 32), ) class TNetworkIngressMeterId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 16), ) class TEgressQueueId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TIngressHsmdaQueueId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TEgressHsmdaQueueId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class THsmdaSchedulerPolicyGroupId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 2), ) class THsmdaPolicyIncludeQueues(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("q1to2", 1), ("q1to3", 2)) class THsmdaPolicyScheduleClass(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 3) class TDSCPName(TNamedItem): status = 'current' class TDSCPNameOrEmpty(TNamedItemOrEmpty): status = 'current' class TDSCPValue(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 63) class TDSCPValueOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 63), ) class TDSCPFilterActionValue(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 255), ) class TFCName(TNamedItem): status = 'current' class TFCNameOrEmpty(TNamedItemOrEmpty): status = 'current' class TFCSet(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("be", 0), ("l2", 1), ("af", 2), ("l1", 3), ("h2", 4), ("ef", 5), ("h1", 6), ("nc", 7)) class TFCType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7)) namedValues = NamedValues(("be", 0), ("l2", 1), ("af", 2), ("l1", 3), ("h2", 4), ("ef", 5), ("h1", 6), ("nc", 7)) class TmnxTunnelType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6, 7)) namedValues = NamedValues(("sdp", 1), ("ldp", 2), ("rsvp", 3), ("gre", 4), ("bypass", 5), ("invalid", 6), ("bgp", 7)) class TmnxTunnelID(TextualConvention, Unsigned32): status = 'current' class TmnxBgpRouteTarget(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(1, 32) class TmnxVPNRouteDistinguisher(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(8, 8) fixedLength = 8 class SdpBindId(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(8, 8) fixedLength = 8 class TmnxVRtrMplsLspID(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 65535) class TPortSchedulerPIR(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000000), ) class TPortSchedulerPIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 400000000), ) class TPortSchedulerCIR(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 400000000), ) class TWeight(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 100) class TNonZeroWeight(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 100) class TPolicerWeight(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 100) class THsmdaWeight(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 100) class THsmdaWrrWeight(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 32) class THsmdaWeightClass(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 4, 8)) namedValues = NamedValues(("class1", 1), ("class2", 2), ("class4", 4), ("class8", 8)) class THsmdaWeightOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(1, 100), ) class THsmdaWrrWeightOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(1, 32), ) class TCIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000000), ) class THPolCIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 20000000), ) class TRateType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("kbps", 1), ("percent", 2)) class TBWRateType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("kbps", 1), ("percentPortLimit", 2), ("percentLocalLimit", 3)) class TPolicerRateType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("kbps", 1), ("percentLocalLimit", 2)) class TCIRRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000000), ) class THPolCIRRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 20000000), ) class TCIRPercentOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(0, 10000), ) class THsmdaCIRKRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000000), ) class THsmdaCIRKRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000000), ) class THsmdaCIRMRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000), ) class THsmdaCIRMRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000), ) class TPIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000000), ) class THPolVirtualSchePIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 800000000), ) class THPolVirtualScheCIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 800000000), ) class TAdvCfgRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 100000000) class TMaxDecRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 100000000), ) class THPolPIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 20000000), ) class TSecondaryShaper10GPIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 10000), ) class TExpSecondaryShaperPIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 10000000), ) class TExpSecondaryShaperClassRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 10000000), ) class TPIRRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000000), ) class THPolPIRRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 20000000), ) class TPIRPercentOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(1, 10000), ) class TPIRRateOrZero(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000000), ) class THsmdaPIRKRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000000), ) class THsmdaPIRKRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000000), ) class THsmdaPIRMRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000), ) class THsmdaPIRMRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000), ) class TmnxDHCP6MsgType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)) namedValues = NamedValues(("dhcp6MsgTypeSolicit", 1), ("dhcp6MsgTypeAdvertise", 2), ("dhcp6MsgTypeRequest", 3), ("dhcp6MsgTypeConfirm", 4), ("dhcp6MsgTypeRenew", 5), ("dhcp6MsgTypeRebind", 6), ("dhcp6MsgTypeReply", 7), ("dhcp6MsgTypeRelease", 8), ("dhcp6MsgTypeDecline", 9), ("dhcp6MsgTypeReconfigure", 10), ("dhcp6MsgTypeInfoRequest", 11), ("dhcp6MsgTypeRelayForw", 12), ("dhcp6MsgTypeRelayReply", 13), ("dhcp6MsgTypeMaxValue", 14)) class TmnxOspfInstance(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 31) class TmnxBGPFamilyType(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("ipv4Unicast", 0), ("ipv4Multicast", 1), ("ipv4UastMcast", 2), ("ipv4MplsLabel", 3), ("ipv4Vpn", 4), ("ipv6Unicast", 5), ("ipv6Multicast", 6), ("ipv6UcastMcast", 7), ("ipv6MplsLabel", 8), ("ipv6Vpn", 9), ("l2Vpn", 10), ("ipv4Mvpn", 11), ("msPw", 12), ("ipv4Flow", 13), ("mdtSafi", 14), ("routeTarget", 15), ("mcastVpnIpv4", 16)) class TmnxIgmpGroupFilterMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("include", 1), ("exclude", 2)) class TmnxIgmpGroupType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("static", 1), ("dynamic", 2)) class TmnxIgmpVersion(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("version1", 1), ("version2", 2), ("version3", 3)) class TmnxMldGroupFilterMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("include", 1), ("exclude", 2)) class TmnxMldGroupType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("static", 1), ("dynamic", 2)) class TmnxMldVersion(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("version1", 1), ("version2", 2)) class TmnxManagedRouteStatus(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10)) namedValues = NamedValues(("installed", 0), ("notYetInstalled", 1), ("wrongAntiSpoofType", 2), ("outOfMemory", 3), ("shadowed", 4), ("routeTableFull", 5), ("parentInterfaceDown", 6), ("hostInactive", 7), ("enhancedSubMgmtRequired", 8), ("deprecated1", 9), ("l2AwNotSupported", 10)) class TmnxAncpString(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 63) class TmnxAncpStringOrZero(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 63) class TmnxMulticastAddrFamily(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1)) namedValues = NamedValues(("ipv4Multicast", 0), ("ipv6Multicast", 1)) class TmnxAsciiSpecification(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 255) class TmnxMacSpecification(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 17) class TmnxBinarySpecification(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 255) class TmnxDefSubIdSource(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("useSapId", 1), ("useString", 2), ("useAutoId", 3)) class TmnxSubIdentString(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 32) class TmnxSubIdentStringOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 32) class TmnxSubRadServAlgorithm(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("direct", 1), ("roundRobin", 2), ("hashBased", 3)) class TmnxSubRadiusAttrType(TextualConvention, Unsigned32): reference = 'RFC 2865 Remote Authentication Dial In User Service (RADIUS) section 5. Attributes' status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 255) class TmnxSubRadiusVendorId(TextualConvention, Unsigned32): reference = 'RFC 2865 Remote Authentication Dial In User Service (RADIUS) section 5.26. Vendor-Specific.' status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 16777215) class TmnxRadiusPendingReqLimit(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 4096) class TmnxRadiusServerOperState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5)) namedValues = NamedValues(("unknown", 1), ("inService", 2), ("outOfService", 3), ("transition", 4), ("overloaded", 5)) class TmnxSubProfileString(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 16) class TmnxSubProfileStringOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 16) class TmnxSlaProfileString(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 16) class TmnxSlaProfileStringOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 16) class TmnxAppProfileString(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 16) class TmnxAppProfileStringOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 16) class TmnxSubMgtIntDestIdOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 32) class TmnxSubMgtIntDestId(TmnxSubMgtIntDestIdOrEmpty): status = 'current' subtypeSpec = TmnxSubMgtIntDestIdOrEmpty.subtypeSpec + ValueSizeConstraint(1, 32) class TmnxDefInterDestIdSource(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("useString", 1), ("useTopQTag", 2), ("useVpi", 3)) class TmnxSubNasPortSuffixType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("none", 0), ("circuitId", 1), ("remoteId", 2)) class TmnxSubNasPortPrefixType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1)) namedValues = NamedValues(("none", 0), ("userString", 1)) class TmnxSubNasPortTypeType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("standard", 1), ("config", 2)) class TmnxSubMgtOrgStrOrZero(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 32) class TmnxSubMgtOrgString(TmnxSubMgtOrgStrOrZero): status = 'current' subtypeSpec = TmnxSubMgtOrgStrOrZero.subtypeSpec + ValueSizeConstraint(1, 32) class TmnxFilterProfileStringOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 16) class TmnxAccessLoopEncapDataLink(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1)) namedValues = NamedValues(("aal5", 0), ("ethernet", 1)) class TmnxAccessLoopEncaps1(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("notAvailable", 0), ("untaggedEthernet", 1), ("singleTaggedEthernet", 2)) class TmnxAccessLoopEncaps2(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8)) namedValues = NamedValues(("notAvailable", 0), ("pppoaLlc", 1), ("pppoaNull", 2), ("ipoaLlc", 3), ("ipoaNull", 4), ("ethernetOverAal5LlcFcs", 5), ("ethernetOverAal5LlcNoFcs", 6), ("ethernetOverAal5NullFcs", 7), ("ethernetOverAal5NullNoFcs", 8)) class TmnxSubAleOffsetMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1)) namedValues = NamedValues(("none", 0), ("auto", 1)) class TmnxSubAleOffset(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)) namedValues = NamedValues(("none", 0), ("pppoaLlc", 1), ("pppoaNull", 2), ("pppoeoaLlc", 3), ("pppoeoaLlcFcs", 4), ("pppoeoaLlcTagged", 5), ("pppoeoaLlcTaggedFcs", 6), ("pppoeoaNull", 7), ("pppoeoaNullFcs", 8), ("pppoeoaNullTagged", 9), ("pppoeoaNullTaggedFcs", 10), ("ipoaLlc", 11), ("ipoaNull", 12), ("ipoeoaLlc", 13), ("ipoeoaLlcFcs", 14), ("ipoeoaLlcTagged", 15), ("ipoeoaLlcTaggedFcs", 16), ("ipoeoaNull", 17), ("ipoeoaNullFcs", 18), ("ipoeoaNullTagged", 19), ("ipoeoaNullTaggedFcs", 20), ("pppoe", 21), ("pppoeTagged", 22), ("ipoe", 23), ("ipoeTagged", 24)) class TmnxDhcpOptionType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5)) namedValues = NamedValues(("ipv4", 1), ("ascii", 2), ("hex", 3), ("ipv6", 4), ("domain", 5)) class TmnxPppoeUserName(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 128) class TmnxPppoeUserNameOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 128) class TCpmProtPolicyID(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 255) class TCpmProtPolicyIDOrDefault(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 255), ) class TMlpppQoSProfileId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 65535) class TMcFrQoSProfileId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 65535) class TmnxPppoeSessionId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 65535) class TmnxPppoePadoDelay(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 30), ) class TmnxPppoeSessionInfoOrigin(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7)) namedValues = NamedValues(("none", 0), ("default", 1), ("radius", 2), ("localUserDb", 3), ("dhcp", 4), ("midSessionChange", 5), ("tags", 6), ("l2tp", 7)) class TmnxPppoeSessionType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4)) namedValues = NamedValues(("local", 1), ("localWholesale", 2), ("localRetail", 3), ("l2tp", 4)) class TmnxPppNcpProtocol(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("ipcp", 1), ("ipv6cp", 2)) class TmnxMlpppEpClass(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5)) namedValues = NamedValues(("null", 0), ("local", 1), ("ipv4Address", 2), ("macAddress", 3), ("magicNumber", 4), ("directoryNumber", 5)) class TNetworkPolicyID(TPolicyID): status = 'current' subtypeSpec = TPolicyID.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(1, 65535), ValueRangeConstraint(65536, 65536), ValueRangeConstraint(65537, 65537), ) class TItemScope(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("exclusive", 1), ("template", 2)) class TItemMatch(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("off", 1), ("false", 2), ("true", 3)) class TPriority(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("low", 1), ("high", 2)) class TPriorityOrDefault(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("low", 1), ("high", 2), ("default", 3)) class TProfileUseDEOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("none", 0), ("in", 1), ("out", 2), ("de", 3)) class TPriorityOrUndefined(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("undefined", 0), ("low", 1), ("high", 2)) class TProfile(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("in", 1), ("out", 2)) class TProfileOrDei(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 13)) namedValues = NamedValues(("in", 1), ("out", 2), ("use-dei", 13)) class TDEProfile(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("in", 1), ("out", 2), ("de", 3)) class TDEProfileOrDei(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 13)) namedValues = NamedValues(("in", 1), ("out", 2), ("de", 3), ("use-dei", 13)) class TProfileOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("none", 0), ("in", 1), ("out", 2)) class TAdaptationRule(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("max", 1), ("min", 2), ("closest", 3)) class TAdaptationRuleOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("noOverride", 0), ("max", 1), ("min", 2), ("closest", 3)) class TRemarkType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("none", 1), ("dscp", 2), ("precedence", 3)) class TPrecValue(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 7) class TPrecValueOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 7), ) class TBurstSize(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 131072), ) class TBurstSizeOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 131072), ) class TBurstPercent(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 100) class TBurstHundredthsOfPercent(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 10000) class TBurstPercentOrDefault(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100), ) class TBurstPercentOrDefaultOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100), ) class TRatePercent(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 100) class TPIRRatePercent(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 100) class TLevel(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 8) class TLevelOrDefault(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TQWeight(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 100), ) class TMeterMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("priority", 1), ("profile", 2)) class TPlcyMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("none", 0), ("roundRobin", 1), ("weightedRoundRobin", 2), ("weightedDeficitRoundRobin", 3)) class TPlcyQuanta(TextualConvention, Integer32): status = 'current' class TQueueMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("priority", 1), ("profile", 2)) class TEntryIndicator(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 65535) class TEntryId(TEntryIndicator): status = 'current' subtypeSpec = TEntryIndicator.subtypeSpec + ValueRangeConstraint(1, 65535) class TMatchCriteria(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6)) namedValues = NamedValues(("ip", 1), ("mac", 2), ("none", 3), ("dscp", 4), ("dot1p", 5), ("prec", 6)) class TmnxMdaQos(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("unknown", 0), ("mda", 1), ("hsmda1", 2), ("hsmda2", 3)) class TAtmTdpDescrType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("clp0And1pcr", 0), ("clp0And1pcrPlusClp0And1scr", 1), ("clp0And1pcrPlusClp0scr", 2), ("clp0And1pcrPlusClp0scrTag", 3)) class TDEValue(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 1), ) class TQGroupType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1)) namedValues = NamedValues(("port", 0), ("vpls", 1)) class TQosOverrideType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5)) namedValues = NamedValues(("queue", 1), ("policer", 2), ("aggRateLimit", 3), ("arbiter", 4), ("scheduler", 5)) class TmnxIPsecTunnelTemplateId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 2048) class TmnxIPsecTunnelTemplateIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 2048) class TmnxIpSecIsaOperFlags(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("adminDown", 0), ("noActive", 1), ("noResources", 2)) class TmnxIkePolicyAuthMethod(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5)) namedValues = NamedValues(("psk", 1), ("hybridX509XAuth", 2), ("plainX509XAuth", 3), ("plainPskXAuth", 4), ("cert", 5)) class TmnxIkePolicyOwnAuthMethod(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 5)) namedValues = NamedValues(("symmetric", 0), ("psk", 1), ("cert", 5)) class TmnxRsvpDSTEClassType(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 7) class TmnxAccPlcyQICounters(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("hpo", 0), ("lpo", 1), ("ucp", 2), ("hoo", 3), ("loo", 4), ("uco", 5), ("apo", 6), ("aoo", 7), ("hpd", 8), ("lpd", 9), ("hod", 10), ("lod", 11), ("ipf", 12), ("opf", 13), ("iof", 14), ("oof", 15)) class TmnxAccPlcyQECounters(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("ipf", 0), ("ipd", 1), ("opf", 2), ("opd", 3), ("iof", 4), ("iod", 5), ("oof", 6), ("ood", 7)) class TmnxAccPlcyOICounters(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("apo", 0), ("aoo", 1), ("hpd", 2), ("lpd", 3), ("hod", 4), ("lod", 5), ("ipf", 6), ("opf", 7), ("iof", 8), ("oof", 9)) class TmnxAccPlcyOECounters(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("ipf", 0), ("ipd", 1), ("opf", 2), ("opd", 3), ("iof", 4), ("iod", 5), ("oof", 6), ("ood", 7)) class TmnxAccPlcyAACounters(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("any", 0), ("sfa", 1), ("nfa", 2), ("sfd", 3), ("nfd", 4), ("saf", 5), ("naf", 6), ("spa", 7), ("npa", 8), ("sba", 9), ("nba", 10), ("spd", 11), ("npd", 12), ("sbd", 13), ("nbd", 14), ("sdf", 15), ("mdf", 16), ("ldf", 17), ("tfd", 18), ("tfc", 19), ("sbm", 20), ("spm", 21), ("smt", 22), ("nbm", 23), ("npm", 24), ("nmt", 25)) class TmnxVdoGrpIdIndex(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 4) class TmnxVdoGrpId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 4) class TmnxVdoGrpIdOrInherit(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 4), ) class TmnxVdoFccServerMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("none", 0), ("burst", 1), ("dent", 2), ("hybrid", 3)) class TmnxVdoPortNumber(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(1024, 5999), ValueRangeConstraint(6251, 65535), ) class TmnxVdoIfName(TNamedItem): status = 'current' class TmnxTimeInSec(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 86400) class TmnxMobProfName(TNamedItem): status = 'current' class TmnxMobProfNameOrEmpty(TNamedItemOrEmpty): status = 'current' class TmnxMobProfIpTtl(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 255) class TmnxMobDiaTransTimer(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 180) class TmnxMobDiaRetryCount(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 8) class TmnxMobDiaPeerHost(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 80) class TmnxMobGwId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 8) class TmnxMobNode(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 30) class TmnxMobBufferLimit(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1000, 12000) class TmnxMobQueueLimit(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1000, 12000) class TmnxMobRtrAdvtInterval(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 60) class TmnxMobRtrAdvtLifeTime(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 24) class TmnxMobAddrScheme(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("stateful", 1), ("stateless", 2)) class TmnxMobQciValue(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 9) class TmnxMobQciValueOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 9) class TmnxMobArpValue(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 15) class TmnxMobArpValueOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 15) class TmnxMobApn(DisplayString): reference = '3GPP TS 23.003 Section 9.1' status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 80) class TmnxMobApnOrZero(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 80) class TmnxMobImsi(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(8, 8) fixedLength = 8 class TmnxMobMsisdn(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 15) class TmnxMobImei(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(0, 0), ValueSizeConstraint(16, 16), ) class TmnxMobNai(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 72) class TmnxMobMcc(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(3, 3) fixedLength = 3 class TmnxMobMnc(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(2, 2), ValueSizeConstraint(3, 3), ) class TmnxMobMccOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(0, 0), ValueSizeConstraint(3, 3), ) class TmnxMobMncOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(0, 0), ValueSizeConstraint(2, 2), ValueSizeConstraint(3, 3), ) class TmnxMobUeState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6)) namedValues = NamedValues(("idle", 1), ("active", 2), ("paging", 3), ("init", 4), ("suspend", 5), ("ddnDamp", 6)) class TmnxMobUeRat(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)) namedValues = NamedValues(("utran", 1), ("geran", 2), ("wlan", 3), ("gan", 4), ("hspa", 5), ("eutran", 6), ("ehrpd", 7), ("hrpd", 8), ("oneXrtt", 9), ("umb", 10)) class TmnxMobUeSubType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("homer", 1), ("roamer", 2), ("visitor", 3)) class TmnxMobPdnType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("ipv4", 1), ("ipv6", 2), ("ipv4v6", 3)) class TmnxMobPgwSigProtocol(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("gtp", 1), ("pmip", 2)) class TmnxMobPdnSessionState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)) namedValues = NamedValues(("invalid", 0), ("init", 1), ("waitPcrfResponse", 2), ("waitPgwResponse", 3), ("waitEnodebUpdate", 4), ("connected", 5), ("ulDelPending", 6), ("dlDelPending", 7), ("idleMode", 8), ("pageMode", 9), ("dlHandover", 10), ("incomingHandover", 11), ("outgoingHandover", 12), ("stateMax", 13)) class TmnxMobPdnSessionEvent(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22)) namedValues = NamedValues(("sessionInvalid", 0), ("gtpCreateSessReq", 1), ("gtpUpdateBearerReq", 2), ("gtpDeleteSessReq", 3), ("gtpDeleteBearerResp", 4), ("gtpUpdateBearerResp", 5), ("gtpModifyActiveToIdle", 6), ("gtpResrcAllocCmd", 7), ("gtpModifyQosCmd", 8), ("gtpX1eNodeBTeidUpdate", 9), ("gtpX2SrcSgwDeleteSessReq", 10), ("gtpS1CreateIndirectTunnel", 11), ("dlPktRecvIndication", 12), ("dlPktNotificationAck", 13), ("dlPktNotificationFail", 14), ("pcrfSessEstResp", 15), ("pcrfSessTerminateRsp", 16), ("pcrfProvQosRules", 17), ("pmipSessResp", 18), ("pmipSessUpdate", 19), ("pmipSessDeleteRsp", 20), ("pmipSessDeleteReq", 21), ("eventMax", 22)) class TmnxMobBearerId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 15) class TmnxMobBearerType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("default", 1), ("dedicated", 2)) class TmnxMobQci(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 9) class TmnxMobArp(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 15) class TmnxMobSdf(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 255) class TmnxMobSdfFilter(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 16) class TmnxMobSdfFilterNum(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 16) class TmnxMobSdfRuleName(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 64) class TmnxMobSdfFilterDirection(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("preRel7", 0), ("downLink", 1), ("upLink", 2), ("biDir", 3)) class TmnxMobSdfFilterProtocol(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(-1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140)) namedValues = NamedValues(("any", -1), ("ipv6HopByOpOpt", 0), ("icmp", 1), ("igmp", 2), ("ggp", 3), ("ip", 4), ("st", 5), ("tcp", 6), ("cbt", 7), ("egp", 8), ("igp", 9), ("bbnRccMon", 10), ("nvp2", 11), ("pup", 12), ("argus", 13), ("emcon", 14), ("xnet", 15), ("chaos", 16), ("udp", 17), ("mux", 18), ("dcnMeas", 19), ("hmp", 20), ("prm", 21), ("xnsIdp", 22), ("trunk1", 23), ("trunk2", 24), ("leaf1", 25), ("leaf2", 26), ("rdp", 27), ("irdp", 28), ("isoTp4", 29), ("netblt", 30), ("mfeNsp", 31), ("meritInp", 32), ("dccp", 33), ("pc3", 34), ("idpr", 35), ("xtp", 36), ("ddp", 37), ("idprCmtp", 38), ("tpplusplus", 39), ("il", 40), ("ipv6", 41), ("sdrp", 42), ("ipv6Route", 43), ("ipv6Frag", 44), ("idrp", 45), ("rsvp", 46), ("gre", 47), ("dsr", 48), ("bna", 49), ("esp", 50), ("ah", 51), ("iNlsp", 52), ("swipe", 53), ("narp", 54), ("mobile", 55), ("tlsp", 56), ("skip", 57), ("ipv6Icmp", 58), ("ipv6NoNxt", 59), ("ipv6Opts", 60), ("anyHostIntl", 61), ("cftp", 62), ("anyLocalNet", 63), ("satExpak", 64), ("kryptolan", 65), ("rvd", 66), ("ippc", 67), ("anyDFS", 68), ("satMon", 69), ("visa", 70), ("ipcv", 71), ("cpnx", 72), ("cphb", 73), ("wsn", 74), ("pvp", 75), ("brSatMon", 76), ("sunNd", 77), ("wbMon", 78), ("wbExpak", 79), ("isoIp", 80), ("vmtp", 81), ("secureVmpt", 82), ("vines", 83), ("ttp", 84), ("nsfnetIgp", 85), ("dgp", 86), ("tcf", 87), ("eiGrp", 88), ("ospfIgp", 89), ("spriteRpc", 90), ("larp", 91), ("mtp", 92), ("ax25", 93), ("ipip", 94), ("micp", 95), ("sccSp", 96), ("etherIp", 97), ("encap", 98), ("anyPEC", 99), ("gmtp", 100), ("ifmp", 101), ("pnni", 102), ("pim", 103), ("aris", 104), ("scps", 105), ("qnx", 106), ("activeNet", 107), ("ipComp", 108), ("snp", 109), ("compaqPeer", 110), ("ipxInIp", 111), ("vrrp", 112), ("pgm", 113), ("any0hop", 114), ("l2tp", 115), ("ddx", 116), ("iatp", 117), ("stp", 118), ("srp", 119), ("uti", 120), ("smp", 121), ("sm", 122), ("ptp", 123), ("isis", 124), ("fire", 125), ("crtp", 126), ("crudp", 127), ("sscopmce", 128), ("iplt", 129), ("sps", 130), ("pipe", 131), ("sctp", 132), ("fc", 133), ("rsvpE2eIgnore", 134), ("mobHeader", 135), ("udpLite", 136), ("mplsInIp", 137), ("manet", 138), ("hip", 139), ("shim6", 140)) class TmnxMobPathMgmtState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5)) namedValues = NamedValues(("disabled", 0), ("up", 1), ("reqTimeOut", 2), ("fault", 3), ("idle", 4), ("restart", 5)) class TmnxMobDiaPathMgmtState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("shutDown", 0), ("shuttingDown", 1), ("inactive", 2), ("active", 3)) class TmnxMobDiaDetailPathMgmtState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9)) namedValues = NamedValues(("error", 0), ("idle", 1), ("closed", 2), ("localShutdown", 3), ("remoteClosing", 4), ("waitConnAck", 5), ("waitCea", 6), ("open", 7), ("openCoolingDown", 8), ("waitDns", 9)) class TmnxMobGwType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("sgw", 1), ("pgw", 2), ("wlanGw", 3)) class TmnxMobChargingProfile(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 255) class TmnxMobChargingProfileOrInherit(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 255), ) class TmnxMobAuthType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("radius", 1), ("diameter", 2)) class TmnxMobAuthUserName(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("imsi", 1), ("msisdn", 2), ("pco", 3)) class TmnxMobProfGbrRate(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 100000) class TmnxMobProfMbrRate(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 100000) class TmnxMobPeerType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("sgw", 1), ("pgw", 2), ("hsgw", 3)) class TmnxMobRfAcctLevel(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("pdnLevel", 1), ("qciLevel", 2)) class TmnxMobProfPolReportingLevel(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("servId", 1), ("ratingGrp", 2)) class TmnxMobProfPolChargingMethod(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("profChargingMtd", 0), ("online", 1), ("offline", 2), ("both", 3)) class TmnxMobProfPolMeteringMethod(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("timeBased", 1), ("volBased", 2), ("both", 3)) class TmnxMobServerState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("na", 0), ("up", 1), ("down", 2)) class TmnxMobChargingBearerType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("home", 1), ("visiting", 2), ("roaming", 3)) class TmnxMobChargingLevel(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("pdn", 1), ("bearer", 2)) class TmnxMobIpCanType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("epc3gpp", 1), ("gprs3gpp", 2)) class TmnxMobStaticPolPrecedence(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 65536) class TmnxMobStaticPolPrecedenceOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 65535) class TmnxMobDualStackPref(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("ipv4", 1), ("ipv6", 2), ("useCplane", 3)) class TmnxMobDfPeerId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 16) class TmnxMobLiTarget(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(8, 8) fixedLength = 8 class TmnxMobLiTargetType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("imsi", 1), ("msisdn", 2), ("imei", 3)) class TmnxReasContextVal(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 31) class TmnxVdoStatInt(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("current", 1), ("interval", 2)) class TmnxVdoOutputFormat(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("udp", 1), ("rtp-udp", 2)) class TmnxVdoAnalyzerAlarm(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("none", 0), ("tnc", 1), ("qos", 2), ("poa", 3)) class TmnxVdoAnalyzerAlarmStates(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(10, 10) fixedLength = 10 class SvcISID(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 16777215), ) class TIngPolicerId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 32) class TIngPolicerIdOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 32), ) class TEgrPolicerId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 8) class TEgrPolicerIdOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TFIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000000), ) class TBurstSizeBytes(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 134217728), ) class THSMDABurstSizeBytes(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 2688000), ) class THSMDAQueueBurstLimit(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 1000000), ) class TClassBurstLimit(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 327680), ) class TPlcrBurstSizeBytes(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 4194304), ) class TBurstSizeBytesOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 134217728), ) class THSMDABurstSizeBytesOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 2688000), ) class TPlcrBurstSizeBytesOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 4194304), ) class TmnxBfdSessOperState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6)) namedValues = NamedValues(("unknown", 1), ("connected", 2), ("broken", 3), ("peerDetectsDown", 4), ("notConfigured", 5), ("noResources", 6)) class TmnxIngPolicerStatMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9)) namedValues = NamedValues(("noStats", 0), ("minimal", 1), ("offeredProfileNoCIR", 2), ("offeredTotalCIR", 3), ("offeredPrioNoCIR", 4), ("offeredProfileCIR", 5), ("offeredPrioCIR", 6), ("offeredLimitedProfileCIR", 7), ("offeredProfileCapCIR", 8), ("offeredLimitedCapCIR", 9)) class TmnxIngPolicerStatModeOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(-1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9)) namedValues = NamedValues(("noOverride", -1), ("noStats", 0), ("minimal", 1), ("offeredProfileNoCIR", 2), ("offeredTotalCIR", 3), ("offeredPrioNoCIR", 4), ("offeredProfileCIR", 5), ("offeredPrioCIR", 6), ("offeredLimitedProfileCIR", 7), ("offeredProfileCapCIR", 8), ("offeredLimitedCapCIR", 9)) class TmnxEgrPolicerStatMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6)) namedValues = NamedValues(("noStats", 0), ("minimal", 1), ("offeredProfileNoCIR", 2), ("offeredTotalCIR", 3), ("offeredProfileCIR", 4), ("offeredLimitedCapCIR", 5), ("offeredProfileCapCIR", 6)) class TmnxEgrPolicerStatModeOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(-1, 0, 1, 2, 3, 4, 5, 6)) namedValues = NamedValues(("noOverride", -1), ("noStats", 0), ("minimal", 1), ("offeredProfileNoCIR", 2), ("offeredTotalCIR", 3), ("offeredProfileCIR", 4), ("offeredLimitedCapCIR", 5), ("offeredProfileCapCIR", 6)) class TmnxTlsGroupId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 4094) class TSubHostId(TextualConvention, Unsigned32): status = 'current' class TDirection(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("both", 0), ("ingress", 1), ("egress", 2)) class TBurstLimit(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 14000000), ) class TMacFilterType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("normal", 1), ("isid", 2), ("vid", 3)) class TmnxPwGlobalId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 4294967295) class TmnxPwGlobalIdOrZero(TextualConvention, Unsigned32): status = 'current' class TmnxPwPathHopId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 16) class TmnxPwPathHopIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 16) class TmnxSpokeSdpId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 4294967295) class TmnxSpokeSdpIdOrZero(TextualConvention, Unsigned32): status = 'current' class TmnxMsPwPeSignaling(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("auto", 1), ("master", 2)) class TmnxLdpFECType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 128, 129, 130)) namedValues = NamedValues(("addrWildcard", 1), ("addrPrefix", 2), ("addrHost", 3), ("vll", 128), ("vpws", 129), ("vpls", 130)) class TmnxSvcOperGrpCreationOrigin(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("manual", 1), ("mvrp", 2)) class TmnxOperGrpHoldUpTime(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 3600) class TmnxOperGrpHoldDownTime(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 3600) class TmnxSrrpPriorityStep(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 10) class TmnxAiiType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("aiiType1", 1), ("aiiType2", 2)) class ServObjDesc(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 80) class TMplsLspExpProfMapID(TPolicyID): status = 'current' subtypeSpec = TPolicyID.subtypeSpec + ValueRangeConstraint(1, 65535) class TSysResource(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 11), ) class TmnxSpbFid(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 4095) class TmnxSpbFidOrZero(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 4095) class TmnxSpbBridgePriority(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 15) class TmnxSlopeMap(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("none", 0), ("low", 1), ("high", 2), ("highLow", 3)) class TmnxCdrType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("pgwCdr", 1), ("gCdr", 2), ("eGCdr", 3)) class TmnxThresholdGroupType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6, 7)) namedValues = NamedValues(("brMgmtLimit", 1), ("brMgmtCfSuccess", 2), ("brMgmtCfFailure", 3), ("brMgmtTraffic", 4), ("pathMgmt", 5), ("cpmSystem", 6), ("mgIsmSystem", 7)) class TmnxMobUeId(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(8, 8) fixedLength = 8 class TmnxMobUeIdType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("imsi", 0), ("imei", 1), ("msisdn", 2)) class TmnxMobImsiStr(DisplayString): reference = '3GPP TS 23.003 Numbering, addressing and identification, section 2.2 Composition of IMSI.' status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(0, 0), ValueSizeConstraint(9, 15), ) class TmnxVpnIpBackupFamily(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("ipv4", 0), ("ipv6", 1)) class TmnxTunnelGroupId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 16) class TmnxTunnelGroupIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 16) class TmnxMobRatingGrpState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6, 7, 8)) namedValues = NamedValues(("allowFlow", 1), ("disallowFlow", 2), ("redWebPortal", 3), ("allowResRules", 4), ("iom1stPktTrigger", 5), ("dis1stPktTrigger", 6), ("creditsToppedUp", 7), ("waitForFpt", 8)) class TmnxMobPresenceState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1)) namedValues = NamedValues(("absent", 0), ("present", 1)) class TmnxMobPdnGyChrgTriggerType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29)) namedValues = NamedValues(("sgsnIpAddrRecvd", 0), ("qosRecvd", 1), ("locRecvd", 2), ("ratRecvd", 3), ("qosTrfClsRecvd", 4), ("qosRlbClsRecvd", 5), ("qosDlyClsRecvd", 6), ("qosPeakThrptRecvd", 7), ("qosPrcClsRecvd", 8), ("qosMeanTrptRecvd", 9), ("qosMxBtRtUplnkRecvd", 10), ("qosMxBtRtDllnkRecvd", 11), ("qosResBerRecvd", 12), ("qosSduErrRatRecvd", 13), ("qosTransDelayRecvd", 14), ("qosTrfHndPriRecvd", 15), ("qosGrtBtRtUplnkRecvd", 16), ("qosGrtBtRtDllnkRecvd", 17), ("locMccRecvd", 18), ("locMncRecvd", 19), ("locRacRecvd", 20), ("locLacRecvd", 21), ("locCellIdRecvd", 22), ("medCompRecvd", 23), ("partcNmbRecvd", 24), ("thrldPartcNmbRecvd", 25), ("usrPartcTypeRecvd", 26), ("servCondRecvd", 27), ("servNodeRecvd", 28), ("usrCsgInfoRecvd", 29)) class TmnxMobPdnRefPointType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5)) namedValues = NamedValues(("s5", 1), ("s8", 2), ("gn", 3), ("s2a", 4), ("gp", 5)) class TmnxQosBytesHex(TextualConvention, OctetString): status = 'current' displayHint = '2x ' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(0, 30) class TSiteOperStatus(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("up", 1), ("down", 2), ("outOfResource", 3)) class TmnxSpbFdbLocale(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4)) namedValues = NamedValues(("local", 1), ("sap", 2), ("sdp", 3), ("unknown", 4)) class TmnxSpbFdbState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6)) namedValues = NamedValues(("ok", 0), ("addModPending", 1), ("delPending", 2), ("sysFdbLimit", 3), ("noFateShared", 4), ("svcFdbLimit", 5), ("noUcast", 6)) class TmnxMobServRefPointType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 4)) namedValues = NamedValues(("s5", 1), ("s8", 2), ("s2a", 4)) class TmnxMobAccessType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("eps", 1), ("gprs", 2), ("non3gpp", 3)) class TmnxMobUeStrPrefix(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(4, 15) class TmnxCdrDiagnosticAction(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("included", 1), ("excluded", 2)) class TmnxMplsTpGlobalID(TextualConvention, Unsigned32): reference = "RFC 6370, 'MPLS Transport Profile (MPLS-TP) Identifiers', Section 3, 'Uniquely Identifying an Operator - the Global_ID'." status = 'current' class TmnxMplsTpNodeID(TextualConvention, Unsigned32): reference = "RFC 6370, 'MPLS Transport Profile (MPLS-TP) Identifiers', Section 4, 'Node and Interface Identifiers'." status = 'current' class TmnxMplsTpTunnelType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1)) namedValues = NamedValues(("mplsTpStatic", 1)) class TmnxVwmCardType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44)) namedValues = NamedValues(("not-provisioned", 0), ("not-equipped", 1), ("sfc1A", 2), ("sfc1B", 3), ("sfc1C", 4), ("sfc1D", 5), ("sfc1E", 6), ("sfc1F", 7), ("sfc1G", 8), ("sfc1H", 9), ("sfc2AandB", 10), ("sfc2CandD", 11), ("sfc2EandF", 12), ("sfc2GandH", 13), ("sfc4A-D", 14), ("sfc4E-H", 15), ("sfc8", 16), ("sfd8A-R", 17), ("sfd8B-R", 18), ("sfd8C-R", 19), ("sfd8D-R", 20), ("sfd4A-R", 21), ("sfd4B-R", 22), ("sfd4C-R", 23), ("sfd4D-R", 24), ("sfd4E-R", 25), ("sfd4F-R", 26), ("sfd4G-R", 27), ("sfd4H-R", 28), ("sfd2A-R", 29), ("sfd2B-R", 30), ("sfd2C-R", 31), ("sfd2D-R", 32), ("sfd2E-R", 33), ("sfd2F-R", 34), ("sfd2G-R", 35), ("sfd2H-R", 36), ("sfd2I-R", 37), ("sfd2L-R", 38), ("sfd2M-R", 39), ("sfd2N-R", 40), ("sfd2O-R", 41), ("sfd2P-R", 42), ("sfd2Q-R", 43), ("sfd2R-R", 44)) mibBuilder.exportSymbols("TIMETRA-TC-MIB", QTagFullRange=QTagFullRange, TmnxVwmCardType=TmnxVwmCardType, TRatePercent=TRatePercent, TmnxReasContextVal=TmnxReasContextVal, TNamedItemOrEmpty=TNamedItemOrEmpty, TmnxIngPolicerStatModeOverride=TmnxIngPolicerStatModeOverride, TmnxMobDualStackPref=TmnxMobDualStackPref, TEgressQPerPacketOffset=TEgressQPerPacketOffset, TMatchCriteria=TMatchCriteria, TEgrRateModType=TEgrRateModType, TmnxSubRadiusAttrType=TmnxSubRadiusAttrType, TmnxOspfInstance=TmnxOspfInstance, TCpmProtPolicyIDOrDefault=TCpmProtPolicyIDOrDefault, TmnxSpbBridgePriority=TmnxSpbBridgePriority, TmnxMobProfMbrRate=TmnxMobProfMbrRate, TmnxAppProfileStringOrEmpty=TmnxAppProfileStringOrEmpty, TmnxMplsTpGlobalID=TmnxMplsTpGlobalID, TmnxMobQciValueOrZero=TmnxMobQciValueOrZero, TmnxIPsecTunnelTemplateId=TmnxIPsecTunnelTemplateId, TmnxVRtrIDOrZero=TmnxVRtrIDOrZero, THPolVirtualScheCIRRate=THPolVirtualScheCIRRate, TPIRRateOverride=TPIRRateOverride, TmnxMobProfName=TmnxMobProfName, TFCNameOrEmpty=TFCNameOrEmpty, TmnxMobPdnType=TmnxMobPdnType, TmnxOperState=TmnxOperState, TSapIngressMeterId=TSapIngressMeterId, TSiteOperStatus=TSiteOperStatus, TDSCPValueOrNone=TDSCPValueOrNone, TmnxMobPdnSessionState=TmnxMobPdnSessionState, TmnxVPNRouteDistinguisher=TmnxVPNRouteDistinguisher, TCIRRateOverride=TCIRRateOverride, TItemScope=TItemScope, TmnxMobAuthUserName=TmnxMobAuthUserName, TmnxVdoGrpIdIndex=TmnxVdoGrpIdIndex, TDSCPName=TDSCPName, TmnxCdrDiagnosticAction=TmnxCdrDiagnosticAction, TmnxSubMgtIntDestIdOrEmpty=TmnxSubMgtIntDestIdOrEmpty, TPolicerWeight=TPolicerWeight, TLNamedItem=TLNamedItem, TPIRPercentOverride=TPIRPercentOverride, TmnxVdoGrpId=TmnxVdoGrpId, TmnxSubNasPortTypeType=TmnxSubNasPortTypeType, TmnxMobMnc=TmnxMobMnc, TmnxPppoePadoDelay=TmnxPppoePadoDelay, TEgressHsmdaCounterId=TEgressHsmdaCounterId, TmnxSlopeMap=TmnxSlopeMap, ServObjDesc=ServObjDesc, TmnxIpSecIsaOperFlags=TmnxIpSecIsaOperFlags, TMaxDecRate=TMaxDecRate, TmnxMobBufferLimit=TmnxMobBufferLimit, TPolicerRateType=TPolicerRateType, TmnxAccessLoopEncapDataLink=TmnxAccessLoopEncapDataLink, TmnxSpbFid=TmnxSpbFid, TmnxBgpRouteTarget=TmnxBgpRouteTarget, TmnxAncpString=TmnxAncpString, TBurstHundredthsOfPercent=TBurstHundredthsOfPercent, TmnxMdaQos=TmnxMdaQos, TmnxMlpppEpClass=TmnxMlpppEpClass, QTagOrZero=QTagOrZero, TCpmProtPolicyID=TCpmProtPolicyID, TItemDescription=TItemDescription, TIngressHsmdaCounterId=TIngressHsmdaCounterId, TmnxSubMgtOrgStrOrZero=TmnxSubMgtOrgStrOrZero, TmnxTunnelGroupId=TmnxTunnelGroupId, TBurstSizeBytes=TBurstSizeBytes, TmnxAdminState=TmnxAdminState, TSapEgressPolicyID=TSapEgressPolicyID, TmnxEnabledDisabled=TmnxEnabledDisabled, TSapEgrEncapGroupType=TSapEgrEncapGroupType, TmnxIgmpVersion=TmnxIgmpVersion, TmnxMobPresenceState=TmnxMobPresenceState, TDSCPNameOrEmpty=TDSCPNameOrEmpty, TmnxVdoFccServerMode=TmnxVdoFccServerMode, TmnxMobPgwSigProtocol=TmnxMobPgwSigProtocol, TmnxPortID=TmnxPortID, TmnxSubRadServAlgorithm=TmnxSubRadServAlgorithm, TmnxSubProfileString=TmnxSubProfileString, TmnxSubMgtOrgString=TmnxSubMgtOrgString, TDSCPValue=TDSCPValue, TIngressQueueId=TIngressQueueId, TmnxIgmpGroupType=TmnxIgmpGroupType, TSubHostId=TSubHostId, TAdaptationRuleOverride=TAdaptationRuleOverride, TmnxSpbFdbState=TmnxSpbFdbState, TIngressHsmdaPerPacketOffset=TIngressHsmdaPerPacketOffset, TWeight=TWeight, TmnxTunnelID=TmnxTunnelID, TProfileOrNone=TProfileOrNone, TExpSecondaryShaperClassRate=TExpSecondaryShaperClassRate, TFCType=TFCType, TMcFrQoSProfileId=TMcFrQoSProfileId, TmnxPppoeSessionType=TmnxPppoeSessionType, THsmdaPIRMRateOverride=THsmdaPIRMRateOverride, TmnxMobSdf=TmnxMobSdf, TmnxSubNasPortSuffixType=TmnxSubNasPortSuffixType, TmnxMobProfPolReportingLevel=TmnxMobProfPolReportingLevel, PYSNMP_MODULE_ID=timetraTCMIBModule, TmnxMobStaticPolPrecedence=TmnxMobStaticPolPrecedence, TPerPacketOffset=TPerPacketOffset, TmnxCustId=TmnxCustId, TmnxMulticastAddrFamily=TmnxMulticastAddrFamily, TmnxRsvpDSTEClassType=TmnxRsvpDSTEClassType, TmnxFilterProfileStringOrEmpty=TmnxFilterProfileStringOrEmpty, TTcpUdpPort=TTcpUdpPort, TmnxSubProfileStringOrEmpty=TmnxSubProfileStringOrEmpty, TmnxSlaProfileString=TmnxSlaProfileString, TmnxMobProfPolMeteringMethod=TmnxMobProfPolMeteringMethod, TmnxMobSdfRuleName=TmnxMobSdfRuleName, TmnxEgrPolicerStatModeOverride=TmnxEgrPolicerStatModeOverride, TmnxSubIdentString=TmnxSubIdentString, TmnxPwPathHopId=TmnxPwPathHopId, TQWeight=TQWeight, TmnxLdpFECType=TmnxLdpFECType, THPolPIRRateOverride=THPolPIRRateOverride, TLspExpValue=TLspExpValue, TmnxMldVersion=TmnxMldVersion, TmnxMobRatingGrpState=TmnxMobRatingGrpState, TmnxMobDiaPathMgmtState=TmnxMobDiaPathMgmtState, TmnxMobSdfFilterDirection=TmnxMobSdfFilterDirection, TmnxPwPathHopIdOrZero=TmnxPwPathHopIdOrZero, TDSCPFilterActionValue=TDSCPFilterActionValue, TmnxMobServerState=TmnxMobServerState, TPIRRatePercent=TPIRRatePercent, TmnxPppoeSessionInfoOrigin=TmnxPppoeSessionInfoOrigin, TIngPolicerIdOrNone=TIngPolicerIdOrNone, TPrecValue=TPrecValue, TLevelOrDefault=TLevelOrDefault, TSecondaryShaper10GPIRRate=TSecondaryShaper10GPIRRate, SvcISID=SvcISID, TPerPacketOffsetOvr=TPerPacketOffsetOvr, TPIRRate=TPIRRate, TmnxAsciiSpecification=TmnxAsciiSpecification, TmnxManagedRouteStatus=TmnxManagedRouteStatus, InterfaceIndex=InterfaceIndex, TFIRRate=TFIRRate, TIngHsmdaPerPacketOffsetOvr=TIngHsmdaPerPacketOffsetOvr, TmnxMobUeIdType=TmnxMobUeIdType, TQueueIdOrAll=TQueueIdOrAll, TmnxMobQueueLimit=TmnxMobQueueLimit, TmnxBgpLocalPreference=TmnxBgpLocalPreference, TEgressQueueId=TEgressQueueId, TRemarkType=TRemarkType, TIpProtocol=TIpProtocol, TCIRRate=TCIRRate, TFCName=TFCName, TLNamedItemOrEmpty=TLNamedItemOrEmpty, TmnxBgpAutonomousSystem=TmnxBgpAutonomousSystem, TmnxMobAuthType=TmnxMobAuthType, TmnxTlsGroupId=TmnxTlsGroupId, TmnxMldGroupFilterMode=TmnxMldGroupFilterMode, TOperator=TOperator, TmnxPppoeSessionId=TmnxPppoeSessionId, TmnxMobAddrScheme=TmnxMobAddrScheme, TmnxMobServRefPointType=TmnxMobServRefPointType, TIpOption=TIpOption, TPriority=TPriority, THsmdaPIRKRate=THsmdaPIRKRate, TmnxMobPathMgmtState=TmnxMobPathMgmtState, TIngressMeterId=TIngressMeterId, TmnxAiiType=TmnxAiiType, TMplsLspExpProfMapID=TMplsLspExpProfMapID, TmnxMobPdnGyChrgTriggerType=TmnxMobPdnGyChrgTriggerType, TmnxMobGwType=TmnxMobGwType, TmnxVdoAnalyzerAlarmStates=TmnxVdoAnalyzerAlarmStates, TmnxPppoeUserNameOrEmpty=TmnxPppoeUserNameOrEmpty, TBurstPercentOrDefault=TBurstPercentOrDefault, THSMDABurstSizeBytesOverride=THSMDABurstSizeBytesOverride, TBurstPercent=TBurstPercent, TmnxMobDiaRetryCount=TmnxMobDiaRetryCount, TNonZeroWeight=TNonZeroWeight, TmnxMobDfPeerId=TmnxMobDfPeerId, TmnxStatus=TmnxStatus, TmnxMobApnOrZero=TmnxMobApnOrZero, TSdpEgressPolicyID=TSdpEgressPolicyID, TmnxMobRfAcctLevel=TmnxMobRfAcctLevel, TmnxMobDiaTransTimer=TmnxMobDiaTransTimer, TmnxMobChargingBearerType=TmnxMobChargingBearerType, timetraTCMIBModule=timetraTCMIBModule, THsmdaPIRKRateOverride=THsmdaPIRKRateOverride, TSapEgrEncapGroupActionType=TSapEgrEncapGroupActionType, TmnxSubNasPortPrefixType=TmnxSubNasPortPrefixType, TPlcrBurstSizeBytes=TPlcrBurstSizeBytes, TQosQGrpInstanceIDorZero=TQosQGrpInstanceIDorZero, TmnxPwGlobalIdOrZero=TmnxPwGlobalIdOrZero, TmnxThresholdGroupType=TmnxThresholdGroupType, TmnxMobProfNameOrEmpty=TmnxMobProfNameOrEmpty, TmnxVdoGrpIdOrInherit=TmnxVdoGrpIdOrInherit, TmnxMobApn=TmnxMobApn, TmnxMobDiaPeerHost=TmnxMobDiaPeerHost, TmnxMobPdnRefPointType=TmnxMobPdnRefPointType, TNetworkPolicyID=TNetworkPolicyID, TItemMatch=TItemMatch, TItemLongDescription=TItemLongDescription, QTagFullRangeOrNone=QTagFullRangeOrNone, TMlpppQoSProfileId=TMlpppQoSProfileId, TSdpIngressPolicyID=TSdpIngressPolicyID, TIngressHsmdaCounterIdOrZero=TIngressHsmdaCounterIdOrZero, TmnxVdoStatInt=TmnxVdoStatInt, THPolPIRRate=THPolPIRRate, TmnxMobArp=TmnxMobArp, TmnxActionType=TmnxActionType, TFrameType=TFrameType, TAdaptationRule=TAdaptationRule, SdpBindId=SdpBindId, TmnxMobNode=TmnxMobNode, TTcpUdpPortOperator=TTcpUdpPortOperator, TmnxMobMccOrEmpty=TmnxMobMccOrEmpty, TmnxSrrpPriorityStep=TmnxSrrpPriorityStep, TCIRPercentOverride=TCIRPercentOverride, TmnxMobImsi=TmnxMobImsi, THsmdaSchedulerPolicyGroupId=THsmdaSchedulerPolicyGroupId, TmnxMobArpValue=TmnxMobArpValue, TClassBurstLimit=TClassBurstLimit, TmnxAccPlcyQICounters=TmnxAccPlcyQICounters, TmnxMobSdfFilter=TmnxMobSdfFilter, TmnxMobImei=TmnxMobImei, TSysResource=TSysResource, TmnxBgpPreference=TmnxBgpPreference, TmnxMobQciValue=TmnxMobQciValue, TPlcyMode=TPlcyMode, THSMDAQueueBurstLimit=THSMDAQueueBurstLimit, TmnxVcId=TmnxVcId, TmnxMobStaticPolPrecedenceOrZero=TmnxMobStaticPolPrecedenceOrZero, TEgressHsmdaPerPacketOffset=TEgressHsmdaPerPacketOffset, TPortSchedulerPIR=TPortSchedulerPIR, THPolCIRRateOverride=THPolCIRRateOverride, TQueueMode=TQueueMode, TmnxMobUeState=TmnxMobUeState, TmnxOperGrpHoldUpTime=TmnxOperGrpHoldUpTime, TQueueId=TQueueId, TmnxMobSdfFilterNum=TmnxMobSdfFilterNum, TmnxMobPeerType=TmnxMobPeerType, TmnxServId=TmnxServId, TLevel=TLevel, TmnxMobArpValueOrZero=TmnxMobArpValueOrZero, TmnxEncapVal=TmnxEncapVal, TmnxVcIdOrNone=TmnxVcIdOrNone, TmnxQosBytesHex=TmnxQosBytesHex, TNamedItem=TNamedItem, TmnxBsxAarpIdOrZero=TmnxBsxAarpIdOrZero, TTmplPolicyID=TTmplPolicyID, TmnxAccPlcyAACounters=TmnxAccPlcyAACounters, TmnxMobUeRat=TmnxMobUeRat, THsmdaWeightClass=THsmdaWeightClass, TmnxVdoIfName=TmnxVdoIfName, TmnxMobRtrAdvtLifeTime=TmnxMobRtrAdvtLifeTime, TmnxSpbFidOrZero=TmnxSpbFidOrZero, TmnxVcType=TmnxVcType, TmnxEnabledDisabledOrInherit=TmnxEnabledDisabledOrInherit, TExpSecondaryShaperPIRRate=TExpSecondaryShaperPIRRate, TmnxAccessLoopEncaps2=TmnxAccessLoopEncaps2, TmnxTunnelGroupIdOrZero=TmnxTunnelGroupIdOrZero, THsmdaPolicyIncludeQueues=THsmdaPolicyIncludeQueues) mibBuilder.exportSymbols("TIMETRA-TC-MIB", TPIRRateOrZero=TPIRRateOrZero, TmnxMacSpecification=TmnxMacSpecification, TQGroupType=TQGroupType, TmnxAccPlcyOICounters=TmnxAccPlcyOICounters, TFCSet=TFCSet, TMacFilterType=TMacFilterType, TDEValue=TDEValue, TmnxMobMncOrEmpty=TmnxMobMncOrEmpty, TmnxBsxTransitIpPolicyId=TmnxBsxTransitIpPolicyId, TPolicyID=TPolicyID, TmnxSubAleOffsetMode=TmnxSubAleOffsetMode, TEgressHsmdaQueueId=TEgressHsmdaQueueId, TEgrHsmdaPerPacketOffsetOvr=TEgrHsmdaPerPacketOffsetOvr, TmnxRadiusServerOperState=TmnxRadiusServerOperState, TmnxMobProfGbrRate=TmnxMobProfGbrRate, TmnxIkePolicyAuthMethod=TmnxIkePolicyAuthMethod, TBWRateType=TBWRateType, THsmdaPIRMRate=THsmdaPIRMRate, TmnxVRtrMplsLspID=TmnxVRtrMplsLspID, TmnxAncpStringOrZero=TmnxAncpStringOrZero, TBurstSizeOverride=TBurstSizeOverride, THsmdaWrrWeightOverride=THsmdaWrrWeightOverride, TmnxVRtrID=TmnxVRtrID, TmnxMobNai=TmnxMobNai, TmnxMsPwPeSignaling=TmnxMsPwPeSignaling, TmnxSubRadiusVendorId=TmnxSubRadiusVendorId, TmnxMobMcc=TmnxMobMcc, TPortSchedulerCIR=TPortSchedulerCIR, TAdvCfgRate=TAdvCfgRate, THsmdaCIRKRate=THsmdaCIRKRate, THsmdaCIRMRateOverride=THsmdaCIRMRateOverride, TSapIngressPolicyID=TSapIngressPolicyID, TIngressHsmdaQueueId=TIngressHsmdaQueueId, TProfileUseDEOrNone=TProfileUseDEOrNone, TIngPolicerId=TIngPolicerId, TNetworkIngressMeterId=TNetworkIngressMeterId, TmnxBsxAarpServiceRefType=TmnxBsxAarpServiceRefType, TmnxMobUeSubType=TmnxMobUeSubType, TBurstSizeBytesOverride=TBurstSizeBytesOverride, TmnxMobGwId=TmnxMobGwId, TmnxTunnelType=TmnxTunnelType, TBurstSize=TBurstSize, TPlcyQuanta=TPlcyQuanta, THsmdaCIRKRateOverride=THsmdaCIRKRateOverride, TmnxMobLiTargetType=TmnxMobLiTargetType, BgpPeeringStatus=BgpPeeringStatus, THsmdaPolicyScheduleClass=THsmdaPolicyScheduleClass, Dot1PPriority=Dot1PPriority, TmnxMobProfPolChargingMethod=TmnxMobProfPolChargingMethod, TmnxBsxTransitIpPolicyIdOrZero=TmnxBsxTransitIpPolicyIdOrZero, ServiceOperStatus=ServiceOperStatus, Dot1PPriorityMask=Dot1PPriorityMask, TmnxMobChargingLevel=TmnxMobChargingLevel, TmnxSubAleOffset=TmnxSubAleOffset, THsmdaWeightOverride=THsmdaWeightOverride, THSMDABurstSizeBytes=THSMDABurstSizeBytes, TEntryIndicator=TEntryIndicator, TmnxDefInterDestIdSource=TmnxDefInterDestIdSource, TmnxBsxTransPrefPolicyId=TmnxBsxTransPrefPolicyId, TmnxVdoOutputFormat=TmnxVdoOutputFormat, TDirection=TDirection, TEgressHsmdaCounterIdOrZero=TEgressHsmdaCounterIdOrZero, TmnxRadiusPendingReqLimit=TmnxRadiusPendingReqLimit, TAtmTdpDescrType=TAtmTdpDescrType, THsmdaCounterIdOrZero=THsmdaCounterIdOrZero, TmnxPppNcpProtocol=TmnxPppNcpProtocol, TmnxVdoPortNumber=TmnxVdoPortNumber, THsmdaWrrWeight=THsmdaWrrWeight, TmnxSpokeSdpId=TmnxSpokeSdpId, TBurstPercentOrDefaultOverride=TBurstPercentOrDefaultOverride, TmnxMobBearerType=TmnxMobBearerType, THsmdaWeight=THsmdaWeight, TmnxIgmpGroupFilterMode=TmnxIgmpGroupFilterMode, TmnxBGPFamilyType=TmnxBGPFamilyType, TQosOverrideType=TQosOverrideType, TPolicyStatementNameOrEmpty=TPolicyStatementNameOrEmpty, TEgrPolicerIdOrNone=TEgrPolicerIdOrNone, TmnxMldGroupType=TmnxMldGroupType, TPortSchedulerPIRRate=TPortSchedulerPIRRate, TmnxEgrPolicerStatMode=TmnxEgrPolicerStatMode, TmnxMplsTpNodeID=TmnxMplsTpNodeID, TmnxSlaProfileStringOrEmpty=TmnxSlaProfileStringOrEmpty, THsmdaCounterIdOrZeroOrAll=THsmdaCounterIdOrZeroOrAll, TmnxMobImsiStr=TmnxMobImsiStr, THsmdaCIRMRate=THsmdaCIRMRate, TmnxDefSubIdSource=TmnxDefSubIdSource, TDEProfile=TDEProfile, TEntryId=TEntryId, TmnxMobBearerId=TmnxMobBearerId, TmnxVdoAnalyzerAlarm=TmnxVdoAnalyzerAlarm, TmnxSubIdentStringOrEmpty=TmnxSubIdentStringOrEmpty, TmnxPppoeUserName=TmnxPppoeUserName, TProfile=TProfile, TmnxMobChargingProfile=TmnxMobChargingProfile, TmnxAccPlcyQECounters=TmnxAccPlcyQECounters, TmnxCdrType=TmnxCdrType, TmnxSvcOperGrpCreationOrigin=TmnxSvcOperGrpCreationOrigin, TmnxSpbFdbLocale=TmnxSpbFdbLocale, TRateType=TRateType, TPriorityOrDefault=TPriorityOrDefault, TmnxAccPlcyOECounters=TmnxAccPlcyOECounters, THPolCIRRate=THPolCIRRate, TmnxMobProfIpTtl=TmnxMobProfIpTtl, THPolVirtualSchePIRRate=THPolVirtualSchePIRRate, TmnxDHCP6MsgType=TmnxDHCP6MsgType, TmnxIPsecTunnelTemplateIdOrZero=TmnxIPsecTunnelTemplateIdOrZero, TmnxMobRtrAdvtInterval=TmnxMobRtrAdvtInterval, TmnxMobSdfFilterProtocol=TmnxMobSdfFilterProtocol, TDEProfileOrDei=TDEProfileOrDei, TmnxMobAccessType=TmnxMobAccessType, QTag=QTag, TmnxAccessLoopEncaps1=TmnxAccessLoopEncaps1, TmnxMplsTpTunnelType=TmnxMplsTpTunnelType, TmnxSpokeSdpIdOrZero=TmnxSpokeSdpIdOrZero, TSapEgrEncapGrpQosPolicyIdOrZero=TSapEgrEncapGrpQosPolicyIdOrZero, TmnxMobUeId=TmnxMobUeId, TmnxMobMsisdn=TmnxMobMsisdn, TmnxBfdSessOperState=TmnxBfdSessOperState, TBurstLimit=TBurstLimit, TmnxVpnIpBackupFamily=TmnxVpnIpBackupFamily, ServiceAccessPoint=ServiceAccessPoint, TmnxDhcpOptionType=TmnxDhcpOptionType, TEgrPolicerId=TEgrPolicerId, TmnxOperGrpHoldDownTime=TmnxOperGrpHoldDownTime, TmnxMobPdnSessionEvent=TmnxMobPdnSessionEvent, TmnxMobQci=TmnxMobQci, TmnxPwGlobalId=TmnxPwGlobalId, TMeterMode=TMeterMode, TmnxMobUeStrPrefix=TmnxMobUeStrPrefix, TmnxMobLiTarget=TmnxMobLiTarget, TmnxBinarySpecification=TmnxBinarySpecification, ServiceAdminStatus=ServiceAdminStatus, TPrecValueOrNone=TPrecValueOrNone, TmnxBsxAarpId=TmnxBsxAarpId, TmnxMobChargingProfileOrInherit=TmnxMobChargingProfileOrInherit, TPlcrBurstSizeBytesOverride=TPlcrBurstSizeBytesOverride, TmnxIkePolicyOwnAuthMethod=TmnxIkePolicyOwnAuthMethod, TmnxAppProfileString=TmnxAppProfileString, TmnxStrSapId=TmnxStrSapId, TmnxTimeInSec=TmnxTimeInSec, TmnxMobDiaDetailPathMgmtState=TmnxMobDiaDetailPathMgmtState, TmnxSubMgtIntDestId=TmnxSubMgtIntDestId, IpAddressPrefixLength=IpAddressPrefixLength, TmnxMobIpCanType=TmnxMobIpCanType, TProfileOrDei=TProfileOrDei, TPriorityOrUndefined=TPriorityOrUndefined, TmnxBsxTransPrefPolicyIdOrZero=TmnxBsxTransPrefPolicyIdOrZero, TmnxIngPolicerStatMode=TmnxIngPolicerStatMode)
{ "cells": [ { "cell_type": "code", "execution_count": 108, "id": "25569a41", "metadata": {}, "outputs": [], "source": [ "import os\n", "import csv \n", "from statistics import mean" ] }, { "cell_type": "code", "execution_count": 109, "id": "2cbb873b", "metadata": {}, "outputs": [ { "data": { "text/plain": [ "'Resources/budget_data.csv'" ] }, "execution_count": 109, "metadata": {}, "output_type": "execute_result" } ], "source": [ "budget_data_path=os.path.join('Resources', 'budget_data.csv')\n", "budget_data_path" ] }, { "cell_type": "code", "execution_count": 110, "id": "60b00411", "metadata": {}, "outputs": [], "source": [ "date=[]\n", "profit=[]\n", "profit_change=[]" ] }, { "cell_type": "code", "execution_count": 111, "id": "a6ad89db", "metadata": {}, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ "Financial Analysis\n", "-------------------\n", "Total month: 86\n", "Total : 38382578\n", "Average Change :-2315.12\n", "Greatest Increase in Profits: Feb-2012,(1926159)\n", "Greatest Decrease in Profit: Sep-2013,(-2196167)\n" ] } ], "source": [ "with open (budget_data_path) as bank_data_file:\n", " \n", " csvreader=csv.reader(bank_data_file, delimiter=',')\n", " header=next(csvreader)\n", " \n", " \n", " for row in csvreader:\n", " \n", "#Total_month\n", " date.append(row[0])\n", " \n", "#total_revenue\n", " profit.append(int(row[1]))\n", "# avrage_change\n", " for i in range(len(profit)-1):\n", " profit_change.append(profit[i+1]-profit[i])\n", "#greatest_increas \n", " max_increa=max(profit_change)\n", "#greates_decreas \n", " max_decrease=min(profit_change)\n", "#Avrage change\n", " avrage_change=mean(profit_change)\n", " \n", "\n", " print(\"Financial Analysis\")\n", " print(\"-------------------\")\n", " print(f\"Total month: {len(date)}\")\n", " print(f\"Total : {sum(profit)}\")\n", " print(f\"Average Change :{round(avrage_change,2)}\")\n", " print(f\"Greatest Increase in Profits: {date[profit_change.index(max(profit_change))+1]},({max_increa})\")\n", " print(f\"Greatest Decrease in Profit: {date[profit_change.index(min(profit_change))+1]},({max_decrease})\")" ] }, { "cell_type": "code", "execution_count": null, "id": "904c9239", "metadata": {}, "outputs": [], "source": [ "output = \"result.txt\"\n", "with open(\"result\",\"w\") as new:\n", " new.write(\"Financial Analysis\")\n", " new.write(\"\\n\")\n", " new.write(\"--------------------\")\n", " new.write(\"\\n\")\n", " new.write(f\"Total month: {len(date)}\")\n", " new.write(\"\\n\")\n", " new.write(f\"Total: ${sum(profit)}\")\n", " new.write(\"\\n\")\n", " new.write(f\"Average Change: {round(avrage_change,2)}\")\n", " new.write(\"\\n\")\n", " new.write(f\"Greatest Increase in Profits: {date[profit_change.index(max(profit_change))+1]},({max_increa})\")\n", " new.write(\"\\n\")\n", " new.write(f\"Greatest Decrease in Profits: {date[profit_change.index(min(profit_change))+1]},({max_decrease})\")" ] } ], "metadata": { "kernelspec": { "display_name": "Python 3", "language": "python", "name": "python3" }, "language_info": { "codemirror_mode": { "name": "ipython", "version": 3 }, "file_extension": ".py", "mimetype": "text/x-python", "name": "python", "nbconvert_exporter": "python", "pygments_lexer": "ipython3", "version": "3.8.8" } }, "nbformat": 4, "nbformat_minor": 5 }
# # PySNMP MIB module CISCO-QLLC01-MIB (http://snmplabs.com/pysmi) # ASN.1 source file:///Users/davwang4/Dev/mibs.snmplabs.com/asn1/CISCO-QLLC01-MIB # Produced by pysmi-0.3.4 at Mon Apr 29 17:53:38 2019 # On host DAVWANG4-M-1475 platform Darwin version 18.5.0 by user davwang4 # Using Python version 3.7.3 (default, Mar 27 2019, 09:23:15) # ObjectIdentifier, OctetString, Integer = mibBuilder.importSymbols("ASN1", "ObjectIdentifier", "OctetString", "Integer") NamedValues, = mibBuilder.importSymbols("ASN1-ENUMERATION", "NamedValues") ValueRangeConstraint, ConstraintsUnion, ConstraintsIntersection, SingleValueConstraint, ValueSizeConstraint = mibBuilder.importSymbols("ASN1-REFINEMENT", "ValueRangeConstraint", "ConstraintsUnion", "ConstraintsIntersection", "SingleValueConstraint", "ValueSizeConstraint") ciscoExperiment, = mibBuilder.importSymbols("CISCO-SMI", "ciscoExperiment") NotificationGroup, ObjectGroup, ModuleCompliance = mibBuilder.importSymbols("SNMPv2-CONF", "NotificationGroup", "ObjectGroup", "ModuleCompliance") iso, ModuleIdentity, MibIdentifier, Counter32, Integer32, Bits, TimeTicks, Counter64, NotificationType, MibScalar, MibTable, MibTableRow, MibTableColumn, IpAddress, Gauge32, Unsigned32, ObjectIdentity = mibBuilder.importSymbols("SNMPv2-SMI", "iso", "ModuleIdentity", "MibIdentifier", "Counter32", "Integer32", "Bits", "TimeTicks", "Counter64", "NotificationType", "MibScalar", "MibTable", "MibTableRow", "MibTableColumn", "IpAddress", "Gauge32", "Unsigned32", "ObjectIdentity") DisplayString, TextualConvention = mibBuilder.importSymbols("SNMPv2-TC", "DisplayString", "TextualConvention") snaqllc01 = ModuleIdentity((1, 3, 6, 1, 4, 1, 9, 10, 6)) if mibBuilder.loadTexts: snaqllc01.setLastUpdated('9411090000Z') if mibBuilder.loadTexts: snaqllc01.setOrganization('Cisco Systems, Inc.') qllc = MibIdentifier((1, 3, 6, 1, 4, 1, 9, 10, 6, 1)) class IfIndexType(Integer32): subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 2147483647) class X121Address(OctetString): subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(0, 17) qllcLSAdminTable = MibTable((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1), ) if mibBuilder.loadTexts: qllcLSAdminTable.setStatus('current') qllcLSAdminEntry = MibTableRow((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1), ).setIndexNames((0, "CISCO-QLLC01-MIB", "qllcLSAdminIfIndex"), (0, "CISCO-QLLC01-MIB", "qllcLSAdminLciVcIndex")) if mibBuilder.loadTexts: qllcLSAdminEntry.setStatus('current') qllcLSAdminIfIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 1), IfIndexType()).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminIfIndex.setStatus('current') qllcLSAdminLciVcIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 2), IfIndexType()).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminLciVcIndex.setStatus('current') qllcLSAdminCircuitType = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 3), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("switchedVC", 1), ("permanentVC", 2)))).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminCircuitType.setStatus('current') qllcLSAdminRole = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 4), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 3))).clone(namedValues=NamedValues(("primary", 1), ("secondary", 2), ("peerToPeer", 3)))).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminRole.setStatus('current') qllcLSAdminX25Add = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 5), X121Address()).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminX25Add.setStatus('current') qllcLSAdminModulo = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 6), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("modulo8", 1), ("modulo128", 2))).clone('modulo8')).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminModulo.setStatus('current') qllcLSAdminLgX25 = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 7), Integer32()).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminLgX25.setStatus('current') qllcLSOperTable = MibTable((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2), ) if mibBuilder.loadTexts: qllcLSOperTable.setStatus('current') qllcLSOperEntry = MibTableRow((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1), ).setIndexNames((0, "CISCO-QLLC01-MIB", "qllcLSOperIfIndex"), (0, "CISCO-QLLC01-MIB", "qllcLSOperLciVcIndex")) if mibBuilder.loadTexts: qllcLSOperEntry.setStatus('current') qllcLSOperIfIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 1), IfIndexType()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperIfIndex.setStatus('current') qllcLSOperLciVcIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 2), IfIndexType()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperLciVcIndex.setStatus('current') qllcLSOperCircuitType = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 3), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("switchedVC", 1), ("permanentVC", 2)))).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperCircuitType.setStatus('current') qllcLSOperRole = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 4), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 3))).clone(namedValues=NamedValues(("primary", 1), ("secondary", 2), ("peerToPeer", 3)))).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperRole.setStatus('current') qllcLSOperX25Add = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 5), X121Address()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperX25Add.setStatus('current') qllcLSOperModulo = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 6), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("modulo8", 1), ("modulo128", 2))).clone('modulo8')).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperModulo.setStatus('current') qllcLSOperState = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 7), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6))).clone(namedValues=NamedValues(("lsStateInop", 1), ("lsStateClosed", 2), ("lsStateOpening", 3), ("lsStateClosing", 4), ("lsStateRecovery", 5), ("lsStateOpened", 6)))).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperState.setStatus('current') qllcLSOperLgX25 = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 8), Integer32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperLgX25.setStatus('current') qllcLSStatsTable = MibTable((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3), ) if mibBuilder.loadTexts: qllcLSStatsTable.setStatus('current') qllcLSStatsEntry = MibTableRow((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1), ).setIndexNames((0, "CISCO-QLLC01-MIB", "qllcLSStatsIfIndex"), (0, "CISCO-QLLC01-MIB", "qllcLSStatsLciVcIndex")) if mibBuilder.loadTexts: qllcLSStatsEntry.setStatus('current') qllcLSStatsIfIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 1), IfIndexType()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsIfIndex.setStatus('current') qllcLSStatsLciVcIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 2), IfIndexType()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsLciVcIndex.setStatus('current') qllcLSStatsXidIn = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 3), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsXidIn.setStatus('current') qllcLSStatsXidOut = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 4), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsXidOut.setStatus('current') qllcLSStatsTestIn = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 5), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsTestIn.setStatus('current') qllcLSStatsTestOut = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 6), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsTestOut.setStatus('current') qllcLSStatsQuenchOff = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 7), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsQuenchOff.setStatus('current') qllcLSStatsQuenchOn = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 8), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsQuenchOn.setStatus('current') qllcLSStatsInPaks = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 9), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsInPaks.setStatus('current') qllcLSStatsOutPaks = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 10), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsOutPaks.setStatus('current') qllcLSStatsInBytes = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 11), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsInBytes.setStatus('current') qllcLSStatsOutBytes = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 12), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsOutBytes.setStatus('current') qllcLSStatsNumRcvQsms = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 13), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumRcvQsms.setStatus('current') qllcLSStatsNumSndQsms = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 14), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumSndQsms.setStatus('current') qllcLSStatsNumRcvDiscs = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 15), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumRcvDiscs.setStatus('current') qllcLSStatsNumSndDiscs = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 16), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumSndDiscs.setStatus('current') qllcLSStatsNumRcvDms = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 17), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumRcvDms.setStatus('current') qllcLSStatsNumSndDms = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 18), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumSndDms.setStatus('current') qllcLSStatsNumRcvFrmrs = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 19), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumRcvFrmrs.setStatus('current') qllcLSStatsNumSndFrmrs = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 20), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumSndFrmrs.setStatus('current') qllcLSStatsNumDrops = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 21), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumDrops.setStatus('current') qllcLSStatsNumErrs = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 22), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumErrs.setStatus('current') qllcMibConformance = MibIdentifier((1, 3, 6, 1, 4, 1, 9, 10, 6, 2)) qllcMibCompliances = MibIdentifier((1, 3, 6, 1, 4, 1, 9, 10, 6, 2, 1)) qllcMibGroups = MibIdentifier((1, 3, 6, 1, 4, 1, 9, 10, 6, 2, 2)) qllcMibCompliance = ModuleCompliance((1, 3, 6, 1, 4, 1, 9, 10, 6, 2, 1, 1)).setObjects(("CISCO-QLLC01-MIB", "qllcLSAdminGroup"), ("CISCO-QLLC01-MIB", "qllcLSOperGroup"), ("CISCO-QLLC01-MIB", "qllcLSStatsGroup")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): qllcMibCompliance = qllcMibCompliance.setStatus('current') qllcLSAdminGroup = ObjectGroup((1, 3, 6, 1, 4, 1, 9, 10, 6, 2, 2, 1)).setObjects(("CISCO-QLLC01-MIB", "qllcLSAdminIfIndex"), ("CISCO-QLLC01-MIB", "qllcLSAdminLciVcIndex"), ("CISCO-QLLC01-MIB", "qllcLSAdminRole"), ("CISCO-QLLC01-MIB", "qllcLSAdminCircuitType"), ("CISCO-QLLC01-MIB", "qllcLSAdminX25Add"), ("CISCO-QLLC01-MIB", "qllcLSAdminModulo"), ("CISCO-QLLC01-MIB", "qllcLSAdminLgX25")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): qllcLSAdminGroup = qllcLSAdminGroup.setStatus('current') qllcLSOperGroup = ObjectGroup((1, 3, 6, 1, 4, 1, 9, 10, 6, 2, 2, 2)).setObjects(("CISCO-QLLC01-MIB", "qllcLSOperIfIndex"), ("CISCO-QLLC01-MIB", "qllcLSOperLciVcIndex"), ("CISCO-QLLC01-MIB", "qllcLSOperCircuitType"), ("CISCO-QLLC01-MIB", "qllcLSOperRole"), ("CISCO-QLLC01-MIB", "qllcLSOperX25Add"), ("CISCO-QLLC01-MIB", "qllcLSOperModulo"), ("CISCO-QLLC01-MIB", "qllcLSOperState"), ("CISCO-QLLC01-MIB", "qllcLSOperLgX25")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): qllcLSOperGroup = qllcLSOperGroup.setStatus('current') qllcLSStatsGroup = ObjectGroup((1, 3, 6, 1, 4, 1, 9, 10, 6, 2, 2, 3)).setObjects(("CISCO-QLLC01-MIB", "qllcLSStatsIfIndex"), ("CISCO-QLLC01-MIB", "qllcLSStatsLciVcIndex"), ("CISCO-QLLC01-MIB", "qllcLSStatsXidIn"), ("CISCO-QLLC01-MIB", "qllcLSStatsXidOut"), ("CISCO-QLLC01-MIB", "qllcLSStatsTestIn"), ("CISCO-QLLC01-MIB", "qllcLSStatsTestOut"), ("CISCO-QLLC01-MIB", "qllcLSStatsQuenchOff"), ("CISCO-QLLC01-MIB", "qllcLSStatsQuenchOn"), ("CISCO-QLLC01-MIB", "qllcLSStatsInPaks"), ("CISCO-QLLC01-MIB", "qllcLSStatsOutPaks"), ("CISCO-QLLC01-MIB", "qllcLSStatsInBytes"), ("CISCO-QLLC01-MIB", "qllcLSStatsOutBytes"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumRcvQsms"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumSndQsms"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumRcvDiscs"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumSndDiscs"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumRcvDms"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumSndDms"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumRcvFrmrs"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumSndFrmrs"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumDrops"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumErrs")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): qllcLSStatsGroup = qllcLSStatsGroup.setStatus('current') mibBuilder.exportSymbols("CISCO-QLLC01-MIB", qllcLSAdminModulo=qllcLSAdminModulo, qllcLSOperX25Add=qllcLSOperX25Add, qllcLSStatsQuenchOff=qllcLSStatsQuenchOff, qllcLSStatsNumRcvDiscs=qllcLSStatsNumRcvDiscs, qllcLSOperLgX25=qllcLSOperLgX25, qllcLSAdminX25Add=qllcLSAdminX25Add, qllcLSOperRole=qllcLSOperRole, qllcLSStatsEntry=qllcLSStatsEntry, qllcLSStatsNumSndQsms=qllcLSStatsNumSndQsms, qllcMibGroups=qllcMibGroups, qllcLSStatsGroup=qllcLSStatsGroup, qllcLSStatsTestOut=qllcLSStatsTestOut, qllcLSStatsIfIndex=qllcLSStatsIfIndex, qllcMibCompliances=qllcMibCompliances, qllcLSStatsNumErrs=qllcLSStatsNumErrs, qllcLSStatsNumDrops=qllcLSStatsNumDrops, qllcLSOperState=qllcLSOperState, qllcLSAdminIfIndex=qllcLSAdminIfIndex, qllcLSOperTable=qllcLSOperTable, qllcLSOperCircuitType=qllcLSOperCircuitType, qllcLSStatsLciVcIndex=qllcLSStatsLciVcIndex, PYSNMP_MODULE_ID=snaqllc01, qllcLSOperIfIndex=qllcLSOperIfIndex, X121Address=X121Address, qllcLSAdminRole=qllcLSAdminRole, qllcLSAdminLciVcIndex=qllcLSAdminLciVcIndex, qllcLSAdminTable=qllcLSAdminTable, qllcLSStatsInPaks=qllcLSStatsInPaks, qllcLSStatsOutPaks=qllcLSStatsOutPaks, qllcLSAdminLgX25=qllcLSAdminLgX25, IfIndexType=IfIndexType, qllcLSOperEntry=qllcLSOperEntry, qllcLSOperModulo=qllcLSOperModulo, qllc=qllc, qllcLSStatsQuenchOn=qllcLSStatsQuenchOn, qllcLSOperGroup=qllcLSOperGroup, qllcLSStatsTestIn=qllcLSStatsTestIn, qllcLSStatsNumRcvFrmrs=qllcLSStatsNumRcvFrmrs, qllcMibCompliance=qllcMibCompliance, qllcLSStatsNumRcvDms=qllcLSStatsNumRcvDms, qllcLSAdminCircuitType=qllcLSAdminCircuitType, snaqllc01=snaqllc01, qllcLSStatsTable=qllcLSStatsTable, qllcLSStatsNumSndDms=qllcLSStatsNumSndDms, qllcLSAdminGroup=qllcLSAdminGroup, qllcLSAdminEntry=qllcLSAdminEntry, qllcLSStatsXidIn=qllcLSStatsXidIn, qllcMibConformance=qllcMibConformance, qllcLSStatsXidOut=qllcLSStatsXidOut, qllcLSStatsOutBytes=qllcLSStatsOutBytes, qllcLSOperLciVcIndex=qllcLSOperLciVcIndex, qllcLSStatsInBytes=qllcLSStatsInBytes, qllcLSStatsNumSndDiscs=qllcLSStatsNumSndDiscs, qllcLSStatsNumSndFrmrs=qllcLSStatsNumSndFrmrs, qllcLSStatsNumRcvQsms=qllcLSStatsNumRcvQsms)
# Thrown by WikiData classes class AppBaseException(Exception): def __init__(self, message="", tag=None): Exception.__init__(self, message) self.tag = tag def getTag(self): return self.tag class WikiDataException(AppBaseException): pass class WikiWordNotFoundException(WikiDataException): pass class WikiFileNotFoundException(WikiDataException): pass class WikiDBExistsException(WikiDataException): pass class NoPageAstException(AppBaseException): pass # For non-Windows systems try: WindowsError except NameError: class WindowsError(Exception): pass class DbAccessError(AppBaseException): """ Base classes for read or write errors when acessing database where "database" also means wiki configuration and additional files. """ def __init__(self, originalException): AppBaseException.__init__(self, str(originalException)) self.originalException = originalException def getOriginalException(self): return self.originalException class DbReadAccessError(DbAccessError): """ Impossible to read (and therefore also to write to) database """ pass class DbWriteAccessError(DbAccessError): """ Impossible to write to database, reading may be possible """ pass class RenameWikiWordException(AppBaseException): """ Raised on problems with renaming multiple wikiwords at once. Constructed in WikiDataManager.WikiDataManager.buildRenameSeqWithSubpages() """ # Problems: # Multiple words should be renamed to same word PRB_RENAME_TO_SAME = 1 # Word to rename to exist already PRB_TO_ALREADY_EXISTS = 2 def __init__(self, affectedRenames): """ affectedRenames -- list of tuples (fromWikiWord, toWikiWord, problem) where problem is one of the PRB_* constants of the class. """ self.affectedRenames = affectedRenames def getAffectedRenames(self): return self.affectedRenames def getFlowText(self): """ Return affectedRenames as multiple-line human readable text """ # TODO Move definition outside (attn to i18n) PROBLEM_HR_DICT = { self.PRB_RENAME_TO_SAME: _(u"Multiple words rename to same word"), self.PRB_TO_ALREADY_EXISTS: _(u"Word already exists") } result = [] for fromWikiWord, toWikiWord, problem in self.affectedRenames: result.append(u"%s -> %s: %s" % (fromWikiWord, toWikiWord, PROBLEM_HR_DICT[problem])) return u"\n".join(result) class InternalError(AppBaseException): pass class ExportException(AppBaseException): pass class ImportException(AppBaseException): pass # See Serialization.py class SerializationException(AppBaseException): pass class VersioningException(AppBaseException): pass # See WikiDataManager.py. Thrown if requested handler for db backend isn't # available class NoDbHandlerException(AppBaseException): pass class WrongDbHandlerException(AppBaseException): pass class DbHandlerNotAvailableException(AppBaseException): pass class UnknownDbHandlerException(AppBaseException): pass # See WikiDataManager.py. Thrown if requested handler for wiki language isn't # available class UnknownWikiLanguageException(AppBaseException): pass class WrongWikiLanguageException(AppBaseException): pass class MissingConfigurationFileException(AppBaseException): pass class BadConfigurationFileException(AppBaseException): pass class LockedWikiException(AppBaseException): pass class NotCurrentThreadException(AppBaseException): pass class UserAbortException(AppBaseException): pass class DeadBlockPreventionTimeOutError(InternalError): pass class BadFuncPageTagException(AppBaseException): pass
def capitalize(string): new = '' for i in range(0,len(string)): if i == 0: new += string[i].upper() elif string[i - 1] == ' ': new += string[i].upper() else : new += string[i] return new
numbers = (input("").split()) a=int(numbers[0]) b=int(numbers[1]) if a == b: print(0) else: print(1)
@bot.command() async def meme(ctx): msg = await ctx.send("<a:loading:900379618924716052> Processing") r = requests.get('https://meme-api.herokuapp.com/gimme') x = r.text y = json.loads(x) title = y["title"] url = y["url"] author = y["author"] embed = discord.Embed(title=f"{title}", color=0x01f960) embed.set_image(url=url) embed.set_footer(text=f"Provided by {author}") await ctx.send(embed=embed) await msg.delete()
# Constructor with arguments or parameters default class Point: def __init__(self, x=0, y=0): self.x = x self.y = y def distance(self, point2): "Calculates distance between current point to given point2" x = point2.x - self.x y = point2.y - self.y d = x2 + y2 return d**0.5 p2 = Point(3,4) p1 = Point() distance = p1.distance(p2) print(distance)
# # @lc app=leetcode.cn id=108 lang=python3 # # [108] 将有序数组转换为二叉搜索树 # # https://leetcode-cn.com/problems/convert-sorted-array-to-binary-search-tree/description/ # # algorithms # Easy (74.50%) # Likes: 655 # Dislikes: 0 # Total Accepted: 128.6K # Total Submissions: 172.5K # Testcase Example: '[-10,-3,0,5,9]' # # 将一个按照升序排列的有序数组，转换为一棵高度平衡二叉搜索树。 # # 本题中，一个高度平衡二叉树是指一个二叉树每个节点的左右两个子树的高度差的绝对值不超过 1。 # # 示例: # # 给定有序数组: [-10,-3,0,5,9], # # 一个可能的答案是：[0,-3,9,-10,null,5]，它可以表示下面这个高度平衡二叉搜索树： # # ⁠ 0 # ⁠ / \ # ⁠ -3 9 # ⁠ / / # ⁠-10 5 # # # # @lc code=start # Definition for a binary tree node. # class TreeNode: # def __init__(self, x): # self.val = x # self.left = None # self.right = None # def sortedArrayToBST(self, nums: List[int]) -> TreeNode: # def buildTree(left,right): # if left > right: # return None # mid = (left+right)>>1 # root = TreeNode(nums[mid]) # root.left = buildTree(left,mid-1) # root.right = buildTree(mid+1,right) # return root # return buildTree(0,len(nums)-1) class Solution: def sortedArrayToBST(self, nums: List[int]) -> TreeNode: def buildTree(left,right): if left > right: return None mid = (left+right)>>1 root = TreeNode(nums[mid]) root.left = buildTree(left,mid-1) root.right = buildTree(mid+1,right) return root return buildTree(0,len(nums)-1) # @lc code=end
def encode(content: bytes): p = list(content) oa = ord('a') oz = ord('z') oA = ord('A') oZ = ord('Z') for i in range(len(p)): if oa <= p[i] <= oz: p[i] = oa + 25 - p[i] + oa elif oA <= p[i] <= oZ: p[i] = oA + 25 - p[i] + oA return bytes(p) def decode(cipher: bytes): return encode(cipher) if __name__ == '__main__': s = b'gsv_pvb_rh_zgyzhs' print(decode(s))
# Write a function def equals(a, b) that checks whether two lists have the same # elements in the same order. # FUNCTIONS def equals(listA, listB): if len(listA) < len(listB) or len(listA) > len(listB): return False equalBool = False for i in range(len(listA)): if listA[i] == listB[i]: equalBool = True else: return False return equalBool # main def main(): exampleListA = [ 10, 15, 20, 34, 5 ] exampleListB = [ 15, 23, 21, 15, 2 ] exampleListC = [ 15, 23, 21, 15, 2 ] print("The lists: A, B, C =>", exampleListA, exampleListB, exampleListC) print("Are A and B equal:", equals(exampleListA, exampleListB)) print("Are A and C equal:", equals(exampleListA, exampleListC)) print("Are B and C equal:", equals(exampleListB, exampleListC)) # PROGRAM RUN main()
def old_test(): core = Core(User='',Password='',ip='192.168.61.2') core.start() #gain = Control(parent=core,Name='gain',ValueType=int) cg = ChangeGroup(parent=core,Id='mygroup') #create some control objects for i in range(1,10): l = Control(parent=core,Name='Mixer6x9Output{}Label'.format(i),ValueType=str) cg.AddControl(l) m = Control(parent=core,Name='Mixer6x9Output{}Mute'.format(i),ValueType=[int,float]) cg.AddControl(m) g = Control(parent=core,Name='Mixer6x9Output{}Gain'.format(i),ValueType=[int,float]) cg.AddControl(g) print(l,m,g) time.sleep(2) cg.AutoPoll(Rate=.1) while True: x = str(input("Control Name: ")) if(x): try: print(core.Objects[x].state) except: print("fail")
NODE_STATS_UPDATE_INTERVAL_SECONDS = 1 UPDATE_NODES_INTERVAL_SECONDS = 5 MAX_COUNT_OF_GCS_RPC_ERROR = 10 MAX_LOGS_TO_CACHE = 10000 LOG_PRUNE_THREASHOLD = 1.25
class Solution(object): def minTaps(self, n, ranges): """ :type n: int :type ranges: List[int] :rtype: int """ ranges = [(i-r,i+r) for i,r in enumerate(ranges)] ranges.sort(reverse = True) watered = 0 ans = 0 while ranges: far_right = [] while ranges and ranges[-1][0] <= watered: far_right.append(ranges.pop()[1]) if not far_right: return -1 watered = max(far_right) ans += 1 if watered >= n: return ans return ans abc = Solution() abc.minTaps(7, [1,2,1,0,2,1,0,1])
# Джокер + Результаты нескольких тиражей def test_joker_results_for_several_draws(app): app.ResultAndPrizes.open_page_results_and_prizes() app.ResultAndPrizes.click_game_joker() app.ResultAndPrizes.click_results_for_several_draws() app.ResultAndPrizes.click_ok_for_several_draws_modal_window() app.ResultAndPrizes.message_id_33_joker_results_for_5_draws() app.ResultAndPrizes.parser_report_text_winners() assert "РЕЗУЛЬТАТЫ ТИРАЖА" in app.ResultAndPrizes.parser_report_text_winners() app.ResultAndPrizes.comeback_main_page()
#Faça um programa que calcule o fatorial de um número inteiro fornecido pelo usuário. Ex.: 5!=5.4.3.2.1=120. A saída deve ser conforme o exemplo abaixo: num = int(input("Informe um valor inteiro: ")) fat = 1 print('\nFatorial de ', num) while num > 0: fat = fat * num num = num - 1 print('= ',fat)
# AUTOGENERATED BY NBDEV! DO NOT EDIT! __all__ = ["index", "modules", "custom_doc_links", "git_url"] index = {"kcred": "extract.ipynb", "unzip": "extract.ipynb", "download_kaggle_dataset": "extract.ipynb"} modules = ["loader.py"] doc_url = "https://talosiot-will.github.io/agora/" git_url = "https://github.com/talosiot-will/agora/tree/master/" def custom_doc_links(name): return None
# coding=utf-8 # # @lc app=leetcode id=130 lang=python # # [130] Surrounded Regions # # https://leetcode.com/problems/surrounded-regions/description/ # # algorithms # Medium (23.59%) # Likes: 875 # Dislikes: 457 # Total Accepted: 157.2K # Total Submissions: 664.2K # Testcase Example: '[["X","X","X","X"],["X","O","O","X"],["X","X","O","X"],["X","O","X","X"]]' # # Given a 2D board containing 'X' and 'O' (the letter O), capture all regions # surrounded by 'X'. # # A region is captured by flipping all 'O's into 'X's in that surrounded # region. # # Example: # # # X X X X # X O O X # X X O X # X O X X # # # After running your function, the board should be: # # # X X X X # X X X X # X X X X # X O X X # # # Explanation: # # Surrounded regions shouldn’t be on the border, which means that any 'O' on # the border of the board are not flipped to 'X'. Any 'O' that is not on the # border and it is not connected to an 'O' on the border will be flipped to # 'X'. Two cells are connected if they are adjacent cells connected # horizontally or vertically. # # class Solution(object): def _solve(self, board): """ :type board: List[List[str]] :rtype: None Do not return anything, modify board in-place instead. """ # Time Limit # 四边环绕，不是八边环绕 # 但是环绕可以连起来 # 不一定是单个环绕 # 可以是整体环绕 # 不能单个计算 # 类似于围棋的环绕 free = set() searched = set() # 不能从左边找到右边 # 然后从右边找到左边 def freedom(x, y): if (x, y) in free: return True if x == 0 or y == 0 or x == len(board)-1 or y == len(board[0])-1: free.add((x, y)) return True if (x, y) in searched: return False searched.add((x, y)) if board[x-1][y] == 'O': if freedom(x-1, y): free.add((x, y)) return True if board[x+1][y] == 'O': if freedom(x+1, y): free.add((x, y)) return True if board[x][y-1] == 'O': if freedom(x, y-1): free.add((x, y)) return True if board[x][y+1] == 'O': if freedom(x, y+1): free.add((x, y)) return True searched.remove((x, y)) return False for i in range(len(board)): for j in range(len(board[0])): if board[i][j] == 'O': if not freedom(i, j): board[i][j] = 'X' def __solve(self, board): """ :type board: List[List[str]] :rtype: None Do not return anything, modify board in-place instead. """ # 其实是一道遍历题 # 应该优先使用广度遍历的 # 使用深度遍历的话容易栈溢出 # 所以需要设置很多的条件来结束 # 不如换个思路 # 从边上往里找，能访问到的都是活棋 # 不能访问到的都是死棋 # 分别从四边开始 # 也有两个思路，深度遍历，或者广度遍历 # 或者直接从上往下 if not board: return def sign_sharp(x, y): if 0 <= x < len(board) and 0 <= y < len(board[0]): if board[x][y] == 'O': board[x][y] = '#' sign_sharp(x-1, y) sign_sharp(x+1, y) sign_sharp(x, y-1) sign_sharp(x, y+1) for i in range(len(board)): if board[i][0] == 'O': sign_sharp(i, 0) if board[i][len(board[0])-1] == 'O': sign_sharp(i, len(board[0])-1) for j in range(len(board[0])): if board[0][j] == 'O': sign_sharp(0, j) if board[len(board)-1][j] == 'O': sign_sharp(len(board)-1, j) for i in range(len(board)): for j in range(len(board[0])): if board[i][j] == 'O': board[i][j] = 'X' elif board[i][j] == '#': board[i][j] = 'O' def solve(self, board): """ :type board: List[List[str]] :rtype: None Do not return anything, modify board in-place instead. """ # 非递归的深度优先遍历 # 广度优先遍历，调换一下入栈和出栈的顺序即可 if not board: return def sign_sharp(x, y): stack = [(x, y)] while stack: x, y = stack.pop() if 0 <= x < len(board) and 0 <= y < len(board[0]): if board[x][y] == 'O': board[x][y] = '#' stack.append((x+1, y)) stack.append((x-1, y)) stack.append((x, y+1)) stack.append((x, y-1)) for i in range(len(board)): if board[i][0] == 'O': sign_sharp(i, 0) if board[i][len(board[0])-1] == 'O': sign_sharp(i, len(board[0])-1) for j in range(len(board[0])): if board[0][j] == 'O': sign_sharp(0, j) if board[len(board)-1][j] == 'O': sign_sharp(len(board)-1, j) for i in range(len(board)): for j in range(len(board[0])): if board[i][j] == 'O': board[i][j] = 'X' elif board[i][j] == '#': board[i][j] = 'O' # if __name__ == '__main__': # s = Solution() # a = [["X","X","X","X"],["X","O","O","X"],["X","X","O","X"],["X","O","X","X"]] # b = [["O","X","O","O","O","X"],["O","O","X","X","X","O"],["X","X","X","X","X","O"],["O","O","O","O","X","X"],["X","X","O","O","X","O"],["O","O","X","X","X","X"]] # s.solve(b) # s.solve(a) # print a # print b
def generate_python(fields): pkgSize = 0 pkgStr = '<' for field in fields: pkgSize += field.fieldType.length pkgStr += field.fieldType.charCode pyStr = 'PACKAGE_LEN = '+str(pkgSize)+'\n' pyStr += 'PACKAGE_CODE = "'+pkgStr+'"\n' pyStr += 'PACKAGE_FIELDS = ' + list( map(lambda f: f.name, fields) ).__str__() return pyStr
PLATFORM_COMPILER_FLAGS = [ '-std=c++14', '-Wall', '-Wextra', # For TestCommon.h '-Wno-pragmas', ]
x = 0 score = x # Question One print("What are the plants and trees release into the air?") answer_1 = input("a)air\nb)oxygen\nc)music\nd)zak's fart \n:") if answer_1.lower() == "b" or answer_1.lower() == "oxygen": print("Correct") x = x + 1 else: print("Incorrect, it's oxygen") # Question Two print("What color is the trash can you put the boxes in") answer_2 = input("a) orange\nb)blue\nc)green\nd)black\n:") if answer_2.lower() == "a" or answer_2.lower() == "orange": print("Correct") x = x + 1 else: print("Incorrect, it's orange") # Question Three print("True or False... scientists say that till 2050 there will be more plastic than fish in the ocean?") answer_3 = input(":") if answer_3.lower() == "true" or answer_3.lower() == "t": print("Correct") x = x + 1 else: print("Incorrect") # Question Four print("In the worldwide, how many single-use plastic bags are used per year?") answer_4 = input("a)300,000\nb)6 billions\nc)500 billions\nd)2 trillions\n:") if answer_4.lower() == "c" or answer_4 == "500 billions": print("Correct") x = x + 1 else: print("Incorrect, The last time the Toronto Maple Leafs won the Stanley Cup was 1967") # Question Five print("True or False... 60,000 marine creaturs are dying from plactic entanglement every year") answer_5 = input(":") if answer_5.lower() == "false" or answer_5.lower() == "f": print("Correct,100,000 marine creaturs are dying from plactic entanglement every year") x = x + 1 else: print("Incorrect, 100,000 marine creaturs are dying from plactic entanglement every year") # Question six print("How many people die everyday as result of drinking unclean water") answer_1 = input("a)1000\nb)300\nc)5000\nd)2670\n:") if answer_1.lower() == "c" or answer_1.lower() == "5000": print("Correct") x = x + 1 else: print("Incorrect, 5000 people die everyday as result of drinking unclean water") # Question seven print("What is the world's largest producer of carbon dioxide?") answer_2 = input("a)USA\nb)China\nc)france\nd)italy\n:") if answer_2.lower() == "b" or answer_2.lower() == "China": print("Correct") x = x + 1 else: print("Incorrect, it's China") # Question eight print("True or False... acidification of the ocean is the worst type of pollution?") answer_3 = input(":") if answer_3.lower() == "true" or answer_3.lower() == "t": print("Correct") x = x + 1 else: print("Incorrect") # Question nine print("How many kilograms of garbage a singlr person does i the USA?") answer_4 = input("a)0.5\nb)1\nc)3\nd)2\n:") if answer_4.lower() == "d" or answer_4 == "2": print("Correct") x = x + 1 else: print("Incorrect, a single person make 2 k kilograms of garbage") # Question ten print("The pollution in China doesn't change the weather in the USA?") answer_5 = input(":") if answer_5.lower() == "false" or answer_5.lower() == "f": print("Correct") x = x + 1 else: print("Incorrect,the pollution in China doesn't change the weather in the USA") #Total Score score = float(x / 5) * 100 print(x,"out of 5, that is",score, "%")
class BaseMarkupEngine(object): def __init__(self, message, obj=None): self.message = message self.obj = obj class BaseQuoteEngine(object): def __init__(self, post, username): self.post = post self.username = username
''' Interpret text as though all letters are off by one key location Status: Accepted ''' ############################################################################### def main(): """Read input and print output""" lut, keys = {' ': ' '}, [] keys.append('`1234567890-=') keys.append('QWERTYUIOP[]\\') keys.append('ASDFGHJKL;\'') keys.append('ZXCVBNM,./') for row in keys: for index, k in enumerate(row[1:], start=1): lut[k] = row[index - 1] while True: try: print(''.join([lut[i] for i in input()])) except EOFError: break ############################################################################### if __name__ == '__main__': main()
__author__ = "Cauani Castro" __copyright__ = "Copyright 2015, Cauani Castro" __credits__ = ["Cauani Castro"] __license__ = "Apache License 2.0" __version__ = "1.0" __maintainer__ = "Cauani Castro" __email__ = "[email protected]" __status__ = "Examination program" #funcao recursiva que acumula o resultado em variavel auxiliar, para melhorar a legibilidade do codigo def base3Para10(b3, exp, b10): if b3 % 10 > 2: print("O numero inserido nao esta na base 10!") return False aux = (b3 % 10)(3*exp) if b3 < 10: return b10 + aux return base3Para10(b3//10, exp+1, b10+aux) def main(): print("Este programa ira receber uma serie de numeros na base 3, e ira converte-lo para a base 10, e imprimir o resultado.") print("Caso o usuario entre um numero fora da base 3, o programa ira alertar erro.") while True: b3 = int(input("Insira um numero na base 3 (Dominio {0, 1, 2}) [digite 0 para sair]\n")) if b3 == 0: break b10 = base3Para10(b3,0,0) if b10: print("O numero na base 3: %d, convertido para a base 10: %d" % (b3, b10)) print("\n#####################################") print(" FIM DO PROGRAMA") print("#####################################") return True if __name__ == '__main__': main()
people_waiting = int(input()) wagon_state = input().split() len_ = len(wagon_state) counter = 0 is_full = False if people_waiting == 0: print(wagon_state) exit(0) for el in range(len_): counter = int(wagon_state[el]) if counter == 4: is_full = True continue for people in range(4): if people_waiting == 0: break people_waiting -=1 counter += 1 wagon_state[el] = counter is_full = False if counter == 4: break if people_waiting == 0: break if is_full: print(f"There isn't enough space! {people_waiting} people in a queue!") print(wagon_state) elif counter < 4: print(f"The lift has empty spots!") print(wagon_state) elif people_waiting > 0: print(f"There isn't enough space! {people_waiting} people in a queue!") print(wagon_state) else: print(*wagon_state)
name, age = "Shelby De Oliveira", 29 username = "shelb-doc" print ('Hello!') print("Name: {}\nAge: {}\nUsername: {}".format(name, age, username))
""" Entradas consumo licor --> l -->int licor preferido --> lp --> int edad --> e --> int sexo --> se --> int seguir --> seg --> int Salidas personas que consumen licor --> s--> int mujeres menores de edad--> Muj_me-->int hombres que no consumen aguardiente entre 20 y 25 años-->Hom_no_a-->int promedio edad de quienes consumen cerveza-->cerv-->int porcentaje de quienes consumen whisky-->por_w-->int """ s=0 Muj_me=0 Hom_no_a=0 Cerv=[] Wsky=[] p_Wsky=0 tot=[] while True: l=int(input("Consume licor?\nDigite 0 para SI y 1 para NO ")) #entrada if l==0: s=s+1 lp=int(input("Licor preferido: ")) #entrada e=int(input("Edad: ")) #entrada if lp==3: Cerv.append(e) elif lp==5: Wsky.append(lp) genero=int(input("Sexo:\nDigite 0 si es MUJER y 1 si es HOMBRE ")) #entrada if genero==1 and lp!=1 and e>=20 and e<=25: Hom_no_a+=1 elif l==1: lp=0 e=int(input("Edad: ")) #entrada genero=int(input("Sexo:\nDigite 0 si es MUJER y 1 si es HOMBRE ")) #entrada if genero==1 and e>=20 and e<=25: Hom_no_a+=1 tot.append(l) if e<18 and genero==0: Muj_me=Muj_me+1 seg=int(input("Desea seguir con la investigacion?\nDigite 0 para SI y 1 para NO ")) #entrada if seg==1: break for x in range(len(Wsky)): if Wsky[x]==5: p_Wsky+=1 por_w=(p_Wsky*100)/len(tot) #salidas print(s," son las personas que consumen licor") print(Muj_me," son las mujeres menores de edad") print(Hom_no_a," son los hombres que no consumen aguardiente y tienen entre 20 y 25 años") if Cerv: print(sum(Cerv)/len(Cerv)," es el promedio de edad de quienes consumen cerveza") else: print("0 es el promedio de edad de quienes consumen cerveza") print(por_w,"% consumen whisky en relación con el total encuestado")
#!/usr/bin/env python # -- coding: utf8 -- # coding: utf8 class Room(): def __init__(self, serv, room_name, admin_username, bot_username, lutra_username, website_url, user_list): # Class attributes self.serv = serv self.room_name = room_name self.admin_username = admin_username self.bot_username = bot_username self.lutra_username = lutra_username self.website_url = website_url self.user_list = user_list # Init LOGGER.info("Welcome in ["+self.room_name+"]") LOGGER.info("Connected users: " + str(self.user_list)) def on_user_joined(self, user): LOGGER.info("User (" + str(user) + ") joined the room.") for u in self.user_list: if user == u: LOGGER.warning("User (" + str(user) + ") is already in the user list.") return self.user_list.append(user) LOGGER.info("Connected users: " + str(self.user_list)) def on_user_left(self, user): LOGGER.info("User (" + str(user) + ") left the room.") present = False for u in self.user_list: if user == u: present = True break if present: self.user_list.remove(user) LOGGER.info("Connected users: " + str(self.user_list)) else: LOGGER.warning("User (" + str(user) + ") was not found in user list.") def send(self, msg): self.serv.privmsg(self.room_name, msg.decode("utf8"))
number0 = int(input("Insira um número: ")) number1 = int(input("Insira outro número: ")) resultado = number0 + number1 print(resultado)
""" Good morning! Here's your coding interview problem for today. This problem was asked by Microsoft. Given an array of numbers arr and a window of size k, print out the median of each window of size k starting from the left and moving right by one position each time. For example, given the following array and k = 3: [-1, 5, 13, 8, 2, 3, 3, 1] Your function should print out the following: 5 <- median of [-1, 5, 13] 8 <- median of [5, 13, 8] 8 <- median of [13, 8, 2] 3 <- median of [8, 2, 3] 3 <- median of [2, 3, 3] 3 <- median of [3, 3, 1] Recall that the median of an even-sized list is the average of the two middle numbers. """ def find_median_for_range(int_list, window_size): """Takes in a list of integers and a window size and returns the median for each window in the list""" isOddWindowSize = window_size % 2 != 0 for i in range(0, len(int_list) - window_size): if isOddWindowSize: print(int_list[i + window_size // 2]) else: left_index = (window_size - 1) // 2 right_index = left_index + 1 middle_average = ( int_list[i + left_index] + int_list[i + right_index]) / 2 print(middle_average)
class Solution: def productExceptSelf(self, nums: list[int]) -> list[int]: result = [1] * len(nums) prefix = 1 for i in range(len(nums)): result[i] = prefix prefix = nums[i] postfix = 1 for i in range(len(nums) - 1, -1, -1): result[i] = postfix postfix = nums[i] return result
''' from os.path import expanduser, exists, split if __name__ == '__main__': print('[TPL] Test Extern Features') import multiprocessing multiprocessing.freeze_support() def ensure_hotspotter(): import matplotlib matplotlib.use('Qt4Agg', warn=True, force=True) # Look for hotspotter in ~/code hotspotter_dir = join(expanduser('~'), 'code', 'hotspotter') if not exists(hotspotter_dir): print('[jon] hotspotter_dir=%r DOES NOT EXIST!' % (hotspotter_dir,)) # Append hotspotter location (not dir) to PYTHON_PATH (i.e. sys.path) hotspotter_location = split(hotspotter_dir)[0] sys.path.append(hotspotter_location) # Import hotspotter io and drawing ensure_hotspotter() from hsviz import draw_func2 as df2 #from hsviz import viz from hscom import fileio as io # Read Image img_fpath = realpath('lena.png') image = io.imread(img_fpath) def spaced_elements(list_, n): indexes = np.arange(len(list_)) stride = len(indexes) // n return list_[indexes[0:-1:stride]] def test_detect(n=None, fnum=1, old=True): from hsviz import interact try: # Select kpts detect_kpts_func = detect_kpts_old if old else detect_kpts_new kpts, desc = detect_kpts_func(img_fpath, {}) kpts_ = kpts if n is None else spaced_elements(kpts, n) desc_ = desc if n is None else spaced_elements(desc, n) # Print info np.set_printoptions(threshold=5000, linewidth=5000, precision=3) print('----') print('detected %d keypoints' % len(kpts)) print('drawing %d/%d kpts' % (len(kpts_), len(kpts))) print(kpts_) print('----') # Draw kpts interaction.interact_keypoints(image, kpts_, desc_, fnum) #df2.imshow(image, fnum=fnum) #df2.draw_kpts2(kpts_, ell_alpha=.9, ell_linewidth=4, #ell_color='distinct', arrow=True, rect=True) df2.set_figtitle('old' if old else 'new') except Exception as ex: import traceback traceback.format_exc() print(ex) return locals() test_detect(n=10, fnum=1, old=True) test_detect(n=10, fnum=2, old=False) exec(df2.present()) '''
MONGO_URI = 'mongodb://steemit:[email protected]:27017/SteemData' MONGO_DBNAME = 'SteemData' # 50 items per page by default PAGINATION_DEFAULT = 50 # allow 1000 requests per minute RATE_LIMIT_GET = (1000, 60) # change status message STATUS_ERR = 'ERROR' # change default response fields EXTRA_RESPONSE_FIELDS = ['ID_FIELD'] # no need to define schemas manually ALLOW_UNKNOWN = True # can use API from any js app (CORS) X_DOMAINS = '' # X_HEADERS = '' # our models DOMAIN = { 'Accounts': { 'id_field': 'name', 'item_lookup': True, 'additional_lookup': { 'url': 'regex("[\w]+")', 'field': 'name', }, }, 'Posts': { 'id_field': 'identifier', 'item_lookup': True, 'additional_lookup': { 'url': 'regex("@[\w]+/[\w]+")', 'field': 'identifier', }, }, 'Comments': { 'id_field': 'identifier', 'item_lookup': True, 'additional_lookup': { 'url': 'regex("@[\w]+/[\w]+")', 'field': 'identifier', }, }, 'PriceHistory': {}, 'Operations': {}, 'AccountOperations': {}, }
def wait(c): m = None while m != 'GO': m = (c.recv(300).decode().replace('\n','').strip()) pass
# -- coding: utf-8 -- """ morse.py Class for converting between English and morse code @author: Douglas Daly @date: 1/6/2017 """ # # Class Definition # class Morse(object): """ Morse Code Translation Class """ def __init__(self): """ Default Constructor """ dict_tup = self.__generate_morse_code_dictionaries() self.__dict_to_morse = dict_tup[0] self.__dict_from_morse = dict_tup[1] def __generate_morse_code_dictionaries(self): """ Generates a dict object of Morse Code """ dict_morse = dict() dict_morse['.-'] = 'a' dict_morse['-...'] = 'b' dict_morse['-.-.'] = 'c' dict_morse['-..'] = 'd' dict_morse['.'] = 'e' dict_morse['..-.'] = 'f' dict_morse['--.'] = 'g' dict_morse['....'] = 'h' dict_morse['..'] = 'i' dict_morse['.---'] = 'j' dict_morse['-.-'] = 'k' dict_morse['.-..'] = 'l' dict_morse['--'] = 'm' dict_morse['-.'] = 'n' dict_morse['---'] = 'o' dict_morse['.--.'] = 'p' dict_morse['--.-'] = 'q' dict_morse['.-.'] = 'r' dict_morse['...'] = 's' dict_morse['-'] = 't' dict_morse['..-'] = 'u' dict_morse['...-'] = 'v' dict_morse['.--'] = 'w' dict_morse['-..-'] = 'x' dict_morse['-.--'] = 'y' dict_morse['--..'] = 'z' dict_morse['-----'] = '0' dict_morse['.----'] = '1' dict_morse['..---'] = '2' dict_morse['...--'] = '3' dict_morse['....-'] = '4' dict_morse['.....'] = '5' dict_morse['-....'] = '6' dict_morse['--...'] = '7' dict_morse['---..'] = '8' dict_morse['----.'] = '9' dict_morse['.-.-.-'] = '.' dict_morse['--..--'] = ',' dict_morse['..--..'] = '?' dict_morse['-.-.--'] = '!' dict_letters = dict() for key in dict_morse.keys(): dict_letters[dict_morse[key]] = key return (dict_letters, dict_morse) def convert_to(self, to_convert): """ Converts the given letter string to morse code """ to_convert = to_convert.lower() output = '\|' for l in range(len(to_convert)): letter = to_convert[l] if letter == ' ': output += ' ' elif letter in self.__dict_to_morse.keys(): output += self.__dict_to_morse[letter] else: output += '*' output += '\|' return output.strip() def convert_from(self, to_convert): """ Converts a morse string with spaces to the english letters """ # - Divy it up if to_convert.find('\|') > -1: arr = to_convert.strip('\|').split('\|') else: arr = to_convert.strip().split(' ') output = '' for word in arr: output += self.convert_from_no_spaces(word, len(word)) return output def convert_from_no_spaces(self, to_convert, min_letters=1): """ Converts a string of . and -'s to Letters with no spaces/breaks """ cStr = '' outStr = '' for i in range(len(to_convert)): cStr += to_convert[i] if len(cStr) == min_letters: if cStr in self.__dict_from_morse.keys(): outStr += self.__dict_from_morse[cStr] else: outStr += ' ' cStr = '' return outStr
class ResolveEventArgs(EventArgs): """ Provides data for loader resolution events,such as the System.AppDomain.TypeResolve,System.AppDomain.ResourceResolve,System.AppDomain.ReflectionOnlyAssemblyResolve,and System.AppDomain.AssemblyResolve events. ResolveEventArgs(name: str) ResolveEventArgs(name: str,requestingAssembly: Assembly) """ @staticmethod def __new__(self,name,requestingAssembly=None): """ __new__(cls: type,name: str) __new__(cls: type,name: str,requestingAssembly: Assembly) """ pass Name=property(lambda self: object(),lambda self,v: None,lambda self: None) """Gets the name of the item to resolve. Get: Name(self: ResolveEventArgs) -> str """ RequestingAssembly=property(lambda self: object(),lambda self,v: None,lambda self: None) """Gets the assembly whose dependency is being resolved. Get: RequestingAssembly(self: ResolveEventArgs) -> Assembly """
def pesquisa_binaria(lista, item): baixo = 0 alto = len(lista) - 1 while baixo <= alto: meio = (baixo + alto) // 2 chute = lista[meio] if chute == item: return meio elif chute > item: alto = meio - 1 elif chute < item: baixo = meio + 1 return None if __name__ == '__main__': minha_lista = [x for x in range(101)] print(f'{pesquisa_binaria(minha_lista, 30)}') print(f'{pesquisa_binaria(minha_lista, 15)}') print(f'{pesquisa_binaria(minha_lista, 100)}') print(f'{pesquisa_binaria(minha_lista, 300)}') print(f'{pesquisa_binaria(minha_lista, 1)}') print(f'{pesquisa_binaria(minha_lista, 10)}') print(f'{pesquisa_binaria(minha_lista, 50)}') print(f'{pesquisa_binaria(minha_lista, 150)}')
# __coding : UTF_8__ # Author :Jie Shen # CreatTime :2022/1/17 20:53 class ListNode: def __init__(self, val=0, next=None): self.val = val self.next = next class BuildTree: def __init__(self): pass def build_by_array(self, arr) -> ListNode: if arr is None or len(arr) == 0: return None head = ListNode(arr[0]) node = head for _ in range(1, len(arr)): node.next = ListNode(arr[_]) node = node.next return head def print_node(head: ListNode): print("node:", end="") if head is None: print(None) return while head is not None: print(head.val, end=",") head = head.next print() if __name__ == '__main__': arr = [1, 2, 3] b = BuildTree().build_by_array(arr) print_node(b)
# CAN THE WORD BE CONSTRUCTED? # Write a function 'can_construct(target, word_bank)' that accepts a # target string and an array of strings. # # The function should return a boolean indicating whether ot not the # 'target' can be constructed by concatenating elements of the 'word_bank' array. # # You may reuse elements of 'word_bank' as many times needed. # -------------------------------------- # A Brute force implementation # Time Complexity: O(n^m * m), extra "* m" on branch, i.e word_bank iteration we save suffix # Space Complexity: O(m^2) def can_construct_brute(target, word_bank): # Base condition - If target is empty string # it's always possible to create. if target == "": return True for word in word_bank: # We need to know if any word is a prefix # of the target & save the suffix, i.e remaing part if target.startswith(word): suffix = target[len(word):] if can_construct_brute(suffix, word_bank) == True: return True # Early return, if True. # Only after going through every word in word_bank, # we can be sure that target cannot be generated return False # -------------------------------------- # A DP implementation # Time Complexity: O(nm m) # Space Complexity: O(m^2) def can_construct_dp(target, word_bank, cache = {}): # First check if target word's status in cache already if target in cache: return cache[target] # Base condition if target == "": return True for word in word_bank: if target.startswith(word): suffix = target[len(word):] if can_construct_dp(suffix, word_bank, cache) == True: cache[target] = True return cache[target] # Early return, if True. cache[target] = False return cache[target] if __name__ == "__main__": print(can_construct_brute("abcdef", ["ab", "abc", "cd", "def", "abcd"])) # Output must be True. print(can_construct_brute("skateboard", ["bo", "rd", "ate", "t", "ska", "sk", "boar"])) # Output must be False. print(can_construct_brute("enterapotentpot", ["a", "p", "ent", "enter", "ot", "o", "t"])) # Output must be True. print(can_construct_dp("eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeef", [ "e", "ee", "eeee", "eeeeee", "eeeeeee", ])) # Output must be False.
class Mesh(object): 'Common class for all Mesh of the Finite Element Method.' def __init__(self): pass
"""一个青蛙一次可以跳1级台阶或2级台阶，一共有n级台阶，问青蛙跳到顶部有几种跳法？（递归）""" # 思路：找规律 # t=1 1 # t = 2 2 # t = 3 3 # t = 4 5 # t = 5 8 # 发现是一个斐波那契数列 # 思路2 递归f(n) # 考虑最后一跳 # 最后一跳跳1级台阶，有f(n-1)种跳法 # 最后一跳跳2级台阶，有f(n-2)种跳法 # 总的跳法种类f(n)=f(n-1)+f(n-2) def f(n): # 递归的出口 # 因为有两个递归，所以要写两个递归的出口 if n == 1: return 1 if n == 2: return 2 return f(n - 1) + f(n - 2) print(f(5))
# @Author Justin Noddell # def pagerank( G ): # params G *** a dict of pages and their respective links # returns a dict of pages and their respective pagerank values # # the purpose of this function is to execute the PageRank function def pagerank( G ): P = G.keys() # pages L = G.values() # links I = dict() # current PageRank estimate -- k:page, v:PageRank estimate R = dict() # better, resulting PageRank estimate -- k:page, v:PageRank estimate LAMBDA = 0.20 # chance of 'surprise me' button [go to random page] TAU = 0.02 # threshold of convergence # start each page to be equally likely, initialize R with values for p in P: I[p] = 1 / len(P) R[p] = 0 converged = False while not converged: converged = True # each page has a LAMBDA / len(P) chance of random selection for r in R: R[r] = LAMBDA / len(P) # Find the set of pages that such that (p, q) belong to L and q belongs to P for p in P: Q = [] for q in G[p]: if q in P and len(G[q]) > 0: Q.append( q ) if len(Q) > 0: for q in Q: delta = (1 - LAMBDA) * I[p] / len(Q) # Probability of of I[p] being at page p R[q] += delta else: for q in P: delta = (1 - LAMBDA) * I[p] / len(P) R[q] += delta # check for convergence for p in P: if abs(R[p] - I[p]) > TAU: converged = False # update PageRank estimate for r in R: I[r] = R[r] return R # def create_graph( src ): # params: src * path to file detailing pages and links # returns a dict of pages and their respective links # # the purpose of this function is to take a text file as input, detailing pages and links, store and return that data def create_graph( src ): G = dict() infile = open( src, "r" ) # iterate by line for line in infile: page = "" link = "" tab_reached = False for letter in line: if ord(letter) == 9 or ord(letter) == 32: tab_reached = True elif not tab_reached: page = page + letter elif tab_reached and letter not in "\n": link = link + letter # add k, v to dict if page in G.keys(): G[page].append(link) else: G[page] = [link] # check if v exists as k if link not in G.keys(): G[link] = [] # close file infile.close() return G # def write_to_file(): # params R * dict of pages and their PageRank values # does not return # # formats, writes results to output.txt def write_to_file( R ): outfile = open("output.txt", "w") for k, v in R.items(): output = k + "\t" + str(v) + "\n" outfile.write( output ) # close file outfile.close() # def main(): # params none # does not return # # execute the program def main(): G = create_graph( "connections.txt" ) R = pagerank( G ) write_to_file( R ) return 0 # call main main()
''' MSDP Genie Ops Object Outputs for IOSXE ''' class MsdpOutput(object): # 'show ip msdp peer' ShowIpMsdpPeer = { 'vrf': { 'default': { 'peer': { '10.1.100.4': { 'session_state': 'Up', 'peer_as': 1, 'resets': '0', 'connect_source': 'Loopback0', 'connect_source_address': '10.1.100.2', 'elapsed_time': '00:41:18', 'statistics': { 'queue': { 'size_in': 0, 'size_out': 0 }, 'sent': { 'data_message': 42, 'sa_message': 0, 'sa_response': 0, 'data_packets': 0 }, 'received': { 'data_message': 50, 'sa_message': 27, 'sa_request': 0, 'data_packets': 6 }, 'established_transitions': 1, 'output_msg_discarded': 0, 'error': { 'rpf_failure': 27 } }, 'conn_count_cleared': '00:43:22', 'sa_filter': { 'in': { '(S,G)': { 'filter': 'none', 'route_map': 'none' }, 'RP': { 'filter': 'none', 'route_map': 'none' } }, 'out': { '(S,G)': { 'filter': 'none', 'route_map': 'none' }, 'RP': { 'filter': 'none', 'route_map': 'none' } } }, 'sa_request': { 'input_filter': 'none' }, 'ttl_threshold': 0, 'sa_learned_from': 0, 'signature_protection': False}}}}} # 'show ip msdp sa-cache' ShowIpMsdpSaCache = { 'vrf': { 'default': { 'num_of_sa_cache': 1, 'sa_cache': { '225.1.1.1 10.3.3.18': { 'group': '225.1.1.1', 'source_addr': '10.3.3.18', 'up_time': '00:00:10', 'expire': '00:05:49', 'peer_as': 3, 'peer': '10.1.100.4', 'origin_rp': { '10.3.100.8': { 'rp_address': '10.3.100.8'}}, 'peer_learned_from': '10.1.100.4', 'rpf_peer': '10.1.100.4', 'statistics': { 'received': { 'sa': 1, 'encapsulated_data_received': 1}}}}}}} MsdpInfo = { 'vrf': { 'default': { 'peer': { '10.1.100.4': { 'connect_source': 'Loopback0', 'elapsed_time': '00:41:18', 'peer_as': 1, 'session_state': 'established', 'statistics': { 'error': { 'rpf_failure': 27}, 'queue': { 'size_in': 0, 'size_out': 0}, 'received': { 'sa_message': 27, 'sa_request': 0}, 'sent': { 'sa_message': 0, 'sa_response': 0}}, 'ttl_threshold': 0}}, 'sa_cache': { '225.1.1.1 10.3.3.18': { 'expire': '00:05:49', 'group': '225.1.1.1', 'origin_rp': { '10.3.100.8': { 'rp_address': '10.3.100.8'}}, 'peer_learned_from': '10.1.100.4', 'rpf_peer': '10.1.100.4', 'source_addr': '10.3.3.18', 'up_time': '00:00:10'}}}}}
word = input() while not word == "end": print(f"{word} = {word[::-1]}") word = input() # text = input() # while text != "end": # text_reversed = "" # for ch in reversed(text): # text_reversed += ch # print(text + " = " + text_reversed) # text = input()
entrada = int(input()) for i in range(0, entrada): A, B = input().split(" ") x, y = int(A), int(B) if y == 0: print("divisao impossivel") else: resultado = x / y print(f"{resultado:.1f}")

# # @lc app=leetcode id=61 lang=python3 # # [61] Rotate List # # @lc code=start # Definition for singly-linked list. # class ListNode: # def __init__(self, x): # self.val = x # self.next = None class Solution: def rotateRight(self, head: ListNode, k: int) -> ListNode: curr = head length = 0 while curr: # get the length of the input ListNode head length += 1 curr = curr.next if length == 0: return None k = k % length # get the real rotation k places if k == 0: # no rotation required return head left = l = head for _ in range(length - k - 1): l = l.next right = r = l.next for _ in range(k - 1): r = r.next r.next = left l.next = None return right # @lc code=end # Accepted # 231/231 cases passed(40 ms) # Your runtime beats 86.85 % of python3 submissions # Your memory usage beats 6.45 % of python3 submissions(13.7 MB)

# https://programmers.co.kr/learn/courses/30/lessons/42584 def solution(prices): answer = [] length = len(prices) for i in range(length): now_value = prices[i] for j in range(i+1, length): if prices[j] < now_value or j == length -1: answer.append(j-i) break answer.append(0) return answer

############################################################################### # Done: READ the code below. TRACE (by hand) the execution of the code, # predicting what will get printed. Then run the code # and compare your prediction to what actually was printed. # Then mark this _TODO_ as DONE and commit-and-push your work. # ############################################################################### def main(): hello("Snow White") goodbye("Bashful") hello("Grumpy") hello("Sleepy") hello_and_goodbye("Magic Mirror", "Cruel Queen") def hello(friend): print("Hello,", friend, "- how are things?") def goodbye(friend): print("Goodbye,", friend, '- see you later!') print(' Ciao!') print(' Bai bai!') def hello_and_goodbye(person1, person2): hello(person1) goodbye(person2) main() # hello snow white how are things? # goodbye bashful see you later! # Ciao # Bai Bai # hello grumpy how are things? # hello sleepy how are things? # hello magic mirror how are things? # goodbye cruel queen see you later? # Ciao # Bai Bai

i = 0 while True: open(f'{i}', 'w') i += 1

""" Terminal client for telegram """ __version__ = "0.17.0"

# Example: Fetch a single transcription on a recording my_transcription = api.get_transcription('recordingId', 'transcriptionId') print(my_transcription) ## { ## 'chargeableDuration': 11, ## 'id' : '{transcriptionId}', ## 'state' : 'completed', ## 'text' : 'Hey there, I was calling to talk about plans for this saturday. ', ## 'textSize' : 63, ## 'textUrl' : 'https://api.catapult.inetwork.com/.../media/{transcriptionId}', ## 'time' : '2014-12-23T23:08:59Z' ## }

class Solution: def singleNumber(self, nums: List[int]) -> int: nums.sort() i=0 while i <len(nums): if ((i<len(nums)-2) and nums[i]==nums[i+1] ): i+=2 else: return nums[i] break

# -*- encoding: utf-8 -*- { 'name': 'El Salvador - Reportes y funcionalidad extra', 'version': '1.0', 'category': 'Localization', 'description': """ Reportes requeridos y otra funcionalidad extra para llevar un contabilidad en El Salvador. """, 'author': 'Aquih, S.A.', 'website': 'http://aquih.com/', 'depends': ['l10n_sv'], 'data': [ 'views/account_view.xml', 'views/reporte_ventas.xml', 'views/reporte_compras.xml', 'views/reporte_mayor.xml', 'views/reporte_kardex.xml', 'views/report.xml', # 'security/ir.model.access.csv', ], 'demo': [], 'installable': True, } # vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4:

"""Common environment variables unique to the discussion plugin.""" def plugin_settings(settings): """Settings for the discussions plugin. """ # .. toggle_name: ALLOW_HIDING_DISCUSSION_TAB # .. toggle_implementation: DjangoSetting # .. toggle_default: False # .. toggle_description: If True, it adds an option to show/hide the discussions tab. # .. toggle_use_cases: open_edx # .. toggle_creation_date: 2015-06-15 # .. toggle_tickets: https://github.com/edx/edx-platform/pull/8474 settings.FEATURES['ALLOW_HIDING_DISCUSSION_TAB'] = False settings.DISCUSSION_SETTINGS = { 'MAX_COMMENT_DEPTH': 2, 'COURSE_PUBLISH_TASK_DELAY': 30, }

class Solution: def minPathSum(self, grid: List[List[int]]) -> int: m = len(grid[0]) n = len(grid) if m == 0 or n == 0: return 0 for i in range(m): if i != 0: grid[0][i] += grid[0][i-1] for j in range(n): if j != 0: grid[j][0] += grid[j-1][0] if n == 1: return grid[0][-1] if m == 1: return grid[-1][0] for i in range(1, n): for j in range(1, m): grid[i][j] += min(grid[i-1][j], grid[i][j-1]) return grid[i][j]

print("Keep Talking And Nobody Explodes - Kronorox Solvers") print("On the Subject of Passwords") print("Version 1.01") print(" ") print("Remember to rack through the first six(using the arrows), then move to the second set of letters, and so on") #Loading the file, opening it, then adding it to the list, then closing def loadwords(): words = open("passwordslist.txt", "r")#open the file, read only access wordlist = []#our shiny new empty list to fill for line in words: #only letters 1-5 to stop "\n" being added wordlist.append(str(line[0:5])) words.close()#close the file, we weren't born in a barn! return(wordlist) def lettercheck(letters):#This checks the input to make sure it wasn't put in wrong if len(letters) != 6:#the input has to be six long return False for i in letters.lower():#the input has to be a letter(we lower case it briefly) if i not in ["a","b","c","d","e","f","g","h","i","j","k","l","m","n","o","p","q","r","s","t","u","v","w","x","y","z"]: return False else: return True #with our checker ready, lets input the words! #Inputting the letters available def letter_one(columns):#making the first list of letters letterlist_one = input("Input first letters: ") if letterlist_one == "admin":#some debugging to skip to the solver return solver(["sccccc","tccccc","uccccc","dccccc","yccccc"],loadwords()) if lettercheck(letterlist_one) == True: #if the format is correct print("Okay!")#if they get it right, tell them columns.append(letterlist_one.upper())#add it to the list of columns letter_two(columns)#move to the next set of letters else: print("You made a mistake!")#they made a fucky wucky letter_one(columns)#do it again, but right this time def letter_two(columns): letterlist_two = input("Input second letters:") if lettercheck(letterlist_two) == True: print("Okay!") columns.append(letterlist_two.upper()) letter_three(columns) else: print("You made a mistake!") letter_two(columns) def letter_three(columns): letterlist_three = input("Input third letters: ") if lettercheck(letterlist_three) == True: print("Okay!") columns.append(letterlist_three.upper()) letter_four(columns) else: print("You made a mistake!") letter_three(columns) def letter_four(columns): letterlist_four = input("Input fourth letters:") if lettercheck(letterlist_four) == True: print("Okay!") columns.append(letterlist_four.upper()) letter_five(columns) else: print("You made a mistake!") letter_four(columns) def letter_five(columns): letterlist_five = input("Input fifth letters: ") if lettercheck(letterlist_five) == True: print("Okay!") columns.append(letterlist_five.upper()) print("Solving...") solver(columns,loadwords()) else: print("You made a mistake!") letter_five(columns) #okay good you've inputted your letters and they're correct! time to check em! def solver(columns,wordlist):#import the inputted words, and the list of words newwordlist = [] #make a new wordlist we'll use to alter(to stop list editing failures, lazy af) for word in range(0, len(wordlist) ):#for every word in the word list newwordlist.append(wordlist[word])#add that word to our new word list, this is a bad way of doing this #print the table of the letters youve added for column in range (0, len(columns)):#for every column in the list of inputted columns for row in range (0,len(columns[column])):#and for every row in the list of inputted columns print(str(columns[column][row] + " "), end="")#print each letter, then add a space, don't add a new line print("")#print the new line once the row is printed #time to check the inputs! for word in range(0, len(wordlist)):#for every word in the wordlist for letter in range(0, len(wordlist[word]) ):#and for every letter in every word in the wordlist if wordlist[word][letter] not in columns[letter]:#check if the letter is in that column try:#just in case the word has already been taken out of our list newwordlist.remove(wordlist[word])#remove the word it can't be from our new list except:"Word already removed!" try: print("The answer is: " + str(newwordlist[0].upper()) )#print our new word list! except: print("I can't find the word, are you sure you inputted right?!") def play():#play script to launch the commands columns=[] letter_one([]) play()

class BeaxyIOError(IOError): def __init__(self, msg, response, result, *args, **kwargs): self.response = response self.result = result super(BeaxyIOError, self).__init__(msg, *args, **kwargs)

class Solution(object): def lengthOfLongestSubstring(self, s): if not s: return 0 start, end = 0, 0 seen = set() ans = 0 while end < len(s): if s[end] not in seen: seen.add(s[end]) ans = max(ans, (end-start)+1) end += 1 else: while s[end] in seen: seen.remove(s[start]) start += 1 return ans abc = Solution() print (abc.lengthOfLongestSubstring(" "))

# generated from genmsg/cmake/pkg-genmsg.context.in messages_str = "/home/mayur/ros jade files/catkin_ws/src/Udacity-SDC-Radar-Driver-Micro-Challenge/ros/src/sensing/drivers/can/packages/kvaser/msg/CANESR.msg" services_str = "" pkg_name = "kvaser" dependencies_str = "std_msgs;visualization_msgs" langs = "gencpp;geneus;genlisp;gennodejs;genpy" dep_include_paths_str = "kvaser;/home/mayur/ros jade files/catkin_ws/src/Udacity-SDC-Radar-Driver-Micro-Challenge/ros/src/sensing/drivers/can/packages/kvaser/msg;std_msgs;/opt/ros/kinetic/share/std_msgs/cmake/../msg;visualization_msgs;/opt/ros/kinetic/share/visualization_msgs/cmake/../msg;geometry_msgs;/opt/ros/kinetic/share/geometry_msgs/cmake/../msg" PYTHON_EXECUTABLE = "/usr/bin/python" package_has_static_sources = '' == 'TRUE' genmsg_check_deps_script = "/opt/ros/kinetic/share/genmsg/cmake/../../../lib/genmsg/genmsg_check_deps.py"

file = open("input", "r") good_passwords = 0 for line in file.readlines(): poss, char, word = line.strip().split() pos_one, pos_two = poss.split("-") char = char[0] if (word[int(pos_one) - 1] == char) != (word[int(pos_two) - 1] == char): good_passwords += 1 print(good_passwords)

# Hotel Receptionist (1061100) | Sleepywood Hotel array = [# Name, MesoCost, Map ID ["Regular", 499, 105000011], ["VIP", 999, 105000012] ] sm.sendNext("Welcome. We're the Sleepywood Hotel. " "Our hotel works hard to serve you the best at all times. " "If you are tired and worn out from hunting, how about a relaxing stay at our hotel?") selection = sm.sendNext("We offer two kinds of rooms for our service. " "Please choose the one of your liking.\r\n#b" "#L0#"+ array[0][0] +" sauna (" + str(array[0][1]) + " mesos)#l\r\n" "#L1#"+ array[1][0] +" sauna (" + str(array[1][1]) + " mesos)#l") if selection == 0: response = sm.sendAskYesNo("You have chosen the regular sauna. \r\n" "Your HP and MP will recover fast and you can even purchase some items there. " "Are you sure you want to go in?") elif selection == 1: response = sm.sendAskYesNo("You've chosen the VIP sauna. \r\n" "Your HP and MP will recover even faster than that of the regular sauna and you can even find a special item in there. " "Are you sure you want to go in?") if sm.getMesos() < array[selection][1]: sm.sendSayOkay("I'm sorry. It looks like you don't have enough mesos. It will cost you at least " + str(array[selection][1]) + " mesos to stay at our "+ array[selection][0] +" sauna.") else: sm.warp(array[selection][2], 0) sm.deductMesos(array[selection][1])

### Merge Sort def merge_sort(A): """ Given a list A, sort it using merge sort. First divide the list into two halves, then resursively sort each half. Return the sorted list. If the list has length less than 2, return the list since it's already sorted. """ n = len(A) if n < 2: return A mid = n // 2 #floor division left = merge_sort(A[:mid]) right = merge_sort(A[mid:]) return merge(left, right) def merge(left, right): """ Given two sorted lists, merge them into one sorted list. Save the sorted list into the result list. left: left sorted sublist right: right sorted sublist i and j are variables to be used later. i: index of the left sublist j: index of the right sublist """ result = [] i = j = 0 while i < len(left) and j < len(right): if left[i] <= right[j]: result.append(left[i]) i += 1 else: result.append(right[j]) j += 1 result += left[i:] result += right[j:] return result sorted = merge_sort([3,2,1,4,5,6,10,9,8,7]) print(sorted)

def init_parse(init): dicinit = {} init = open('%s'%init,'r') lines = init.readlines() lines = [x.strip( ) for x in lines] for line in lines: if line.startswith('#'): pass else: try: dicinit[line.split(' ')[0]] = line.split(' ')[2] except IndexError: break init.close() return dicinit

""" This is where we should implement any and all job function for the redis queue. The rq library requires special namespacing in order to work, so these functions must reside in a separate file. """

""" A decorator that makes a class a singleton """ # pylint: disable=too-few-public-methods class Singleton: """ A singleton class """ instances = {} def __new__(cls, clz=None): """ Returns a new instance ONLY if one does not already exist """ if clz is None: if cls.__name__ not in Singleton.instances: Singleton.instances[cls.__name__] = object.__new__(cls) return Singleton.instances[cls.__name__] Singleton.instances[clz.__name__] = clz() Singleton.first = clz return type(clz.__name__, (Singleton,), dict(clz.__dict__))

try: print("Enter the 20 input Number to get summary") num=[] for i in range(0, 20): temp = int(input()) num.append(temp) print(f"List with Number's : {num}\nlength :{len(num)}") count_p=0 count_n=0 count_odd=0 count_even=0 count_zero=0 for i in num: if i>0: count_p+=1 if i<0: count_n+=1 if i==0: count_zero+=1 if i%2==0: count_even+=1 if i%2!=0: count_odd+=1 print(f"Summary About List of 20 Number Entered\nnumber of positive numbers :{count_p}\nnumber of negative numbers :{count_n}\n" f"number of odd numbers :{count_odd}\nnumber of even numbers :{count_even}\nnumber of Zero's :{count_zero}") except Exception as E: print(E)

class Solution: def solve(self, strs): return sorted(strs, reverse = True)

""" You can uncomment on the setting parameters below ================================== """ """ This parameter is used to determine the specific user to executes the kolla ansible command """ # USER_EXEC_KOLLA_COMMAND = "root" """ This parameter is used to determine the location of the hosts file """ # CONFIG_DIR_HOST = "/etc/hosts" """ This parameter is used to determine the storage location for the multinode and globals.yaml files """ # CONFIG_DIR_MULTINODE = "/home/kolla/multinode" # CONFIG_DIR_GLOBAL_YML = "/etc/kolla/globals.yml" ALLOWED_HOSTS = ['*']

before_array_dict = [ {"theRealCat": "unavailable", "code": "callback-http-failure-status", "nestedDeeply": { "stillNesting": { "yetStillNesting": { "wowSuchNest": True } } }, "details": [{"nextId": "ued-abc123", "name": "callnextId", "superValue": "c-abc123"}, {"nextId": "ued-abc123", "name": "callbackStatusCode", "superValue": "404"}, {"nextId": "ued-abc123", "name": "totalDuration", "superValue": "55"}, {"nextId": "ued-abc123", "name": "responseDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "requestDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "callbackUrl", "superValue": "http://google.com"}, {"nextId": "ued-abc123", "name": "callbackMethod", "superValue": "POST"}, {"nextId": "ued-abc123", "name": "callbackEvent", "superValue": "hangup"}], "nextId": "ue-abc123", "message": "The callback returned an HTTP failure status", "time": "2017-02-28T15:40:35Z"}, {"theRealCat": "unavailable", "code": "callback-http-failure-status", "newErrorMessage": [ [ "a", "b", "c" ], [ "a", "b", "c" ] ], "errorMessagesABC123": [ { "valueLesser": [ { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEzzznabled": True, "bigDisabled": [ "abc", "123", "xyz" ] } ] }, { "valueLesser": [ { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] } ] }, { "valueLesser": [ { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] } ] }, { "valueLesser": [ { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] }, { "smallEnabled": True, "bigDisabled": [ "abc", "123", "xyz" ] } ] } ], "details": [{"nextId": "ued-abc123", "name": "callnextId", "superValue": "c-abc123"}, {"nextId": "ued-abc123", "name": "callbackStatusCode", "superValue": "404"}, {"nextId": "ued-abc123", "name": "totalDuration", "superValue": "7195"}, {"nextId": "ued-abc123", "name": "responseDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "requestDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "callbackUrl", "superValue": "http://google.com"}, {"nextId": "ued-abc123", "name": "callbackMethod", "superValue": "POST"}, {"nextId": "ued-abc123", "name": "callbackEvent", "superValue": "incomingcall"}], "nextId": "ue-abc123", "message": "The callback returned an HTTP failure status", "time": "2017-02-28T15:40:03Z"}, {"theRealCat": "unavailable", "code": "callback-http-failure-status", "details": [{"nextId": "ued-abc123", "name": "messagenextId", "superValue": "m-abc123"}, {"nextId": "ued-abc123", "name": "totalDuration", "superValue": "37"}, {"nextId": "ued-abc123", "name": "responseDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "callbackStatusCode", "superValue": "405"}, {"nextId": "ued-abc123", "name": "requestDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "callbackUrl", "superValue": "http://google.com"}, {"nextId": "ued-abc123", "name": "callbackMethod", "superValue": "POST"}, {"nextId": "ued-abc123", "name": "callbackEvent", "superValue": "sms"}], "nextId": "ue-abc123", "message": "The callback returned an HTTP failure status", "time": "2017-02-27T16:45:54Z"}, {"theRealCat": "unavailable", "code": "callback-http-failure-status", "details": [{"nextId": "ued-abc123", "name": "totalDuration", "superValue": "20"}, {"nextId": "ued-abc123", "name": "responseDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "requestDuration", "superValue": "0"}, {"nextId": "ued-abc123", "name": "callbackUrl", "superValue": "http://google.com"}, {"nextId": "ued-abc123", "name": "messagenextId", "superValue": "m-abc123"}, {"nextId": "ued-abc123", "name": "callbackStatusCode", "superValue": "405"}, {"nextId": "ued-abc123", "name": "callbackMethod", "superValue": "POST"}, {"nextId": "ued-abc123", "name": "callbackEvent", "superValue": "sms"}], "nextId": "ue-abc123", "message": "The callback returned an HTTP failure status", "time": "2017-02-27T16:45:50Z"}] after_array_dict = [{'code': 'callback-http-failure-status', 'details': [{'name': 'callnextId', 'next_id': 'ued-abc123', 'super_value': 'c-abc123'}, {'name': 'callbackStatusCode', 'next_id': 'ued-abc123', 'super_value': '404'}, {'name': 'totalDuration', 'next_id': 'ued-abc123', 'super_value': '55'}, {'name': 'responseDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'requestDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'callbackUrl', 'next_id': 'ued-abc123', 'super_value': 'http://google.com'}, {'name': 'callbackMethod', 'next_id': 'ued-abc123', 'super_value': 'POST'}, {'name': 'callbackEvent', 'next_id': 'ued-abc123', 'super_value': 'hangup'}], 'message': 'The callback returned an HTTP failure status', 'nested_deeply': {'still_nesting': {'yet_still_nesting': {'wow_such_nest': True}}}, 'next_id': 'ue-abc123', 'the_real_cat': 'unavailable', 'time': '2017-02-28T15:40:35Z'}, {'code': 'callback-http-failure-status', 'details': [{'name': 'callnextId', 'next_id': 'ued-abc123', 'super_value': 'c-abc123'}, {'name': 'callbackStatusCode', 'next_id': 'ued-abc123', 'super_value': '404'}, {'name': 'totalDuration', 'next_id': 'ued-abc123', 'super_value': '7195'}, {'name': 'responseDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'requestDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'callbackUrl', 'next_id': 'ued-abc123', 'super_value': 'http://google.com'}, {'name': 'callbackMethod', 'next_id': 'ued-abc123', 'super_value': 'POST'}, {'name': 'callbackEvent', 'next_id': 'ued-abc123', 'super_value': 'incomingcall'}], 'error_messages_abc123': [{'value_lesser': [{'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_ezzznabled': True}]}, {'value_lesser': [{'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}]}, {'value_lesser': [{'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}]}, {'value_lesser': [{'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}, {'big_disabled': ['abc', '123', 'xyz'], 'small_enabled': True}]}], 'message': 'The callback returned an HTTP failure status', 'new_error_message': [['a', 'b', 'c'], ['a', 'b', 'c']], 'next_id': 'ue-abc123', 'the_real_cat': 'unavailable', 'time': '2017-02-28T15:40:03Z'}, {'code': 'callback-http-failure-status', 'details': [{'name': 'messagenextId', 'next_id': 'ued-abc123', 'super_value': 'm-abc123'}, {'name': 'totalDuration', 'next_id': 'ued-abc123', 'super_value': '37'}, {'name': 'responseDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'callbackStatusCode', 'next_id': 'ued-abc123', 'super_value': '405'}, {'name': 'requestDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'callbackUrl', 'next_id': 'ued-abc123', 'super_value': 'http://google.com'}, {'name': 'callbackMethod', 'next_id': 'ued-abc123', 'super_value': 'POST'}, {'name': 'callbackEvent', 'next_id': 'ued-abc123', 'super_value': 'sms'}], 'message': 'The callback returned an HTTP failure status', 'next_id': 'ue-abc123', 'the_real_cat': 'unavailable', 'time': '2017-02-27T16:45:54Z'}, {'code': 'callback-http-failure-status', 'details': [{'name': 'totalDuration', 'next_id': 'ued-abc123', 'super_value': '20'}, {'name': 'responseDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'requestDuration', 'next_id': 'ued-abc123', 'super_value': '0'}, {'name': 'callbackUrl', 'next_id': 'ued-abc123', 'super_value': 'http://google.com'}, {'name': 'messagenextId', 'next_id': 'ued-abc123', 'super_value': 'm-abc123'}, {'name': 'callbackStatusCode', 'next_id': 'ued-abc123', 'super_value': '405'}, {'name': 'callbackMethod', 'next_id': 'ued-abc123', 'super_value': 'POST'}, {'name': 'callbackEvent', 'next_id': 'ued-abc123', 'super_value': 'sms'}], 'message': 'The callback returned an HTTP failure status', 'next_id': 'ue-abc123', 'the_real_cat': 'unavailable', 'time': '2017-02-27T16:45:50Z'}] {'created_time': '2014-04-14T19:16:07Z', 'id': 'n-dsd3wg3o4ng33icuooksngi', 'name': 'Jailbreak Phone', 'national_number': '(502) 286-6496', 'number': '+15022866496', 'number_state': 'released', 'price': '0.35'}

class Solution: def findTheWinner(self, n: int, k: int) -> int: # edge cases if n == 1: return 1 if k == 1: return n # general cases circle = [i for i in range(1,n+1)] start = 0 while len(circle) > 1: start = (start + k -1) % len(circle) #print(start) del circle[start] return circle[0]

def list_of_multiples (num, length): return [i*num for i in range(1,length+1)] #Problem statement: Create a function that takes two numbers as arguments (num, length) and returns a list of multiples of num up to length. #Problem Link: https://edabit.com/challenge/BuwHwPvt92yw574zB

__author__ = 'wangjian'

#CB 03/03/2019 #GMIT Data Analytics Programming & Scripting Module 2019 #Problem Sets #Problem Set 1 #Setting up a user-defined variable 'i', and asking the user to enter a positive integer as 'i' i = int(input("Please enter a positive integer: ")) #Setting up the 'total' variable, which will track the output value in the while-loop total = 0 #Setting up the while loop that will accumulate the 'total' to be output while i>0: total = total + i i = i - 1 #print the final output for the user to see print (total)

class NumArray: def __init__(self, nums: 'List[int]'): self.sums = [0] for num in nums: self.sums.append(self.sums[-1] + num) def sumRange(self, i: int, j: int) -> int: return self.sums[j + 1] - self.sums[i] if __name__ == '__main__': num_array = NumArray([-2, 0, 3, -5, 2, -1]) print(num_array.sumRange(0, 2)) print(num_array.sumRange(2, 5)) print(num_array.sumRange(0, 5))

#!/usr/bin/env python # -*- coding: utf-8 -*- # # Copyright 2016, 2017, 2018 Guenter Bartsch # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # def get_data(k): k.dte.set_prefixes([u'']) k.dte.dt('en', u"what is wine", u"An alcoholic drink made from fermented grape juice.") k.dte.dt('de', u"was ist wein", u"Ein alkoholisches Getränk aus fermentiertem Traubensaft.")

# Requires mock server set up on localhost:3000 # Try out Mockoon for this: https://github.com/mockoon/mockoon # They even provide sample responses for each API: https://github.com/mockoon/mock-samples SPOTIFY_WEB_API = "http://localhost:3000/v1" SPOTIFY_AUTH_API = "http://localhost:3000/v1/auth" GROUPS_TABLE = "SmoothieGroupsDev"

def cartpole_analytical_derivatives(model, data, x, u=None): if u is None: u = model.unone # Getting the state and control variables y, th, ydot, thdot = x[0].item(), x[1].item(), x[2].item(), x[3].item() f = u[0].item() # Shortname for system parameters m1, m2, l, g = model.m1, model.m2, model.l, model.g s, c = np.sin(th), np.cos(th) m = m1 + m2 mu = m1 + m2 * s**2 w = model.costWeights # derivative of xddot by x, theta, xdot, thetadot # derivative of thddot by x, theta, xdot, thetadot data.Fx[:, :] = np.array( [[0.0, (m2 * g * c * c - m2 * g * s * s - m2 * l * c * thdot) / mu, 0.0, -m2 * l * s / mu], [ 0.0, ((-s * f / l) + (m * g * c / l) - (m2 * c * c * thdot**2) + (m2 * s * s * thdot**2)) / mu, 0.0, -2 * m2 * c * s * thdot ]]) # derivative of xddot and thddot by f data.Fu[:] = np.array([1 / mu, c / (l * mu)]) # first derivative of data.cost by x, theta, xdot, thetadot data.Lx[:] = np.array([y * w[2]**2, s * ((w[0]**2 - w[1]**2) * c + w[1]**2), ydot * w[3]**2, thdot * w[4]**2]) # first derivative of data.cost by f data.Lu[:] = np.array([f * w[5]**2]) # second derivative of data.cost by x, theta, xdot, thetadot data.Lxx[:] = np.array([w[2]**2, w[0]**2 * (c**2 - s**2) + w[1]**2 * (s**2 - c**2 + c), w[3]**2, w[4]**2]) # second derivative of data.cost by f data.Luu[:] = np.array([w[5]**2])

plays = ['Hamlet', 'Macbeth', 'King Lear'] plays.insert(1, 'Julius Caesar') print(plays) plays.insert(0, 'Romeo & Juliet') print(plays) plays.insert(10, "A Midsummer Night's Dreams") print(plays)

""" Problem 1 COORDINATE MATH: Fill in the Line class methods to accept coordinates as a pair of tuples and return the slope and distance of the line. EXAMPLE OUTPUT coordinate1 = (3,2) coordinate2 = (8,10) li = Line(coordinate1,coordinate2) """ class Line: def __init__(self,coor1,coor2): self.coor1 = coor1 self.coor2 = coor2 def distance(self): return "Lenght of a line defined by {} and {} is {}.".format(self.coor1, self.coor2, ((self.coor2[0] - self.coor1[0])**2 + (self.coor2[1] - self.coor1[1])**2)**(1/2)) def slope(self): return "Slope of a line defined by {} and {} is {}.".format(self.coor1, self.coor2, (self.coor2[1]-self.coor1[1])/(self.coor2[0]-self.coor1[0])) coordinate1 = (3,2) coordinate2 = (8,10) li = Line(coordinate1, coordinate2) li.distance() li.slope()

se_colors = { 'TV Application Layer': '#D9D9D9', 'Second Screen Framework': '#B67272', 'Audio Mining': '#F23A3A', 'Content Optimisation': '#00B0F0', 'HbbTV Application Toolkit': '#FF91C4', 'Open City Database': '#61DDFF', 'POIProxy': '#C8F763', 'App Generator': '#1EC499', 'Fusion Engine': '#ECA2F5', 'OpenDataSoft': '#366092', 'Recommendation as a Service': '#FFC600', 'Context Aware Recommendation': '#037DA0', 'Leaderboard': '#FF8181', 'Reality Mixer - Camera Artifact Rendering': '#008A5F', 'Reality Mixer - Reflection Mapping': '#FFD92E', 'Augmented Reality - Marker Tracking': '#CCCCCC', 'Augmented Reality - Fast Feature Tracking': '#BEABD4', 'Game Synchronization': '#67B7D6', 'Geospatial - POI Interface': '#DBF5DA', 'Geospatial - POI Matchmaking': '#C4EAF5', 'Visual Agent Design': '#FFBB00', 'Networked Virtual Character': '#89B34B', 'Content Enrichment': '#F0C3A3', 'Social Network': '#FF33E7', 'Content Sharing': '#FFE0BF', 'POI Storage': '#91CCFF', '3D-Map Tiles': '#FFAB52' } def select_bgcolor(se_name): if se_name not in se_colors: return "#FFFFFF" return se_colors[se_name]

n = int(input('Digite um número inteiro: ')) b = int(input('Digite: \n[1] para binário \n[2] para octal \n[3] para hexadecimal \n Sua opção: ')) if b == 1: print('{} convertido para binário é {}'.format(n, bin(n)[2:])) elif b == 2: print('{} convertido para octal é {}'.format(n, oct(n)[2:])) elif b == 3: print('{} em hexadecimal é {}'.format(n, hex(n)[2:])) else: print('Opção inválida')

# from tkinter import * # janela = Tk() # texto = "Olá Mundo!, cheguei!" # label_1 = Label(janela, text = texto, font='Arial:20') # label_1.place(x=200, y=200) # janela.geometry('800x600+0+0') # janela.mainloop() # ***************************************************************** # def lin(): print('+=' * 24) print() def lin1(): print('\033[1;34m*=\033[m' * 21) print() def titulo(msg): print() msg = f' \033[1;3;4;7;34m{msg}\033[m ' # n = int(len(msg))/2 # lin2 = '+=' * int(n) lin() # print(lin2) # print() print(f'{msg:*^64}\n') # print(lin2) lin() # ***************************************************************** # # import linha # n = len(' Usando Funções em Python ') # print(type(n)) titulo(' Usando Funções em Python ') titulo('Olá Mundo') lin1() # linha.lin1()

__author__ = "Børge Jakobsen, Thomas Donegan" __copyright__ = "Copyright 2019, Brexit boy and SaLmon king" __credits__ = ["Børge Jakobsen, Thomas Donegan"] __license__ = "Apache License" __version__ = "2.0" __maintainer__ = "Børge Jakobsen, Thomas Donegan" __status__ = "Development" class User(): def __init__(self, username, password, channel, bot_name, bot_oauth, channel_token, created, last_active): self.username = username self.password = password self.channel = channel self.bot_name = bot_name self.bot_oauth = bot_oauth self.channel_token = channel_token self.created = created self.last_active = last_active

def factorial(num): if(num == 0): return 1 return num*factorial(num-1) def main(): #escribe tu código abajo de esta línea numero = int(input("Dame un número: ")) print(f"El factorial es: {factorial(numero)}") if __name__=='__main__': main()

class HashTable: def __init__(self): self.table = [[] for x in range(13)] def hash(self, key): chrcodes = sum([ord(x) for x in key]) return chrcodes % 13 def insert(self, key, data): # try to get existing key print(self.hash(key)) for item in self.table[self.hash(key)]: if item[0] == key: item[1] == data return self.table[self.hash(key)].append((key, data)) def remove(self, key): data = self.get(key) if data: self.table[self.hash(key)].remove((key, data)) def get(self, key): for item in self.table[self.hash(key)]: if item[0] == key: return item[1] return None

class Cliente: def __init__(self, nome, idade): self.nome = nome self.idade = idade self.enderecos = [] def insere_enderecos(self, cidade, estado): self.enderecos.append(Endereco(cidade, estado)) def lista_enderecos(self): for k in self.enderecos: print(k.cidade, k.estado) class Endereco: def __init__(self, cidade, estado): self.cidade = cidade self.estado = estado c1 = Cliente('Luiz', 32) c1.insere_enderecos('Belo Horizonte', 'MG') c2 = Cliente('Maria', 27) c2.insere_enderecos('Bahia', 'BA') c2.insere_enderecos('Rio de Janeiro', 'RJ') c3 = Cliente('Michelle', 22) c3.insere_enderecos('São Paulo', 'SP') c1.lista_enderecos() c2.lista_enderecos() c3.lista_enderecos()

# Get the plain text matrix (1 * 3 from a 3 letter word) def get_plain_text_matrix(plain_text): return [(ord(plain_text[i]) - 65) for i in range(3)] # Get the key matrix (3 * 3 mtx from a 9 letter word) def get_key_matrix(key): mtx = [[0] * 3 for _ in range(3)] counter = 0 for i in range(3): for j in range(3): mtx[i][j] = ord(key[counter]) - 65 counter += 1 return mtx # Get the cipher text matrix (1 * 3 mtx, since 1*3 x 3*3 = 1*3) def get_cipher_text_matrix(p_mtx, k_mtx): mtx = [0 for _ in range(3)] for i in range(3): for j in range(3): mtx[i] += ((p_mtx[j] * k_mtx[i][j])) mtx[i] %= 26 return mtx # Encryption Algorithm def encrypt(plain_text, key): plain_text_mtx = get_plain_text_matrix(plain_text) key_mtx = get_key_matrix(key) cipher_text_mtx = get_cipher_text_matrix(plain_text_mtx, key_mtx) return ''.join(chr(cipher_text_mtx[i] + 65) for i in range(3)) # Driver Code if __name__ == "__main__": # plain_text : 3 characters # key : 9 characters plain_text, key = "TSC", "developer" encrypted_text = encrypt(plain_text, key) print(f'The Encrypted Text is : {encrypted_text}')

class ShaderNodeBsdfTransparent: pass

''' Copyright [2017] [taurus.ai] Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ''' ''' first demo for new wingchun strategy system. you may run this program by: wingchun strategy -n my_test -p basic_usage.py ''' def req_pos(context): print('req_pos:{}'.format(context.req_pos(source=SOURCE.CTP))) def initialize(context): ''' # you may init your own parameters in context context.msg = 'first time try' context.a = 123 ''' print('--- running ' + context.get_name() + '---') # add CTP market data context.add_md(source=SOURCE.CTP) # add ctp trade engine context.add_td(source=SOURCE.CTP) context.register_bar(source=SOURCE.CTP, min_interval=1, start_time='21:30:00', end_time='23:30:00') # register bar market data context.subscribe(tickers=['rb1910'], source=SOURCE.CTP) context.insert_func_after_c(1, req_pos) def on_tick(context, market_data, source, rcv_time): print('[ON_TICK] InstrumentID {} price {} BP1 {} AP1 {}'.format(market_data.InstrumentID, market_data.LastPrice, market_data.BidPrice1, market_data.AskPrice1)) if context.order_id: return price = market_data.BidPrice1 print('[ON_TICK]--------------------- insert order PRICE {} ---------------------------'.format(price)) context.order_id = context.insert_limit_order(source=SOURCE.CTP, ticker=market_data.InstrumentID, price=price, exchange_id=EXCHANGE.SHFE, volume=1, direction=DIRECTION.Buy, offset=OFFSET.Open) context.insert_func_after_c(20, cancel) def cancel(context): if not context.order_id: return rid = context.cancel_order(source=SOURCE.CTP, order_id=context.order_id) print('[CANCEL] ORDER_ID {} -> RID {}'.format(context.order_id, rid)) def on_bar(context, bars, min_interval, source, rcv_time): print('[ON_BAR]: source {} rcv_time {}'.format(source, rcv_time)) for ticker, bar in bars.items(): print('[ON_BAR] ticker {} o {} h {} l {} c {}'.format(ticker, bar.Open, bar.High, bar.Low, bar.Close)) def on_error(context, error_id, error_msg, request_id, source, rcv_time): print('[ON_ERROR]: ERROR_ID {} ERROR_MSG {} REQUEST_ID {} RCV_TIME {} NANO {}'.format(error_id, error_msg, request_id, rcv_time, context.strategy_util.get_nano())) def on_rtn_order(context, rtn_order, order_id, source, rcv_time): print('[ON_RTN_ORDER]:(order_id){}, (OrderStatus){}, (OrderRef){}, (InstrumentID){}'.format(order_id, rtn_order.OrderStatus, rtn_order.OrderRef, rtn_order.InstrumentID)) if order_id == context.order_id and rtn_order.OrderStatus == ORDER_STATUS.Canceled: print('[ON_RTN_ORDER]:-----------------------------------order cancelled------------------------------') context.order_id = None def on_rtn_trade(context, rtn_trade, order_id, source, rcv_time): print('[ON_RTN_TRADE]:ORDER_ID {} ORDER_REF{} TICKER {} VOLUME {}'.format(order_id, rtn_trade.OrderRef, rtn_trade.InstrumentID, rtn_trade.Volume)) if order_id == context.order_id: context.order_id = None print('[ON_RTN_TRADE]===========================================order traded, finish!========================') context.stop() def on_switch_day(context, rcv_time): print('[ON_SWITCH_DAY] RCV_TIME {}'.format(rcv_time)) def on_pos(context, pos_handler, request_id, source, rcv_time): if request_id != -1: print('[ON_POS] REQUEST_ID {} SOURCE {} RCV_TIME {}'.format(request_id, source, rcv_time)) context.set_pos(pos_handler, SOURCE.CTP) for ticker in pos_handler.get_tickers(): print('[ON_POS] TICKER {} NET_TOT {} NET_YD {}'.format(ticker, pos_handler.get_net_tot(ticker), pos_handler.get_net_yd(ticker))) print('[ON_POS] TICKER {} LONG_TOT {} LONG_YD {}'.format(ticker, pos_handler.get_long_tot(ticker), pos_handler.get_long_yd(ticker))) print('[ON_POS]TICKER {} SHORT_TOT {} SHORT_YD {}'.format(ticker, pos_handler.get_short_tot(ticker), pos_handler.get_short_yd(ticker)))

# -*- coding: utf-8 -*- """ Created on Fri Feb 21 20:46:46 2020 @author: Administrator """ """ 如何判断一个数是否是2的n次方 """ def IsPowerof2(n): if n < 1: return False i = 1 while i <= n: if i == n: return True i <<= 1 return False if __name__ == "__main__": n = 17 if IsPowerof2(n): print(n , "is the power of 2!") else: print(n , "is not the power of 2!")

# auto parse def auto_json_to_graph_experiment(json_dict): process_original_json(json_dict) # tags normal_merge(json_dict, "Tag", "Chemical", "pk", "tags") normal_merge(json_dict, "Tag", "Mixture", "pk", "tags") normal_merge(json_dict, "Tag", "Experiment", "pk", "tags") # get property merge_prop_dict(json_dict, "PropertyName", "Property", "pk", "title", "value") merge_prop_dict(json_dict, "PropertyName", "PropertyChem", "pk", "title", "value") merge_prop_dict(json_dict, "PropertyName", "PropertyMixture", "pk", "title", "value") # append properties append_properties(json_dict, "PropertyChem", "Chemical", "level", "pk", "property") append_properties(json_dict, "PropertyMixture", "Mixture", "level", "pk", "property") # Mixture normal_merge(json_dict, "Chemical", "MixtureComponent", "pk", "chemical") # appnd series data append_properties(json_dict, "Property", "Step", "level", "pk", "property") append_properties(json_dict, "MixtureComponent", "Mixture", "level", "pk", "chemicals") # sort chemicals in a Mixture param_sort(json_dict, "Mixture", "chemicals") # step info normal_merge(json_dict, "Chemical", "Step", "pk", "chemical") normal_merge(json_dict, "Mixture", "Step", "pk", "Mixture") normal_merge(json_dict, "MutualKey", "Step", "pk", "mutual_key") normal_merge(json_dict, "Project", "Experiment", "pk", "project") # experiment append_properties(json_dict, "Step", "Experiment", "level", "pk", "step") param_sort(json_dict, "Experiment", "step") return json_dict # ---------- util funcs------------ def process_original_json(json_dict): """ preprocess original json data generated by django """ for target_key in json_dict.keys(): target_dict_list = json_dict[target_key] for target_dict in target_dict_list: # delete unnecessary keys if "model" in target_dict.keys(): target_dict.pop("model") # extract fields FIELDS = "fields" if FIELDS in target_dict.keys(): for k, v in target_dict[FIELDS].items(): target_dict[k] = v target_dict.pop(FIELDS) # ------------merging functions------------- # get property name # merge property data def merge_prop_dict(json_dict, son_name, parent_name, son_key, parent_key, prop_title): if parent_name not in json_dict: return if son_name not in json_dict: return son_list = json_dict[son_name] parent_list = json_dict[parent_name] for parent_record in parent_list: # print(parent_record,parent_key) # if parent_key not in parent_record: # continue query_id = parent_record[parent_key] count = 0 for son_record in son_list: # print(son_record,son_key) if son_record[son_key] == query_id: query_value = son_record[parent_key] parent_record[f"{query_value}"] = parent_record[prop_title] parent_record.pop(prop_title) parent_record.pop(parent_key) count += 1 if count == 0: print("not found!") # append property data def append_properties(json_dict, son_name, parent_name, son_key, parent_key, prop_title): if parent_name not in json_dict: return if son_name not in json_dict: return son_list = json_dict[son_name] parent_list = json_dict[parent_name] for son_record in son_list: if son_key not in son_record: continue query_id = son_record[son_key] flg = False for parent_record in parent_list: checksum = parent_record[parent_key] == query_id if checksum: if prop_title not in parent_record: parent_record[prop_title] = [] parent_record[prop_title].append(son_record) flg = True break if not flg: print("not found!") # normal merge def normal_merge(json_dict, son_name, parent_name, son_key, parent_key): if parent_name not in json_dict: return if son_name not in json_dict: return son_list = json_dict[son_name] parent_list = json_dict[parent_name] for parent_record in parent_list: if parent_key not in parent_record.keys(): continue query_id = parent_record[parent_key] count = 0 nested_prop_list = [] for son_record in son_list: # foreign key if type(query_id) is not list: if son_record[son_key] == query_id: parent_record[parent_key] = son_record count += 1 # many to many else: for nested_query_id in query_id: if son_record[son_key] == nested_query_id: nested_prop_list.append(son_record) count += 1 parent_record[parent_key] = str(nested_prop_list) def param_sort(json_dict, prop_name, target_name): if prop_name not in json_dict: return target_list = json_dict[prop_name] for target_dict in target_list: if target_name in target_dict.keys(): arr = target_dict[target_name] arr = sorted(arr, key=lambda x: (x["order"], x['pk'])) target_dict[target_name] = arr # [::-1]

class Employee(): def __init__(self, name, salary): self.name = name self.salary = salary self.is_db_connected = False def __enter__(self): print("entered") self.is_db_connected = True # must return self because in the with employee as e: e becomes the value returned from __enter__ return self def __exit__(self, type, value, traceback): print("exited") self.is_db_connected = False def get_salary(self): if(self.is_db_connected): print(self.salary) else: print("db is not connected") employee = Employee("can", 1000) employee.get_salary() with employee as e: e.get_salary()

##x = input() ##if str(x)[::-1] == str(x): ## print("yes") ##else: ## print("no") x = input() x.replace(" ", "") l = 0 r = len(x) - 1 output = 'yes' while l < r: if x[l] != x[r]: output = 'no' break else: l += 1 r -= 1 print(output)

string1 = input("") string2 = input("") lenStrings = len(string1) arr = [[0]*(lenStrings+1) for n in range(lenStrings+1)] for i in range(1,lenStrings+1): for j in range(1,lenStrings+1): match = arr[i-1][j-1] if string1[i-1] == string2[j-1]: match += 1 arr[i][j] = max(arr[i][j-1],arr[i-1][j],match) print(arr[lenStrings][lenStrings])

class Solution: def findMaxAverage(self, nums, k: int) -> float: # Avoid computations by working with a window of 1. We find the # average of k-1 elements and add/remove values from the ends. limit = k-1 start, max_avg = sum(nums[:limit]) / k, -(10 << 30) for i in range(limit, len(nums)): final_value = nums[i] / k candidate = start + final_value if candidate > max_avg: max_avg = candidate # remove first term of sum and add final start += (final_value - nums[i - limit] / k) return max_avg

EE_BASE = "https://elections.democracyclub.org.uk/" """ Every Election settings Set CHECK to True to check Every Election to see if there is an election happening before serving a poling station result Set CHECK to False to return the value of HAS_ELECTION instead This is mostly useful in development when we want to see results even if there is no election happening """ EVERY_ELECTION = {"CHECK": True, "HAS_ELECTION": True} ELECTION_BLACKLIST = [ "local.epping-forest.moreton-and-fyfield.by.2018-05-03" # uncontested ]

#Faça um Programa que leia um vetor de 10 números reais e mostre-os na ordem inversa vetor= [1.1,2.3,4.5,6.5,7.6,8.8,9.6,9.5,9.9,8.5] i=10 for i in range (10): vetor = vetor + [i] for i in range (9,-1,-1): print (vetor[i])

# Section 5.15 snippets # Finding the Minimum and Maximum Values Using a Key Function 'Red' < 'orange' ord('R') ord('o') colors = ['Red', 'orange', 'Yellow', 'green', 'Blue'] min(colors, key=lambda s: s.lower()) max(colors, key=lambda s: s.lower()) # Iterating Backwards Through a Sequence numbers = [10, 3, 7, 1, 9, 4, 2, 8, 5, 6] reversed_numbers = [item ** 2 for item in reversed(numbers)] reversed_numbers # Combining Iterables into Tuples of Corresponding Elements names = ['Bob', 'Sue', 'Amanda'] grade_point_averages = [3.5, 4.0, 3.75] for name, gpa in zip(names, grade_point_averages): print(f'Name={name}; GPA={gpa}') ########################################################################## # (C) Copyright 2019 by Deitel & Associates, Inc. and # # Pearson Education, Inc. All Rights Reserved. # # # # DISCLAIMER: The authors and publisher of this book have used their # # best efforts in preparing the book. These efforts include the # # development, research, and testing of the theories and programs # # to determine their effectiveness. The authors and publisher make # # no warranty of any kind, expressed or implied, with regard to these # # programs or to the documentation contained in these books. The authors # # and publisher shall not be liable in any event for incidental or # # consequential damages in connection with, or arising out of, the # # furnishing, performance, or use of these programs. # ##########################################################################

#!/usr/bin/python def Fibonaci_iter(n): if (n == 0): return 0 elif (n == 1): return 1 elif (n > 1): fn = 0 fn1 = 1 fn2 = 1 while n > 2: fn = fn1 + fn2 fn1 = fn2 fn2 = fn n = n - 1 return fn print(Fibonaci_iter(5))

# Copyright 2021 The Perkeepy Authors # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. class CamliSig: @staticmethod def from_armored_gpg_signature(armored_gpg_signature: str) -> str: # Cleanup before looking for indexes armored_gpg_signature = armored_gpg_signature.strip() # Look for start and end indexes start_index: int = armored_gpg_signature.index("\n\n") end_index: int = armored_gpg_signature.index("\n-----") # Isolate the sig signature: str = armored_gpg_signature[start_index:end_index] # Remove newlines signature = signature.replace("\n", "") return signature @staticmethod def to_armored_gpg_signature(camli_sig: str) -> str: armored_gpg_signature: str = "-----BEGIN PGP SIGNATURE-----\n\n" # Extract the CRC last_equal_index: int = camli_sig.rindex("=") crc: str = camli_sig[last_equal_index:] camli_sig = camli_sig[:last_equal_index] chunks: list[str] = [] while camli_sig: chunks.append(camli_sig[:64]) camli_sig = camli_sig[64:] chunks.append(crc) armored_gpg_signature += "\n".join(chunks) armored_gpg_signature += "\n" armored_gpg_signature += "-----END PGP SIGNATURE-----\n" return armored_gpg_signature

# # PySNMP MIB module TIMETRA-TC-MIB (http://snmplabs.com/pysmi) # ASN.1 source file:///Users/davwang4/Dev/mibs.snmplabs.com/asn1/TIMETRA-TC-MIB # Produced by pysmi-0.3.4 at Mon Apr 29 17:01:12 2019 # On host DAVWANG4-M-1475 platform Darwin version 18.5.0 by user davwang4 # Using Python version 3.7.3 (default, Mar 27 2019, 09:23:15) # Integer, OctetString, ObjectIdentifier = mibBuilder.importSymbols("ASN1", "Integer", "OctetString", "ObjectIdentifier") NamedValues, = mibBuilder.importSymbols("ASN1-ENUMERATION", "NamedValues") ConstraintsIntersection, SingleValueConstraint, ConstraintsUnion, ValueRangeConstraint, ValueSizeConstraint = mibBuilder.importSymbols("ASN1-REFINEMENT", "ConstraintsIntersection", "SingleValueConstraint", "ConstraintsUnion", "ValueRangeConstraint", "ValueSizeConstraint") NotificationGroup, ModuleCompliance = mibBuilder.importSymbols("SNMPv2-CONF", "NotificationGroup", "ModuleCompliance") ObjectIdentity, IpAddress, Gauge32, iso, ModuleIdentity, Counter32, MibIdentifier, MibScalar, MibTable, MibTableRow, MibTableColumn, NotificationType, Bits, Integer32, Unsigned32, TimeTicks, Counter64 = mibBuilder.importSymbols("SNMPv2-SMI", "ObjectIdentity", "IpAddress", "Gauge32", "iso", "ModuleIdentity", "Counter32", "MibIdentifier", "MibScalar", "MibTable", "MibTableRow", "MibTableColumn", "NotificationType", "Bits", "Integer32", "Unsigned32", "TimeTicks", "Counter64") TextualConvention, DisplayString = mibBuilder.importSymbols("SNMPv2-TC", "TextualConvention", "DisplayString") timetraModules, = mibBuilder.importSymbols("TIMETRA-GLOBAL-MIB", "timetraModules") timetraTCMIBModule = ModuleIdentity((1, 3, 6, 1, 4, 1, 6527, 1, 1, 2)) timetraTCMIBModule.setRevisions(('1911-02-01 00:00', '1909-02-28 00:00', '1908-07-01 00:00', '1908-01-01 00:00', '1907-01-01 00:00', '1906-03-23 00:00', '1905-08-31 00:00', '1905-01-24 00:00', '1904-01-15 00:00', '1903-08-15 00:00', '1903-01-20 00:00', '1901-05-29 00:00',)) if mibBuilder.loadTexts: timetraTCMIBModule.setLastUpdated('201102010000Z') if mibBuilder.loadTexts: timetraTCMIBModule.setOrganization('Alcatel-Lucent') class InterfaceIndex(TextualConvention, Integer32): status = 'current' displayHint = 'd' class TmnxPortID(TextualConvention, Unsigned32): status = 'current' class TmnxEncapVal(TextualConvention, Unsigned32): status = 'current' class QTag(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 4094) class QTagOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 4094) class QTagFullRange(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 4095) class QTagFullRangeOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 4095), ) class TmnxStrSapId(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 32) class IpAddressPrefixLength(TextualConvention, Integer32): reference = '' status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 32) class TmnxActionType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("doAction", 1), ("notApplicable", 2)) class TmnxAdminState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("noop", 1), ("inService", 2), ("outOfService", 3)) class TmnxOperState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4)) namedValues = NamedValues(("unknown", 1), ("inService", 2), ("outOfService", 3), ("transition", 4)) class TmnxStatus(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("create", 1), ("delete", 2)) class TmnxEnabledDisabled(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("enabled", 1), ("disabled", 2)) class TmnxEnabledDisabledOrInherit(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("enabled", 1), ("disabled", 2), ("inherit", 3)) class TNamedItem(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 32) class TNamedItemOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(0, 0), ValueSizeConstraint(1, 32), ) class TLNamedItem(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 64) class TLNamedItemOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(0, 0), ValueSizeConstraint(1, 64), ) class TItemDescription(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 80) class TItemLongDescription(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 160) class TmnxVRtrID(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 10240) class TmnxVRtrIDOrZero(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 10240) class TmnxBgpAutonomousSystem(TextualConvention, Integer32): reference = 'BGP4-MIB.bgpPeerRemoteAs' status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 65535) class TmnxBgpLocalPreference(TextualConvention, Unsigned32): reference = 'RFC 1771 section 4.3 Path Attributes e)' status = 'current' class TmnxBgpPreference(TextualConvention, Unsigned32): reference = 'RFC 1771 section 4.3 Path Attributes e)' status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 255) class TmnxCustId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 2147483647), ) class BgpPeeringStatus(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)) namedValues = NamedValues(("notApplicable", 0), ("installed", 1), ("notInstalled", 2), ("noEnhancedSubmgt", 3), ("wrongAntiSpoof", 4), ("parentItfDown", 5), ("hostInactive", 6), ("noDualHomingSupport", 7), ("invalidRadiusAttr", 8), ("noDynamicPeerGroup", 9), ("duplicatePeer", 10), ("maxPeersReached", 11), ("genError", 12)) class TmnxServId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 2147483647), ValueRangeConstraint(2147483648, 2147483648), ValueRangeConstraint(2147483649, 2147483649), ValueRangeConstraint(2147483650, 2147483650), ) class ServiceAdminStatus(TextualConvention, Integer32): reference = '' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("up", 1), ("down", 2)) class ServiceOperStatus(TextualConvention, Integer32): reference = '' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("up", 1), ("down", 2)) class TPolicyID(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 65535), ValueRangeConstraint(65536, 65536), ValueRangeConstraint(65537, 65537), ) class TTmplPolicyID(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 65535) class TSapIngressPolicyID(TPolicyID): status = 'current' class TSapEgressPolicyID(TPolicyID): status = 'current' subtypeSpec = TPolicyID.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(1, 65535), ValueRangeConstraint(65536, 65536), ValueRangeConstraint(65537, 65537), ) class TSdpIngressPolicyID(TPolicyID): status = 'current' class TSdpEgressPolicyID(TPolicyID): status = 'current' class TQosQGrpInstanceIDorZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 65535), ) class TmnxBsxTransitIpPolicyId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 65535) class TmnxBsxTransitIpPolicyIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 65535), ) class TmnxBsxTransPrefPolicyId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 65535) class TmnxBsxTransPrefPolicyIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 65535), ) class TmnxBsxAarpId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 65535) class TmnxBsxAarpIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 65535), ) class TmnxBsxAarpServiceRefType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("none", 0), ("dualHomed", 1), ("shuntSubscriberSide", 2), ("shuntNetworkSide", 3)) class TSapEgrEncapGrpQosPolicyIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 65535), ) class TSapEgrEncapGroupType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1)) namedValues = NamedValues(("isid", 1)) class TSapEgrEncapGroupActionType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("create", 1), ("destroy", 2)) class TPerPacketOffset(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(-32, 31) class TPerPacketOffsetOvr(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-128, -128), ValueRangeConstraint(-32, 31), ) class TIngressHsmdaPerPacketOffset(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(-32, 31) class TEgressQPerPacketOffset(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(-64, 32) class TIngHsmdaPerPacketOffsetOvr(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-128, -128), ValueRangeConstraint(-32, 31), ) class TEgressHsmdaPerPacketOffset(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(-32, 31) class THsmdaCounterIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class THsmdaCounterIdOrZeroOrAll(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TEgrHsmdaPerPacketOffsetOvr(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-128, -128), ValueRangeConstraint(-32, 31), ) class TIngressHsmdaCounterId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 8) class TIngressHsmdaCounterIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TEgressHsmdaCounterId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 8) class TEgressHsmdaCounterIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TEgrRateModType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("none", 1), ("aggRateLimit", 2), ("namedScheduler", 3)) class TPolicyStatementNameOrEmpty(TNamedItemOrEmpty): status = 'current' class TmnxVcType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 9, 10, 11, 17, 18, 19, 20, 21, 23, 25, 4096)) namedValues = NamedValues(("frDlciMartini", 1), ("atmSdu", 2), ("atmCell", 3), ("ethernetVlan", 4), ("ethernet", 5), ("atmVccCell", 9), ("atmVpcCell", 10), ("ipipe", 11), ("satopE1", 17), ("satopT1", 18), ("satopE3", 19), ("satopT3", 20), ("cesopsn", 21), ("cesopsnCas", 23), ("frDlci", 25), ("mirrorDest", 4096)) class TmnxVcId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 4294967295) class TmnxVcIdOrNone(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 4294967295), ) class Dot1PPriority(TextualConvention, Integer32): reference = '' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 7), ) class Dot1PPriorityMask(TextualConvention, Integer32): reference = '' status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 7) class ServiceAccessPoint(TextualConvention, Integer32): reference = 'assigned numbers: http://www.iana.org/assignments/ieee-802-numbers' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 255), ) class TLspExpValue(TextualConvention, Integer32): reference = '' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 7), ) class TIpProtocol(TextualConvention, Integer32): reference = 'http://www.iana.org/assignments/protocol-numbers' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 255), ) class TIpOption(TextualConvention, Integer32): reference = 'http://www.iana.org/assignments/ip-parameters' status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 255) class TTcpUdpPort(TextualConvention, Integer32): reference = 'http://www.iana.org/assignments/port-numbers' status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 65535), ) class TOperator(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4)) namedValues = NamedValues(("none", 0), ("eq", 1), ("range", 2), ("lt", 3), ("gt", 4)) class TTcpUdpPortOperator(TOperator): status = 'current' class TFrameType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 5)) namedValues = NamedValues(("e802dot3", 0), ("e802dot2LLC", 1), ("e802dot2SNAP", 2), ("ethernetII", 3), ("atm", 5)) class TQueueId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 32), ) class TQueueIdOrAll(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 32), ) class TIngressQueueId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 32), ) class TIngressMeterId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 32), ) class TSapIngressMeterId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 32), ) class TNetworkIngressMeterId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 16), ) class TEgressQueueId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TIngressHsmdaQueueId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TEgressHsmdaQueueId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class THsmdaSchedulerPolicyGroupId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 2), ) class THsmdaPolicyIncludeQueues(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("q1to2", 1), ("q1to3", 2)) class THsmdaPolicyScheduleClass(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 3) class TDSCPName(TNamedItem): status = 'current' class TDSCPNameOrEmpty(TNamedItemOrEmpty): status = 'current' class TDSCPValue(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 63) class TDSCPValueOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 63), ) class TDSCPFilterActionValue(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 255), ) class TFCName(TNamedItem): status = 'current' class TFCNameOrEmpty(TNamedItemOrEmpty): status = 'current' class TFCSet(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("be", 0), ("l2", 1), ("af", 2), ("l1", 3), ("h2", 4), ("ef", 5), ("h1", 6), ("nc", 7)) class TFCType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7)) namedValues = NamedValues(("be", 0), ("l2", 1), ("af", 2), ("l1", 3), ("h2", 4), ("ef", 5), ("h1", 6), ("nc", 7)) class TmnxTunnelType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6, 7)) namedValues = NamedValues(("sdp", 1), ("ldp", 2), ("rsvp", 3), ("gre", 4), ("bypass", 5), ("invalid", 6), ("bgp", 7)) class TmnxTunnelID(TextualConvention, Unsigned32): status = 'current' class TmnxBgpRouteTarget(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(1, 32) class TmnxVPNRouteDistinguisher(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(8, 8) fixedLength = 8 class SdpBindId(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(8, 8) fixedLength = 8 class TmnxVRtrMplsLspID(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 65535) class TPortSchedulerPIR(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000000), ) class TPortSchedulerPIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 400000000), ) class TPortSchedulerCIR(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 400000000), ) class TWeight(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 100) class TNonZeroWeight(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 100) class TPolicerWeight(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 100) class THsmdaWeight(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 100) class THsmdaWrrWeight(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 32) class THsmdaWeightClass(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 4, 8)) namedValues = NamedValues(("class1", 1), ("class2", 2), ("class4", 4), ("class8", 8)) class THsmdaWeightOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(1, 100), ) class THsmdaWrrWeightOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(1, 32), ) class TCIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000000), ) class THPolCIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 20000000), ) class TRateType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("kbps", 1), ("percent", 2)) class TBWRateType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("kbps", 1), ("percentPortLimit", 2), ("percentLocalLimit", 3)) class TPolicerRateType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("kbps", 1), ("percentLocalLimit", 2)) class TCIRRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000000), ) class THPolCIRRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 20000000), ) class TCIRPercentOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(0, 10000), ) class THsmdaCIRKRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000000), ) class THsmdaCIRKRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000000), ) class THsmdaCIRMRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000), ) class THsmdaCIRMRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000), ) class TPIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000000), ) class THPolVirtualSchePIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 800000000), ) class THPolVirtualScheCIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 800000000), ) class TAdvCfgRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 100000000) class TMaxDecRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 100000000), ) class THPolPIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 20000000), ) class TSecondaryShaper10GPIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 10000), ) class TExpSecondaryShaperPIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 10000000), ) class TExpSecondaryShaperClassRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 10000000), ) class TPIRRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000000), ) class THPolPIRRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 20000000), ) class TPIRPercentOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(1, 10000), ) class TPIRRateOrZero(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100000000), ) class THsmdaPIRKRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000000), ) class THsmdaPIRKRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000000), ) class THsmdaPIRMRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000), ) class THsmdaPIRMRateOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000), ) class TmnxDHCP6MsgType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)) namedValues = NamedValues(("dhcp6MsgTypeSolicit", 1), ("dhcp6MsgTypeAdvertise", 2), ("dhcp6MsgTypeRequest", 3), ("dhcp6MsgTypeConfirm", 4), ("dhcp6MsgTypeRenew", 5), ("dhcp6MsgTypeRebind", 6), ("dhcp6MsgTypeReply", 7), ("dhcp6MsgTypeRelease", 8), ("dhcp6MsgTypeDecline", 9), ("dhcp6MsgTypeReconfigure", 10), ("dhcp6MsgTypeInfoRequest", 11), ("dhcp6MsgTypeRelayForw", 12), ("dhcp6MsgTypeRelayReply", 13), ("dhcp6MsgTypeMaxValue", 14)) class TmnxOspfInstance(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 31) class TmnxBGPFamilyType(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("ipv4Unicast", 0), ("ipv4Multicast", 1), ("ipv4UastMcast", 2), ("ipv4MplsLabel", 3), ("ipv4Vpn", 4), ("ipv6Unicast", 5), ("ipv6Multicast", 6), ("ipv6UcastMcast", 7), ("ipv6MplsLabel", 8), ("ipv6Vpn", 9), ("l2Vpn", 10), ("ipv4Mvpn", 11), ("msPw", 12), ("ipv4Flow", 13), ("mdtSafi", 14), ("routeTarget", 15), ("mcastVpnIpv4", 16)) class TmnxIgmpGroupFilterMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("include", 1), ("exclude", 2)) class TmnxIgmpGroupType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("static", 1), ("dynamic", 2)) class TmnxIgmpVersion(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("version1", 1), ("version2", 2), ("version3", 3)) class TmnxMldGroupFilterMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("include", 1), ("exclude", 2)) class TmnxMldGroupType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("static", 1), ("dynamic", 2)) class TmnxMldVersion(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("version1", 1), ("version2", 2)) class TmnxManagedRouteStatus(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10)) namedValues = NamedValues(("installed", 0), ("notYetInstalled", 1), ("wrongAntiSpoofType", 2), ("outOfMemory", 3), ("shadowed", 4), ("routeTableFull", 5), ("parentInterfaceDown", 6), ("hostInactive", 7), ("enhancedSubMgmtRequired", 8), ("deprecated1", 9), ("l2AwNotSupported", 10)) class TmnxAncpString(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 63) class TmnxAncpStringOrZero(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 63) class TmnxMulticastAddrFamily(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1)) namedValues = NamedValues(("ipv4Multicast", 0), ("ipv6Multicast", 1)) class TmnxAsciiSpecification(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 255) class TmnxMacSpecification(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 17) class TmnxBinarySpecification(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 255) class TmnxDefSubIdSource(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("useSapId", 1), ("useString", 2), ("useAutoId", 3)) class TmnxSubIdentString(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 32) class TmnxSubIdentStringOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 32) class TmnxSubRadServAlgorithm(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("direct", 1), ("roundRobin", 2), ("hashBased", 3)) class TmnxSubRadiusAttrType(TextualConvention, Unsigned32): reference = 'RFC 2865 Remote Authentication Dial In User Service (RADIUS) section 5. Attributes' status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 255) class TmnxSubRadiusVendorId(TextualConvention, Unsigned32): reference = 'RFC 2865 Remote Authentication Dial In User Service (RADIUS) section 5.26. Vendor-Specific.' status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 16777215) class TmnxRadiusPendingReqLimit(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 4096) class TmnxRadiusServerOperState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5)) namedValues = NamedValues(("unknown", 1), ("inService", 2), ("outOfService", 3), ("transition", 4), ("overloaded", 5)) class TmnxSubProfileString(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 16) class TmnxSubProfileStringOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 16) class TmnxSlaProfileString(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 16) class TmnxSlaProfileStringOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 16) class TmnxAppProfileString(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 16) class TmnxAppProfileStringOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 16) class TmnxSubMgtIntDestIdOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 32) class TmnxSubMgtIntDestId(TmnxSubMgtIntDestIdOrEmpty): status = 'current' subtypeSpec = TmnxSubMgtIntDestIdOrEmpty.subtypeSpec + ValueSizeConstraint(1, 32) class TmnxDefInterDestIdSource(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("useString", 1), ("useTopQTag", 2), ("useVpi", 3)) class TmnxSubNasPortSuffixType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("none", 0), ("circuitId", 1), ("remoteId", 2)) class TmnxSubNasPortPrefixType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1)) namedValues = NamedValues(("none", 0), ("userString", 1)) class TmnxSubNasPortTypeType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("standard", 1), ("config", 2)) class TmnxSubMgtOrgStrOrZero(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 32) class TmnxSubMgtOrgString(TmnxSubMgtOrgStrOrZero): status = 'current' subtypeSpec = TmnxSubMgtOrgStrOrZero.subtypeSpec + ValueSizeConstraint(1, 32) class TmnxFilterProfileStringOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 16) class TmnxAccessLoopEncapDataLink(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1)) namedValues = NamedValues(("aal5", 0), ("ethernet", 1)) class TmnxAccessLoopEncaps1(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("notAvailable", 0), ("untaggedEthernet", 1), ("singleTaggedEthernet", 2)) class TmnxAccessLoopEncaps2(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8)) namedValues = NamedValues(("notAvailable", 0), ("pppoaLlc", 1), ("pppoaNull", 2), ("ipoaLlc", 3), ("ipoaNull", 4), ("ethernetOverAal5LlcFcs", 5), ("ethernetOverAal5LlcNoFcs", 6), ("ethernetOverAal5NullFcs", 7), ("ethernetOverAal5NullNoFcs", 8)) class TmnxSubAleOffsetMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1)) namedValues = NamedValues(("none", 0), ("auto", 1)) class TmnxSubAleOffset(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)) namedValues = NamedValues(("none", 0), ("pppoaLlc", 1), ("pppoaNull", 2), ("pppoeoaLlc", 3), ("pppoeoaLlcFcs", 4), ("pppoeoaLlcTagged", 5), ("pppoeoaLlcTaggedFcs", 6), ("pppoeoaNull", 7), ("pppoeoaNullFcs", 8), ("pppoeoaNullTagged", 9), ("pppoeoaNullTaggedFcs", 10), ("ipoaLlc", 11), ("ipoaNull", 12), ("ipoeoaLlc", 13), ("ipoeoaLlcFcs", 14), ("ipoeoaLlcTagged", 15), ("ipoeoaLlcTaggedFcs", 16), ("ipoeoaNull", 17), ("ipoeoaNullFcs", 18), ("ipoeoaNullTagged", 19), ("ipoeoaNullTaggedFcs", 20), ("pppoe", 21), ("pppoeTagged", 22), ("ipoe", 23), ("ipoeTagged", 24)) class TmnxDhcpOptionType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5)) namedValues = NamedValues(("ipv4", 1), ("ascii", 2), ("hex", 3), ("ipv6", 4), ("domain", 5)) class TmnxPppoeUserName(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 128) class TmnxPppoeUserNameOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 128) class TCpmProtPolicyID(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 255) class TCpmProtPolicyIDOrDefault(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 255), ) class TMlpppQoSProfileId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 65535) class TMcFrQoSProfileId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 65535) class TmnxPppoeSessionId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 65535) class TmnxPppoePadoDelay(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 30), ) class TmnxPppoeSessionInfoOrigin(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7)) namedValues = NamedValues(("none", 0), ("default", 1), ("radius", 2), ("localUserDb", 3), ("dhcp", 4), ("midSessionChange", 5), ("tags", 6), ("l2tp", 7)) class TmnxPppoeSessionType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4)) namedValues = NamedValues(("local", 1), ("localWholesale", 2), ("localRetail", 3), ("l2tp", 4)) class TmnxPppNcpProtocol(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("ipcp", 1), ("ipv6cp", 2)) class TmnxMlpppEpClass(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5)) namedValues = NamedValues(("null", 0), ("local", 1), ("ipv4Address", 2), ("macAddress", 3), ("magicNumber", 4), ("directoryNumber", 5)) class TNetworkPolicyID(TPolicyID): status = 'current' subtypeSpec = TPolicyID.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(1, 65535), ValueRangeConstraint(65536, 65536), ValueRangeConstraint(65537, 65537), ) class TItemScope(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("exclusive", 1), ("template", 2)) class TItemMatch(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("off", 1), ("false", 2), ("true", 3)) class TPriority(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("low", 1), ("high", 2)) class TPriorityOrDefault(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("low", 1), ("high", 2), ("default", 3)) class TProfileUseDEOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("none", 0), ("in", 1), ("out", 2), ("de", 3)) class TPriorityOrUndefined(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("undefined", 0), ("low", 1), ("high", 2)) class TProfile(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("in", 1), ("out", 2)) class TProfileOrDei(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 13)) namedValues = NamedValues(("in", 1), ("out", 2), ("use-dei", 13)) class TDEProfile(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("in", 1), ("out", 2), ("de", 3)) class TDEProfileOrDei(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 13)) namedValues = NamedValues(("in", 1), ("out", 2), ("de", 3), ("use-dei", 13)) class TProfileOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("none", 0), ("in", 1), ("out", 2)) class TAdaptationRule(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("max", 1), ("min", 2), ("closest", 3)) class TAdaptationRuleOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("noOverride", 0), ("max", 1), ("min", 2), ("closest", 3)) class TRemarkType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("none", 1), ("dscp", 2), ("precedence", 3)) class TPrecValue(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 7) class TPrecValueOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 7), ) class TBurstSize(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 131072), ) class TBurstSizeOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 131072), ) class TBurstPercent(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 100) class TBurstHundredthsOfPercent(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 10000) class TBurstPercentOrDefault(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100), ) class TBurstPercentOrDefaultOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 100), ) class TRatePercent(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 100) class TPIRRatePercent(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 100) class TLevel(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 8) class TLevelOrDefault(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TQWeight(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 100), ) class TMeterMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("priority", 1), ("profile", 2)) class TPlcyMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("none", 0), ("roundRobin", 1), ("weightedRoundRobin", 2), ("weightedDeficitRoundRobin", 3)) class TPlcyQuanta(TextualConvention, Integer32): status = 'current' class TQueueMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("priority", 1), ("profile", 2)) class TEntryIndicator(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 65535) class TEntryId(TEntryIndicator): status = 'current' subtypeSpec = TEntryIndicator.subtypeSpec + ValueRangeConstraint(1, 65535) class TMatchCriteria(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6)) namedValues = NamedValues(("ip", 1), ("mac", 2), ("none", 3), ("dscp", 4), ("dot1p", 5), ("prec", 6)) class TmnxMdaQos(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("unknown", 0), ("mda", 1), ("hsmda1", 2), ("hsmda2", 3)) class TAtmTdpDescrType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("clp0And1pcr", 0), ("clp0And1pcrPlusClp0And1scr", 1), ("clp0And1pcrPlusClp0scr", 2), ("clp0And1pcrPlusClp0scrTag", 3)) class TDEValue(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 1), ) class TQGroupType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1)) namedValues = NamedValues(("port", 0), ("vpls", 1)) class TQosOverrideType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5)) namedValues = NamedValues(("queue", 1), ("policer", 2), ("aggRateLimit", 3), ("arbiter", 4), ("scheduler", 5)) class TmnxIPsecTunnelTemplateId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 2048) class TmnxIPsecTunnelTemplateIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 2048) class TmnxIpSecIsaOperFlags(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("adminDown", 0), ("noActive", 1), ("noResources", 2)) class TmnxIkePolicyAuthMethod(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5)) namedValues = NamedValues(("psk", 1), ("hybridX509XAuth", 2), ("plainX509XAuth", 3), ("plainPskXAuth", 4), ("cert", 5)) class TmnxIkePolicyOwnAuthMethod(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 5)) namedValues = NamedValues(("symmetric", 0), ("psk", 1), ("cert", 5)) class TmnxRsvpDSTEClassType(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 7) class TmnxAccPlcyQICounters(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("hpo", 0), ("lpo", 1), ("ucp", 2), ("hoo", 3), ("loo", 4), ("uco", 5), ("apo", 6), ("aoo", 7), ("hpd", 8), ("lpd", 9), ("hod", 10), ("lod", 11), ("ipf", 12), ("opf", 13), ("iof", 14), ("oof", 15)) class TmnxAccPlcyQECounters(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("ipf", 0), ("ipd", 1), ("opf", 2), ("opd", 3), ("iof", 4), ("iod", 5), ("oof", 6), ("ood", 7)) class TmnxAccPlcyOICounters(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("apo", 0), ("aoo", 1), ("hpd", 2), ("lpd", 3), ("hod", 4), ("lod", 5), ("ipf", 6), ("opf", 7), ("iof", 8), ("oof", 9)) class TmnxAccPlcyOECounters(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("ipf", 0), ("ipd", 1), ("opf", 2), ("opd", 3), ("iof", 4), ("iod", 5), ("oof", 6), ("ood", 7)) class TmnxAccPlcyAACounters(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("any", 0), ("sfa", 1), ("nfa", 2), ("sfd", 3), ("nfd", 4), ("saf", 5), ("naf", 6), ("spa", 7), ("npa", 8), ("sba", 9), ("nba", 10), ("spd", 11), ("npd", 12), ("sbd", 13), ("nbd", 14), ("sdf", 15), ("mdf", 16), ("ldf", 17), ("tfd", 18), ("tfc", 19), ("sbm", 20), ("spm", 21), ("smt", 22), ("nbm", 23), ("npm", 24), ("nmt", 25)) class TmnxVdoGrpIdIndex(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 4) class TmnxVdoGrpId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 4) class TmnxVdoGrpIdOrInherit(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 4), ) class TmnxVdoFccServerMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("none", 0), ("burst", 1), ("dent", 2), ("hybrid", 3)) class TmnxVdoPortNumber(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(1024, 5999), ValueRangeConstraint(6251, 65535), ) class TmnxVdoIfName(TNamedItem): status = 'current' class TmnxTimeInSec(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 86400) class TmnxMobProfName(TNamedItem): status = 'current' class TmnxMobProfNameOrEmpty(TNamedItemOrEmpty): status = 'current' class TmnxMobProfIpTtl(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 255) class TmnxMobDiaTransTimer(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 180) class TmnxMobDiaRetryCount(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 8) class TmnxMobDiaPeerHost(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 80) class TmnxMobGwId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 8) class TmnxMobNode(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 30) class TmnxMobBufferLimit(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1000, 12000) class TmnxMobQueueLimit(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1000, 12000) class TmnxMobRtrAdvtInterval(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 60) class TmnxMobRtrAdvtLifeTime(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 24) class TmnxMobAddrScheme(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("stateful", 1), ("stateless", 2)) class TmnxMobQciValue(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 9) class TmnxMobQciValueOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 9) class TmnxMobArpValue(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 15) class TmnxMobArpValueOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 15) class TmnxMobApn(DisplayString): reference = '3GPP TS 23.003 Section 9.1' status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 80) class TmnxMobApnOrZero(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 80) class TmnxMobImsi(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(8, 8) fixedLength = 8 class TmnxMobMsisdn(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 15) class TmnxMobImei(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(0, 0), ValueSizeConstraint(16, 16), ) class TmnxMobNai(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 72) class TmnxMobMcc(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(3, 3) fixedLength = 3 class TmnxMobMnc(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(2, 2), ValueSizeConstraint(3, 3), ) class TmnxMobMccOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(0, 0), ValueSizeConstraint(3, 3), ) class TmnxMobMncOrEmpty(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(0, 0), ValueSizeConstraint(2, 2), ValueSizeConstraint(3, 3), ) class TmnxMobUeState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6)) namedValues = NamedValues(("idle", 1), ("active", 2), ("paging", 3), ("init", 4), ("suspend", 5), ("ddnDamp", 6)) class TmnxMobUeRat(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)) namedValues = NamedValues(("utran", 1), ("geran", 2), ("wlan", 3), ("gan", 4), ("hspa", 5), ("eutran", 6), ("ehrpd", 7), ("hrpd", 8), ("oneXrtt", 9), ("umb", 10)) class TmnxMobUeSubType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("homer", 1), ("roamer", 2), ("visitor", 3)) class TmnxMobPdnType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("ipv4", 1), ("ipv6", 2), ("ipv4v6", 3)) class TmnxMobPgwSigProtocol(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("gtp", 1), ("pmip", 2)) class TmnxMobPdnSessionState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)) namedValues = NamedValues(("invalid", 0), ("init", 1), ("waitPcrfResponse", 2), ("waitPgwResponse", 3), ("waitEnodebUpdate", 4), ("connected", 5), ("ulDelPending", 6), ("dlDelPending", 7), ("idleMode", 8), ("pageMode", 9), ("dlHandover", 10), ("incomingHandover", 11), ("outgoingHandover", 12), ("stateMax", 13)) class TmnxMobPdnSessionEvent(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22)) namedValues = NamedValues(("sessionInvalid", 0), ("gtpCreateSessReq", 1), ("gtpUpdateBearerReq", 2), ("gtpDeleteSessReq", 3), ("gtpDeleteBearerResp", 4), ("gtpUpdateBearerResp", 5), ("gtpModifyActiveToIdle", 6), ("gtpResrcAllocCmd", 7), ("gtpModifyQosCmd", 8), ("gtpX1eNodeBTeidUpdate", 9), ("gtpX2SrcSgwDeleteSessReq", 10), ("gtpS1CreateIndirectTunnel", 11), ("dlPktRecvIndication", 12), ("dlPktNotificationAck", 13), ("dlPktNotificationFail", 14), ("pcrfSessEstResp", 15), ("pcrfSessTerminateRsp", 16), ("pcrfProvQosRules", 17), ("pmipSessResp", 18), ("pmipSessUpdate", 19), ("pmipSessDeleteRsp", 20), ("pmipSessDeleteReq", 21), ("eventMax", 22)) class TmnxMobBearerId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 15) class TmnxMobBearerType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("default", 1), ("dedicated", 2)) class TmnxMobQci(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 9) class TmnxMobArp(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 15) class TmnxMobSdf(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 255) class TmnxMobSdfFilter(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 16) class TmnxMobSdfFilterNum(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 16) class TmnxMobSdfRuleName(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(1, 64) class TmnxMobSdfFilterDirection(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("preRel7", 0), ("downLink", 1), ("upLink", 2), ("biDir", 3)) class TmnxMobSdfFilterProtocol(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(-1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140)) namedValues = NamedValues(("any", -1), ("ipv6HopByOpOpt", 0), ("icmp", 1), ("igmp", 2), ("ggp", 3), ("ip", 4), ("st", 5), ("tcp", 6), ("cbt", 7), ("egp", 8), ("igp", 9), ("bbnRccMon", 10), ("nvp2", 11), ("pup", 12), ("argus", 13), ("emcon", 14), ("xnet", 15), ("chaos", 16), ("udp", 17), ("mux", 18), ("dcnMeas", 19), ("hmp", 20), ("prm", 21), ("xnsIdp", 22), ("trunk1", 23), ("trunk2", 24), ("leaf1", 25), ("leaf2", 26), ("rdp", 27), ("irdp", 28), ("isoTp4", 29), ("netblt", 30), ("mfeNsp", 31), ("meritInp", 32), ("dccp", 33), ("pc3", 34), ("idpr", 35), ("xtp", 36), ("ddp", 37), ("idprCmtp", 38), ("tpplusplus", 39), ("il", 40), ("ipv6", 41), ("sdrp", 42), ("ipv6Route", 43), ("ipv6Frag", 44), ("idrp", 45), ("rsvp", 46), ("gre", 47), ("dsr", 48), ("bna", 49), ("esp", 50), ("ah", 51), ("iNlsp", 52), ("swipe", 53), ("narp", 54), ("mobile", 55), ("tlsp", 56), ("skip", 57), ("ipv6Icmp", 58), ("ipv6NoNxt", 59), ("ipv6Opts", 60), ("anyHostIntl", 61), ("cftp", 62), ("anyLocalNet", 63), ("satExpak", 64), ("kryptolan", 65), ("rvd", 66), ("ippc", 67), ("anyDFS", 68), ("satMon", 69), ("visa", 70), ("ipcv", 71), ("cpnx", 72), ("cphb", 73), ("wsn", 74), ("pvp", 75), ("brSatMon", 76), ("sunNd", 77), ("wbMon", 78), ("wbExpak", 79), ("isoIp", 80), ("vmtp", 81), ("secureVmpt", 82), ("vines", 83), ("ttp", 84), ("nsfnetIgp", 85), ("dgp", 86), ("tcf", 87), ("eiGrp", 88), ("ospfIgp", 89), ("spriteRpc", 90), ("larp", 91), ("mtp", 92), ("ax25", 93), ("ipip", 94), ("micp", 95), ("sccSp", 96), ("etherIp", 97), ("encap", 98), ("anyPEC", 99), ("gmtp", 100), ("ifmp", 101), ("pnni", 102), ("pim", 103), ("aris", 104), ("scps", 105), ("qnx", 106), ("activeNet", 107), ("ipComp", 108), ("snp", 109), ("compaqPeer", 110), ("ipxInIp", 111), ("vrrp", 112), ("pgm", 113), ("any0hop", 114), ("l2tp", 115), ("ddx", 116), ("iatp", 117), ("stp", 118), ("srp", 119), ("uti", 120), ("smp", 121), ("sm", 122), ("ptp", 123), ("isis", 124), ("fire", 125), ("crtp", 126), ("crudp", 127), ("sscopmce", 128), ("iplt", 129), ("sps", 130), ("pipe", 131), ("sctp", 132), ("fc", 133), ("rsvpE2eIgnore", 134), ("mobHeader", 135), ("udpLite", 136), ("mplsInIp", 137), ("manet", 138), ("hip", 139), ("shim6", 140)) class TmnxMobPathMgmtState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5)) namedValues = NamedValues(("disabled", 0), ("up", 1), ("reqTimeOut", 2), ("fault", 3), ("idle", 4), ("restart", 5)) class TmnxMobDiaPathMgmtState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("shutDown", 0), ("shuttingDown", 1), ("inactive", 2), ("active", 3)) class TmnxMobDiaDetailPathMgmtState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9)) namedValues = NamedValues(("error", 0), ("idle", 1), ("closed", 2), ("localShutdown", 3), ("remoteClosing", 4), ("waitConnAck", 5), ("waitCea", 6), ("open", 7), ("openCoolingDown", 8), ("waitDns", 9)) class TmnxMobGwType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("sgw", 1), ("pgw", 2), ("wlanGw", 3)) class TmnxMobChargingProfile(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 255) class TmnxMobChargingProfileOrInherit(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 255), ) class TmnxMobAuthType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("radius", 1), ("diameter", 2)) class TmnxMobAuthUserName(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("imsi", 1), ("msisdn", 2), ("pco", 3)) class TmnxMobProfGbrRate(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 100000) class TmnxMobProfMbrRate(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 100000) class TmnxMobPeerType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("sgw", 1), ("pgw", 2), ("hsgw", 3)) class TmnxMobRfAcctLevel(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("pdnLevel", 1), ("qciLevel", 2)) class TmnxMobProfPolReportingLevel(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("servId", 1), ("ratingGrp", 2)) class TmnxMobProfPolChargingMethod(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("profChargingMtd", 0), ("online", 1), ("offline", 2), ("both", 3)) class TmnxMobProfPolMeteringMethod(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("timeBased", 1), ("volBased", 2), ("both", 3)) class TmnxMobServerState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("na", 0), ("up", 1), ("down", 2)) class TmnxMobChargingBearerType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("home", 1), ("visiting", 2), ("roaming", 3)) class TmnxMobChargingLevel(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("pdn", 1), ("bearer", 2)) class TmnxMobIpCanType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("epc3gpp", 1), ("gprs3gpp", 2)) class TmnxMobStaticPolPrecedence(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 65536) class TmnxMobStaticPolPrecedenceOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 65535) class TmnxMobDualStackPref(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("ipv4", 1), ("ipv6", 2), ("useCplane", 3)) class TmnxMobDfPeerId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 16) class TmnxMobLiTarget(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(8, 8) fixedLength = 8 class TmnxMobLiTargetType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("imsi", 1), ("msisdn", 2), ("imei", 3)) class TmnxReasContextVal(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 31) class TmnxVdoStatInt(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("current", 1), ("interval", 2)) class TmnxVdoOutputFormat(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("udp", 1), ("rtp-udp", 2)) class TmnxVdoAnalyzerAlarm(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("none", 0), ("tnc", 1), ("qos", 2), ("poa", 3)) class TmnxVdoAnalyzerAlarmStates(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(10, 10) fixedLength = 10 class SvcISID(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 16777215), ) class TIngPolicerId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 32) class TIngPolicerIdOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 32), ) class TEgrPolicerId(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 8) class TEgrPolicerIdOrNone(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(0, 0), ValueRangeConstraint(1, 8), ) class TFIRRate(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 100000000), ) class TBurstSizeBytes(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 134217728), ) class THSMDABurstSizeBytes(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 2688000), ) class THSMDAQueueBurstLimit(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 1000000), ) class TClassBurstLimit(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 327680), ) class TPlcrBurstSizeBytes(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 4194304), ) class TBurstSizeBytesOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 134217728), ) class THSMDABurstSizeBytesOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 2688000), ) class TPlcrBurstSizeBytesOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-2, -2), ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 4194304), ) class TmnxBfdSessOperState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6)) namedValues = NamedValues(("unknown", 1), ("connected", 2), ("broken", 3), ("peerDetectsDown", 4), ("notConfigured", 5), ("noResources", 6)) class TmnxIngPolicerStatMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9)) namedValues = NamedValues(("noStats", 0), ("minimal", 1), ("offeredProfileNoCIR", 2), ("offeredTotalCIR", 3), ("offeredPrioNoCIR", 4), ("offeredProfileCIR", 5), ("offeredPrioCIR", 6), ("offeredLimitedProfileCIR", 7), ("offeredProfileCapCIR", 8), ("offeredLimitedCapCIR", 9)) class TmnxIngPolicerStatModeOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(-1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9)) namedValues = NamedValues(("noOverride", -1), ("noStats", 0), ("minimal", 1), ("offeredProfileNoCIR", 2), ("offeredTotalCIR", 3), ("offeredPrioNoCIR", 4), ("offeredProfileCIR", 5), ("offeredPrioCIR", 6), ("offeredLimitedProfileCIR", 7), ("offeredProfileCapCIR", 8), ("offeredLimitedCapCIR", 9)) class TmnxEgrPolicerStatMode(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6)) namedValues = NamedValues(("noStats", 0), ("minimal", 1), ("offeredProfileNoCIR", 2), ("offeredTotalCIR", 3), ("offeredProfileCIR", 4), ("offeredLimitedCapCIR", 5), ("offeredProfileCapCIR", 6)) class TmnxEgrPolicerStatModeOverride(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(-1, 0, 1, 2, 3, 4, 5, 6)) namedValues = NamedValues(("noOverride", -1), ("noStats", 0), ("minimal", 1), ("offeredProfileNoCIR", 2), ("offeredTotalCIR", 3), ("offeredProfileCIR", 4), ("offeredLimitedCapCIR", 5), ("offeredProfileCapCIR", 6)) class TmnxTlsGroupId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 4094) class TSubHostId(TextualConvention, Unsigned32): status = 'current' class TDirection(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("both", 0), ("ingress", 1), ("egress", 2)) class TBurstLimit(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(1, 14000000), ) class TMacFilterType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("normal", 1), ("isid", 2), ("vid", 3)) class TmnxPwGlobalId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 4294967295) class TmnxPwGlobalIdOrZero(TextualConvention, Unsigned32): status = 'current' class TmnxPwPathHopId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 16) class TmnxPwPathHopIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 16) class TmnxSpokeSdpId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 4294967295) class TmnxSpokeSdpIdOrZero(TextualConvention, Unsigned32): status = 'current' class TmnxMsPwPeSignaling(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("auto", 1), ("master", 2)) class TmnxLdpFECType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 128, 129, 130)) namedValues = NamedValues(("addrWildcard", 1), ("addrPrefix", 2), ("addrHost", 3), ("vll", 128), ("vpws", 129), ("vpls", 130)) class TmnxSvcOperGrpCreationOrigin(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("manual", 1), ("mvrp", 2)) class TmnxOperGrpHoldUpTime(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 3600) class TmnxOperGrpHoldDownTime(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 3600) class TmnxSrrpPriorityStep(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 10) class TmnxAiiType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("aiiType1", 1), ("aiiType2", 2)) class ServObjDesc(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(0, 80) class TMplsLspExpProfMapID(TPolicyID): status = 'current' subtypeSpec = TPolicyID.subtypeSpec + ValueRangeConstraint(1, 65535) class TSysResource(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 11), ) class TmnxSpbFid(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(1, 4095) class TmnxSpbFidOrZero(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 4095) class TmnxSpbBridgePriority(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 15) class TmnxSlopeMap(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3)) namedValues = NamedValues(("none", 0), ("low", 1), ("high", 2), ("highLow", 3)) class TmnxCdrType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("pgwCdr", 1), ("gCdr", 2), ("eGCdr", 3)) class TmnxThresholdGroupType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6, 7)) namedValues = NamedValues(("brMgmtLimit", 1), ("brMgmtCfSuccess", 2), ("brMgmtCfFailure", 3), ("brMgmtTraffic", 4), ("pathMgmt", 5), ("cpmSystem", 6), ("mgIsmSystem", 7)) class TmnxMobUeId(TextualConvention, OctetString): status = 'current' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(8, 8) fixedLength = 8 class TmnxMobUeIdType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2)) namedValues = NamedValues(("imsi", 0), ("imei", 1), ("msisdn", 2)) class TmnxMobImsiStr(DisplayString): reference = '3GPP TS 23.003 Numbering, addressing and identification, section 2.2 Composition of IMSI.' status = 'current' subtypeSpec = DisplayString.subtypeSpec + ConstraintsUnion(ValueSizeConstraint(0, 0), ValueSizeConstraint(9, 15), ) class TmnxVpnIpBackupFamily(TextualConvention, Bits): status = 'current' namedValues = NamedValues(("ipv4", 0), ("ipv6", 1)) class TmnxTunnelGroupId(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(1, 16) class TmnxTunnelGroupIdOrZero(TextualConvention, Unsigned32): status = 'current' subtypeSpec = Unsigned32.subtypeSpec + ValueRangeConstraint(0, 16) class TmnxMobRatingGrpState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6, 7, 8)) namedValues = NamedValues(("allowFlow", 1), ("disallowFlow", 2), ("redWebPortal", 3), ("allowResRules", 4), ("iom1stPktTrigger", 5), ("dis1stPktTrigger", 6), ("creditsToppedUp", 7), ("waitForFpt", 8)) class TmnxMobPresenceState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1)) namedValues = NamedValues(("absent", 0), ("present", 1)) class TmnxMobPdnGyChrgTriggerType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29)) namedValues = NamedValues(("sgsnIpAddrRecvd", 0), ("qosRecvd", 1), ("locRecvd", 2), ("ratRecvd", 3), ("qosTrfClsRecvd", 4), ("qosRlbClsRecvd", 5), ("qosDlyClsRecvd", 6), ("qosPeakThrptRecvd", 7), ("qosPrcClsRecvd", 8), ("qosMeanTrptRecvd", 9), ("qosMxBtRtUplnkRecvd", 10), ("qosMxBtRtDllnkRecvd", 11), ("qosResBerRecvd", 12), ("qosSduErrRatRecvd", 13), ("qosTransDelayRecvd", 14), ("qosTrfHndPriRecvd", 15), ("qosGrtBtRtUplnkRecvd", 16), ("qosGrtBtRtDllnkRecvd", 17), ("locMccRecvd", 18), ("locMncRecvd", 19), ("locRacRecvd", 20), ("locLacRecvd", 21), ("locCellIdRecvd", 22), ("medCompRecvd", 23), ("partcNmbRecvd", 24), ("thrldPartcNmbRecvd", 25), ("usrPartcTypeRecvd", 26), ("servCondRecvd", 27), ("servNodeRecvd", 28), ("usrCsgInfoRecvd", 29)) class TmnxMobPdnRefPointType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5)) namedValues = NamedValues(("s5", 1), ("s8", 2), ("gn", 3), ("s2a", 4), ("gp", 5)) class TmnxQosBytesHex(TextualConvention, OctetString): status = 'current' displayHint = '2x ' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(0, 30) class TSiteOperStatus(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("up", 1), ("down", 2), ("outOfResource", 3)) class TmnxSpbFdbLocale(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4)) namedValues = NamedValues(("local", 1), ("sap", 2), ("sdp", 3), ("unknown", 4)) class TmnxSpbFdbState(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6)) namedValues = NamedValues(("ok", 0), ("addModPending", 1), ("delPending", 2), ("sysFdbLimit", 3), ("noFateShared", 4), ("svcFdbLimit", 5), ("noUcast", 6)) class TmnxMobServRefPointType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 4)) namedValues = NamedValues(("s5", 1), ("s8", 2), ("s2a", 4)) class TmnxMobAccessType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3)) namedValues = NamedValues(("eps", 1), ("gprs", 2), ("non3gpp", 3)) class TmnxMobUeStrPrefix(DisplayString): status = 'current' subtypeSpec = DisplayString.subtypeSpec + ValueSizeConstraint(4, 15) class TmnxCdrDiagnosticAction(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2)) namedValues = NamedValues(("included", 1), ("excluded", 2)) class TmnxMplsTpGlobalID(TextualConvention, Unsigned32): reference = "RFC 6370, 'MPLS Transport Profile (MPLS-TP) Identifiers', Section 3, 'Uniquely Identifying an Operator - the Global_ID'." status = 'current' class TmnxMplsTpNodeID(TextualConvention, Unsigned32): reference = "RFC 6370, 'MPLS Transport Profile (MPLS-TP) Identifiers', Section 4, 'Node and Interface Identifiers'." status = 'current' class TmnxMplsTpTunnelType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1)) namedValues = NamedValues(("mplsTpStatic", 1)) class TmnxVwmCardType(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44)) namedValues = NamedValues(("not-provisioned", 0), ("not-equipped", 1), ("sfc1A", 2), ("sfc1B", 3), ("sfc1C", 4), ("sfc1D", 5), ("sfc1E", 6), ("sfc1F", 7), ("sfc1G", 8), ("sfc1H", 9), ("sfc2AandB", 10), ("sfc2CandD", 11), ("sfc2EandF", 12), ("sfc2GandH", 13), ("sfc4A-D", 14), ("sfc4E-H", 15), ("sfc8", 16), ("sfd8A-R", 17), ("sfd8B-R", 18), ("sfd8C-R", 19), ("sfd8D-R", 20), ("sfd4A-R", 21), ("sfd4B-R", 22), ("sfd4C-R", 23), ("sfd4D-R", 24), ("sfd4E-R", 25), ("sfd4F-R", 26), ("sfd4G-R", 27), ("sfd4H-R", 28), ("sfd2A-R", 29), ("sfd2B-R", 30), ("sfd2C-R", 31), ("sfd2D-R", 32), ("sfd2E-R", 33), ("sfd2F-R", 34), ("sfd2G-R", 35), ("sfd2H-R", 36), ("sfd2I-R", 37), ("sfd2L-R", 38), ("sfd2M-R", 39), ("sfd2N-R", 40), ("sfd2O-R", 41), ("sfd2P-R", 42), ("sfd2Q-R", 43), ("sfd2R-R", 44)) mibBuilder.exportSymbols("TIMETRA-TC-MIB", QTagFullRange=QTagFullRange, TmnxVwmCardType=TmnxVwmCardType, TRatePercent=TRatePercent, TmnxReasContextVal=TmnxReasContextVal, TNamedItemOrEmpty=TNamedItemOrEmpty, TmnxIngPolicerStatModeOverride=TmnxIngPolicerStatModeOverride, TmnxMobDualStackPref=TmnxMobDualStackPref, TEgressQPerPacketOffset=TEgressQPerPacketOffset, TMatchCriteria=TMatchCriteria, TEgrRateModType=TEgrRateModType, TmnxSubRadiusAttrType=TmnxSubRadiusAttrType, TmnxOspfInstance=TmnxOspfInstance, TCpmProtPolicyIDOrDefault=TCpmProtPolicyIDOrDefault, TmnxSpbBridgePriority=TmnxSpbBridgePriority, TmnxMobProfMbrRate=TmnxMobProfMbrRate, TmnxAppProfileStringOrEmpty=TmnxAppProfileStringOrEmpty, TmnxMplsTpGlobalID=TmnxMplsTpGlobalID, TmnxMobQciValueOrZero=TmnxMobQciValueOrZero, TmnxIPsecTunnelTemplateId=TmnxIPsecTunnelTemplateId, TmnxVRtrIDOrZero=TmnxVRtrIDOrZero, THPolVirtualScheCIRRate=THPolVirtualScheCIRRate, TPIRRateOverride=TPIRRateOverride, TmnxMobProfName=TmnxMobProfName, TFCNameOrEmpty=TFCNameOrEmpty, TmnxMobPdnType=TmnxMobPdnType, TmnxOperState=TmnxOperState, TSapIngressMeterId=TSapIngressMeterId, TSiteOperStatus=TSiteOperStatus, TDSCPValueOrNone=TDSCPValueOrNone, TmnxMobPdnSessionState=TmnxMobPdnSessionState, TmnxVPNRouteDistinguisher=TmnxVPNRouteDistinguisher, TCIRRateOverride=TCIRRateOverride, TItemScope=TItemScope, TmnxMobAuthUserName=TmnxMobAuthUserName, TmnxVdoGrpIdIndex=TmnxVdoGrpIdIndex, TDSCPName=TDSCPName, TmnxCdrDiagnosticAction=TmnxCdrDiagnosticAction, TmnxSubMgtIntDestIdOrEmpty=TmnxSubMgtIntDestIdOrEmpty, TPolicerWeight=TPolicerWeight, TLNamedItem=TLNamedItem, TPIRPercentOverride=TPIRPercentOverride, TmnxVdoGrpId=TmnxVdoGrpId, TmnxSubNasPortTypeType=TmnxSubNasPortTypeType, TmnxMobMnc=TmnxMobMnc, TmnxPppoePadoDelay=TmnxPppoePadoDelay, TEgressHsmdaCounterId=TEgressHsmdaCounterId, TmnxSlopeMap=TmnxSlopeMap, ServObjDesc=ServObjDesc, TmnxIpSecIsaOperFlags=TmnxIpSecIsaOperFlags, TMaxDecRate=TMaxDecRate, TmnxMobBufferLimit=TmnxMobBufferLimit, TPolicerRateType=TPolicerRateType, TmnxAccessLoopEncapDataLink=TmnxAccessLoopEncapDataLink, TmnxSpbFid=TmnxSpbFid, TmnxBgpRouteTarget=TmnxBgpRouteTarget, TmnxAncpString=TmnxAncpString, TBurstHundredthsOfPercent=TBurstHundredthsOfPercent, TmnxMdaQos=TmnxMdaQos, TmnxMlpppEpClass=TmnxMlpppEpClass, QTagOrZero=QTagOrZero, TCpmProtPolicyID=TCpmProtPolicyID, TItemDescription=TItemDescription, TIngressHsmdaCounterId=TIngressHsmdaCounterId, TmnxSubMgtOrgStrOrZero=TmnxSubMgtOrgStrOrZero, TmnxTunnelGroupId=TmnxTunnelGroupId, TBurstSizeBytes=TBurstSizeBytes, TmnxAdminState=TmnxAdminState, TSapEgressPolicyID=TSapEgressPolicyID, TmnxEnabledDisabled=TmnxEnabledDisabled, TSapEgrEncapGroupType=TSapEgrEncapGroupType, TmnxIgmpVersion=TmnxIgmpVersion, TmnxMobPresenceState=TmnxMobPresenceState, TDSCPNameOrEmpty=TDSCPNameOrEmpty, TmnxVdoFccServerMode=TmnxVdoFccServerMode, TmnxMobPgwSigProtocol=TmnxMobPgwSigProtocol, TmnxPortID=TmnxPortID, TmnxSubRadServAlgorithm=TmnxSubRadServAlgorithm, TmnxSubProfileString=TmnxSubProfileString, TmnxSubMgtOrgString=TmnxSubMgtOrgString, TDSCPValue=TDSCPValue, TIngressQueueId=TIngressQueueId, TmnxIgmpGroupType=TmnxIgmpGroupType, TSubHostId=TSubHostId, TAdaptationRuleOverride=TAdaptationRuleOverride, TmnxSpbFdbState=TmnxSpbFdbState, TIngressHsmdaPerPacketOffset=TIngressHsmdaPerPacketOffset, TWeight=TWeight, TmnxTunnelID=TmnxTunnelID, TProfileOrNone=TProfileOrNone, TExpSecondaryShaperClassRate=TExpSecondaryShaperClassRate, TFCType=TFCType, TMcFrQoSProfileId=TMcFrQoSProfileId, TmnxPppoeSessionType=TmnxPppoeSessionType, THsmdaPIRMRateOverride=THsmdaPIRMRateOverride, TmnxMobSdf=TmnxMobSdf, TmnxSubNasPortSuffixType=TmnxSubNasPortSuffixType, TmnxMobProfPolReportingLevel=TmnxMobProfPolReportingLevel, PYSNMP_MODULE_ID=timetraTCMIBModule, TmnxMobStaticPolPrecedence=TmnxMobStaticPolPrecedence, TPerPacketOffset=TPerPacketOffset, TmnxCustId=TmnxCustId, TmnxMulticastAddrFamily=TmnxMulticastAddrFamily, TmnxRsvpDSTEClassType=TmnxRsvpDSTEClassType, TmnxFilterProfileStringOrEmpty=TmnxFilterProfileStringOrEmpty, TTcpUdpPort=TTcpUdpPort, TmnxSubProfileStringOrEmpty=TmnxSubProfileStringOrEmpty, TmnxSlaProfileString=TmnxSlaProfileString, TmnxMobProfPolMeteringMethod=TmnxMobProfPolMeteringMethod, TmnxMobSdfRuleName=TmnxMobSdfRuleName, TmnxEgrPolicerStatModeOverride=TmnxEgrPolicerStatModeOverride, TmnxSubIdentString=TmnxSubIdentString, TmnxPwPathHopId=TmnxPwPathHopId, TQWeight=TQWeight, TmnxLdpFECType=TmnxLdpFECType, THPolPIRRateOverride=THPolPIRRateOverride, TLspExpValue=TLspExpValue, TmnxMldVersion=TmnxMldVersion, TmnxMobRatingGrpState=TmnxMobRatingGrpState, TmnxMobDiaPathMgmtState=TmnxMobDiaPathMgmtState, TmnxMobSdfFilterDirection=TmnxMobSdfFilterDirection, TmnxPwPathHopIdOrZero=TmnxPwPathHopIdOrZero, TDSCPFilterActionValue=TDSCPFilterActionValue, TmnxMobServerState=TmnxMobServerState, TPIRRatePercent=TPIRRatePercent, TmnxPppoeSessionInfoOrigin=TmnxPppoeSessionInfoOrigin, TIngPolicerIdOrNone=TIngPolicerIdOrNone, TPrecValue=TPrecValue, TLevelOrDefault=TLevelOrDefault, TSecondaryShaper10GPIRRate=TSecondaryShaper10GPIRRate, SvcISID=SvcISID, TPerPacketOffsetOvr=TPerPacketOffsetOvr, TPIRRate=TPIRRate, TmnxAsciiSpecification=TmnxAsciiSpecification, TmnxManagedRouteStatus=TmnxManagedRouteStatus, InterfaceIndex=InterfaceIndex, TFIRRate=TFIRRate, TIngHsmdaPerPacketOffsetOvr=TIngHsmdaPerPacketOffsetOvr, TmnxMobUeIdType=TmnxMobUeIdType, TQueueIdOrAll=TQueueIdOrAll, TmnxMobQueueLimit=TmnxMobQueueLimit, TmnxBgpLocalPreference=TmnxBgpLocalPreference, TEgressQueueId=TEgressQueueId, TRemarkType=TRemarkType, TIpProtocol=TIpProtocol, TCIRRate=TCIRRate, TFCName=TFCName, TLNamedItemOrEmpty=TLNamedItemOrEmpty, TmnxBgpAutonomousSystem=TmnxBgpAutonomousSystem, TmnxMobAuthType=TmnxMobAuthType, TmnxTlsGroupId=TmnxTlsGroupId, TmnxMldGroupFilterMode=TmnxMldGroupFilterMode, TOperator=TOperator, TmnxPppoeSessionId=TmnxPppoeSessionId, TmnxMobAddrScheme=TmnxMobAddrScheme, TmnxMobServRefPointType=TmnxMobServRefPointType, TIpOption=TIpOption, TPriority=TPriority, THsmdaPIRKRate=THsmdaPIRKRate, TmnxMobPathMgmtState=TmnxMobPathMgmtState, TIngressMeterId=TIngressMeterId, TmnxAiiType=TmnxAiiType, TMplsLspExpProfMapID=TMplsLspExpProfMapID, TmnxMobPdnGyChrgTriggerType=TmnxMobPdnGyChrgTriggerType, TmnxMobGwType=TmnxMobGwType, TmnxVdoAnalyzerAlarmStates=TmnxVdoAnalyzerAlarmStates, TmnxPppoeUserNameOrEmpty=TmnxPppoeUserNameOrEmpty, TBurstPercentOrDefault=TBurstPercentOrDefault, THSMDABurstSizeBytesOverride=THSMDABurstSizeBytesOverride, TBurstPercent=TBurstPercent, TmnxMobDiaRetryCount=TmnxMobDiaRetryCount, TNonZeroWeight=TNonZeroWeight, TmnxMobDfPeerId=TmnxMobDfPeerId, TmnxStatus=TmnxStatus, TmnxMobApnOrZero=TmnxMobApnOrZero, TSdpEgressPolicyID=TSdpEgressPolicyID, TmnxMobRfAcctLevel=TmnxMobRfAcctLevel, TmnxMobDiaTransTimer=TmnxMobDiaTransTimer, TmnxMobChargingBearerType=TmnxMobChargingBearerType, timetraTCMIBModule=timetraTCMIBModule, THsmdaPIRKRateOverride=THsmdaPIRKRateOverride, TSapEgrEncapGroupActionType=TSapEgrEncapGroupActionType, TmnxSubNasPortPrefixType=TmnxSubNasPortPrefixType, TPlcrBurstSizeBytes=TPlcrBurstSizeBytes, TQosQGrpInstanceIDorZero=TQosQGrpInstanceIDorZero, TmnxPwGlobalIdOrZero=TmnxPwGlobalIdOrZero, TmnxThresholdGroupType=TmnxThresholdGroupType, TmnxMobProfNameOrEmpty=TmnxMobProfNameOrEmpty, TmnxVdoGrpIdOrInherit=TmnxVdoGrpIdOrInherit, TmnxMobApn=TmnxMobApn, TmnxMobDiaPeerHost=TmnxMobDiaPeerHost, TmnxMobPdnRefPointType=TmnxMobPdnRefPointType, TNetworkPolicyID=TNetworkPolicyID, TItemMatch=TItemMatch, TItemLongDescription=TItemLongDescription, QTagFullRangeOrNone=QTagFullRangeOrNone, TMlpppQoSProfileId=TMlpppQoSProfileId, TSdpIngressPolicyID=TSdpIngressPolicyID, TIngressHsmdaCounterIdOrZero=TIngressHsmdaCounterIdOrZero, TmnxVdoStatInt=TmnxVdoStatInt, THPolPIRRate=THPolPIRRate, TmnxMobArp=TmnxMobArp, TmnxActionType=TmnxActionType, TFrameType=TFrameType, TAdaptationRule=TAdaptationRule, SdpBindId=SdpBindId, TmnxMobNode=TmnxMobNode, TTcpUdpPortOperator=TTcpUdpPortOperator, TmnxMobMccOrEmpty=TmnxMobMccOrEmpty, TmnxSrrpPriorityStep=TmnxSrrpPriorityStep, TCIRPercentOverride=TCIRPercentOverride, TmnxMobImsi=TmnxMobImsi, THsmdaSchedulerPolicyGroupId=THsmdaSchedulerPolicyGroupId, TmnxMobArpValue=TmnxMobArpValue, TClassBurstLimit=TClassBurstLimit, TmnxAccPlcyQICounters=TmnxAccPlcyQICounters, TmnxMobSdfFilter=TmnxMobSdfFilter, TmnxMobImei=TmnxMobImei, TSysResource=TSysResource, TmnxBgpPreference=TmnxBgpPreference, TmnxMobQciValue=TmnxMobQciValue, TPlcyMode=TPlcyMode, THSMDAQueueBurstLimit=THSMDAQueueBurstLimit, TmnxVcId=TmnxVcId, TmnxMobStaticPolPrecedenceOrZero=TmnxMobStaticPolPrecedenceOrZero, TEgressHsmdaPerPacketOffset=TEgressHsmdaPerPacketOffset, TPortSchedulerPIR=TPortSchedulerPIR, THPolCIRRateOverride=THPolCIRRateOverride, TQueueMode=TQueueMode, TmnxMobUeState=TmnxMobUeState, TmnxOperGrpHoldUpTime=TmnxOperGrpHoldUpTime, TQueueId=TQueueId, TmnxMobSdfFilterNum=TmnxMobSdfFilterNum, TmnxMobPeerType=TmnxMobPeerType, TmnxServId=TmnxServId, TLevel=TLevel, TmnxMobArpValueOrZero=TmnxMobArpValueOrZero, TmnxEncapVal=TmnxEncapVal, TmnxVcIdOrNone=TmnxVcIdOrNone, TmnxQosBytesHex=TmnxQosBytesHex, TNamedItem=TNamedItem, TmnxBsxAarpIdOrZero=TmnxBsxAarpIdOrZero, TTmplPolicyID=TTmplPolicyID, TmnxAccPlcyAACounters=TmnxAccPlcyAACounters, TmnxMobUeRat=TmnxMobUeRat, THsmdaWeightClass=THsmdaWeightClass, TmnxVdoIfName=TmnxVdoIfName, TmnxMobRtrAdvtLifeTime=TmnxMobRtrAdvtLifeTime, TmnxSpbFidOrZero=TmnxSpbFidOrZero, TmnxVcType=TmnxVcType, TmnxEnabledDisabledOrInherit=TmnxEnabledDisabledOrInherit, TExpSecondaryShaperPIRRate=TExpSecondaryShaperPIRRate, TmnxAccessLoopEncaps2=TmnxAccessLoopEncaps2, TmnxTunnelGroupIdOrZero=TmnxTunnelGroupIdOrZero, THsmdaPolicyIncludeQueues=THsmdaPolicyIncludeQueues) mibBuilder.exportSymbols("TIMETRA-TC-MIB", TPIRRateOrZero=TPIRRateOrZero, TmnxMacSpecification=TmnxMacSpecification, TQGroupType=TQGroupType, TmnxAccPlcyOICounters=TmnxAccPlcyOICounters, TFCSet=TFCSet, TMacFilterType=TMacFilterType, TDEValue=TDEValue, TmnxMobMncOrEmpty=TmnxMobMncOrEmpty, TmnxBsxTransitIpPolicyId=TmnxBsxTransitIpPolicyId, TPolicyID=TPolicyID, TmnxSubAleOffsetMode=TmnxSubAleOffsetMode, TEgressHsmdaQueueId=TEgressHsmdaQueueId, TEgrHsmdaPerPacketOffsetOvr=TEgrHsmdaPerPacketOffsetOvr, TmnxRadiusServerOperState=TmnxRadiusServerOperState, TmnxMobProfGbrRate=TmnxMobProfGbrRate, TmnxIkePolicyAuthMethod=TmnxIkePolicyAuthMethod, TBWRateType=TBWRateType, THsmdaPIRMRate=THsmdaPIRMRate, TmnxVRtrMplsLspID=TmnxVRtrMplsLspID, TmnxAncpStringOrZero=TmnxAncpStringOrZero, TBurstSizeOverride=TBurstSizeOverride, THsmdaWrrWeightOverride=THsmdaWrrWeightOverride, TmnxVRtrID=TmnxVRtrID, TmnxMobNai=TmnxMobNai, TmnxMsPwPeSignaling=TmnxMsPwPeSignaling, TmnxSubRadiusVendorId=TmnxSubRadiusVendorId, TmnxMobMcc=TmnxMobMcc, TPortSchedulerCIR=TPortSchedulerCIR, TAdvCfgRate=TAdvCfgRate, THsmdaCIRKRate=THsmdaCIRKRate, THsmdaCIRMRateOverride=THsmdaCIRMRateOverride, TSapIngressPolicyID=TSapIngressPolicyID, TIngressHsmdaQueueId=TIngressHsmdaQueueId, TProfileUseDEOrNone=TProfileUseDEOrNone, TIngPolicerId=TIngPolicerId, TNetworkIngressMeterId=TNetworkIngressMeterId, TmnxBsxAarpServiceRefType=TmnxBsxAarpServiceRefType, TmnxMobUeSubType=TmnxMobUeSubType, TBurstSizeBytesOverride=TBurstSizeBytesOverride, TmnxMobGwId=TmnxMobGwId, TmnxTunnelType=TmnxTunnelType, TBurstSize=TBurstSize, TPlcyQuanta=TPlcyQuanta, THsmdaCIRKRateOverride=THsmdaCIRKRateOverride, TmnxMobLiTargetType=TmnxMobLiTargetType, BgpPeeringStatus=BgpPeeringStatus, THsmdaPolicyScheduleClass=THsmdaPolicyScheduleClass, Dot1PPriority=Dot1PPriority, TmnxMobProfPolChargingMethod=TmnxMobProfPolChargingMethod, TmnxBsxTransitIpPolicyIdOrZero=TmnxBsxTransitIpPolicyIdOrZero, ServiceOperStatus=ServiceOperStatus, Dot1PPriorityMask=Dot1PPriorityMask, TmnxMobChargingLevel=TmnxMobChargingLevel, TmnxSubAleOffset=TmnxSubAleOffset, THsmdaWeightOverride=THsmdaWeightOverride, THSMDABurstSizeBytes=THSMDABurstSizeBytes, TEntryIndicator=TEntryIndicator, TmnxDefInterDestIdSource=TmnxDefInterDestIdSource, TmnxBsxTransPrefPolicyId=TmnxBsxTransPrefPolicyId, TmnxVdoOutputFormat=TmnxVdoOutputFormat, TDirection=TDirection, TEgressHsmdaCounterIdOrZero=TEgressHsmdaCounterIdOrZero, TmnxRadiusPendingReqLimit=TmnxRadiusPendingReqLimit, TAtmTdpDescrType=TAtmTdpDescrType, THsmdaCounterIdOrZero=THsmdaCounterIdOrZero, TmnxPppNcpProtocol=TmnxPppNcpProtocol, TmnxVdoPortNumber=TmnxVdoPortNumber, THsmdaWrrWeight=THsmdaWrrWeight, TmnxSpokeSdpId=TmnxSpokeSdpId, TBurstPercentOrDefaultOverride=TBurstPercentOrDefaultOverride, TmnxMobBearerType=TmnxMobBearerType, THsmdaWeight=THsmdaWeight, TmnxIgmpGroupFilterMode=TmnxIgmpGroupFilterMode, TmnxBGPFamilyType=TmnxBGPFamilyType, TQosOverrideType=TQosOverrideType, TPolicyStatementNameOrEmpty=TPolicyStatementNameOrEmpty, TEgrPolicerIdOrNone=TEgrPolicerIdOrNone, TmnxMldGroupType=TmnxMldGroupType, TPortSchedulerPIRRate=TPortSchedulerPIRRate, TmnxEgrPolicerStatMode=TmnxEgrPolicerStatMode, TmnxMplsTpNodeID=TmnxMplsTpNodeID, TmnxSlaProfileStringOrEmpty=TmnxSlaProfileStringOrEmpty, THsmdaCounterIdOrZeroOrAll=THsmdaCounterIdOrZeroOrAll, TmnxMobImsiStr=TmnxMobImsiStr, THsmdaCIRMRate=THsmdaCIRMRate, TmnxDefSubIdSource=TmnxDefSubIdSource, TDEProfile=TDEProfile, TEntryId=TEntryId, TmnxMobBearerId=TmnxMobBearerId, TmnxVdoAnalyzerAlarm=TmnxVdoAnalyzerAlarm, TmnxSubIdentStringOrEmpty=TmnxSubIdentStringOrEmpty, TmnxPppoeUserName=TmnxPppoeUserName, TProfile=TProfile, TmnxMobChargingProfile=TmnxMobChargingProfile, TmnxAccPlcyQECounters=TmnxAccPlcyQECounters, TmnxCdrType=TmnxCdrType, TmnxSvcOperGrpCreationOrigin=TmnxSvcOperGrpCreationOrigin, TmnxSpbFdbLocale=TmnxSpbFdbLocale, TRateType=TRateType, TPriorityOrDefault=TPriorityOrDefault, TmnxAccPlcyOECounters=TmnxAccPlcyOECounters, THPolCIRRate=THPolCIRRate, TmnxMobProfIpTtl=TmnxMobProfIpTtl, THPolVirtualSchePIRRate=THPolVirtualSchePIRRate, TmnxDHCP6MsgType=TmnxDHCP6MsgType, TmnxIPsecTunnelTemplateIdOrZero=TmnxIPsecTunnelTemplateIdOrZero, TmnxMobRtrAdvtInterval=TmnxMobRtrAdvtInterval, TmnxMobSdfFilterProtocol=TmnxMobSdfFilterProtocol, TDEProfileOrDei=TDEProfileOrDei, TmnxMobAccessType=TmnxMobAccessType, QTag=QTag, TmnxAccessLoopEncaps1=TmnxAccessLoopEncaps1, TmnxMplsTpTunnelType=TmnxMplsTpTunnelType, TmnxSpokeSdpIdOrZero=TmnxSpokeSdpIdOrZero, TSapEgrEncapGrpQosPolicyIdOrZero=TSapEgrEncapGrpQosPolicyIdOrZero, TmnxMobUeId=TmnxMobUeId, TmnxMobMsisdn=TmnxMobMsisdn, TmnxBfdSessOperState=TmnxBfdSessOperState, TBurstLimit=TBurstLimit, TmnxVpnIpBackupFamily=TmnxVpnIpBackupFamily, ServiceAccessPoint=ServiceAccessPoint, TmnxDhcpOptionType=TmnxDhcpOptionType, TEgrPolicerId=TEgrPolicerId, TmnxOperGrpHoldDownTime=TmnxOperGrpHoldDownTime, TmnxMobPdnSessionEvent=TmnxMobPdnSessionEvent, TmnxMobQci=TmnxMobQci, TmnxPwGlobalId=TmnxPwGlobalId, TMeterMode=TMeterMode, TmnxMobUeStrPrefix=TmnxMobUeStrPrefix, TmnxMobLiTarget=TmnxMobLiTarget, TmnxBinarySpecification=TmnxBinarySpecification, ServiceAdminStatus=ServiceAdminStatus, TPrecValueOrNone=TPrecValueOrNone, TmnxBsxAarpId=TmnxBsxAarpId, TmnxMobChargingProfileOrInherit=TmnxMobChargingProfileOrInherit, TPlcrBurstSizeBytesOverride=TPlcrBurstSizeBytesOverride, TmnxIkePolicyOwnAuthMethod=TmnxIkePolicyOwnAuthMethod, TmnxAppProfileString=TmnxAppProfileString, TmnxStrSapId=TmnxStrSapId, TmnxTimeInSec=TmnxTimeInSec, TmnxMobDiaDetailPathMgmtState=TmnxMobDiaDetailPathMgmtState, TmnxSubMgtIntDestId=TmnxSubMgtIntDestId, IpAddressPrefixLength=IpAddressPrefixLength, TmnxMobIpCanType=TmnxMobIpCanType, TProfileOrDei=TProfileOrDei, TPriorityOrUndefined=TPriorityOrUndefined, TmnxBsxTransPrefPolicyIdOrZero=TmnxBsxTransPrefPolicyIdOrZero, TmnxIngPolicerStatMode=TmnxIngPolicerStatMode)

{ "cells": [ { "cell_type": "code", "execution_count": 108, "id": "25569a41", "metadata": {}, "outputs": [], "source": [ "import os\n", "import csv \n", "from statistics import mean" ] }, { "cell_type": "code", "execution_count": 109, "id": "2cbb873b", "metadata": {}, "outputs": [ { "data": { "text/plain": [ "'Resources/budget_data.csv'" ] }, "execution_count": 109, "metadata": {}, "output_type": "execute_result" } ], "source": [ "budget_data_path=os.path.join('Resources', 'budget_data.csv')\n", "budget_data_path" ] }, { "cell_type": "code", "execution_count": 110, "id": "60b00411", "metadata": {}, "outputs": [], "source": [ "date=[]\n", "profit=[]\n", "profit_change=[]" ] }, { "cell_type": "code", "execution_count": 111, "id": "a6ad89db", "metadata": {}, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ "Financial Analysis\n", "-------------------\n", "Total month: 86\n", "Total : 38382578\n", "Average Change :-2315.12\n", "Greatest Increase in Profits: Feb-2012,(1926159)\n", "Greatest Decrease in Profit: Sep-2013,(-2196167)\n" ] } ], "source": [ "with open (budget_data_path) as bank_data_file:\n", " \n", " csvreader=csv.reader(bank_data_file, delimiter=',')\n", " header=next(csvreader)\n", " \n", " \n", " for row in csvreader:\n", " \n", "#Total_month\n", " date.append(row[0])\n", " \n", "#total_revenue\n", " profit.append(int(row[1]))\n", "# avrage_change\n", " for i in range(len(profit)-1):\n", " profit_change.append(profit[i+1]-profit[i])\n", "#greatest_increas \n", " max_increa=max(profit_change)\n", "#greates_decreas \n", " max_decrease=min(profit_change)\n", "#Avrage change\n", " avrage_change=mean(profit_change)\n", " \n", "\n", " print(\"Financial Analysis\")\n", " print(\"-------------------\")\n", " print(f\"Total month: {len(date)}\")\n", " print(f\"Total : {sum(profit)}\")\n", " print(f\"Average Change :{round(avrage_change,2)}\")\n", " print(f\"Greatest Increase in Profits: {date[profit_change.index(max(profit_change))+1]},({max_increa})\")\n", " print(f\"Greatest Decrease in Profit: {date[profit_change.index(min(profit_change))+1]},({max_decrease})\")" ] }, { "cell_type": "code", "execution_count": null, "id": "904c9239", "metadata": {}, "outputs": [], "source": [ "output = \"result.txt\"\n", "with open(\"result\",\"w\") as new:\n", " new.write(\"Financial Analysis\")\n", " new.write(\"\\n\")\n", " new.write(\"--------------------\")\n", " new.write(\"\\n\")\n", " new.write(f\"Total month: {len(date)}\")\n", " new.write(\"\\n\")\n", " new.write(f\"Total: ${sum(profit)}\")\n", " new.write(\"\\n\")\n", " new.write(f\"Average Change: {round(avrage_change,2)}\")\n", " new.write(\"\\n\")\n", " new.write(f\"Greatest Increase in Profits: {date[profit_change.index(max(profit_change))+1]},({max_increa})\")\n", " new.write(\"\\n\")\n", " new.write(f\"Greatest Decrease in Profits: {date[profit_change.index(min(profit_change))+1]},({max_decrease})\")" ] } ], "metadata": { "kernelspec": { "display_name": "Python 3", "language": "python", "name": "python3" }, "language_info": { "codemirror_mode": { "name": "ipython", "version": 3 }, "file_extension": ".py", "mimetype": "text/x-python", "name": "python", "nbconvert_exporter": "python", "pygments_lexer": "ipython3", "version": "3.8.8" } }, "nbformat": 4, "nbformat_minor": 5 }

# # PySNMP MIB module CISCO-QLLC01-MIB (http://snmplabs.com/pysmi) # ASN.1 source file:///Users/davwang4/Dev/mibs.snmplabs.com/asn1/CISCO-QLLC01-MIB # Produced by pysmi-0.3.4 at Mon Apr 29 17:53:38 2019 # On host DAVWANG4-M-1475 platform Darwin version 18.5.0 by user davwang4 # Using Python version 3.7.3 (default, Mar 27 2019, 09:23:15) # ObjectIdentifier, OctetString, Integer = mibBuilder.importSymbols("ASN1", "ObjectIdentifier", "OctetString", "Integer") NamedValues, = mibBuilder.importSymbols("ASN1-ENUMERATION", "NamedValues") ValueRangeConstraint, ConstraintsUnion, ConstraintsIntersection, SingleValueConstraint, ValueSizeConstraint = mibBuilder.importSymbols("ASN1-REFINEMENT", "ValueRangeConstraint", "ConstraintsUnion", "ConstraintsIntersection", "SingleValueConstraint", "ValueSizeConstraint") ciscoExperiment, = mibBuilder.importSymbols("CISCO-SMI", "ciscoExperiment") NotificationGroup, ObjectGroup, ModuleCompliance = mibBuilder.importSymbols("SNMPv2-CONF", "NotificationGroup", "ObjectGroup", "ModuleCompliance") iso, ModuleIdentity, MibIdentifier, Counter32, Integer32, Bits, TimeTicks, Counter64, NotificationType, MibScalar, MibTable, MibTableRow, MibTableColumn, IpAddress, Gauge32, Unsigned32, ObjectIdentity = mibBuilder.importSymbols("SNMPv2-SMI", "iso", "ModuleIdentity", "MibIdentifier", "Counter32", "Integer32", "Bits", "TimeTicks", "Counter64", "NotificationType", "MibScalar", "MibTable", "MibTableRow", "MibTableColumn", "IpAddress", "Gauge32", "Unsigned32", "ObjectIdentity") DisplayString, TextualConvention = mibBuilder.importSymbols("SNMPv2-TC", "DisplayString", "TextualConvention") snaqllc01 = ModuleIdentity((1, 3, 6, 1, 4, 1, 9, 10, 6)) if mibBuilder.loadTexts: snaqllc01.setLastUpdated('9411090000Z') if mibBuilder.loadTexts: snaqllc01.setOrganization('Cisco Systems, Inc.') qllc = MibIdentifier((1, 3, 6, 1, 4, 1, 9, 10, 6, 1)) class IfIndexType(Integer32): subtypeSpec = Integer32.subtypeSpec + ValueRangeConstraint(0, 2147483647) class X121Address(OctetString): subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(0, 17) qllcLSAdminTable = MibTable((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1), ) if mibBuilder.loadTexts: qllcLSAdminTable.setStatus('current') qllcLSAdminEntry = MibTableRow((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1), ).setIndexNames((0, "CISCO-QLLC01-MIB", "qllcLSAdminIfIndex"), (0, "CISCO-QLLC01-MIB", "qllcLSAdminLciVcIndex")) if mibBuilder.loadTexts: qllcLSAdminEntry.setStatus('current') qllcLSAdminIfIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 1), IfIndexType()).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminIfIndex.setStatus('current') qllcLSAdminLciVcIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 2), IfIndexType()).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminLciVcIndex.setStatus('current') qllcLSAdminCircuitType = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 3), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("switchedVC", 1), ("permanentVC", 2)))).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminCircuitType.setStatus('current') qllcLSAdminRole = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 4), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 3))).clone(namedValues=NamedValues(("primary", 1), ("secondary", 2), ("peerToPeer", 3)))).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminRole.setStatus('current') qllcLSAdminX25Add = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 5), X121Address()).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminX25Add.setStatus('current') qllcLSAdminModulo = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 6), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("modulo8", 1), ("modulo128", 2))).clone('modulo8')).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminModulo.setStatus('current') qllcLSAdminLgX25 = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 1, 1, 7), Integer32()).setMaxAccess("readwrite") if mibBuilder.loadTexts: qllcLSAdminLgX25.setStatus('current') qllcLSOperTable = MibTable((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2), ) if mibBuilder.loadTexts: qllcLSOperTable.setStatus('current') qllcLSOperEntry = MibTableRow((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1), ).setIndexNames((0, "CISCO-QLLC01-MIB", "qllcLSOperIfIndex"), (0, "CISCO-QLLC01-MIB", "qllcLSOperLciVcIndex")) if mibBuilder.loadTexts: qllcLSOperEntry.setStatus('current') qllcLSOperIfIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 1), IfIndexType()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperIfIndex.setStatus('current') qllcLSOperLciVcIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 2), IfIndexType()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperLciVcIndex.setStatus('current') qllcLSOperCircuitType = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 3), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("switchedVC", 1), ("permanentVC", 2)))).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperCircuitType.setStatus('current') qllcLSOperRole = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 4), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 3))).clone(namedValues=NamedValues(("primary", 1), ("secondary", 2), ("peerToPeer", 3)))).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperRole.setStatus('current') qllcLSOperX25Add = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 5), X121Address()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperX25Add.setStatus('current') qllcLSOperModulo = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 6), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("modulo8", 1), ("modulo128", 2))).clone('modulo8')).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperModulo.setStatus('current') qllcLSOperState = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 7), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6))).clone(namedValues=NamedValues(("lsStateInop", 1), ("lsStateClosed", 2), ("lsStateOpening", 3), ("lsStateClosing", 4), ("lsStateRecovery", 5), ("lsStateOpened", 6)))).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperState.setStatus('current') qllcLSOperLgX25 = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 2, 1, 8), Integer32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSOperLgX25.setStatus('current') qllcLSStatsTable = MibTable((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3), ) if mibBuilder.loadTexts: qllcLSStatsTable.setStatus('current') qllcLSStatsEntry = MibTableRow((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1), ).setIndexNames((0, "CISCO-QLLC01-MIB", "qllcLSStatsIfIndex"), (0, "CISCO-QLLC01-MIB", "qllcLSStatsLciVcIndex")) if mibBuilder.loadTexts: qllcLSStatsEntry.setStatus('current') qllcLSStatsIfIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 1), IfIndexType()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsIfIndex.setStatus('current') qllcLSStatsLciVcIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 2), IfIndexType()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsLciVcIndex.setStatus('current') qllcLSStatsXidIn = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 3), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsXidIn.setStatus('current') qllcLSStatsXidOut = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 4), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsXidOut.setStatus('current') qllcLSStatsTestIn = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 5), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsTestIn.setStatus('current') qllcLSStatsTestOut = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 6), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsTestOut.setStatus('current') qllcLSStatsQuenchOff = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 7), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsQuenchOff.setStatus('current') qllcLSStatsQuenchOn = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 8), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsQuenchOn.setStatus('current') qllcLSStatsInPaks = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 9), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsInPaks.setStatus('current') qllcLSStatsOutPaks = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 10), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsOutPaks.setStatus('current') qllcLSStatsInBytes = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 11), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsInBytes.setStatus('current') qllcLSStatsOutBytes = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 12), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsOutBytes.setStatus('current') qllcLSStatsNumRcvQsms = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 13), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumRcvQsms.setStatus('current') qllcLSStatsNumSndQsms = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 14), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumSndQsms.setStatus('current') qllcLSStatsNumRcvDiscs = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 15), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumRcvDiscs.setStatus('current') qllcLSStatsNumSndDiscs = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 16), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumSndDiscs.setStatus('current') qllcLSStatsNumRcvDms = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 17), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumRcvDms.setStatus('current') qllcLSStatsNumSndDms = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 18), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumSndDms.setStatus('current') qllcLSStatsNumRcvFrmrs = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 19), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumRcvFrmrs.setStatus('current') qllcLSStatsNumSndFrmrs = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 20), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumSndFrmrs.setStatus('current') qllcLSStatsNumDrops = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 21), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumDrops.setStatus('current') qllcLSStatsNumErrs = MibTableColumn((1, 3, 6, 1, 4, 1, 9, 10, 6, 1, 3, 1, 22), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: qllcLSStatsNumErrs.setStatus('current') qllcMibConformance = MibIdentifier((1, 3, 6, 1, 4, 1, 9, 10, 6, 2)) qllcMibCompliances = MibIdentifier((1, 3, 6, 1, 4, 1, 9, 10, 6, 2, 1)) qllcMibGroups = MibIdentifier((1, 3, 6, 1, 4, 1, 9, 10, 6, 2, 2)) qllcMibCompliance = ModuleCompliance((1, 3, 6, 1, 4, 1, 9, 10, 6, 2, 1, 1)).setObjects(("CISCO-QLLC01-MIB", "qllcLSAdminGroup"), ("CISCO-QLLC01-MIB", "qllcLSOperGroup"), ("CISCO-QLLC01-MIB", "qllcLSStatsGroup")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): qllcMibCompliance = qllcMibCompliance.setStatus('current') qllcLSAdminGroup = ObjectGroup((1, 3, 6, 1, 4, 1, 9, 10, 6, 2, 2, 1)).setObjects(("CISCO-QLLC01-MIB", "qllcLSAdminIfIndex"), ("CISCO-QLLC01-MIB", "qllcLSAdminLciVcIndex"), ("CISCO-QLLC01-MIB", "qllcLSAdminRole"), ("CISCO-QLLC01-MIB", "qllcLSAdminCircuitType"), ("CISCO-QLLC01-MIB", "qllcLSAdminX25Add"), ("CISCO-QLLC01-MIB", "qllcLSAdminModulo"), ("CISCO-QLLC01-MIB", "qllcLSAdminLgX25")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): qllcLSAdminGroup = qllcLSAdminGroup.setStatus('current') qllcLSOperGroup = ObjectGroup((1, 3, 6, 1, 4, 1, 9, 10, 6, 2, 2, 2)).setObjects(("CISCO-QLLC01-MIB", "qllcLSOperIfIndex"), ("CISCO-QLLC01-MIB", "qllcLSOperLciVcIndex"), ("CISCO-QLLC01-MIB", "qllcLSOperCircuitType"), ("CISCO-QLLC01-MIB", "qllcLSOperRole"), ("CISCO-QLLC01-MIB", "qllcLSOperX25Add"), ("CISCO-QLLC01-MIB", "qllcLSOperModulo"), ("CISCO-QLLC01-MIB", "qllcLSOperState"), ("CISCO-QLLC01-MIB", "qllcLSOperLgX25")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): qllcLSOperGroup = qllcLSOperGroup.setStatus('current') qllcLSStatsGroup = ObjectGroup((1, 3, 6, 1, 4, 1, 9, 10, 6, 2, 2, 3)).setObjects(("CISCO-QLLC01-MIB", "qllcLSStatsIfIndex"), ("CISCO-QLLC01-MIB", "qllcLSStatsLciVcIndex"), ("CISCO-QLLC01-MIB", "qllcLSStatsXidIn"), ("CISCO-QLLC01-MIB", "qllcLSStatsXidOut"), ("CISCO-QLLC01-MIB", "qllcLSStatsTestIn"), ("CISCO-QLLC01-MIB", "qllcLSStatsTestOut"), ("CISCO-QLLC01-MIB", "qllcLSStatsQuenchOff"), ("CISCO-QLLC01-MIB", "qllcLSStatsQuenchOn"), ("CISCO-QLLC01-MIB", "qllcLSStatsInPaks"), ("CISCO-QLLC01-MIB", "qllcLSStatsOutPaks"), ("CISCO-QLLC01-MIB", "qllcLSStatsInBytes"), ("CISCO-QLLC01-MIB", "qllcLSStatsOutBytes"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumRcvQsms"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumSndQsms"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumRcvDiscs"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumSndDiscs"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumRcvDms"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumSndDms"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumRcvFrmrs"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumSndFrmrs"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumDrops"), ("CISCO-QLLC01-MIB", "qllcLSStatsNumErrs")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): qllcLSStatsGroup = qllcLSStatsGroup.setStatus('current') mibBuilder.exportSymbols("CISCO-QLLC01-MIB", qllcLSAdminModulo=qllcLSAdminModulo, qllcLSOperX25Add=qllcLSOperX25Add, qllcLSStatsQuenchOff=qllcLSStatsQuenchOff, qllcLSStatsNumRcvDiscs=qllcLSStatsNumRcvDiscs, qllcLSOperLgX25=qllcLSOperLgX25, qllcLSAdminX25Add=qllcLSAdminX25Add, qllcLSOperRole=qllcLSOperRole, qllcLSStatsEntry=qllcLSStatsEntry, qllcLSStatsNumSndQsms=qllcLSStatsNumSndQsms, qllcMibGroups=qllcMibGroups, qllcLSStatsGroup=qllcLSStatsGroup, qllcLSStatsTestOut=qllcLSStatsTestOut, qllcLSStatsIfIndex=qllcLSStatsIfIndex, qllcMibCompliances=qllcMibCompliances, qllcLSStatsNumErrs=qllcLSStatsNumErrs, qllcLSStatsNumDrops=qllcLSStatsNumDrops, qllcLSOperState=qllcLSOperState, qllcLSAdminIfIndex=qllcLSAdminIfIndex, qllcLSOperTable=qllcLSOperTable, qllcLSOperCircuitType=qllcLSOperCircuitType, qllcLSStatsLciVcIndex=qllcLSStatsLciVcIndex, PYSNMP_MODULE_ID=snaqllc01, qllcLSOperIfIndex=qllcLSOperIfIndex, X121Address=X121Address, qllcLSAdminRole=qllcLSAdminRole, qllcLSAdminLciVcIndex=qllcLSAdminLciVcIndex, qllcLSAdminTable=qllcLSAdminTable, qllcLSStatsInPaks=qllcLSStatsInPaks, qllcLSStatsOutPaks=qllcLSStatsOutPaks, qllcLSAdminLgX25=qllcLSAdminLgX25, IfIndexType=IfIndexType, qllcLSOperEntry=qllcLSOperEntry, qllcLSOperModulo=qllcLSOperModulo, qllc=qllc, qllcLSStatsQuenchOn=qllcLSStatsQuenchOn, qllcLSOperGroup=qllcLSOperGroup, qllcLSStatsTestIn=qllcLSStatsTestIn, qllcLSStatsNumRcvFrmrs=qllcLSStatsNumRcvFrmrs, qllcMibCompliance=qllcMibCompliance, qllcLSStatsNumRcvDms=qllcLSStatsNumRcvDms, qllcLSAdminCircuitType=qllcLSAdminCircuitType, snaqllc01=snaqllc01, qllcLSStatsTable=qllcLSStatsTable, qllcLSStatsNumSndDms=qllcLSStatsNumSndDms, qllcLSAdminGroup=qllcLSAdminGroup, qllcLSAdminEntry=qllcLSAdminEntry, qllcLSStatsXidIn=qllcLSStatsXidIn, qllcMibConformance=qllcMibConformance, qllcLSStatsXidOut=qllcLSStatsXidOut, qllcLSStatsOutBytes=qllcLSStatsOutBytes, qllcLSOperLciVcIndex=qllcLSOperLciVcIndex, qllcLSStatsInBytes=qllcLSStatsInBytes, qllcLSStatsNumSndDiscs=qllcLSStatsNumSndDiscs, qllcLSStatsNumSndFrmrs=qllcLSStatsNumSndFrmrs, qllcLSStatsNumRcvQsms=qllcLSStatsNumRcvQsms)

# Thrown by WikiData classes class AppBaseException(Exception): def __init__(self, message="", tag=None): Exception.__init__(self, message) self.tag = tag def getTag(self): return self.tag class WikiDataException(AppBaseException): pass class WikiWordNotFoundException(WikiDataException): pass class WikiFileNotFoundException(WikiDataException): pass class WikiDBExistsException(WikiDataException): pass class NoPageAstException(AppBaseException): pass # For non-Windows systems try: WindowsError except NameError: class WindowsError(Exception): pass class DbAccessError(AppBaseException): """ Base classes for read or write errors when acessing database where "database" also means wiki configuration and additional files. """ def __init__(self, originalException): AppBaseException.__init__(self, str(originalException)) self.originalException = originalException def getOriginalException(self): return self.originalException class DbReadAccessError(DbAccessError): """ Impossible to read (and therefore also to write to) database """ pass class DbWriteAccessError(DbAccessError): """ Impossible to write to database, reading may be possible """ pass class RenameWikiWordException(AppBaseException): """ Raised on problems with renaming multiple wikiwords at once. Constructed in WikiDataManager.WikiDataManager.buildRenameSeqWithSubpages() """ # Problems: # Multiple words should be renamed to same word PRB_RENAME_TO_SAME = 1 # Word to rename to exist already PRB_TO_ALREADY_EXISTS = 2 def __init__(self, affectedRenames): """ affectedRenames -- list of tuples (fromWikiWord, toWikiWord, problem) where problem is one of the PRB_* constants of the class. """ self.affectedRenames = affectedRenames def getAffectedRenames(self): return self.affectedRenames def getFlowText(self): """ Return affectedRenames as multiple-line human readable text """ # TODO Move definition outside (attn to i18n) PROBLEM_HR_DICT = { self.PRB_RENAME_TO_SAME: _(u"Multiple words rename to same word"), self.PRB_TO_ALREADY_EXISTS: _(u"Word already exists") } result = [] for fromWikiWord, toWikiWord, problem in self.affectedRenames: result.append(u"%s -> %s: %s" % (fromWikiWord, toWikiWord, PROBLEM_HR_DICT[problem])) return u"\n".join(result) class InternalError(AppBaseException): pass class ExportException(AppBaseException): pass class ImportException(AppBaseException): pass # See Serialization.py class SerializationException(AppBaseException): pass class VersioningException(AppBaseException): pass # See WikiDataManager.py. Thrown if requested handler for db backend isn't # available class NoDbHandlerException(AppBaseException): pass class WrongDbHandlerException(AppBaseException): pass class DbHandlerNotAvailableException(AppBaseException): pass class UnknownDbHandlerException(AppBaseException): pass # See WikiDataManager.py. Thrown if requested handler for wiki language isn't # available class UnknownWikiLanguageException(AppBaseException): pass class WrongWikiLanguageException(AppBaseException): pass class MissingConfigurationFileException(AppBaseException): pass class BadConfigurationFileException(AppBaseException): pass class LockedWikiException(AppBaseException): pass class NotCurrentThreadException(AppBaseException): pass class UserAbortException(AppBaseException): pass class DeadBlockPreventionTimeOutError(InternalError): pass class BadFuncPageTagException(AppBaseException): pass

def capitalize(string): new = '' for i in range(0,len(string)): if i == 0: new += string[i].upper() elif string[i - 1] == ' ': new += string[i].upper() else : new += string[i] return new

numbers = (input("").split()) a=int(numbers[0]) b=int(numbers[1]) if a == b: print(0) else: print(1)

@bot.command() async def meme(ctx): msg = await ctx.send("<a:loading:900379618924716052> Processing") r = requests.get('https://meme-api.herokuapp.com/gimme') x = r.text y = json.loads(x) title = y["title"] url = y["url"] author = y["author"] embed = discord.Embed(title=f"{title}", color=0x01f960) embed.set_image(url=url) embed.set_footer(text=f"Provided by {author}") await ctx.send(embed=embed) await msg.delete()

# Constructor with arguments or parameters default class Point: def __init__(self, x=0, y=0): self.x = x self.y = y def distance(self, point2): "Calculates distance between current point to given point2" x = point2.x - self.x y = point2.y - self.y d = x**2 + y**2 return d**0.5 p2 = Point(3,4) p1 = Point() distance = p1.distance(p2) print(distance)

# # @lc app=leetcode.cn id=108 lang=python3 # # [108] 将有序数组转换为二叉搜索树 # # https://leetcode-cn.com/problems/convert-sorted-array-to-binary-search-tree/description/ # # algorithms # Easy (74.50%) # Likes: 655 # Dislikes: 0 # Total Accepted: 128.6K # Total Submissions: 172.5K # Testcase Example: '[-10,-3,0,5,9]' # # 将一个按照升序排列的有序数组，转换为一棵高度平衡二叉搜索树。 # # 本题中，一个高度平衡二叉树是指一个二叉树每个节点的左右两个子树的高度差的绝对值不超过 1。 # # 示例: # # 给定有序数组: [-10,-3,0,5,9], # # 一个可能的答案是：[0,-3,9,-10,null,5]，它可以表示下面这个高度平衡二叉搜索树： # # ⁠ 0 # ⁠ / \ # ⁠ -3 9 # ⁠ / / # ⁠-10 5 # # # # @lc code=start # Definition for a binary tree node. # class TreeNode: # def __init__(self, x): # self.val = x # self.left = None # self.right = None # def sortedArrayToBST(self, nums: List[int]) -> TreeNode: # def buildTree(left,right): # if left > right: # return None # mid = (left+right)>>1 # root = TreeNode(nums[mid]) # root.left = buildTree(left,mid-1) # root.right = buildTree(mid+1,right) # return root # return buildTree(0,len(nums)-1) class Solution: def sortedArrayToBST(self, nums: List[int]) -> TreeNode: def buildTree(left,right): if left > right: return None mid = (left+right)>>1 root = TreeNode(nums[mid]) root.left = buildTree(left,mid-1) root.right = buildTree(mid+1,right) return root return buildTree(0,len(nums)-1) # @lc code=end

def encode(content: bytes): p = list(content) oa = ord('a') oz = ord('z') oA = ord('A') oZ = ord('Z') for i in range(len(p)): if oa <= p[i] <= oz: p[i] = oa + 25 - p[i] + oa elif oA <= p[i] <= oZ: p[i] = oA + 25 - p[i] + oA return bytes(p) def decode(cipher: bytes): return encode(cipher) if __name__ == '__main__': s = b'gsv_pvb_rh_zgyzhs' print(decode(s))

# Write a function def equals(a, b) that checks whether two lists have the same # elements in the same order. # FUNCTIONS def equals(listA, listB): if len(listA) < len(listB) or len(listA) > len(listB): return False equalBool = False for i in range(len(listA)): if listA[i] == listB[i]: equalBool = True else: return False return equalBool # main def main(): exampleListA = [ 10, 15, 20, 34, 5 ] exampleListB = [ 15, 23, 21, 15, 2 ] exampleListC = [ 15, 23, 21, 15, 2 ] print("The lists: A, B, C =>", exampleListA, exampleListB, exampleListC) print("Are A and B equal:", equals(exampleListA, exampleListB)) print("Are A and C equal:", equals(exampleListA, exampleListC)) print("Are B and C equal:", equals(exampleListB, exampleListC)) # PROGRAM RUN main()

def old_test(): core = Core(User='',Password='',ip='192.168.61.2') core.start() #gain = Control(parent=core,Name='gain',ValueType=int) cg = ChangeGroup(parent=core,Id='mygroup') #create some control objects for i in range(1,10): l = Control(parent=core,Name='Mixer6x9Output{}Label'.format(i),ValueType=str) cg.AddControl(l) m = Control(parent=core,Name='Mixer6x9Output{}Mute'.format(i),ValueType=[int,float]) cg.AddControl(m) g = Control(parent=core,Name='Mixer6x9Output{}Gain'.format(i),ValueType=[int,float]) cg.AddControl(g) print(l,m,g) time.sleep(2) cg.AutoPoll(Rate=.1) while True: x = str(input("Control Name: ")) if(x): try: print(core.Objects[x].state) except: print("fail")

NODE_STATS_UPDATE_INTERVAL_SECONDS = 1 UPDATE_NODES_INTERVAL_SECONDS = 5 MAX_COUNT_OF_GCS_RPC_ERROR = 10 MAX_LOGS_TO_CACHE = 10000 LOG_PRUNE_THREASHOLD = 1.25

class Solution(object): def minTaps(self, n, ranges): """ :type n: int :type ranges: List[int] :rtype: int """ ranges = [(i-r,i+r) for i,r in enumerate(ranges)] ranges.sort(reverse = True) watered = 0 ans = 0 while ranges: far_right = [] while ranges and ranges[-1][0] <= watered: far_right.append(ranges.pop()[1]) if not far_right: return -1 watered = max(far_right) ans += 1 if watered >= n: return ans return ans abc = Solution() abc.minTaps(7, [1,2,1,0,2,1,0,1])

# Джокер + Результаты нескольких тиражей def test_joker_results_for_several_draws(app): app.ResultAndPrizes.open_page_results_and_prizes() app.ResultAndPrizes.click_game_joker() app.ResultAndPrizes.click_results_for_several_draws() app.ResultAndPrizes.click_ok_for_several_draws_modal_window() app.ResultAndPrizes.message_id_33_joker_results_for_5_draws() app.ResultAndPrizes.parser_report_text_winners() assert "РЕЗУЛЬТАТЫ ТИРАЖА" in app.ResultAndPrizes.parser_report_text_winners() app.ResultAndPrizes.comeback_main_page()

#Faça um programa que calcule o fatorial de um número inteiro fornecido pelo usuário. Ex.: 5!=5.4.3.2.1=120. A saída deve ser conforme o exemplo abaixo: num = int(input("Informe um valor inteiro: ")) fat = 1 print('\nFatorial de ', num) while num > 0: fat = fat * num num = num - 1 print('= ',fat)

# AUTOGENERATED BY NBDEV! DO NOT EDIT! __all__ = ["index", "modules", "custom_doc_links", "git_url"] index = {"kcred": "extract.ipynb", "unzip": "extract.ipynb", "download_kaggle_dataset": "extract.ipynb"} modules = ["loader.py"] doc_url = "https://talosiot-will.github.io/agora/" git_url = "https://github.com/talosiot-will/agora/tree/master/" def custom_doc_links(name): return None

# coding=utf-8 # # @lc app=leetcode id=130 lang=python # # [130] Surrounded Regions # # https://leetcode.com/problems/surrounded-regions/description/ # # algorithms # Medium (23.59%) # Likes: 875 # Dislikes: 457 # Total Accepted: 157.2K # Total Submissions: 664.2K # Testcase Example: '[["X","X","X","X"],["X","O","O","X"],["X","X","O","X"],["X","O","X","X"]]' # # Given a 2D board containing 'X' and 'O' (the letter O), capture all regions # surrounded by 'X'. # # A region is captured by flipping all 'O's into 'X's in that surrounded # region. # # Example: # # # X X X X # X O O X # X X O X # X O X X # # # After running your function, the board should be: # # # X X X X # X X X X # X X X X # X O X X # # # Explanation: # # Surrounded regions shouldn’t be on the border, which means that any 'O' on # the border of the board are not flipped to 'X'. Any 'O' that is not on the # border and it is not connected to an 'O' on the border will be flipped to # 'X'. Two cells are connected if they are adjacent cells connected # horizontally or vertically. # # class Solution(object): def _solve(self, board): """ :type board: List[List[str]] :rtype: None Do not return anything, modify board in-place instead. """ # Time Limit # 四边环绕，不是八边环绕 # 但是环绕可以连起来 # 不一定是单个环绕 # 可以是整体环绕 # 不能单个计算 # 类似于围棋的环绕 free = set() searched = set() # 不能从左边找到右边 # 然后从右边找到左边 def freedom(x, y): if (x, y) in free: return True if x == 0 or y == 0 or x == len(board)-1 or y == len(board[0])-1: free.add((x, y)) return True if (x, y) in searched: return False searched.add((x, y)) if board[x-1][y] == 'O': if freedom(x-1, y): free.add((x, y)) return True if board[x+1][y] == 'O': if freedom(x+1, y): free.add((x, y)) return True if board[x][y-1] == 'O': if freedom(x, y-1): free.add((x, y)) return True if board[x][y+1] == 'O': if freedom(x, y+1): free.add((x, y)) return True searched.remove((x, y)) return False for i in range(len(board)): for j in range(len(board[0])): if board[i][j] == 'O': if not freedom(i, j): board[i][j] = 'X' def __solve(self, board): """ :type board: List[List[str]] :rtype: None Do not return anything, modify board in-place instead. """ # 其实是一道遍历题 # 应该优先使用广度遍历的 # 使用深度遍历的话容易栈溢出 # 所以需要设置很多的条件来结束 # 不如换个思路 # 从边上往里找，能访问到的都是活棋 # 不能访问到的都是死棋 # 分别从四边开始 # 也有两个思路，深度遍历，或者广度遍历 # 或者直接从上往下 if not board: return def sign_sharp(x, y): if 0 <= x < len(board) and 0 <= y < len(board[0]): if board[x][y] == 'O': board[x][y] = '#' sign_sharp(x-1, y) sign_sharp(x+1, y) sign_sharp(x, y-1) sign_sharp(x, y+1) for i in range(len(board)): if board[i][0] == 'O': sign_sharp(i, 0) if board[i][len(board[0])-1] == 'O': sign_sharp(i, len(board[0])-1) for j in range(len(board[0])): if board[0][j] == 'O': sign_sharp(0, j) if board[len(board)-1][j] == 'O': sign_sharp(len(board)-1, j) for i in range(len(board)): for j in range(len(board[0])): if board[i][j] == 'O': board[i][j] = 'X' elif board[i][j] == '#': board[i][j] = 'O' def solve(self, board): """ :type board: List[List[str]] :rtype: None Do not return anything, modify board in-place instead. """ # 非递归的深度优先遍历 # 广度优先遍历，调换一下入栈和出栈的顺序即可 if not board: return def sign_sharp(x, y): stack = [(x, y)] while stack: x, y = stack.pop() if 0 <= x < len(board) and 0 <= y < len(board[0]): if board[x][y] == 'O': board[x][y] = '#' stack.append((x+1, y)) stack.append((x-1, y)) stack.append((x, y+1)) stack.append((x, y-1)) for i in range(len(board)): if board[i][0] == 'O': sign_sharp(i, 0) if board[i][len(board[0])-1] == 'O': sign_sharp(i, len(board[0])-1) for j in range(len(board[0])): if board[0][j] == 'O': sign_sharp(0, j) if board[len(board)-1][j] == 'O': sign_sharp(len(board)-1, j) for i in range(len(board)): for j in range(len(board[0])): if board[i][j] == 'O': board[i][j] = 'X' elif board[i][j] == '#': board[i][j] = 'O' # if __name__ == '__main__': # s = Solution() # a = [["X","X","X","X"],["X","O","O","X"],["X","X","O","X"],["X","O","X","X"]] # b = [["O","X","O","O","O","X"],["O","O","X","X","X","O"],["X","X","X","X","X","O"],["O","O","O","O","X","X"],["X","X","O","O","X","O"],["O","O","X","X","X","X"]] # s.solve(b) # s.solve(a) # print a # print b

def generate_python(fields): pkgSize = 0 pkgStr = '<' for field in fields: pkgSize += field.fieldType.length pkgStr += field.fieldType.charCode pyStr = 'PACKAGE_LEN = '+str(pkgSize)+'\n' pyStr += 'PACKAGE_CODE = "'+pkgStr+'"\n' pyStr += 'PACKAGE_FIELDS = ' + list( map(lambda f: f.name, fields) ).__str__() return pyStr

PLATFORM_COMPILER_FLAGS = [ '-std=c++14', '-Wall', '-Wextra', # For TestCommon.h '-Wno-pragmas', ]

x = 0 score = x # Question One print("What are the plants and trees release into the air?") answer_1 = input("a)air\nb)oxygen\nc)music\nd)zak's fart \n:") if answer_1.lower() == "b" or answer_1.lower() == "oxygen": print("Correct") x = x + 1 else: print("Incorrect, it's oxygen") # Question Two print("What color is the trash can you put the boxes in") answer_2 = input("a) orange\nb)blue\nc)green\nd)black\n:") if answer_2.lower() == "a" or answer_2.lower() == "orange": print("Correct") x = x + 1 else: print("Incorrect, it's orange") # Question Three print("True or False... scientists say that till 2050 there will be more plastic than fish in the ocean?") answer_3 = input(":") if answer_3.lower() == "true" or answer_3.lower() == "t": print("Correct") x = x + 1 else: print("Incorrect") # Question Four print("In the worldwide, how many single-use plastic bags are used per year?") answer_4 = input("a)300,000\nb)6 billions\nc)500 billions\nd)2 trillions\n:") if answer_4.lower() == "c" or answer_4 == "500 billions": print("Correct") x = x + 1 else: print("Incorrect, The last time the Toronto Maple Leafs won the Stanley Cup was 1967") # Question Five print("True or False... 60,000 marine creaturs are dying from plactic entanglement every year") answer_5 = input(":") if answer_5.lower() == "false" or answer_5.lower() == "f": print("Correct,100,000 marine creaturs are dying from plactic entanglement every year") x = x + 1 else: print("Incorrect, 100,000 marine creaturs are dying from plactic entanglement every year") # Question six print("How many people die everyday as result of drinking unclean water") answer_1 = input("a)1000\nb)300\nc)5000\nd)2670\n:") if answer_1.lower() == "c" or answer_1.lower() == "5000": print("Correct") x = x + 1 else: print("Incorrect, 5000 people die everyday as result of drinking unclean water") # Question seven print("What is the world's largest producer of carbon dioxide?") answer_2 = input("a)USA\nb)China\nc)france\nd)italy\n:") if answer_2.lower() == "b" or answer_2.lower() == "China": print("Correct") x = x + 1 else: print("Incorrect, it's China") # Question eight print("True or False... acidification of the ocean is the worst type of pollution?") answer_3 = input(":") if answer_3.lower() == "true" or answer_3.lower() == "t": print("Correct") x = x + 1 else: print("Incorrect") # Question nine print("How many kilograms of garbage a singlr person does i the USA?") answer_4 = input("a)0.5\nb)1\nc)3\nd)2\n:") if answer_4.lower() == "d" or answer_4 == "2": print("Correct") x = x + 1 else: print("Incorrect, a single person make 2 k kilograms of garbage") # Question ten print("The pollution in China doesn't change the weather in the USA?") answer_5 = input(":") if answer_5.lower() == "false" or answer_5.lower() == "f": print("Correct") x = x + 1 else: print("Incorrect,the pollution in China doesn't change the weather in the USA") #Total Score score = float(x / 5) * 100 print(x,"out of 5, that is",score, "%")

class BaseMarkupEngine(object): def __init__(self, message, obj=None): self.message = message self.obj = obj class BaseQuoteEngine(object): def __init__(self, post, username): self.post = post self.username = username

''' Interpret text as though all letters are off by one key location Status: Accepted ''' ############################################################################### def main(): """Read input and print output""" lut, keys = {' ': ' '}, [] keys.append('`1234567890-=') keys.append('QWERTYUIOP[]\\') keys.append('ASDFGHJKL;\'') keys.append('ZXCVBNM,./') for row in keys: for index, k in enumerate(row[1:], start=1): lut[k] = row[index - 1] while True: try: print(''.join([lut[i] for i in input()])) except EOFError: break ############################################################################### if __name__ == '__main__': main()

__author__ = "Cauani Castro" __copyright__ = "Copyright 2015, Cauani Castro" __credits__ = ["Cauani Castro"] __license__ = "Apache License 2.0" __version__ = "1.0" __maintainer__ = "Cauani Castro" __email__ = "[email protected]" __status__ = "Examination program" #funcao recursiva que acumula o resultado em variavel auxiliar, para melhorar a legibilidade do codigo def base3Para10(b3, exp, b10): if b3 % 10 > 2: print("O numero inserido nao esta na base 10!") return False aux = (b3 % 10)*(3**exp) if b3 < 10: return b10 + aux return base3Para10(b3//10, exp+1, b10+aux) def main(): print("Este programa ira receber uma serie de numeros na base 3, e ira converte-lo para a base 10, e imprimir o resultado.") print("Caso o usuario entre um numero fora da base 3, o programa ira alertar erro.") while True: b3 = int(input("Insira um numero na base 3 (Dominio {0, 1, 2}) [digite 0 para sair]\n")) if b3 == 0: break b10 = base3Para10(b3,0,0) if b10: print("O numero na base 3: %d, convertido para a base 10: %d" % (b3, b10)) print("\n#####################################") print(" FIM DO PROGRAMA") print("#####################################") return True if __name__ == '__main__': main()

people_waiting = int(input()) wagon_state = input().split() len_ = len(wagon_state) counter = 0 is_full = False if people_waiting == 0: print(*wagon_state) exit(0) for el in range(len_): counter = int(wagon_state[el]) if counter == 4: is_full = True continue for people in range(4): if people_waiting == 0: break people_waiting -=1 counter += 1 wagon_state[el] = counter is_full = False if counter == 4: break if people_waiting == 0: break if is_full: print(f"There isn't enough space! {people_waiting} people in a queue!") print(*wagon_state) elif counter < 4: print(f"The lift has empty spots!") print(*wagon_state) elif people_waiting > 0: print(f"There isn't enough space! {people_waiting} people in a queue!") print(*wagon_state) else: print(*wagon_state)

name, age = "Shelby De Oliveira", 29 username = "shelb-doc" print ('Hello!') print("Name: {}\nAge: {}\nUsername: {}".format(name, age, username))

""" Entradas consumo licor --> l -->int licor preferido --> lp --> int edad --> e --> int sexo --> se --> int seguir --> seg --> int Salidas personas que consumen licor --> s--> int mujeres menores de edad--> Muj_me-->int hombres que no consumen aguardiente entre 20 y 25 años-->Hom_no_a-->int promedio edad de quienes consumen cerveza-->cerv-->int porcentaje de quienes consumen whisky-->por_w-->int """ s=0 Muj_me=0 Hom_no_a=0 Cerv=[] Wsky=[] p_Wsky=0 tot=[] while True: l=int(input("Consume licor?\nDigite 0 para SI y 1 para NO ")) #entrada if l==0: s=s+1 lp=int(input("Licor preferido: ")) #entrada e=int(input("Edad: ")) #entrada if lp==3: Cerv.append(e) elif lp==5: Wsky.append(lp) genero=int(input("Sexo:\nDigite 0 si es MUJER y 1 si es HOMBRE ")) #entrada if genero==1 and lp!=1 and e>=20 and e<=25: Hom_no_a+=1 elif l==1: lp=0 e=int(input("Edad: ")) #entrada genero=int(input("Sexo:\nDigite 0 si es MUJER y 1 si es HOMBRE ")) #entrada if genero==1 and e>=20 and e<=25: Hom_no_a+=1 tot.append(l) if e<18 and genero==0: Muj_me=Muj_me+1 seg=int(input("Desea seguir con la investigacion?\nDigite 0 para SI y 1 para NO ")) #entrada if seg==1: break for x in range(len(Wsky)): if Wsky[x]==5: p_Wsky+=1 por_w=(p_Wsky*100)/len(tot) #salidas print(s," son las personas que consumen licor") print(Muj_me," son las mujeres menores de edad") print(Hom_no_a," son los hombres que no consumen aguardiente y tienen entre 20 y 25 años") if Cerv: print(sum(Cerv)/len(Cerv)," es el promedio de edad de quienes consumen cerveza") else: print("0 es el promedio de edad de quienes consumen cerveza") print(por_w,"% consumen whisky en relación con el total encuestado")

#!/usr/bin/env python # -*- coding: utf8 -*- # coding: utf8 class Room(): def __init__(self, serv, room_name, admin_username, bot_username, lutra_username, website_url, user_list): # Class attributes self.serv = serv self.room_name = room_name self.admin_username = admin_username self.bot_username = bot_username self.lutra_username = lutra_username self.website_url = website_url self.user_list = user_list # Init LOGGER.info("Welcome in ["+self.room_name+"]") LOGGER.info("Connected users: " + str(self.user_list)) def on_user_joined(self, user): LOGGER.info("User (" + str(user) + ") joined the room.") for u in self.user_list: if user == u: LOGGER.warning("User (" + str(user) + ") is already in the user list.") return self.user_list.append(user) LOGGER.info("Connected users: " + str(self.user_list)) def on_user_left(self, user): LOGGER.info("User (" + str(user) + ") left the room.") present = False for u in self.user_list: if user == u: present = True break if present: self.user_list.remove(user) LOGGER.info("Connected users: " + str(self.user_list)) else: LOGGER.warning("User (" + str(user) + ") was not found in user list.") def send(self, msg): self.serv.privmsg(self.room_name, msg.decode("utf8"))

number0 = int(input("Insira um número: ")) number1 = int(input("Insira outro número: ")) resultado = number0 + number1 print(resultado)

""" Good morning! Here's your coding interview problem for today. This problem was asked by Microsoft. Given an array of numbers arr and a window of size k, print out the median of each window of size k starting from the left and moving right by one position each time. For example, given the following array and k = 3: [-1, 5, 13, 8, 2, 3, 3, 1] Your function should print out the following: 5 <- median of [-1, 5, 13] 8 <- median of [5, 13, 8] 8 <- median of [13, 8, 2] 3 <- median of [8, 2, 3] 3 <- median of [2, 3, 3] 3 <- median of [3, 3, 1] Recall that the median of an even-sized list is the average of the two middle numbers. """ def find_median_for_range(int_list, window_size): """Takes in a list of integers and a window size and returns the median for each window in the list""" isOddWindowSize = window_size % 2 != 0 for i in range(0, len(int_list) - window_size): if isOddWindowSize: print(int_list[i + window_size // 2]) else: left_index = (window_size - 1) // 2 right_index = left_index + 1 middle_average = ( int_list[i + left_index] + int_list[i + right_index]) / 2 print(middle_average)

class Solution: def productExceptSelf(self, nums: list[int]) -> list[int]: result = [1] * len(nums) prefix = 1 for i in range(len(nums)): result[i] *= prefix prefix *= nums[i] postfix = 1 for i in range(len(nums) - 1, -1, -1): result[i] *= postfix postfix *= nums[i] return result

''' from os.path import expanduser, exists, split if __name__ == '__main__': print('[TPL] Test Extern Features') import multiprocessing multiprocessing.freeze_support() def ensure_hotspotter(): import matplotlib matplotlib.use('Qt4Agg', warn=True, force=True) # Look for hotspotter in ~/code hotspotter_dir = join(expanduser('~'), 'code', 'hotspotter') if not exists(hotspotter_dir): print('[jon] hotspotter_dir=%r DOES NOT EXIST!' % (hotspotter_dir,)) # Append hotspotter location (not dir) to PYTHON_PATH (i.e. sys.path) hotspotter_location = split(hotspotter_dir)[0] sys.path.append(hotspotter_location) # Import hotspotter io and drawing ensure_hotspotter() from hsviz import draw_func2 as df2 #from hsviz import viz from hscom import fileio as io # Read Image img_fpath = realpath('lena.png') image = io.imread(img_fpath) def spaced_elements(list_, n): indexes = np.arange(len(list_)) stride = len(indexes) // n return list_[indexes[0:-1:stride]] def test_detect(n=None, fnum=1, old=True): from hsviz import interact try: # Select kpts detect_kpts_func = detect_kpts_old if old else detect_kpts_new kpts, desc = detect_kpts_func(img_fpath, {}) kpts_ = kpts if n is None else spaced_elements(kpts, n) desc_ = desc if n is None else spaced_elements(desc, n) # Print info np.set_printoptions(threshold=5000, linewidth=5000, precision=3) print('----') print('detected %d keypoints' % len(kpts)) print('drawing %d/%d kpts' % (len(kpts_), len(kpts))) print(kpts_) print('----') # Draw kpts interaction.interact_keypoints(image, kpts_, desc_, fnum) #df2.imshow(image, fnum=fnum) #df2.draw_kpts2(kpts_, ell_alpha=.9, ell_linewidth=4, #ell_color='distinct', arrow=True, rect=True) df2.set_figtitle('old' if old else 'new') except Exception as ex: import traceback traceback.format_exc() print(ex) return locals() test_detect(n=10, fnum=1, old=True) test_detect(n=10, fnum=2, old=False) exec(df2.present()) '''

MONGO_URI = 'mongodb://steemit:[email protected]:27017/SteemData' MONGO_DBNAME = 'SteemData' # 50 items per page by default PAGINATION_DEFAULT = 50 # allow 1000 requests per minute RATE_LIMIT_GET = (1000, 60) # change status message STATUS_ERR = 'ERROR' # change default response fields EXTRA_RESPONSE_FIELDS = ['ID_FIELD'] # no need to define schemas manually ALLOW_UNKNOWN = True # can use API from any js app (CORS) X_DOMAINS = '*' # X_HEADERS = '*' # our models DOMAIN = { 'Accounts': { 'id_field': 'name', 'item_lookup': True, 'additional_lookup': { 'url': 'regex("[\w]+")', 'field': 'name', }, }, 'Posts': { 'id_field': 'identifier', 'item_lookup': True, 'additional_lookup': { 'url': 'regex("@[\w]+/[\w]+")', 'field': 'identifier', }, }, 'Comments': { 'id_field': 'identifier', 'item_lookup': True, 'additional_lookup': { 'url': 'regex("@[\w]+/[\w]+")', 'field': 'identifier', }, }, 'PriceHistory': {}, 'Operations': {}, 'AccountOperations': {}, }

def wait(c): m = None while m != 'GO': m = (c.recv(300).decode().replace('\n','').strip()) pass

# -*- coding: utf-8 -*- """ morse.py Class for converting between English and morse code @author: Douglas Daly @date: 1/6/2017 """ # # Class Definition # class Morse(object): """ Morse Code Translation Class """ def __init__(self): """ Default Constructor """ dict_tup = self.__generate_morse_code_dictionaries() self.__dict_to_morse = dict_tup[0] self.__dict_from_morse = dict_tup[1] def __generate_morse_code_dictionaries(self): """ Generates a dict object of Morse Code """ dict_morse = dict() dict_morse['.-'] = 'a' dict_morse['-...'] = 'b' dict_morse['-.-.'] = 'c' dict_morse['-..'] = 'd' dict_morse['.'] = 'e' dict_morse['..-.'] = 'f' dict_morse['--.'] = 'g' dict_morse['....'] = 'h' dict_morse['..'] = 'i' dict_morse['.---'] = 'j' dict_morse['-.-'] = 'k' dict_morse['.-..'] = 'l' dict_morse['--'] = 'm' dict_morse['-.'] = 'n' dict_morse['---'] = 'o' dict_morse['.--.'] = 'p' dict_morse['--.-'] = 'q' dict_morse['.-.'] = 'r' dict_morse['...'] = 's' dict_morse['-'] = 't' dict_morse['..-'] = 'u' dict_morse['...-'] = 'v' dict_morse['.--'] = 'w' dict_morse['-..-'] = 'x' dict_morse['-.--'] = 'y' dict_morse['--..'] = 'z' dict_morse['-----'] = '0' dict_morse['.----'] = '1' dict_morse['..---'] = '2' dict_morse['...--'] = '3' dict_morse['....-'] = '4' dict_morse['.....'] = '5' dict_morse['-....'] = '6' dict_morse['--...'] = '7' dict_morse['---..'] = '8' dict_morse['----.'] = '9' dict_morse['.-.-.-'] = '.' dict_morse['--..--'] = ',' dict_morse['..--..'] = '?' dict_morse['-.-.--'] = '!' dict_letters = dict() for key in dict_morse.keys(): dict_letters[dict_morse[key]] = key return (dict_letters, dict_morse) def convert_to(self, to_convert): """ Converts the given letter string to morse code """ to_convert = to_convert.lower() output = '|' for l in range(len(to_convert)): letter = to_convert[l] if letter == ' ': output += ' ' elif letter in self.__dict_to_morse.keys(): output += self.__dict_to_morse[letter] else: output += '*' output += '|' return output.strip() def convert_from(self, to_convert): """ Converts a morse string with spaces to the english letters """ # - Divy it up if to_convert.find('|') > -1: arr = to_convert.strip('|').split('|') else: arr = to_convert.strip().split(' ') output = '' for word in arr: output += self.convert_from_no_spaces(word, len(word)) return output def convert_from_no_spaces(self, to_convert, min_letters=1): """ Converts a string of . and -'s to Letters with no spaces/breaks """ cStr = '' outStr = '' for i in range(len(to_convert)): cStr += to_convert[i] if len(cStr) == min_letters: if cStr in self.__dict_from_morse.keys(): outStr += self.__dict_from_morse[cStr] else: outStr += ' ' cStr = '' return outStr

class ResolveEventArgs(EventArgs): """ Provides data for loader resolution events,such as the System.AppDomain.TypeResolve,System.AppDomain.ResourceResolve,System.AppDomain.ReflectionOnlyAssemblyResolve,and System.AppDomain.AssemblyResolve events. ResolveEventArgs(name: str) ResolveEventArgs(name: str,requestingAssembly: Assembly) """ @staticmethod def __new__(self,name,requestingAssembly=None): """ __new__(cls: type,name: str) __new__(cls: type,name: str,requestingAssembly: Assembly) """ pass Name=property(lambda self: object(),lambda self,v: None,lambda self: None) """Gets the name of the item to resolve. Get: Name(self: ResolveEventArgs) -> str """ RequestingAssembly=property(lambda self: object(),lambda self,v: None,lambda self: None) """Gets the assembly whose dependency is being resolved. Get: RequestingAssembly(self: ResolveEventArgs) -> Assembly """

def pesquisa_binaria(lista, item): baixo = 0 alto = len(lista) - 1 while baixo <= alto: meio = (baixo + alto) // 2 chute = lista[meio] if chute == item: return meio elif chute > item: alto = meio - 1 elif chute < item: baixo = meio + 1 return None if __name__ == '__main__': minha_lista = [x for x in range(101)] print(f'{pesquisa_binaria(minha_lista, 30)}') print(f'{pesquisa_binaria(minha_lista, 15)}') print(f'{pesquisa_binaria(minha_lista, 100)}') print(f'{pesquisa_binaria(minha_lista, 300)}') print(f'{pesquisa_binaria(minha_lista, 1)}') print(f'{pesquisa_binaria(minha_lista, 10)}') print(f'{pesquisa_binaria(minha_lista, 50)}') print(f'{pesquisa_binaria(minha_lista, 150)}')

# _*_coding : UTF_8_*_ # Author :Jie Shen # CreatTime :2022/1/17 20:53 class ListNode: def __init__(self, val=0, next=None): self.val = val self.next = next class BuildTree: def __init__(self): pass def build_by_array(self, arr) -> ListNode: if arr is None or len(arr) == 0: return None head = ListNode(arr[0]) node = head for _ in range(1, len(arr)): node.next = ListNode(arr[_]) node = node.next return head def print_node(head: ListNode): print("node:", end="") if head is None: print(None) return while head is not None: print(head.val, end=",") head = head.next print() if __name__ == '__main__': arr = [1, 2, 3] b = BuildTree().build_by_array(arr) print_node(b)

# CAN THE WORD BE CONSTRUCTED? # Write a function 'can_construct(target, word_bank)' that accepts a # target string and an array of strings. # # The function should return a boolean indicating whether ot not the # 'target' can be constructed by concatenating elements of the 'word_bank' array. # # You may reuse elements of 'word_bank' as many times needed. # -------------------------------------- # A Brute force implementation # Time Complexity: O(n^m * m), extra "* m" on branch, i.e word_bank iteration we save suffix # Space Complexity: O(m^2) def can_construct_brute(target, word_bank): # Base condition - If target is empty string # it's always possible to create. if target == "": return True for word in word_bank: # We need to know if any word is a prefix # of the target & save the suffix, i.e remaing part if target.startswith(word): suffix = target[len(word):] if can_construct_brute(suffix, word_bank) == True: return True # Early return, if True. # Only after going through every word in word_bank, # we can be sure that target cannot be generated return False # -------------------------------------- # A DP implementation # Time Complexity: O(n*m *m) # Space Complexity: O(m^2) def can_construct_dp(target, word_bank, cache = {}): # First check if target word's status in cache already if target in cache: return cache[target] # Base condition if target == "": return True for word in word_bank: if target.startswith(word): suffix = target[len(word):] if can_construct_dp(suffix, word_bank, cache) == True: cache[target] = True return cache[target] # Early return, if True. cache[target] = False return cache[target] if __name__ == "__main__": print(can_construct_brute("abcdef", ["ab", "abc", "cd", "def", "abcd"])) # Output must be True. print(can_construct_brute("skateboard", ["bo", "rd", "ate", "t", "ska", "sk", "boar"])) # Output must be False. print(can_construct_brute("enterapotentpot", ["a", "p", "ent", "enter", "ot", "o", "t"])) # Output must be True. print(can_construct_dp("eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeef", [ "e", "ee", "eeee", "eeeeee", "eeeeeee", ])) # Output must be False.

class Mesh(object): 'Common class for all Mesh of the Finite Element Method.' def __init__(self): pass

"""一个青蛙一次可以跳1级台阶或2级台阶，一共有n级台阶，问青蛙跳到顶部有几种跳法？（递归）""" # 思路：找规律 # t=1 1 # t = 2 2 # t = 3 3 # t = 4 5 # t = 5 8 # 发现是一个斐波那契数列 # 思路2 递归f(n) # 考虑最后一跳 # 最后一跳跳1级台阶，有f(n-1)种跳法 # 最后一跳跳2级台阶，有f(n-2)种跳法 # 总的跳法种类f(n)=f(n-1)+f(n-2) def f(n): # 递归的出口 # 因为有两个递归，所以要写两个递归的出口 if n == 1: return 1 if n == 2: return 2 return f(n - 1) + f(n - 2) print(f(5))

# @Author Justin Noddell # def pagerank( G ): # params G *** a dict of pages and their respective links # returns a dict of pages and their respective pagerank values # # the purpose of this function is to execute the PageRank function def pagerank( G ): P = G.keys() # pages L = G.values() # links I = dict() # current PageRank estimate -- k:page, v:PageRank estimate R = dict() # better, resulting PageRank estimate -- k:page, v:PageRank estimate LAMBDA = 0.20 # chance of 'surprise me' button [go to random page] TAU = 0.02 # threshold of convergence # start each page to be equally likely, initialize R with values for p in P: I[p] = 1 / len(P) R[p] = 0 converged = False while not converged: converged = True # each page has a LAMBDA / len(P) chance of random selection for r in R: R[r] = LAMBDA / len(P) # Find the set of pages that such that (p, q) belong to L and q belongs to P for p in P: Q = [] for q in G[p]: if q in P and len(G[q]) > 0: Q.append( q ) if len(Q) > 0: for q in Q: delta = (1 - LAMBDA) * I[p] / len(Q) # Probability of of I[p] being at page p R[q] += delta else: for q in P: delta = (1 - LAMBDA) * I[p] / len(P) R[q] += delta # check for convergence for p in P: if abs(R[p] - I[p]) > TAU: converged = False # update PageRank estimate for r in R: I[r] = R[r] return R # def create_graph( src ): # params: src *** path to file detailing pages and links # returns a dict of pages and their respective links # # the purpose of this function is to take a text file as input, detailing pages and links, store and return that data def create_graph( src ): G = dict() infile = open( src, "r" ) # iterate by line for line in infile: page = "" link = "" tab_reached = False for letter in line: if ord(letter) == 9 or ord(letter) == 32: tab_reached = True elif not tab_reached: page = page + letter elif tab_reached and letter not in "\n": link = link + letter # add k, v to dict if page in G.keys(): G[page].append(link) else: G[page] = [link] # check if v exists as k if link not in G.keys(): G[link] = [] # close file infile.close() return G # def write_to_file(): # params R *** dict of pages and their PageRank values # does not return # # formats, writes results to output.txt def write_to_file( R ): outfile = open("output.txt", "w") for k, v in R.items(): output = k + "\t" + str(v) + "\n" outfile.write( output ) # close file outfile.close() # def main(): # params none # does not return # # execute the program def main(): G = create_graph( "connections.txt" ) R = pagerank( G ) write_to_file( R ) return 0 # call main main()

''' MSDP Genie Ops Object Outputs for IOSXE ''' class MsdpOutput(object): # 'show ip msdp peer' ShowIpMsdpPeer = { 'vrf': { 'default': { 'peer': { '10.1.100.4': { 'session_state': 'Up', 'peer_as': 1, 'resets': '0', 'connect_source': 'Loopback0', 'connect_source_address': '10.1.100.2', 'elapsed_time': '00:41:18', 'statistics': { 'queue': { 'size_in': 0, 'size_out': 0 }, 'sent': { 'data_message': 42, 'sa_message': 0, 'sa_response': 0, 'data_packets': 0 }, 'received': { 'data_message': 50, 'sa_message': 27, 'sa_request': 0, 'data_packets': 6 }, 'established_transitions': 1, 'output_msg_discarded': 0, 'error': { 'rpf_failure': 27 } }, 'conn_count_cleared': '00:43:22', 'sa_filter': { 'in': { '(S,G)': { 'filter': 'none', 'route_map': 'none' }, 'RP': { 'filter': 'none', 'route_map': 'none' } }, 'out': { '(S,G)': { 'filter': 'none', 'route_map': 'none' }, 'RP': { 'filter': 'none', 'route_map': 'none' } } }, 'sa_request': { 'input_filter': 'none' }, 'ttl_threshold': 0, 'sa_learned_from': 0, 'signature_protection': False}}}}} # 'show ip msdp sa-cache' ShowIpMsdpSaCache = { 'vrf': { 'default': { 'num_of_sa_cache': 1, 'sa_cache': { '225.1.1.1 10.3.3.18': { 'group': '225.1.1.1', 'source_addr': '10.3.3.18', 'up_time': '00:00:10', 'expire': '00:05:49', 'peer_as': 3, 'peer': '10.1.100.4', 'origin_rp': { '10.3.100.8': { 'rp_address': '10.3.100.8'}}, 'peer_learned_from': '10.1.100.4', 'rpf_peer': '10.1.100.4', 'statistics': { 'received': { 'sa': 1, 'encapsulated_data_received': 1}}}}}}} MsdpInfo = { 'vrf': { 'default': { 'peer': { '10.1.100.4': { 'connect_source': 'Loopback0', 'elapsed_time': '00:41:18', 'peer_as': 1, 'session_state': 'established', 'statistics': { 'error': { 'rpf_failure': 27}, 'queue': { 'size_in': 0, 'size_out': 0}, 'received': { 'sa_message': 27, 'sa_request': 0}, 'sent': { 'sa_message': 0, 'sa_response': 0}}, 'ttl_threshold': 0}}, 'sa_cache': { '225.1.1.1 10.3.3.18': { 'expire': '00:05:49', 'group': '225.1.1.1', 'origin_rp': { '10.3.100.8': { 'rp_address': '10.3.100.8'}}, 'peer_learned_from': '10.1.100.4', 'rpf_peer': '10.1.100.4', 'source_addr': '10.3.3.18', 'up_time': '00:00:10'}}}}}

word = input() while not word == "end": print(f"{word} = {word[::-1]}") word = input() # text = input() # while text != "end": # text_reversed = "" # for ch in reversed(text): # text_reversed += ch # print(text + " = " + text_reversed) # text = input()

entrada = int(input()) for i in range(0, entrada): A, B = input().split(" ") x, y = int(A), int(B) if y == 0: print("divisao impossivel") else: resultado = x / y print(f"{resultado:.1f}")