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''' core exception module ''' class ConversionUnitNotImplemented(Exception): ''' raises when tring can not convert a TemperatureUnit ''' def __init__(self, unit_name: str): super().__init__('Conversion unit %s not implemented' % unit_name)
""" core exception module """ class Conversionunitnotimplemented(Exception): """ raises when tring can not convert a TemperatureUnit """ def __init__(self, unit_name: str): super().__init__('Conversion unit %s not implemented' % unit_name)
line, k = input(), int(input()) iterator = line.__iter__() iterators = zip(*([iterator] * k)) for word in iterators: d = dict() result = ''.join([d.setdefault(letter, letter) for letter in word if letter not in d]) print(result)
(line, k) = (input(), int(input())) iterator = line.__iter__() iterators = zip(*[iterator] * k) for word in iterators: d = dict() result = ''.join([d.setdefault(letter, letter) for letter in word if letter not in d]) print(result)
e_h,K = map(int,input().split()) h,m,s,e_m,e_s,ans = 0,0,0,59,59,0 while e_h != h or e_m != m or e_s != s: z = "%02d%02d%02d" % (h,m,s) if z.count(str(K)) >0: # print(z) ans+=1 s+=1 if s==60: m+=1 s=0 if m==60: h+=1 m=0 z = "%02d%02d%02d" % (h,m,s) if z.count(str(K)) >0: ans+=1 print(ans)
(e_h, k) = map(int, input().split()) (h, m, s, e_m, e_s, ans) = (0, 0, 0, 59, 59, 0) while e_h != h or e_m != m or e_s != s: z = '%02d%02d%02d' % (h, m, s) if z.count(str(K)) > 0: ans += 1 s += 1 if s == 60: m += 1 s = 0 if m == 60: h += 1 m = 0 z = '%02d%02d%02d' % (h, m, s) if z.count(str(K)) > 0: ans += 1 print(ans)
# # 9608/22/PRE/O/N/2020 # The code below declares the variables and arrays that are supposed to be pre-populated. ItemCode = ["1001", "6056", "5557", "2568", "4458"] ItemDescription = ["Pencil", "Pen", "Notebook", "Ruler", "Compass"] Price = [1.0, 10.0, 100.0, 20.0, 30.0] NumberInStock = [100, 100, 50, 20, 20] n = len(ItemCode) # ## TASK 1.4 # Write program code to produce a report displaying all the information stored about each item for which the number in stock is below a given level. The planning and identifier table are in the pasudocode file and the markdown respectively. ThresholdLevel = int(input("Enter the minumum stock level: ")) for Counter in range(n): if NumberInStock[Counter] < ThresholdLevel: print("\nItem Code:", ItemCode[Counter]) print("Item Description:", ItemDescription[Counter]) print("Price:", Price[Counter]) print("Number in stock:", NumberInStock[Counter]) # ## TASK 2.2 # Design an algorithm to input the four pieces of data about a stock item, form a string according to your format design, and write the string to the text file. <br> First draw a program flowchart, then write the equivalent pseudocode. RecordsFile = "Item Records.txt" FileObject = open(RecordsFile, "a+") WriteString = "" NewItemCode = int(input("\nEnter item code: ")) WriteString = ':' + str(NewItemCode) NewItemDescription = input("Enter item description: ") WriteString += ':' + NewItemDescription NewPrice = float(input("Enter new price: ")) WriteString += ':' + str(NewPrice) NewNumberInStock = int(input("Enter the number of items in stock: ")) WriteString += ':' + str(NewNumberInStock) + '\n' FileObject.write(WriteString) FileObject.close() # ## TASK 2.4 # The code below defines the sub-routines which will be used by more than of the tasks. def GetItemCode(): TestItemCode = int(input("Enter the code of the item: ")) while not (TestItemCode > 1000 and TestItemCode < 9999): TestItemCode = int(input("Re-enter the code of the item: ")) return TestItemCode def GetNumberInStock(): TestNumberInStock = int(input("Enter the number of the item in stock: ")) while not (TestNumberInStock >= 0): TestNumberInStock = int(input("Re-enter the number of the item in stock: ")) return TestNumberInStock def GetPrice(): TestPrice = float(input("Enter the price of the item: ")) while not (TestPrice >= 0): TestPrice = float(input("Re-enter the price of the item: ")) return TestPrice def ExtractDetails(RecordString, Details): Position = 0 SearchString = RecordString.strip() + ':' if RecordString != "": for Counter in range(4): Position += 1 CurrentCharacter = SearchString[Position : Position + 1] while CurrentCharacter != ':': Details[Counter] += CurrentCharacter Position += 1 CurrentCharacter = SearchString[Position : Position + 1] print ("") # ## TASK 2.4 (1) # Add a new stock item to the text file. Include validation of the different pieces of information as appropriate. For example item code data may be a fixed format. WriteString = "" WriteString = ':' + str(GetItemCode()) NewItemDescription = input("Enter item description: ") WriteString += ':' + NewItemDescription WriteString += ':' + str(GetPrice()) WriteString += ':' + str(GetNumberInStock()) + '\n' FileObject = open(RecordsFile, "a+") FileObject.write(WriteString) FileObject.close() # ## TASK 2.4 (2) # Search for a stock item with a specific item code. Output the other pieces of data together with suitable supporting text. Found = False CurrentRecord = "" print("\nEnter the code of the item you want to search for.") DesiredItemCode = GetItemCode() FileObject = open(RecordsFile, "r+") FileData = FileObject.readlines() FileObject.close() for record in FileData: CurrentRecord = record if CurrentRecord[1:5] == str(DesiredItemCode): Found = True break if Found: DetailsOfRecord = ["" for i in range(4)] ExtractDetails(CurrentRecord, DetailsOfRecord) print("\nItem Code: " + str(DetailsOfRecord[0])) print("Item Description: " + DetailsOfRecord[1]) print("Price of item: " + str(DetailsOfRecord[2])) print("Number of the item in stock: " + str(DetailsOfRecord[3])) else: print("Item not found.") # ## TASK 2.4 (3) # Search for all stock items with a specific item description, with output as for task 2. DesiredItemDescription = input("\nEnter the description of the item you want to search for: ") FileObject = open(RecordsFile, "r+") FileData = FileObject.readlines() FileObject.close() for record in FileData: DetailsOfRecord = ["" for i in range(4)] ExtractDetails(record, DetailsOfRecord) if DetailsOfRecord[1] == DesiredItemDescription: print("\nItem Code: " + str(DetailsOfRecord[0])) print("Item Description: " + DetailsOfRecord[1]) print("Price of item: " + str(DetailsOfRecord[2])) print("Number of the item in stock: " + str(DetailsOfRecord[3])) # ## TASK 2.4 (4) # Output a list of all stock items with a price greater than a given amount. print ("\nEnter the maximum threshold price.") ThresholdPrice = GetPrice() FileObject = open(RecordsFile, "r+") FileData = FileObject.readlines() FileObject.close() 30 for record in FileData: DetailsOfRecord = ["" for i in range(4)] ExtractDetails(record, DetailsOfRecord) if float(DetailsOfRecord[2]) < ThresholdPrice: print("\nItem Code: " + str(DetailsOfRecord[0])) print("Item Description: " + DetailsOfRecord[1]) print("Price of item: " + str(DetailsOfRecord[2])) print("Number of the item in stock: " + str(DetailsOfRecord[3]))
item_code = ['1001', '6056', '5557', '2568', '4458'] item_description = ['Pencil', 'Pen', 'Notebook', 'Ruler', 'Compass'] price = [1.0, 10.0, 100.0, 20.0, 30.0] number_in_stock = [100, 100, 50, 20, 20] n = len(ItemCode) threshold_level = int(input('Enter the minumum stock level: ')) for counter in range(n): if NumberInStock[Counter] < ThresholdLevel: print('\nItem Code:', ItemCode[Counter]) print('Item Description:', ItemDescription[Counter]) print('Price:', Price[Counter]) print('Number in stock:', NumberInStock[Counter]) records_file = 'Item Records.txt' file_object = open(RecordsFile, 'a+') write_string = '' new_item_code = int(input('\nEnter item code: ')) write_string = ':' + str(NewItemCode) new_item_description = input('Enter item description: ') write_string += ':' + NewItemDescription new_price = float(input('Enter new price: ')) write_string += ':' + str(NewPrice) new_number_in_stock = int(input('Enter the number of items in stock: ')) write_string += ':' + str(NewNumberInStock) + '\n' FileObject.write(WriteString) FileObject.close() def get_item_code(): test_item_code = int(input('Enter the code of the item: ')) while not (TestItemCode > 1000 and TestItemCode < 9999): test_item_code = int(input('Re-enter the code of the item: ')) return TestItemCode def get_number_in_stock(): test_number_in_stock = int(input('Enter the number of the item in stock: ')) while not TestNumberInStock >= 0: test_number_in_stock = int(input('Re-enter the number of the item in stock: ')) return TestNumberInStock def get_price(): test_price = float(input('Enter the price of the item: ')) while not TestPrice >= 0: test_price = float(input('Re-enter the price of the item: ')) return TestPrice def extract_details(RecordString, Details): position = 0 search_string = RecordString.strip() + ':' if RecordString != '': for counter in range(4): position += 1 current_character = SearchString[Position:Position + 1] while CurrentCharacter != ':': Details[Counter] += CurrentCharacter position += 1 current_character = SearchString[Position:Position + 1] print('') write_string = '' write_string = ':' + str(get_item_code()) new_item_description = input('Enter item description: ') write_string += ':' + NewItemDescription write_string += ':' + str(get_price()) write_string += ':' + str(get_number_in_stock()) + '\n' file_object = open(RecordsFile, 'a+') FileObject.write(WriteString) FileObject.close() found = False current_record = '' print('\nEnter the code of the item you want to search for.') desired_item_code = get_item_code() file_object = open(RecordsFile, 'r+') file_data = FileObject.readlines() FileObject.close() for record in FileData: current_record = record if CurrentRecord[1:5] == str(DesiredItemCode): found = True break if Found: details_of_record = ['' for i in range(4)] extract_details(CurrentRecord, DetailsOfRecord) print('\nItem Code: ' + str(DetailsOfRecord[0])) print('Item Description: ' + DetailsOfRecord[1]) print('Price of item: ' + str(DetailsOfRecord[2])) print('Number of the item in stock: ' + str(DetailsOfRecord[3])) else: print('Item not found.') desired_item_description = input('\nEnter the description of the item you want to search for: ') file_object = open(RecordsFile, 'r+') file_data = FileObject.readlines() FileObject.close() for record in FileData: details_of_record = ['' for i in range(4)] extract_details(record, DetailsOfRecord) if DetailsOfRecord[1] == DesiredItemDescription: print('\nItem Code: ' + str(DetailsOfRecord[0])) print('Item Description: ' + DetailsOfRecord[1]) print('Price of item: ' + str(DetailsOfRecord[2])) print('Number of the item in stock: ' + str(DetailsOfRecord[3])) print('\nEnter the maximum threshold price.') threshold_price = get_price() file_object = open(RecordsFile, 'r+') file_data = FileObject.readlines() FileObject.close() 30 for record in FileData: details_of_record = ['' for i in range(4)] extract_details(record, DetailsOfRecord) if float(DetailsOfRecord[2]) < ThresholdPrice: print('\nItem Code: ' + str(DetailsOfRecord[0])) print('Item Description: ' + DetailsOfRecord[1]) print('Price of item: ' + str(DetailsOfRecord[2])) print('Number of the item in stock: ' + str(DetailsOfRecord[3]))
# 4.04 Lists # Purpose: learning how to use lists # # Author@ Shawn Velsor # Date: 1/8/2021 electronics = ["computer", "cellphone", "laptop", "headphones"] mutualItem = False print("Hello, these are the items I like:") count = 1 for i in electronics: print(str(count) + ".", i) count += 1 print() def main(): item = input("What type of electronic device do you like? ").lower() for i in electronics: if(item == i): print("Same, I like " + item + " also.") mutualItem = True if(mutualItem == False): print("Oh, that's something I don't like...") while True: main()
electronics = ['computer', 'cellphone', 'laptop', 'headphones'] mutual_item = False print('Hello, these are the items I like:') count = 1 for i in electronics: print(str(count) + '.', i) count += 1 print() def main(): item = input('What type of electronic device do you like? ').lower() for i in electronics: if item == i: print('Same, I like ' + item + ' also.') mutual_item = True if mutualItem == False: print("Oh, that's something I don't like...") while True: main()
#!/usr/bin/python # -*- coding: utf-8 -*- # (c) 2015, Peter Mounce <[email protected]> # # This file is part of Ansible # # Ansible is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Ansible is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Ansible. If not, see <http://www.gnu.org/licenses/>. # this is a windows documentation stub. actual code lives in the .ps1 # file of the same name ANSIBLE_METADATA = {'metadata_version': '1.0', 'status': ['preview'], 'supported_by': 'community'} DOCUMENTATION = r''' --- module: win_webpicmd version_added: "2.0" short_description: Installs packages using Web Platform Installer command-line description: - Installs packages using Web Platform Installer command-line (http://www.iis.net/learn/install/web-platform-installer/web-platform-installer-v4-command-line-webpicmdexe-rtw-release). - Must be installed and present in PATH (see win_chocolatey module; 'webpicmd' is the package name, and you must install 'lessmsi' first too) - Install IIS first (see win_feature module) notes: - accepts EULAs and suppresses reboot - you will need to check manage reboots yourself (see win_reboot module) options: name: description: - Name of the package to be installed required: true author: Peter Mounce ''' EXAMPLES = r''' # Install URLRewrite2. win_webpicmd: name: URLRewrite2 '''
ansible_metadata = {'metadata_version': '1.0', 'status': ['preview'], 'supported_by': 'community'} documentation = '\n---\nmodule: win_webpicmd\nversion_added: "2.0"\nshort_description: Installs packages using Web Platform Installer command-line\ndescription:\n - Installs packages using Web Platform Installer command-line (http://www.iis.net/learn/install/web-platform-installer/web-platform-installer-v4-command-line-webpicmdexe-rtw-release).\n - Must be installed and present in PATH (see win_chocolatey module; \'webpicmd\' is the package name, and you must install \'lessmsi\' first too)\n - Install IIS first (see win_feature module)\nnotes:\n - accepts EULAs and suppresses reboot - you will need to check manage reboots yourself (see win_reboot module)\noptions:\n name:\n description:\n - Name of the package to be installed\n required: true\nauthor: Peter Mounce\n' examples = '\n # Install URLRewrite2.\n win_webpicmd:\n name: URLRewrite2\n'
# ==== PATHS =================== PATH_TO_DATASET = "houseprice.csv" OUTPUT_SCALER_PATH = 'scaler.pkl' OUTPUT_MODEL_PATH = 'lasso_regression.pkl' # ======= PARAMETERS =============== # imputation parameters LOTFRONTAGE_MODE = 60 # encoding parameters FREQUENT_LABELS = { 'MSZoning': ['FV', 'RH', 'RL', 'RM'], 'Neighborhood': ['Blmngtn', 'BrDale', 'BrkSide', 'ClearCr', 'CollgCr', 'Crawfor', 'Edwards', 'Gilbert', 'IDOTRR', 'MeadowV', 'Mitchel', 'NAmes', 'NWAmes', 'NoRidge', 'NridgHt', 'OldTown', 'SWISU', 'Sawyer', 'SawyerW', 'Somerst', 'StoneBr', 'Timber'], 'RoofStyle': ['Gable', 'Hip'], 'MasVnrType': ['BrkFace', 'None', 'Stone'], 'BsmtQual': ['Ex', 'Fa', 'Gd', 'Missing', 'TA'], 'BsmtExposure': ['Av', 'Gd', 'Missing', 'Mn', 'No'], 'HeatingQC': ['Ex', 'Fa', 'Gd', 'TA'], 'CentralAir': ['N', 'Y'], 'KitchenQual': ['Ex', 'Fa', 'Gd', 'TA'], 'FireplaceQu': ['Ex', 'Fa', 'Gd', 'Missing', 'Po', 'TA'], 'GarageType': ['Attchd', 'Basment', 'BuiltIn', 'Detchd', 'Missing'], 'GarageFinish': ['Fin', 'Missing', 'RFn', 'Unf'], 'PavedDrive': ['N', 'P', 'Y']} ENCODING_MAPPINGS = {'MSZoning': {'Rare': 0, 'RM': 1, 'RH': 2, 'RL': 3, 'FV': 4}, 'Neighborhood': {'IDOTRR': 0, 'MeadowV': 1, 'BrDale': 2, 'Edwards': 3, 'BrkSide': 4, 'OldTown': 5, 'Sawyer': 6, 'SWISU': 7, 'NAmes': 8, 'Mitchel': 9, 'SawyerW': 10, 'Rare': 11, 'NWAmes': 12, 'Gilbert': 13, 'Blmngtn': 14, 'CollgCr': 15, 'Crawfor': 16, 'ClearCr': 17, 'Somerst': 18, 'Timber': 19, 'StoneBr': 20, 'NridgHt': 21, 'NoRidge': 22}, 'RoofStyle': {'Gable': 0, 'Rare': 1, 'Hip': 2}, 'MasVnrType': {'None': 0, 'Rare': 1, 'BrkFace': 2, 'Stone': 3}, 'BsmtQual': {'Missing': 0, 'Fa': 1, 'TA': 2, 'Gd': 3, 'Ex': 4}, 'BsmtExposure': {'Missing': 0, 'No': 1, 'Mn': 2, 'Av': 3, 'Gd': 4}, 'HeatingQC': {'Rare': 0, 'Fa': 1, 'TA': 2, 'Gd': 3, 'Ex': 4}, 'CentralAir': {'N': 0, 'Y': 1}, 'KitchenQual': {'Fa': 0, 'TA': 1, 'Gd': 2, 'Ex': 3}, 'FireplaceQu': {'Po': 0, 'Missing': 1, 'Fa': 2, 'TA': 3, 'Gd': 4, 'Ex': 5}, 'GarageType': {'Missing': 0, 'Rare': 1, 'Detchd': 2, 'Basment': 3, 'Attchd': 4, 'BuiltIn': 5}, 'GarageFinish': {'Missing': 0, 'Unf': 1, 'RFn': 2, 'Fin': 3}, 'PavedDrive': {'N': 0, 'P': 1, 'Y': 2}} # ======= FEATURE GROUPS ============= # variable groups for engineering steps TARGET = 'SalePrice' CATEGORICAL_TO_IMPUTE = ['MasVnrType', 'BsmtQual', 'BsmtExposure', 'FireplaceQu', 'GarageType', 'GarageFinish'] NUMERICAL_TO_IMPUTE = 'LotFrontage' YEAR_VARIABLE = 'YearRemodAdd' # variables to transofmr NUMERICAL_LOG = ['LotFrontage', '1stFlrSF', 'GrLivArea', 'SalePrice'] # variables to encode CATEGORICAL_ENCODE = ['MSZoning', 'Neighborhood', 'RoofStyle', 'MasVnrType', 'BsmtQual', 'BsmtExposure', 'HeatingQC', 'CentralAir', 'KitchenQual', 'FireplaceQu', 'GarageType', 'GarageFinish', 'PavedDrive'] # selected features for training FEATURES = ['MSSubClass', 'MSZoning', 'Neighborhood', 'OverallQual', 'OverallCond', 'YearRemodAdd', 'RoofStyle', 'MasVnrType', 'BsmtQual', 'BsmtExposure', 'HeatingQC', 'CentralAir', '1stFlrSF', 'GrLivArea', 'BsmtFullBath', 'KitchenQual', 'Fireplaces', 'FireplaceQu', 'GarageType', 'GarageFinish', 'GarageCars', 'PavedDrive', 'LotFrontage']
path_to_dataset = 'houseprice.csv' output_scaler_path = 'scaler.pkl' output_model_path = 'lasso_regression.pkl' lotfrontage_mode = 60 frequent_labels = {'MSZoning': ['FV', 'RH', 'RL', 'RM'], 'Neighborhood': ['Blmngtn', 'BrDale', 'BrkSide', 'ClearCr', 'CollgCr', 'Crawfor', 'Edwards', 'Gilbert', 'IDOTRR', 'MeadowV', 'Mitchel', 'NAmes', 'NWAmes', 'NoRidge', 'NridgHt', 'OldTown', 'SWISU', 'Sawyer', 'SawyerW', 'Somerst', 'StoneBr', 'Timber'], 'RoofStyle': ['Gable', 'Hip'], 'MasVnrType': ['BrkFace', 'None', 'Stone'], 'BsmtQual': ['Ex', 'Fa', 'Gd', 'Missing', 'TA'], 'BsmtExposure': ['Av', 'Gd', 'Missing', 'Mn', 'No'], 'HeatingQC': ['Ex', 'Fa', 'Gd', 'TA'], 'CentralAir': ['N', 'Y'], 'KitchenQual': ['Ex', 'Fa', 'Gd', 'TA'], 'FireplaceQu': ['Ex', 'Fa', 'Gd', 'Missing', 'Po', 'TA'], 'GarageType': ['Attchd', 'Basment', 'BuiltIn', 'Detchd', 'Missing'], 'GarageFinish': ['Fin', 'Missing', 'RFn', 'Unf'], 'PavedDrive': ['N', 'P', 'Y']} encoding_mappings = {'MSZoning': {'Rare': 0, 'RM': 1, 'RH': 2, 'RL': 3, 'FV': 4}, 'Neighborhood': {'IDOTRR': 0, 'MeadowV': 1, 'BrDale': 2, 'Edwards': 3, 'BrkSide': 4, 'OldTown': 5, 'Sawyer': 6, 'SWISU': 7, 'NAmes': 8, 'Mitchel': 9, 'SawyerW': 10, 'Rare': 11, 'NWAmes': 12, 'Gilbert': 13, 'Blmngtn': 14, 'CollgCr': 15, 'Crawfor': 16, 'ClearCr': 17, 'Somerst': 18, 'Timber': 19, 'StoneBr': 20, 'NridgHt': 21, 'NoRidge': 22}, 'RoofStyle': {'Gable': 0, 'Rare': 1, 'Hip': 2}, 'MasVnrType': {'None': 0, 'Rare': 1, 'BrkFace': 2, 'Stone': 3}, 'BsmtQual': {'Missing': 0, 'Fa': 1, 'TA': 2, 'Gd': 3, 'Ex': 4}, 'BsmtExposure': {'Missing': 0, 'No': 1, 'Mn': 2, 'Av': 3, 'Gd': 4}, 'HeatingQC': {'Rare': 0, 'Fa': 1, 'TA': 2, 'Gd': 3, 'Ex': 4}, 'CentralAir': {'N': 0, 'Y': 1}, 'KitchenQual': {'Fa': 0, 'TA': 1, 'Gd': 2, 'Ex': 3}, 'FireplaceQu': {'Po': 0, 'Missing': 1, 'Fa': 2, 'TA': 3, 'Gd': 4, 'Ex': 5}, 'GarageType': {'Missing': 0, 'Rare': 1, 'Detchd': 2, 'Basment': 3, 'Attchd': 4, 'BuiltIn': 5}, 'GarageFinish': {'Missing': 0, 'Unf': 1, 'RFn': 2, 'Fin': 3}, 'PavedDrive': {'N': 0, 'P': 1, 'Y': 2}} target = 'SalePrice' categorical_to_impute = ['MasVnrType', 'BsmtQual', 'BsmtExposure', 'FireplaceQu', 'GarageType', 'GarageFinish'] numerical_to_impute = 'LotFrontage' year_variable = 'YearRemodAdd' numerical_log = ['LotFrontage', '1stFlrSF', 'GrLivArea', 'SalePrice'] categorical_encode = ['MSZoning', 'Neighborhood', 'RoofStyle', 'MasVnrType', 'BsmtQual', 'BsmtExposure', 'HeatingQC', 'CentralAir', 'KitchenQual', 'FireplaceQu', 'GarageType', 'GarageFinish', 'PavedDrive'] features = ['MSSubClass', 'MSZoning', 'Neighborhood', 'OverallQual', 'OverallCond', 'YearRemodAdd', 'RoofStyle', 'MasVnrType', 'BsmtQual', 'BsmtExposure', 'HeatingQC', 'CentralAir', '1stFlrSF', 'GrLivArea', 'BsmtFullBath', 'KitchenQual', 'Fireplaces', 'FireplaceQu', 'GarageType', 'GarageFinish', 'GarageCars', 'PavedDrive', 'LotFrontage']
__title__ = 'plinn' __description__ = "Partition Like It's 1999" __url__ = 'https://github.com/giannitedesco/plinn' __author__ = 'Gianni Tedesco' __author_email__ = '[email protected]' __copyright__ = 'Copyright 2020 Gianni Tedesco' __license__ = 'Apache 2.0' __version__ = '0.0.2'
__title__ = 'plinn' __description__ = "Partition Like It's 1999" __url__ = 'https://github.com/giannitedesco/plinn' __author__ = 'Gianni Tedesco' __author_email__ = '[email protected]' __copyright__ = 'Copyright 2020 Gianni Tedesco' __license__ = 'Apache 2.0' __version__ = '0.0.2'
# 2. Write Python code to find the cost of the minimum-energy seam in a list of lists. energies = [[24, 22, 30, 15, 18, 19], [12, 23, 15, 23, 10, 15], [11, 13, 22, 13, 21, 14], [13, 15, 17, 28, 19, 21], [17, 17, 7, 27, 20, 19]] energies2 = [[24, 22, 30, 15, 18, 19], [12, 23, 15, 23, 10, 15], [11, 13, 22, 13, 21, 14], [13, 15, 17, 28, 19, 21], [17, 17, 29, 27, 20, 19]] # The correct output for the given energies data is 15+10+13+17+7 = 62. def min_energy(energies): cost = [] for i in range(len(energies)): cost.append([0]*len(energies[0])) for i in range(len(energies[0])): cost[0][i] = energies[0][i] for i in range(1, len(energies)): for j in range(len(energies[0])): if j == 0: cost[i][j] = energies[i][j] + min(cost[i-1][j], cost[i-1][j+1]) elif j == len(energies[0]) - 1: cost[i][j] = energies[i][j] + min(cost[i-1][j], cost[i-1][j-1]) else: cost[i][j] = energies[i][j] + min(cost[i-1][j-1], cost[i-1][j], cost[i-1][j+1]) for i in range(len(cost)): print(cost[i]) return min(cost[-1]) min_energy(energies)
energies = [[24, 22, 30, 15, 18, 19], [12, 23, 15, 23, 10, 15], [11, 13, 22, 13, 21, 14], [13, 15, 17, 28, 19, 21], [17, 17, 7, 27, 20, 19]] energies2 = [[24, 22, 30, 15, 18, 19], [12, 23, 15, 23, 10, 15], [11, 13, 22, 13, 21, 14], [13, 15, 17, 28, 19, 21], [17, 17, 29, 27, 20, 19]] def min_energy(energies): cost = [] for i in range(len(energies)): cost.append([0] * len(energies[0])) for i in range(len(energies[0])): cost[0][i] = energies[0][i] for i in range(1, len(energies)): for j in range(len(energies[0])): if j == 0: cost[i][j] = energies[i][j] + min(cost[i - 1][j], cost[i - 1][j + 1]) elif j == len(energies[0]) - 1: cost[i][j] = energies[i][j] + min(cost[i - 1][j], cost[i - 1][j - 1]) else: cost[i][j] = energies[i][j] + min(cost[i - 1][j - 1], cost[i - 1][j], cost[i - 1][j + 1]) for i in range(len(cost)): print(cost[i]) return min(cost[-1]) min_energy(energies)
mqtt_host = "IP_OR_DOMAIN" mqtt_port = 1883 mqtt_topic = "screen/rpi" mqtt_username = "USERNAME" mqtt_password = "PASSWORD" # Raspberry Pi power_on_command = "vcgencmd display_power 1" power_off_command = "vcgencmd display_power 0" # Other HDMI linux devices # power_on_command = "xset -display :0 dpms force on" # power_off_command = "xset -display :0 dpms force off"
mqtt_host = 'IP_OR_DOMAIN' mqtt_port = 1883 mqtt_topic = 'screen/rpi' mqtt_username = 'USERNAME' mqtt_password = 'PASSWORD' power_on_command = 'vcgencmd display_power 1' power_off_command = 'vcgencmd display_power 0'
# Child Prime is such a prime number which can be obtained by summing up the square of the digit of its parent prime number. # For example, 23 is a prime. If we calculate 2^2+3^2 = 4+9 = 13, which is also a prime no. then we call 13 as a child prime of 23. ul = int(input("Enter Upper Limit: ")) gt = int(input("Generation Thresold :")) def is_prime(m): q = len(factors(m)) if q == 2: return True else: return False def sep(num): res = list(map(int, str(num))) return res def factors(n): flist = [] for i in range(1,n+1): if n%i == 0: flist.append(i) return flist def primesum(num): if is_prime(num): a = sep(num) sum = 0 for i in range(len(a)): sum = sum + a[i]**2 return sum def generation(num): gen = [num] g = num q = 1 while q > 0: if is_prime(primesum(g)): g = primesum(g) gen.append(g) else: q = q*(-1) return gen for i in range(ul): if is_prime(i): pg = generation(i) gn = len(pg) if gn >= gt: print(pg)
ul = int(input('Enter Upper Limit: ')) gt = int(input('Generation Thresold :')) def is_prime(m): q = len(factors(m)) if q == 2: return True else: return False def sep(num): res = list(map(int, str(num))) return res def factors(n): flist = [] for i in range(1, n + 1): if n % i == 0: flist.append(i) return flist def primesum(num): if is_prime(num): a = sep(num) sum = 0 for i in range(len(a)): sum = sum + a[i] ** 2 return sum def generation(num): gen = [num] g = num q = 1 while q > 0: if is_prime(primesum(g)): g = primesum(g) gen.append(g) else: q = q * -1 return gen for i in range(ul): if is_prime(i): pg = generation(i) gn = len(pg) if gn >= gt: print(pg)
class MissingVariableError(Exception): def __init__(self, name): self.name = name self.message = f'The required variable "{self.name}" is missing' super().__init__(self.message) class ReservedVariableError(Exception): def __init__(self, name): self.name = name self.message = ( f'The variable"{self.name}" is reserved and should only be set by combine' ) super().__init__(self.message)
class Missingvariableerror(Exception): def __init__(self, name): self.name = name self.message = f'The required variable "{self.name}" is missing' super().__init__(self.message) class Reservedvariableerror(Exception): def __init__(self, name): self.name = name self.message = f'The variable"{self.name}" is reserved and should only be set by combine' super().__init__(self.message)
def main(): # input a, b, c = map(int, input().split()) # compute cnt = 0 for i in range(a, b+1): if c%i == 0: cnt += 1 # output print(cnt) if __name__ == "__main__": main()
def main(): (a, b, c) = map(int, input().split()) cnt = 0 for i in range(a, b + 1): if c % i == 0: cnt += 1 print(cnt) if __name__ == '__main__': main()
########################################################################################## # district data structure ########################################################################################## class DistrictData: def __init__(self): self.data = "" self.stato = "" self.codice_regione = "" self.denominazione_regione = "" self.codice_provincia = "" self.denominazione_provincia = "" self.sigla_provincia = "" self.lat = "" self.long = "" self.totale_casi = 0 self.note = "" self.codice_nuts_1 = "" self.codice_nuts_2 = "" self.codice_nuts_3 = "" #data calclulated from the other self.nuovi_casi = 0 def fillData(self,item_today, j_yesterday, index): ########################################################################################## #fill the object class attributes # 1. it fill up with the corrispective key into the JSON dataset, attributes and key that # are called the same will automatically valued. # 2. for the attributes that need some king of work you have to handle separately ########################################################################################## for key in item_today: if hasattr(self, key): setattr(self,key,item_today[key]) if item_today["codice_provincia"] == j_yesterday[index]["codice_provincia"]: #check if the two json refer to the same regione code n_positivi = item_today["totale_casi"]-j_yesterday[index]["totale_casi"] setattr(self,"nuovi_casi",n_positivi) else: print("Provincia non corrispondente")
class Districtdata: def __init__(self): self.data = '' self.stato = '' self.codice_regione = '' self.denominazione_regione = '' self.codice_provincia = '' self.denominazione_provincia = '' self.sigla_provincia = '' self.lat = '' self.long = '' self.totale_casi = 0 self.note = '' self.codice_nuts_1 = '' self.codice_nuts_2 = '' self.codice_nuts_3 = '' self.nuovi_casi = 0 def fill_data(self, item_today, j_yesterday, index): for key in item_today: if hasattr(self, key): setattr(self, key, item_today[key]) if item_today['codice_provincia'] == j_yesterday[index]['codice_provincia']: n_positivi = item_today['totale_casi'] - j_yesterday[index]['totale_casi'] setattr(self, 'nuovi_casi', n_positivi) else: print('Provincia non corrispondente')
# -*- coding: utf-8 -*- while True: try: hm = list(map(float, input().split())) h = int((hm[0] / 360) * 12) m = int((hm[1] / 360) * 60) if m == 60: m = 0 print("{:02d}:{:02d}".format(h, m)) except (EOFError, IndexError): break
while True: try: hm = list(map(float, input().split())) h = int(hm[0] / 360 * 12) m = int(hm[1] / 360 * 60) if m == 60: m = 0 print('{:02d}:{:02d}'.format(h, m)) except (EOFError, IndexError): break
class Solution: def rob(self, root): def f(n): if not n: return [0, 0] l, r = f(n.left), f(n.right) return [l[1] + r[1], max(l[1] + r[1], n.val + l[0] + r[0])] return max(f(root))
class Solution: def rob(self, root): def f(n): if not n: return [0, 0] (l, r) = (f(n.left), f(n.right)) return [l[1] + r[1], max(l[1] + r[1], n.val + l[0] + r[0])] return max(f(root))
''' If the parameter to the make payment method of the CreditCard class were a negative number, that would have the effect of raising the balance on the account. Revise the implementation so that it raises a ValueError if a negative value is sent. ''' def make_payment(self,amount): if amount < 0: raise ValueError("Payment amount can not be negative") else: try: self._balance -= amount msg = '$' + str(amount) +' Payment received' + 'New balance is '+'$'+str(self._balance) return msg except (ValueError,NameError,SyntaxError) as e: print('Please input correct number') print(e)
""" If the parameter to the make payment method of the CreditCard class were a negative number, that would have the effect of raising the balance on the account. Revise the implementation so that it raises a ValueError if a negative value is sent. """ def make_payment(self, amount): if amount < 0: raise value_error('Payment amount can not be negative') else: try: self._balance -= amount msg = '$' + str(amount) + ' Payment received' + 'New balance is ' + '$' + str(self._balance) return msg except (ValueError, NameError, SyntaxError) as e: print('Please input correct number') print(e)
x = 3 def foo(): y = "String" return y foo()
x = 3 def foo(): y = 'String' return y foo()
n = int(input()) for i in range(n): r,e,c = map(int, input().split()) if((e-c) > r): print('advertise') elif((e-c) == r): print('does not matter') else: print('do not advertise')
n = int(input()) for i in range(n): (r, e, c) = map(int, input().split()) if e - c > r: print('advertise') elif e - c == r: print('does not matter') else: print('do not advertise')
def sum(*args): total = 0 for arg in args: total+= arg return total a = sum(1200, 300, 500) print(a)
def sum(*args): total = 0 for arg in args: total += arg return total a = sum(1200, 300, 500) print(a)
#1) def isnegative(n): if n < 0: return True else: return False isnegative(-6) #1) list1 = [1,2,3] def count_evens(list1): even_count = 0 for num in list1: if num % 2 == 0: even_count += 1 print(even_count) #1) def increment_odds(n): nums = [] for n in range(1, 2*n, 2): nums.append(n) return nums increment_odds(3) #1) def average(l): for n in l: return round(len(l)/n, 2) average([1,2,3]) #1) name_to_dict = dict() name_to_dict["frist_name"] = "Ada" name_to_dict["last_name"] = "Lovelace" name_to_dict #1) def capitalize_names(name): for n in name[0]: return(f"{name}".capitalize()) capitalize_names("") #1) def count_vowels(value): value = value.lower() vowel = ['a','e','i','o','u'] count = 0 for a in value: if a in vowel: count += 1 return count count_vowels('abcde') #1) def analyze_word(word): vowels = ['a','e','i','o','u'] og_word = {} num_of_vowels = {} num_of_char = {} for c in word: if c in num_of_char: num_of_char[word] += 1 else: num_of_char[word] = 1 return len(word) for c in word: if c in vowels: num_of_char[word] += 1 else: num_of_char[word] = 1 return(c) analyze_word('word')
def isnegative(n): if n < 0: return True else: return False isnegative(-6) list1 = [1, 2, 3] def count_evens(list1): even_count = 0 for num in list1: if num % 2 == 0: even_count += 1 print(even_count) def increment_odds(n): nums = [] for n in range(1, 2 * n, 2): nums.append(n) return nums increment_odds(3) def average(l): for n in l: return round(len(l) / n, 2) average([1, 2, 3]) name_to_dict = dict() name_to_dict['frist_name'] = 'Ada' name_to_dict['last_name'] = 'Lovelace' name_to_dict def capitalize_names(name): for n in name[0]: return f'{name}'.capitalize() capitalize_names('') def count_vowels(value): value = value.lower() vowel = ['a', 'e', 'i', 'o', 'u'] count = 0 for a in value: if a in vowel: count += 1 return count count_vowels('abcde') def analyze_word(word): vowels = ['a', 'e', 'i', 'o', 'u'] og_word = {} num_of_vowels = {} num_of_char = {} for c in word: if c in num_of_char: num_of_char[word] += 1 else: num_of_char[word] = 1 return len(word) for c in word: if c in vowels: num_of_char[word] += 1 else: num_of_char[word] = 1 return c analyze_word('word')
N = int(input()) while N > 0: texto = input().lower().replace(' ', '') alfabeto = 'abcdefghijklmnopqrstuvwxyz' contador = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0] result = '' a, i, count, maior = 0, 0, 0, 0 break_ = True while count < 52: if break_ == True: contador[i] = texto.count(alfabeto[i]) if contador[i] > maior: maior = contador[i] i += 1 if i == 26: break_ = False else: if maior == texto.count(alfabeto[a]): result += alfabeto[a] a += 1 count += 1 print(result) N -= 1
n = int(input()) while N > 0: texto = input().lower().replace(' ', '') alfabeto = 'abcdefghijklmnopqrstuvwxyz' contador = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0] result = '' (a, i, count, maior) = (0, 0, 0, 0) break_ = True while count < 52: if break_ == True: contador[i] = texto.count(alfabeto[i]) if contador[i] > maior: maior = contador[i] i += 1 if i == 26: break_ = False else: if maior == texto.count(alfabeto[a]): result += alfabeto[a] a += 1 count += 1 print(result) n -= 1
# Schema used for pre-2013-2014 TAPR data SCHEMA = { 'staff-and-student-information': { 'all_students_count': 'PETALLC', 'african_american_count': 'PETBLAC', 'african_american_percent': 'PETBLAP', 'american_indian_count': 'PETINDC', 'american_indian_percent': 'PETINDP', 'asian_count': 'PETASIC', 'asian_percent': 'PETASIP', 'hispanic_count': 'PETHISC', 'hispanic_percent': 'PETHISP', 'pacific_islander_count': 'PETPCIC', 'pacific_islander_percent': 'PETPCIP', 'two_or_more_races_count': 'PETTWOC', 'two_or_more_races_percent': 'PETTWOP', 'white_count': 'PETWHIC', 'white_percent': 'PETWHIP', 'early_childhood_education_count': 'PETGEEC', 'early_childhood_education_percent': 'PETGEEP', 'prek_count': 'PETGPKC', 'prek_percent': 'PETGPKP', 'kindergarten_count': 'PETGKNC', 'kindergarten_percent': 'PETGKNP', 'first_count': 'PETG01C', 'first_percent': 'PETG01P', 'second_count': 'PETG02C', 'second_percent': 'PETG02P', 'third_count': 'PETG03C', 'third_percent': 'PETG03P', 'fourth_count': 'PETG04C', 'fourth_percent': 'PETG04P', 'fifth_count': 'PETG05C', 'fifth_percent': 'PETG05P', 'sixth_count': 'PETG06C', 'sixth_percent': 'PETG06P', 'seventh_count': 'PETG07C', 'seventh_percent': 'PETG07P', 'eighth_count': 'PETG08C', 'eighth_percent': 'PETG08P', 'ninth_count': 'PETG09C', 'ninth_percent': 'PETG09P', 'tenth_count': 'PETG10C', 'tenth_percent': 'PETG10P', 'eleventh_count': 'PETG11C', 'eleventh_percent': 'PETG11P', 'twelfth_count': 'PETG12C', 'twelfth_percent': 'PETG12P', 'at_risk_count': 'PETRSKC', 'at_risk_percent': 'PETRSKP', 'economically_disadvantaged_count': 'PETECOC', 'economically_disadvantaged_percent': 'PETECOP', 'limited_english_proficient_count': 'PETLEPC', 'limited_english_proficient_percent': 'PETLEPP', 'bilingual_esl_count': 'PETBILC', 'bilingual_esl_percent': 'PETBILP', 'career_technical_education_count': 'PETVOCC', 'career_technical_education_percent': 'PETVOCP', 'gifted_and_talented_count': 'PETGIFC', 'gifted_and_talented_percent': 'PETGIFP', 'special_education_count': 'PETSPEC', 'special_education_percent': 'PETSPEP', 'class_size_avg_kindergarten': 'PCTGKGA', 'class_size_avg_first': 'PCTG01A', 'class_size_avg_second': 'PCTG02A', 'class_size_avg_third': 'PCTG03A', 'class_size_avg_fourth': 'PCTG04A', 'class_size_avg_fifth': 'PCTG05A', 'class_size_avg_sixth': 'PCTG06A', 'class_size_avg_mixed_elementary': 'PCTGMEA', 'class_size_avg_secondary_english': 'PCTENGA', 'class_size_avg_secondary_foreign_language': 'PCTFLAA', 'class_size_avg_secondary_math': 'PCTMATA', 'class_size_avg_secondary_science': 'PCTSCIA', 'class_size_avg_secondary_social_studies': 'PCTSOCA', 'students_per_teacher': 'PSTKIDR', # teacher_avg_tenure is Average Years Experience of Teachers with District 'teacher_avg_tenure': 'PSTTENA', # teacher_avg_experience is Average Years Experience of Teachers 'teacher_avg_experience': 'PSTEXPA', 'teacher_avg_base_salary': 'PSTTOSA', 'teacher_avg_beginning_salary': 'PST00SA', 'teacher_avg_1_to_5_year_salary': 'PST01SA', 'teacher_avg_6_to_10_year_salary': 'PST06SA', 'teacher_avg_11_to_20_year_salary': 'PST11SA', 'teacher_avg_20_plus_year_salary': 'PST20SA', 'teacher_total_fte_count': 'PSTTOFC', 'teacher_african_american_fte_count': 'PSTBLFC', 'teacher_american_indian_fte_count': 'PSTINFC', 'teacher_asian_fte_count': 'PSTASFC', 'teacher_hispanic_fte_count': 'PSTHIFC', 'teacher_pacific_islander_fte_count': 'PSTPIFC', 'teacher_two_or_more_races_fte_count': 'PSTTWFC', 'teacher_white_fte_count': 'PSTWHFC', 'teacher_total_fte_percent': 'PSTTOFC', 'teacher_african_american_fte_percent': 'PSTBLFP', 'teacher_american_indian_fte_percent': 'PSTINFP', 'teacher_asian_fte_percent': 'PSTASFP', 'teacher_hispanic_fte_percent': 'PSTHIFP', 'teacher_pacific_islander_fte_percent': 'PSTPIFP', 'teacher_two_or_more_races_fte_percent': 'PSTTWFP', 'teacher_white_fte_percent': 'PSTWHFP', # 'teacher_no_degree_count': 'PSTNOFC', # 'teacher_bachelors_count': 'PSTBAFC', # 'teacher_masters_count': 'PSTMSFC', # 'teacher_doctorate_count': 'PSTPHFC', # 'teacher_no_degree_percent': 'PSTNOFP', # 'teacher_bachelors_percent': 'PSTBAFP', # 'teacher_masters_percent': 'PSTMSFP', # 'teacher_doctorate_percent': 'PSTPHFP', }, 'postsecondary-readiness-and-non-staar-performance-indicators': { # 'college_ready_graduates_english_all_students_count': 'ACRR', 'college_ready_graduates_english_all_students_percent': 'ACRR', # 'college_ready_graduates_english_african_american_count': 'BCRR', 'college_ready_graduates_english_african_american_percent': 'BCRR', # 'college_ready_graduates_english_american_indian_count': 'ICRR', 'college_ready_graduates_english_american_indian_percent': 'ICRR', # 'college_ready_graduates_english_asian_count': '3CRR', 'college_ready_graduates_english_asian_percent': '3CRR', # 'college_ready_graduates_english_hispanic_count': 'HCRR', 'college_ready_graduates_english_hispanic_percent': 'HCRR', # 'college_ready_graduates_english_pacific_islander_count': '4CRR', 'college_ready_graduates_english_pacific_islander_percent': '4CRR', # 'college_ready_graduates_english_two_or_more_races_count': '2CRR', 'college_ready_graduates_english_two_or_more_races_percent': '2CRR', # 'college_ready_graduates_english_white_count': 'WCRR', 'college_ready_graduates_english_white_percent': 'WCRR', # 'college_ready_graduates_english_economically_disadvantaged_count': 'ECRR', 'college_ready_graduates_english_economically_disadvantaged_percent': 'ECRR', # 'college_ready_graduates_english_limited_english_proficient_count': 'LCRR', 'college_ready_graduates_english_limited_english_proficient_percent': 'LCRR', # 'college_ready_graduates_english_at_risk_count': 'RCRR', 'college_ready_graduates_english_at_risk_percent': 'RCRR', # 'college_ready_graduates_math_all_students_count': 'ACRM', 'college_ready_graduates_math_all_students_percent': 'ACRM', # 'college_ready_graduates_math_african_american_count': 'BCRM', 'college_ready_graduates_math_african_american_percent': 'BCRM', # 'college_ready_graduates_math_american_indian_count': 'ICRM', 'college_ready_graduates_math_american_indian_percent': 'ICRM', # 'college_ready_graduates_math_asian_count': '3CRM', 'college_ready_graduates_math_asian_percent': '3CRM', # 'college_ready_graduates_math_hispanic_count': 'HCRM', 'college_ready_graduates_math_hispanic_percent': 'HCRM', # 'college_ready_graduates_math_pacific_islander_count': '4CRM', 'college_ready_graduates_math_pacific_islander_percent': '4CRM', # 'college_ready_graduates_math_two_or_more_races_count': '2CRM', 'college_ready_graduates_math_two_or_more_races_percent': '2CRM', # 'college_ready_graduates_math_white_count': 'WCRM', 'college_ready_graduates_math_white_percent': 'WCRM', # 'college_ready_graduates_math_economically_disadvantaged_count': 'ECRM', 'college_ready_graduates_math_economically_disadvantaged_percent': 'ECRM', # 'college_ready_graduates_math_limited_english_proficient_count': 'LCRM', 'college_ready_graduates_math_limited_english_proficient_percent': 'LCRM', # 'college_ready_graduates_math_at_risk_count': 'RCRM', 'college_ready_graduates_math_at_risk_percent': 'RCRM', # 'college_ready_graduates_both_all_students_count': 'ACRB', 'college_ready_graduates_both_all_students_percent': 'ACRB', # 'college_ready_graduates_both_african_american_count': 'BCRB', 'college_ready_graduates_both_african_american_percent': 'BCRB', # 'college_ready_graduates_both_asian_count': '3CRB', 'college_ready_graduates_both_asian_percent': '3CRB', # 'college_ready_graduates_both_hispanic_count': 'HCRB', 'college_ready_graduates_both_hispanic_percent': 'HCRB', # 'college_ready_graduates_both_american_indian_count': 'ICRB', 'college_ready_graduates_both_american_indian_percent': 'ICRB', # 'college_ready_graduates_both_pacific_islander_count': '4CRB', 'college_ready_graduates_both_pacific_islander_percent': '4CRB', # 'college_ready_graduates_both_two_or_more_races_count': '2CRB', 'college_ready_graduates_both_two_or_more_races_percent': '2CRB', # 'college_ready_graduates_both_white_count': 'WCRB', 'college_ready_graduates_both_white_percent': 'WCRB', # 'college_ready_graduates_both_economically_disadvantaged_count': 'ECRB', 'college_ready_graduates_both_economically_disadvantaged_percent': 'ECRB', # 'college_ready_graduates_both_limited_english_proficient_count': 'LCRB', 'college_ready_graduates_both_limited_english_proficient_percent': 'LCRB', # 'college_ready_graduates_both_at_risk_count': 'RCRB', 'college_ready_graduates_both_at_risk_percent': 'RCRB', 'avg_sat_score_all_students': 'A0CSA', 'avg_sat_score_african_american': 'B0CSA', 'avg_sat_score_american_indian': 'I0CSA', 'avg_sat_score_asian': '30CSA', 'avg_sat_score_hispanic': 'H0CSA', 'avg_sat_score_pacific_islander': '40CSA', 'avg_sat_score_two_or_more_races': '20CSA', 'avg_sat_score_white': 'W0CSA', 'avg_sat_score_economically_disadvantaged': 'E0CSA', 'avg_act_score_all_students': 'A0CAA', 'avg_act_score_african_american': 'B0CAA', 'avg_act_score_american_indian': 'I0CAA', 'avg_act_score_asian': '30CAA', 'avg_act_score_hispanic': 'H0CAA', 'avg_act_score_pacific_islander': '40CAA', 'avg_act_score_two_or_more_races': '20CAA', 'avg_act_score_white': 'W0CAA', 'avg_act_score_economically_disadvantaged': 'E0CAA', # 'ap_ib_all_students_count_above_criterion': 'A0BKA', 'ap_ib_all_students_percent_above_criterion': 'A0BKA', # 'ap_ib_african_american_count_above_criterion': 'B0BKA', 'ap_ib_african_american_percent_above_criterion': 'B0BKA', # 'ap_ib_asian_count_above_criterion': '30BKA', 'ap_ib_asian_percent_above_criterion': '30BKA', # 'ap_ib_hispanic_count_above_criterion': 'H0BKA', 'ap_ib_hispanic_percent_above_criterion': 'H0BKA', # 'ap_ib_american_indian_count_above_criterion': 'I0BKA', 'ap_ib_american_indian_percent_above_criterion': 'I0BKA', # 'ap_ib_pacific_islander_count_above_criterion': '40BKA', 'ap_ib_pacific_islander_percent_above_criterion': '40BKA', # 'ap_ib_two_or_more_races_count_above_criterion': '20BKA', 'ap_ib_two_or_more_races_percent_above_criterion': '20BKA', # 'ap_ib_white_count_above_criterion': 'W0BKA', 'ap_ib_white_percent_above_criterion': 'W0BKA', # 'ap_ib_economically_disadvantaged_count_above_criterion': 'E0BKA', 'ap_ib_economically_disadvantaged_percent_above_criterion': 'E0BKA', 'ap_ib_all_students_percent_taking': 'A0BTA', 'ap_ib_african_american_percent_taking': 'B0BTA', 'ap_ib_asian_percent_taking': '30BTA', 'ap_ib_hispanic_percent_taking': 'H0BTA', 'ap_ib_american_indian_percent_taking': 'I0BTA', 'ap_ib_pacific_islander_percent_taking': '40BTA', 'ap_ib_two_or_more_races_percent_taking': '20BTA', 'ap_ib_white_percent_taking': 'W0BTA', 'ap_ib_economically_disadvantaged_percent_taking': 'E0BTA', # 'dropout_all_students_count': 'A0912DR', 'dropout_all_students_percent': 'A0912DR', # 'dropout_african_american_count': 'B0912DR', 'dropout_african_american_percent': 'B0912DR', # 'dropout_asian_count': '30912DR', 'dropout_asian_percent': '30912DR', # 'dropout_hispanic_count': 'H0912DR', 'dropout_hispanic_percent': 'H0912DR', # 'dropout_american_indian_count': 'I0912DR', 'dropout_american_indian_percent': 'I0912DR', # 'dropout_pacific_islander_count': '40912DR', 'dropout_pacific_islander_percent': '40912DR', # 'dropout_two_or_more_races_count': '20912DR', 'dropout_two_or_more_races_percent': '20912DR', # 'dropout_white_count': 'W0912DR', 'dropout_white_percent': 'W0912DR', # 'dropout_at_risk_count': 'R0912DR', 'dropout_at_risk_percent': 'R0912DR', # 'dropout_economically_disadvantaged_count': 'E0912DR', 'dropout_economically_disadvantaged_percent': 'E0912DR', # 'dropout_limited_english_proficient_count': 'E0912DR', 'dropout_limited_english_proficient_percent': 'E0912DR', # 'four_year_graduate_all_students_count': 'AGC4X', 'four_year_graduate_all_students_percent': 'AGC4X', # 'four_year_graduate_african_american_count': 'BGC4X', 'four_year_graduate_african_american_percent': 'BGC4X', # 'four_year_graduate_american_indian_count': 'IGC4X', 'four_year_graduate_american_indian_percent': 'IGC4X', # 'four_year_graduate_asian_count': '3GC4X', 'four_year_graduate_asian_percent': '3GC4X', # 'four_year_graduate_hispanic_count': 'HGC4X', 'four_year_graduate_hispanic_percent': 'HGC4X', # 'four_year_graduate_pacific_islander_count': '4GC4X', 'four_year_graduate_pacific_islander_percent': '4GC4X', # 'four_year_graduate_two_or_more_races_count': '2GC4X', 'four_year_graduate_two_or_more_races_percent': '2GC4X', # 'four_year_graduate_white_count': 'WGC4X', 'four_year_graduate_white_percent': 'WGC4X', # 'four_year_graduate_at_risk_count': 'RGC4X', 'four_year_graduate_at_risk_percent': 'RGC4X', # 'four_year_graduate_economically_disadvantaged_count': 'EGC4X', 'four_year_graduate_economically_disadvantaged_percent': 'EGC4X', # 'four_year_graduate_limited_english_proficient_count': 'L3C4X', 'four_year_graduate_limited_english_proficient_percent': 'L3C4X', 'attendance_rate': 'A0AT', }, 'reference': { 'accountability_rating': '_RATING', }, }
schema = {'staff-and-student-information': {'all_students_count': 'PETALLC', 'african_american_count': 'PETBLAC', 'african_american_percent': 'PETBLAP', 'american_indian_count': 'PETINDC', 'american_indian_percent': 'PETINDP', 'asian_count': 'PETASIC', 'asian_percent': 'PETASIP', 'hispanic_count': 'PETHISC', 'hispanic_percent': 'PETHISP', 'pacific_islander_count': 'PETPCIC', 'pacific_islander_percent': 'PETPCIP', 'two_or_more_races_count': 'PETTWOC', 'two_or_more_races_percent': 'PETTWOP', 'white_count': 'PETWHIC', 'white_percent': 'PETWHIP', 'early_childhood_education_count': 'PETGEEC', 'early_childhood_education_percent': 'PETGEEP', 'prek_count': 'PETGPKC', 'prek_percent': 'PETGPKP', 'kindergarten_count': 'PETGKNC', 'kindergarten_percent': 'PETGKNP', 'first_count': 'PETG01C', 'first_percent': 'PETG01P', 'second_count': 'PETG02C', 'second_percent': 'PETG02P', 'third_count': 'PETG03C', 'third_percent': 'PETG03P', 'fourth_count': 'PETG04C', 'fourth_percent': 'PETG04P', 'fifth_count': 'PETG05C', 'fifth_percent': 'PETG05P', 'sixth_count': 'PETG06C', 'sixth_percent': 'PETG06P', 'seventh_count': 'PETG07C', 'seventh_percent': 'PETG07P', 'eighth_count': 'PETG08C', 'eighth_percent': 'PETG08P', 'ninth_count': 'PETG09C', 'ninth_percent': 'PETG09P', 'tenth_count': 'PETG10C', 'tenth_percent': 'PETG10P', 'eleventh_count': 'PETG11C', 'eleventh_percent': 'PETG11P', 'twelfth_count': 'PETG12C', 'twelfth_percent': 'PETG12P', 'at_risk_count': 'PETRSKC', 'at_risk_percent': 'PETRSKP', 'economically_disadvantaged_count': 'PETECOC', 'economically_disadvantaged_percent': 'PETECOP', 'limited_english_proficient_count': 'PETLEPC', 'limited_english_proficient_percent': 'PETLEPP', 'bilingual_esl_count': 'PETBILC', 'bilingual_esl_percent': 'PETBILP', 'career_technical_education_count': 'PETVOCC', 'career_technical_education_percent': 'PETVOCP', 'gifted_and_talented_count': 'PETGIFC', 'gifted_and_talented_percent': 'PETGIFP', 'special_education_count': 'PETSPEC', 'special_education_percent': 'PETSPEP', 'class_size_avg_kindergarten': 'PCTGKGA', 'class_size_avg_first': 'PCTG01A', 'class_size_avg_second': 'PCTG02A', 'class_size_avg_third': 'PCTG03A', 'class_size_avg_fourth': 'PCTG04A', 'class_size_avg_fifth': 'PCTG05A', 'class_size_avg_sixth': 'PCTG06A', 'class_size_avg_mixed_elementary': 'PCTGMEA', 'class_size_avg_secondary_english': 'PCTENGA', 'class_size_avg_secondary_foreign_language': 'PCTFLAA', 'class_size_avg_secondary_math': 'PCTMATA', 'class_size_avg_secondary_science': 'PCTSCIA', 'class_size_avg_secondary_social_studies': 'PCTSOCA', 'students_per_teacher': 'PSTKIDR', 'teacher_avg_tenure': 'PSTTENA', 'teacher_avg_experience': 'PSTEXPA', 'teacher_avg_base_salary': 'PSTTOSA', 'teacher_avg_beginning_salary': 'PST00SA', 'teacher_avg_1_to_5_year_salary': 'PST01SA', 'teacher_avg_6_to_10_year_salary': 'PST06SA', 'teacher_avg_11_to_20_year_salary': 'PST11SA', 'teacher_avg_20_plus_year_salary': 'PST20SA', 'teacher_total_fte_count': 'PSTTOFC', 'teacher_african_american_fte_count': 'PSTBLFC', 'teacher_american_indian_fte_count': 'PSTINFC', 'teacher_asian_fte_count': 'PSTASFC', 'teacher_hispanic_fte_count': 'PSTHIFC', 'teacher_pacific_islander_fte_count': 'PSTPIFC', 'teacher_two_or_more_races_fte_count': 'PSTTWFC', 'teacher_white_fte_count': 'PSTWHFC', 'teacher_total_fte_percent': 'PSTTOFC', 'teacher_african_american_fte_percent': 'PSTBLFP', 'teacher_american_indian_fte_percent': 'PSTINFP', 'teacher_asian_fte_percent': 'PSTASFP', 'teacher_hispanic_fte_percent': 'PSTHIFP', 'teacher_pacific_islander_fte_percent': 'PSTPIFP', 'teacher_two_or_more_races_fte_percent': 'PSTTWFP', 'teacher_white_fte_percent': 'PSTWHFP'}, 'postsecondary-readiness-and-non-staar-performance-indicators': {'college_ready_graduates_english_all_students_percent': 'ACRR', 'college_ready_graduates_english_african_american_percent': 'BCRR', 'college_ready_graduates_english_american_indian_percent': 'ICRR', 'college_ready_graduates_english_asian_percent': '3CRR', 'college_ready_graduates_english_hispanic_percent': 'HCRR', 'college_ready_graduates_english_pacific_islander_percent': '4CRR', 'college_ready_graduates_english_two_or_more_races_percent': '2CRR', 'college_ready_graduates_english_white_percent': 'WCRR', 'college_ready_graduates_english_economically_disadvantaged_percent': 'ECRR', 'college_ready_graduates_english_limited_english_proficient_percent': 'LCRR', 'college_ready_graduates_english_at_risk_percent': 'RCRR', 'college_ready_graduates_math_all_students_percent': 'ACRM', 'college_ready_graduates_math_african_american_percent': 'BCRM', 'college_ready_graduates_math_american_indian_percent': 'ICRM', 'college_ready_graduates_math_asian_percent': '3CRM', 'college_ready_graduates_math_hispanic_percent': 'HCRM', 'college_ready_graduates_math_pacific_islander_percent': '4CRM', 'college_ready_graduates_math_two_or_more_races_percent': '2CRM', 'college_ready_graduates_math_white_percent': 'WCRM', 'college_ready_graduates_math_economically_disadvantaged_percent': 'ECRM', 'college_ready_graduates_math_limited_english_proficient_percent': 'LCRM', 'college_ready_graduates_math_at_risk_percent': 'RCRM', 'college_ready_graduates_both_all_students_percent': 'ACRB', 'college_ready_graduates_both_african_american_percent': 'BCRB', 'college_ready_graduates_both_asian_percent': '3CRB', 'college_ready_graduates_both_hispanic_percent': 'HCRB', 'college_ready_graduates_both_american_indian_percent': 'ICRB', 'college_ready_graduates_both_pacific_islander_percent': '4CRB', 'college_ready_graduates_both_two_or_more_races_percent': '2CRB', 'college_ready_graduates_both_white_percent': 'WCRB', 'college_ready_graduates_both_economically_disadvantaged_percent': 'ECRB', 'college_ready_graduates_both_limited_english_proficient_percent': 'LCRB', 'college_ready_graduates_both_at_risk_percent': 'RCRB', 'avg_sat_score_all_students': 'A0CSA', 'avg_sat_score_african_american': 'B0CSA', 'avg_sat_score_american_indian': 'I0CSA', 'avg_sat_score_asian': '30CSA', 'avg_sat_score_hispanic': 'H0CSA', 'avg_sat_score_pacific_islander': '40CSA', 'avg_sat_score_two_or_more_races': '20CSA', 'avg_sat_score_white': 'W0CSA', 'avg_sat_score_economically_disadvantaged': 'E0CSA', 'avg_act_score_all_students': 'A0CAA', 'avg_act_score_african_american': 'B0CAA', 'avg_act_score_american_indian': 'I0CAA', 'avg_act_score_asian': '30CAA', 'avg_act_score_hispanic': 'H0CAA', 'avg_act_score_pacific_islander': '40CAA', 'avg_act_score_two_or_more_races': '20CAA', 'avg_act_score_white': 'W0CAA', 'avg_act_score_economically_disadvantaged': 'E0CAA', 'ap_ib_all_students_percent_above_criterion': 'A0BKA', 'ap_ib_african_american_percent_above_criterion': 'B0BKA', 'ap_ib_asian_percent_above_criterion': '30BKA', 'ap_ib_hispanic_percent_above_criterion': 'H0BKA', 'ap_ib_american_indian_percent_above_criterion': 'I0BKA', 'ap_ib_pacific_islander_percent_above_criterion': '40BKA', 'ap_ib_two_or_more_races_percent_above_criterion': '20BKA', 'ap_ib_white_percent_above_criterion': 'W0BKA', 'ap_ib_economically_disadvantaged_percent_above_criterion': 'E0BKA', 'ap_ib_all_students_percent_taking': 'A0BTA', 'ap_ib_african_american_percent_taking': 'B0BTA', 'ap_ib_asian_percent_taking': '30BTA', 'ap_ib_hispanic_percent_taking': 'H0BTA', 'ap_ib_american_indian_percent_taking': 'I0BTA', 'ap_ib_pacific_islander_percent_taking': '40BTA', 'ap_ib_two_or_more_races_percent_taking': '20BTA', 'ap_ib_white_percent_taking': 'W0BTA', 'ap_ib_economically_disadvantaged_percent_taking': 'E0BTA', 'dropout_all_students_percent': 'A0912DR', 'dropout_african_american_percent': 'B0912DR', 'dropout_asian_percent': '30912DR', 'dropout_hispanic_percent': 'H0912DR', 'dropout_american_indian_percent': 'I0912DR', 'dropout_pacific_islander_percent': '40912DR', 'dropout_two_or_more_races_percent': '20912DR', 'dropout_white_percent': 'W0912DR', 'dropout_at_risk_percent': 'R0912DR', 'dropout_economically_disadvantaged_percent': 'E0912DR', 'dropout_limited_english_proficient_percent': 'E0912DR', 'four_year_graduate_all_students_percent': 'AGC4X', 'four_year_graduate_african_american_percent': 'BGC4X', 'four_year_graduate_american_indian_percent': 'IGC4X', 'four_year_graduate_asian_percent': '3GC4X', 'four_year_graduate_hispanic_percent': 'HGC4X', 'four_year_graduate_pacific_islander_percent': '4GC4X', 'four_year_graduate_two_or_more_races_percent': '2GC4X', 'four_year_graduate_white_percent': 'WGC4X', 'four_year_graduate_at_risk_percent': 'RGC4X', 'four_year_graduate_economically_disadvantaged_percent': 'EGC4X', 'four_year_graduate_limited_english_proficient_percent': 'L3C4X', 'attendance_rate': 'A0AT'}, 'reference': {'accountability_rating': '_RATING'}}
# Leo colorizer control file for bbj mode. # This file is in the public domain. # Properties for bbj mode. properties = { "commentEnd": "*/", "commentStart": "/*", "wordBreakChars": ",+-=<>/?^&*", } # Attributes dict for bbj_main ruleset. bbj_main_attributes_dict = { "default": "null", "digit_re": "", "escape": "\\", "highlight_digits": "true", "ignore_case": "true", "no_word_sep": "", } # Dictionary of attributes dictionaries for bbj mode. attributesDictDict = { "bbj_main": bbj_main_attributes_dict, } # Keywords dict for bbj_main ruleset. bbj_main_keywords_dict = { "abs": "keyword1", "addr": "keyword3", "adjn": "keyword1", "all": "keyword3", "argc": "keyword1", "argv": "keyword1", "asc": "keyword1", "ath": "keyword1", "atn": "keyword1", "auto": "keyword3", "background": "keyword1", "begin": "keyword3", "bin": "keyword1", "break": "keyword3", "bsz": "keyword1", "call": "keyword3", "callback": "keyword1", "case": "keyword3", "chanopt": "keyword1", "chdir": "keyword2", "chn": "keyword3", "chr": "keyword1", "cisam": "keyword2", "clear": "keyword3", "clipclear": "keyword1", "clipfromfile": "keyword1", "clipfromstr": "keyword1", "clipisformat": "keyword1", "cliplock": "keyword1", "clipregformat": "keyword1", "cliptofile": "keyword1", "cliptostr": "keyword1", "clipunlock": "keyword1", "close": "keyword2", "continue": "keyword2", "cos": "keyword1", "cpl": "keyword1", "crc": "keyword1", "crc16": "keyword1", "ctl": "keyword3", "ctrl": "keyword1", "cvs": "keyword1", "cvt": "keyword1", "data": "keyword3", "date": "keyword1", "day": "keyword3", "dec": "keyword1", "def": "keyword3", "default": "keyword3", "defend": "keyword3", "delete": "keyword3", "dim": "keyword3", "dims": "keyword1", "dir": "keyword2", "direct": "keyword2", "disable": "keyword2", "dom": "keyword2", "dread": "keyword3", "drop": "keyword3", "dsk": "keyword1", "dsz": "keyword1", "dump": "keyword2", "edit": "keyword3", "else": "keyword3", "enable": "keyword2", "end": "keyword2", "endif": "keyword3", "endtrace": "keyword2", "enter": "keyword3", "ept": "keyword1", "erase": "keyword2", "err": "keyword3", "errmes": "keyword1", "escape": "keyword3", "escoff": "keyword3", "escon": "keyword3", "execute": "keyword3", "exit": "keyword3", "exitto": "keyword3", "extract": "keyword2", "fattr": "keyword1", "fbin": "keyword1", "fdec": "keyword1", "fi": "keyword3", "fid": "keyword2", "field": "keyword1", "file": "keyword2", "fileopt": "keyword1", "fill": "keyword1", "fin": "keyword2", "find": "keyword2", "floatingpoint": "keyword1", "for": "keyword3", "fpt": "keyword1", "from": "keyword2", "gap": "keyword1", "gosub": "keyword3", "goto": "keyword3", "hsa": "keyword1", "hsh": "keyword1", "hta": "keyword1", "if": "keyword3", "iff": "keyword3", "imp": "keyword1", "ind": "keyword2", "indexed": "keyword2", "info": "keyword1", "initfile": "keyword3", "input": "keyword2", "inpute": "keyword2", "inputn": "keyword2", "int": "keyword1", "iol": "keyword2", "iolist": "keyword2", "ior": "keyword3", "jul": "keyword1", "key": "keyword2", "keyf": "keyword2", "keyl": "keyword2", "keyn": "keyword2", "keyp": "keyword2", "kgen": "keyword2", "knum": "keyword2", "lcheckin": "keyword1", "lcheckout": "keyword1", "len": "keyword1", "let": "keyword3", "linfo": "keyword1", "list": "keyword2", "load": "keyword2", "lock": "keyword2", "log": "keyword1", "lrc": "keyword1", "lst": "keyword1", "mask": "keyword1", "max": "keyword1", "menuinfo": "keyword1", "merge": "keyword2", "min": "keyword1", "mkdir": "keyword2", "mkeyed": "keyword2", "mod": "keyword1", "msgbox": "keyword1", "neval": "keyword1", "next": "keyword3", "nfield": "keyword1", "not": "keyword3", "notice": "keyword1", "noticetpl": "keyword1", "num": "keyword1", "on": "keyword3", "open": "keyword2", "opts": "keyword3", "or": "keyword3", "pad": "keyword1", "pck": "keyword1", "pfx": "keyword3", "pgm": "keyword1", "pos": "keyword1", "precision": "keyword3", "prefix": "keyword2", "print": "keyword2", "process_events": "keyword1", "program": "keyword1", "psz": "keyword1", "pub": "keyword1", "read": "keyword2", "read_resource": "keyword2", "record": "keyword2", "release": "keyword3", "remove": "keyword2", "remove_callback": "keyword1", "rename": "keyword2", "renum": "keyword3", "repeat": "keyword3", "resclose": "keyword2", "reserve": "keyword1", "reset": "keyword3", "resfirst": "keyword2", "resget": "keyword2", "resinfo": "keyword2", "resnext": "keyword2", "resopen": "keyword2", "restore": "keyword3", "retry": "keyword3", "return": "keyword3", "rev": "keyword2", "rmdir": "keyword2", "rnd": "keyword1", "round": "keyword1", "run": "keyword3", "save": "keyword2", "scall": "keyword1", "select": "keyword2", "sendmsg": "keyword1", "serial": "keyword2", "set_case_sensitive_off": "keyword3", "set_case_sensitive_on": "keyword3", "setday": "keyword2", "setdrive": "keyword2", "seterr": "keyword3", "setesc": "keyword3", "setopts": "keyword3", "settime": "keyword3", "settrace": "keyword2", "seval": "keyword1", "sgn": "keyword1", "sin": "keyword1", "siz": "keyword2", "sort": "keyword2", "sqlchn": "keyword2", "sqlclose": "keyword2", "sqlerr": "keyword2", "sqlexec": "keyword2", "sqlfetch": "keyword2", "sqllist": "keyword2", "sqlopen": "keyword2", "sqlprep": "keyword2", "sqlset": "keyword2", "sqltables": "keyword2", "sqltmpl": "keyword2", "sqlunt": "keyword2", "sqr": "keyword1", "ssn": "keyword3", "ssort": "keyword1", "ssz": "keyword1", "start": "keyword3", "stbl": "keyword1", "step": "keyword3", "stop": "keyword3", "str": "keyword1", "string": "keyword2", "swap": "keyword1", "swend": "keyword3", "switch": "keyword3", "sys": "keyword1", "table": "keyword2", "tbl": "keyword2", "tcb": "keyword1", "then": "keyword3", "tim": "keyword2", "tmpl": "keyword1", "to": "keyword3", "tsk": "keyword1", "unlock": "keyword2", "unt": "keyword3", "until": "keyword3", "upk": "keyword1", "wait": "keyword3", "wend": "keyword3", "where": "keyword2", "while": "keyword3", "winfirst": "keyword1", "wininfo": "keyword1", "winnext": "keyword1", "write": "keyword2", "xfid": "keyword2", "xfile": "keyword2", "xfin": "keyword2", "xor": "keyword3", } # Dictionary of keywords dictionaries for bbj mode. keywordsDictDict = { "bbj_main": bbj_main_keywords_dict, } # Rules for bbj_main ruleset. def bbj_rule0(colorer, s, i): return colorer.match_span(s, i, kind="comment1", begin="/*", end="*/", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="",exclude_match=False, no_escape=False, no_line_break=False, no_word_break=False) def bbj_rule1(colorer, s, i): return colorer.match_span(s, i, kind="literal1", begin="\"", end="\"", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="",exclude_match=False, no_escape=False, no_line_break=True, no_word_break=False) def bbj_rule2(colorer, s, i): return colorer.match_eol_span(s, i, kind="comment2", seq="//", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="", exclude_match=False) def bbj_rule3(colorer, s, i): return colorer.match_eol_span(s, i, kind="comment2", seq="REM", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="", exclude_match=False) def bbj_rule4(colorer, s, i): return colorer.match_seq(s, i, kind="operator", seq="=", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="") def bbj_rule5(colorer, s, i): return colorer.match_seq(s, i, kind="operator", seq=">=", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="") def bbj_rule6(colorer, s, i): return colorer.match_seq(s, i, kind="operator", seq="<=", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="") def bbj_rule7(colorer, s, i): return colorer.match_seq(s, i, kind="operator", seq="+", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="") def bbj_rule8(colorer, s, i): return colorer.match_seq(s, i, kind="operator", seq="-", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="") def bbj_rule9(colorer, s, i): return colorer.match_seq(s, i, kind="operator", seq="/", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="") def bbj_rule10(colorer, s, i): return colorer.match_seq(s, i, kind="operator", seq="*", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="") def bbj_rule11(colorer, s, i): return colorer.match_seq(s, i, kind="operator", seq=">", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="") def bbj_rule12(colorer, s, i): return colorer.match_seq(s, i, kind="operator", seq="<", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="") def bbj_rule13(colorer, s, i): return colorer.match_seq(s, i, kind="operator", seq="<>", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="") def bbj_rule14(colorer, s, i): return colorer.match_seq(s, i, kind="operator", seq="^", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="") def bbj_rule15(colorer, s, i): return colorer.match_seq(s, i, kind="operator", seq="and", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="") def bbj_rule16(colorer, s, i): return colorer.match_seq(s, i, kind="operator", seq="or", at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate="") def bbj_rule17(colorer, s, i): return colorer.match_mark_previous(s, i, kind="label", pattern=":", at_line_start=True, at_whitespace_end=False, at_word_start=False, exclude_match=True) def bbj_rule18(colorer, s, i): return colorer.match_mark_previous(s, i, kind="function", pattern="(", at_line_start=False, at_whitespace_end=False, at_word_start=False, exclude_match=True) def bbj_rule19(colorer, s, i): return colorer.match_keywords(s, i) # Rules dict for bbj_main ruleset. rulesDict1 = { "\"": [bbj_rule1,], "(": [bbj_rule18,], "*": [bbj_rule10,], "+": [bbj_rule7,], "-": [bbj_rule8,], "/": [bbj_rule0,bbj_rule2,bbj_rule9,], "0": [bbj_rule19,], "1": [bbj_rule19,], "2": [bbj_rule19,], "3": [bbj_rule19,], "4": [bbj_rule19,], "5": [bbj_rule19,], "6": [bbj_rule19,], "7": [bbj_rule19,], "8": [bbj_rule19,], "9": [bbj_rule19,], ":": [bbj_rule17,], "<": [bbj_rule6,bbj_rule12,bbj_rule13,], "=": [bbj_rule4,], ">": [bbj_rule5,bbj_rule11,], "@": [bbj_rule19,], "A": [bbj_rule19,], "B": [bbj_rule19,], "C": [bbj_rule19,], "D": [bbj_rule19,], "E": [bbj_rule19,], "F": [bbj_rule19,], "G": [bbj_rule19,], "H": [bbj_rule19,], "I": [bbj_rule19,], "J": [bbj_rule19,], "K": [bbj_rule19,], "L": [bbj_rule19,], "M": [bbj_rule19,], "N": [bbj_rule19,], "O": [bbj_rule19,], "P": [bbj_rule19,], "Q": [bbj_rule19,], "R": [bbj_rule3,bbj_rule19,], "S": [bbj_rule19,], "T": [bbj_rule19,], "U": [bbj_rule19,], "V": [bbj_rule19,], "W": [bbj_rule19,], "X": [bbj_rule19,], "Y": [bbj_rule19,], "Z": [bbj_rule19,], "^": [bbj_rule14,], "_": [bbj_rule19,], "a": [bbj_rule15,bbj_rule19,], "b": [bbj_rule19,], "c": [bbj_rule19,], "d": [bbj_rule19,], "e": [bbj_rule19,], "f": [bbj_rule19,], "g": [bbj_rule19,], "h": [bbj_rule19,], "i": [bbj_rule19,], "j": [bbj_rule19,], "k": [bbj_rule19,], "l": [bbj_rule19,], "m": [bbj_rule19,], "n": [bbj_rule19,], "o": [bbj_rule16,bbj_rule19,], "p": [bbj_rule19,], "q": [bbj_rule19,], "r": [bbj_rule19,], "s": [bbj_rule19,], "t": [bbj_rule19,], "u": [bbj_rule19,], "v": [bbj_rule19,], "w": [bbj_rule19,], "x": [bbj_rule19,], "y": [bbj_rule19,], "z": [bbj_rule19,], } # x.rulesDictDict for bbj mode. rulesDictDict = { "bbj_main": rulesDict1, } # Import dict for bbj mode. importDict = {}
properties = {'commentEnd': '*/', 'commentStart': '/*', 'wordBreakChars': ',+-=<>/?^&*'} bbj_main_attributes_dict = {'default': 'null', 'digit_re': '', 'escape': '\\', 'highlight_digits': 'true', 'ignore_case': 'true', 'no_word_sep': ''} attributes_dict_dict = {'bbj_main': bbj_main_attributes_dict} bbj_main_keywords_dict = {'abs': 'keyword1', 'addr': 'keyword3', 'adjn': 'keyword1', 'all': 'keyword3', 'argc': 'keyword1', 'argv': 'keyword1', 'asc': 'keyword1', 'ath': 'keyword1', 'atn': 'keyword1', 'auto': 'keyword3', 'background': 'keyword1', 'begin': 'keyword3', 'bin': 'keyword1', 'break': 'keyword3', 'bsz': 'keyword1', 'call': 'keyword3', 'callback': 'keyword1', 'case': 'keyword3', 'chanopt': 'keyword1', 'chdir': 'keyword2', 'chn': 'keyword3', 'chr': 'keyword1', 'cisam': 'keyword2', 'clear': 'keyword3', 'clipclear': 'keyword1', 'clipfromfile': 'keyword1', 'clipfromstr': 'keyword1', 'clipisformat': 'keyword1', 'cliplock': 'keyword1', 'clipregformat': 'keyword1', 'cliptofile': 'keyword1', 'cliptostr': 'keyword1', 'clipunlock': 'keyword1', 'close': 'keyword2', 'continue': 'keyword2', 'cos': 'keyword1', 'cpl': 'keyword1', 'crc': 'keyword1', 'crc16': 'keyword1', 'ctl': 'keyword3', 'ctrl': 'keyword1', 'cvs': 'keyword1', 'cvt': 'keyword1', 'data': 'keyword3', 'date': 'keyword1', 'day': 'keyword3', 'dec': 'keyword1', 'def': 'keyword3', 'default': 'keyword3', 'defend': 'keyword3', 'delete': 'keyword3', 'dim': 'keyword3', 'dims': 'keyword1', 'dir': 'keyword2', 'direct': 'keyword2', 'disable': 'keyword2', 'dom': 'keyword2', 'dread': 'keyword3', 'drop': 'keyword3', 'dsk': 'keyword1', 'dsz': 'keyword1', 'dump': 'keyword2', 'edit': 'keyword3', 'else': 'keyword3', 'enable': 'keyword2', 'end': 'keyword2', 'endif': 'keyword3', 'endtrace': 'keyword2', 'enter': 'keyword3', 'ept': 'keyword1', 'erase': 'keyword2', 'err': 'keyword3', 'errmes': 'keyword1', 'escape': 'keyword3', 'escoff': 'keyword3', 'escon': 'keyword3', 'execute': 'keyword3', 'exit': 'keyword3', 'exitto': 'keyword3', 'extract': 'keyword2', 'fattr': 'keyword1', 'fbin': 'keyword1', 'fdec': 'keyword1', 'fi': 'keyword3', 'fid': 'keyword2', 'field': 'keyword1', 'file': 'keyword2', 'fileopt': 'keyword1', 'fill': 'keyword1', 'fin': 'keyword2', 'find': 'keyword2', 'floatingpoint': 'keyword1', 'for': 'keyword3', 'fpt': 'keyword1', 'from': 'keyword2', 'gap': 'keyword1', 'gosub': 'keyword3', 'goto': 'keyword3', 'hsa': 'keyword1', 'hsh': 'keyword1', 'hta': 'keyword1', 'if': 'keyword3', 'iff': 'keyword3', 'imp': 'keyword1', 'ind': 'keyword2', 'indexed': 'keyword2', 'info': 'keyword1', 'initfile': 'keyword3', 'input': 'keyword2', 'inpute': 'keyword2', 'inputn': 'keyword2', 'int': 'keyword1', 'iol': 'keyword2', 'iolist': 'keyword2', 'ior': 'keyword3', 'jul': 'keyword1', 'key': 'keyword2', 'keyf': 'keyword2', 'keyl': 'keyword2', 'keyn': 'keyword2', 'keyp': 'keyword2', 'kgen': 'keyword2', 'knum': 'keyword2', 'lcheckin': 'keyword1', 'lcheckout': 'keyword1', 'len': 'keyword1', 'let': 'keyword3', 'linfo': 'keyword1', 'list': 'keyword2', 'load': 'keyword2', 'lock': 'keyword2', 'log': 'keyword1', 'lrc': 'keyword1', 'lst': 'keyword1', 'mask': 'keyword1', 'max': 'keyword1', 'menuinfo': 'keyword1', 'merge': 'keyword2', 'min': 'keyword1', 'mkdir': 'keyword2', 'mkeyed': 'keyword2', 'mod': 'keyword1', 'msgbox': 'keyword1', 'neval': 'keyword1', 'next': 'keyword3', 'nfield': 'keyword1', 'not': 'keyword3', 'notice': 'keyword1', 'noticetpl': 'keyword1', 'num': 'keyword1', 'on': 'keyword3', 'open': 'keyword2', 'opts': 'keyword3', 'or': 'keyword3', 'pad': 'keyword1', 'pck': 'keyword1', 'pfx': 'keyword3', 'pgm': 'keyword1', 'pos': 'keyword1', 'precision': 'keyword3', 'prefix': 'keyword2', 'print': 'keyword2', 'process_events': 'keyword1', 'program': 'keyword1', 'psz': 'keyword1', 'pub': 'keyword1', 'read': 'keyword2', 'read_resource': 'keyword2', 'record': 'keyword2', 'release': 'keyword3', 'remove': 'keyword2', 'remove_callback': 'keyword1', 'rename': 'keyword2', 'renum': 'keyword3', 'repeat': 'keyword3', 'resclose': 'keyword2', 'reserve': 'keyword1', 'reset': 'keyword3', 'resfirst': 'keyword2', 'resget': 'keyword2', 'resinfo': 'keyword2', 'resnext': 'keyword2', 'resopen': 'keyword2', 'restore': 'keyword3', 'retry': 'keyword3', 'return': 'keyword3', 'rev': 'keyword2', 'rmdir': 'keyword2', 'rnd': 'keyword1', 'round': 'keyword1', 'run': 'keyword3', 'save': 'keyword2', 'scall': 'keyword1', 'select': 'keyword2', 'sendmsg': 'keyword1', 'serial': 'keyword2', 'set_case_sensitive_off': 'keyword3', 'set_case_sensitive_on': 'keyword3', 'setday': 'keyword2', 'setdrive': 'keyword2', 'seterr': 'keyword3', 'setesc': 'keyword3', 'setopts': 'keyword3', 'settime': 'keyword3', 'settrace': 'keyword2', 'seval': 'keyword1', 'sgn': 'keyword1', 'sin': 'keyword1', 'siz': 'keyword2', 'sort': 'keyword2', 'sqlchn': 'keyword2', 'sqlclose': 'keyword2', 'sqlerr': 'keyword2', 'sqlexec': 'keyword2', 'sqlfetch': 'keyword2', 'sqllist': 'keyword2', 'sqlopen': 'keyword2', 'sqlprep': 'keyword2', 'sqlset': 'keyword2', 'sqltables': 'keyword2', 'sqltmpl': 'keyword2', 'sqlunt': 'keyword2', 'sqr': 'keyword1', 'ssn': 'keyword3', 'ssort': 'keyword1', 'ssz': 'keyword1', 'start': 'keyword3', 'stbl': 'keyword1', 'step': 'keyword3', 'stop': 'keyword3', 'str': 'keyword1', 'string': 'keyword2', 'swap': 'keyword1', 'swend': 'keyword3', 'switch': 'keyword3', 'sys': 'keyword1', 'table': 'keyword2', 'tbl': 'keyword2', 'tcb': 'keyword1', 'then': 'keyword3', 'tim': 'keyword2', 'tmpl': 'keyword1', 'to': 'keyword3', 'tsk': 'keyword1', 'unlock': 'keyword2', 'unt': 'keyword3', 'until': 'keyword3', 'upk': 'keyword1', 'wait': 'keyword3', 'wend': 'keyword3', 'where': 'keyword2', 'while': 'keyword3', 'winfirst': 'keyword1', 'wininfo': 'keyword1', 'winnext': 'keyword1', 'write': 'keyword2', 'xfid': 'keyword2', 'xfile': 'keyword2', 'xfin': 'keyword2', 'xor': 'keyword3'} keywords_dict_dict = {'bbj_main': bbj_main_keywords_dict} def bbj_rule0(colorer, s, i): return colorer.match_span(s, i, kind='comment1', begin='/*', end='*/', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='', exclude_match=False, no_escape=False, no_line_break=False, no_word_break=False) def bbj_rule1(colorer, s, i): return colorer.match_span(s, i, kind='literal1', begin='"', end='"', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='', exclude_match=False, no_escape=False, no_line_break=True, no_word_break=False) def bbj_rule2(colorer, s, i): return colorer.match_eol_span(s, i, kind='comment2', seq='//', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='', exclude_match=False) def bbj_rule3(colorer, s, i): return colorer.match_eol_span(s, i, kind='comment2', seq='REM', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='', exclude_match=False) def bbj_rule4(colorer, s, i): return colorer.match_seq(s, i, kind='operator', seq='=', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='') def bbj_rule5(colorer, s, i): return colorer.match_seq(s, i, kind='operator', seq='>=', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='') def bbj_rule6(colorer, s, i): return colorer.match_seq(s, i, kind='operator', seq='<=', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='') def bbj_rule7(colorer, s, i): return colorer.match_seq(s, i, kind='operator', seq='+', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='') def bbj_rule8(colorer, s, i): return colorer.match_seq(s, i, kind='operator', seq='-', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='') def bbj_rule9(colorer, s, i): return colorer.match_seq(s, i, kind='operator', seq='/', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='') def bbj_rule10(colorer, s, i): return colorer.match_seq(s, i, kind='operator', seq='*', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='') def bbj_rule11(colorer, s, i): return colorer.match_seq(s, i, kind='operator', seq='>', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='') def bbj_rule12(colorer, s, i): return colorer.match_seq(s, i, kind='operator', seq='<', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='') def bbj_rule13(colorer, s, i): return colorer.match_seq(s, i, kind='operator', seq='<>', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='') def bbj_rule14(colorer, s, i): return colorer.match_seq(s, i, kind='operator', seq='^', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='') def bbj_rule15(colorer, s, i): return colorer.match_seq(s, i, kind='operator', seq='and', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='') def bbj_rule16(colorer, s, i): return colorer.match_seq(s, i, kind='operator', seq='or', at_line_start=False, at_whitespace_end=False, at_word_start=False, delegate='') def bbj_rule17(colorer, s, i): return colorer.match_mark_previous(s, i, kind='label', pattern=':', at_line_start=True, at_whitespace_end=False, at_word_start=False, exclude_match=True) def bbj_rule18(colorer, s, i): return colorer.match_mark_previous(s, i, kind='function', pattern='(', at_line_start=False, at_whitespace_end=False, at_word_start=False, exclude_match=True) def bbj_rule19(colorer, s, i): return colorer.match_keywords(s, i) rules_dict1 = {'"': [bbj_rule1], '(': [bbj_rule18], '*': [bbj_rule10], '+': [bbj_rule7], '-': [bbj_rule8], '/': [bbj_rule0, bbj_rule2, bbj_rule9], '0': [bbj_rule19], '1': [bbj_rule19], '2': [bbj_rule19], '3': [bbj_rule19], '4': [bbj_rule19], '5': [bbj_rule19], '6': [bbj_rule19], '7': [bbj_rule19], '8': [bbj_rule19], '9': [bbj_rule19], ':': [bbj_rule17], '<': [bbj_rule6, bbj_rule12, bbj_rule13], '=': [bbj_rule4], '>': [bbj_rule5, bbj_rule11], '@': [bbj_rule19], 'A': [bbj_rule19], 'B': [bbj_rule19], 'C': [bbj_rule19], 'D': [bbj_rule19], 'E': [bbj_rule19], 'F': [bbj_rule19], 'G': [bbj_rule19], 'H': [bbj_rule19], 'I': [bbj_rule19], 'J': [bbj_rule19], 'K': [bbj_rule19], 'L': [bbj_rule19], 'M': [bbj_rule19], 'N': [bbj_rule19], 'O': [bbj_rule19], 'P': [bbj_rule19], 'Q': [bbj_rule19], 'R': [bbj_rule3, bbj_rule19], 'S': [bbj_rule19], 'T': [bbj_rule19], 'U': [bbj_rule19], 'V': [bbj_rule19], 'W': [bbj_rule19], 'X': [bbj_rule19], 'Y': [bbj_rule19], 'Z': [bbj_rule19], '^': [bbj_rule14], '_': [bbj_rule19], 'a': [bbj_rule15, bbj_rule19], 'b': [bbj_rule19], 'c': [bbj_rule19], 'd': [bbj_rule19], 'e': [bbj_rule19], 'f': [bbj_rule19], 'g': [bbj_rule19], 'h': [bbj_rule19], 'i': [bbj_rule19], 'j': [bbj_rule19], 'k': [bbj_rule19], 'l': [bbj_rule19], 'm': [bbj_rule19], 'n': [bbj_rule19], 'o': [bbj_rule16, bbj_rule19], 'p': [bbj_rule19], 'q': [bbj_rule19], 'r': [bbj_rule19], 's': [bbj_rule19], 't': [bbj_rule19], 'u': [bbj_rule19], 'v': [bbj_rule19], 'w': [bbj_rule19], 'x': [bbj_rule19], 'y': [bbj_rule19], 'z': [bbj_rule19]} rules_dict_dict = {'bbj_main': rulesDict1} import_dict = {}
# # Time complexity: # O(lines*columns) (worst case, where all the neighbours have the same color) # O(1) (best case, where no neighbour has the same color) # # Space complexity: # O(1) (color changes applied in place) # def flood_fill(screen, lines, columns, line, column, color): def inbound(l, c): return (l >= 0 and l < lines) and (c >= 0 and c < columns) def key(l, c): return "{},{}".format(l, c) stack = [[line, column]] visited = set() while stack: l, c = stack.pop() # Mark the cell as visited visited.add(key(l, c)) # Schedule the visit to all neighbours (except diagonal), # which weren't visited yet and has the same color neighbours = [ [l-1, c ], [l+1, c ], [l , c-1], [l , c+1] ] for nl, nc in neighbours: if inbound(nl, nc) and key(nl, nc) not in visited and screen[nl][nc] == screen[l][c]: stack.append([nl, nc]) # Paint the current cell screen[l][c] = color return screen
def flood_fill(screen, lines, columns, line, column, color): def inbound(l, c): return (l >= 0 and l < lines) and (c >= 0 and c < columns) def key(l, c): return '{},{}'.format(l, c) stack = [[line, column]] visited = set() while stack: (l, c) = stack.pop() visited.add(key(l, c)) neighbours = [[l - 1, c], [l + 1, c], [l, c - 1], [l, c + 1]] for (nl, nc) in neighbours: if inbound(nl, nc) and key(nl, nc) not in visited and (screen[nl][nc] == screen[l][c]): stack.append([nl, nc]) screen[l][c] = color return screen
def __residuumSign(self): if self.outcome == 0: return -1 else: return 1
def __residuum_sign(self): if self.outcome == 0: return -1 else: return 1
# -*- coding: utf-8 -*- class RedisServiceException(Exception): pass
class Redisserviceexception(Exception): pass
class Solution: def minStickers(self, stickers: List[str], target: str) -> int: n = len(target) maxMask = 1 << n # dp[i] := min # of stickers to spell out i, # where i is the bit representation of target dp = [math.inf] * maxMask dp[0] = 0 for mask in range(maxMask): if dp[mask] == math.inf: continue # try to expand from `mask` by using each sticker for sticker in stickers: superMask = mask for c in sticker: for i, t in enumerate(target): # try to apply it on a missing char if c == t and not (superMask >> i & 1): superMask |= 1 << i break dp[superMask] = min(dp[superMask], dp[mask] + 1) return -1 if dp[-1] == math.inf else dp[-1]
class Solution: def min_stickers(self, stickers: List[str], target: str) -> int: n = len(target) max_mask = 1 << n dp = [math.inf] * maxMask dp[0] = 0 for mask in range(maxMask): if dp[mask] == math.inf: continue for sticker in stickers: super_mask = mask for c in sticker: for (i, t) in enumerate(target): if c == t and (not superMask >> i & 1): super_mask |= 1 << i break dp[superMask] = min(dp[superMask], dp[mask] + 1) return -1 if dp[-1] == math.inf else dp[-1]
# ----------------------------------------------------------- # Copyright (c) 2021. Danil Smirnov # A positive real number is given. Print its fractional part. # ----------------------------------------------------------- def get_fractional_part(number: float)-> float: return float(number - (int(number // 1))) print(get_fractional_part(float(input())))
def get_fractional_part(number: float) -> float: return float(number - int(number // 1)) print(get_fractional_part(float(input())))
def hello(): print(f"Hello, world!") if __name__ == '__main__': hello()
def hello(): print(f'Hello, world!') if __name__ == '__main__': hello()
variant = dict( mlflow_uri="http://128.2.210.74:8080", gpu=False, algorithm="PPO", version="normal", actor_width=64, # Need to tune critic_width=256, replay_buffer_size=int(3E3), algorithm_kwargs=dict( min_num_steps_before_training=0, num_epochs=150, num_eval_steps_per_epoch=1000, num_train_loops_per_epoch=10, num_expl_steps_per_train_loop=2048, num_trains_per_train_loop=100, batch_size=256, max_path_length=1000, clear_buffer_every_train_loop=True, ), trainer_kwargs=dict( epsilon=0.2, # Need to tune discount=.99, # Need to tune intrinsic_discount=.9999, policy_lr=3E-4, # Need to tune val_lr=3E-4, # No need to use different use_rnd=False, rnd_coef=5, predictor_update_proportion=0.05, ), rnd_kwargs=dict( rnd_output_size=2, rnd_lr=3E-4, rnd_latent_size=2, use_normaliser=True, # Specifies whether to use observation normalisation for actor & critic ), target_kwargs=dict( tdlambda=0.95, target_lookahead=15, use_dones_for_rnd_critic=False, ), policy_kwargs=dict( std=0.1, # This is a non-learnable constant if set to a scalar value ), ) # env_variant = dict( # env_str='Swimmer-v2', # ) env_variant = dict( env_str='agnosticmaas-v0', lam=1, sigma2=1, agent_lambda=2, num_hypotheses=30, num_timesteps=150, num_EA_iterations=10, EA_tolerance=0.0001, cost_iterations=10, upper_limit_N=10, log_space_resolution=100, MLE_regularizer=.1, WASSERSTEIN_ITERS=100, verbose=False, adaptive_grid=False, direct_wasserstein=True, fisher_in_state=True, reward_shaping=False, )
variant = dict(mlflow_uri='http://128.2.210.74:8080', gpu=False, algorithm='PPO', version='normal', actor_width=64, critic_width=256, replay_buffer_size=int(3000.0), algorithm_kwargs=dict(min_num_steps_before_training=0, num_epochs=150, num_eval_steps_per_epoch=1000, num_train_loops_per_epoch=10, num_expl_steps_per_train_loop=2048, num_trains_per_train_loop=100, batch_size=256, max_path_length=1000, clear_buffer_every_train_loop=True), trainer_kwargs=dict(epsilon=0.2, discount=0.99, intrinsic_discount=0.9999, policy_lr=0.0003, val_lr=0.0003, use_rnd=False, rnd_coef=5, predictor_update_proportion=0.05), rnd_kwargs=dict(rnd_output_size=2, rnd_lr=0.0003, rnd_latent_size=2, use_normaliser=True), target_kwargs=dict(tdlambda=0.95, target_lookahead=15, use_dones_for_rnd_critic=False), policy_kwargs=dict(std=0.1)) env_variant = dict(env_str='agnosticmaas-v0', lam=1, sigma2=1, agent_lambda=2, num_hypotheses=30, num_timesteps=150, num_EA_iterations=10, EA_tolerance=0.0001, cost_iterations=10, upper_limit_N=10, log_space_resolution=100, MLE_regularizer=0.1, WASSERSTEIN_ITERS=100, verbose=False, adaptive_grid=False, direct_wasserstein=True, fisher_in_state=True, reward_shaping=False)
# # PySNMP MIB module ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB (http://snmplabs.com/pysmi) # ASN.1 source file:///Users/davwang4/Dev/mibs.snmplabs.com/asn1/ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB # Produced by pysmi-0.3.4 at Mon Apr 29 18:50:07 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") ConstraintsIntersection, ValueSizeConstraint, ConstraintsUnion, SingleValueConstraint, ValueRangeConstraint = mibBuilder.importSymbols("ASN1-REFINEMENT", "ConstraintsIntersection", "ValueSizeConstraint", "ConstraintsUnion", "SingleValueConstraint", "ValueRangeConstraint") etsysModules, = mibBuilder.importSymbols("ENTERASYS-MIB-NAMES", "etsysModules") InetAddress, InetAddressType = mibBuilder.importSymbols("INET-ADDRESS-MIB", "InetAddress", "InetAddressType") ObjectGroup, ModuleCompliance, NotificationGroup = mibBuilder.importSymbols("SNMPv2-CONF", "ObjectGroup", "ModuleCompliance", "NotificationGroup") IpAddress, Counter32, iso, MibScalar, MibTable, MibTableRow, MibTableColumn, Integer32, Bits, ModuleIdentity, TimeTicks, ObjectIdentity, MibIdentifier, Counter64, Unsigned32, NotificationType, Gauge32 = mibBuilder.importSymbols("SNMPv2-SMI", "IpAddress", "Counter32", "iso", "MibScalar", "MibTable", "MibTableRow", "MibTableColumn", "Integer32", "Bits", "ModuleIdentity", "TimeTicks", "ObjectIdentity", "MibIdentifier", "Counter64", "Unsigned32", "NotificationType", "Gauge32") RowStatus, TextualConvention, DisplayString, TruthValue = mibBuilder.importSymbols("SNMPv2-TC", "RowStatus", "TextualConvention", "DisplayString", "TruthValue") etsysRadiusAcctClientMIB = ModuleIdentity((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27)) etsysRadiusAcctClientMIB.setRevisions(('2009-08-07 15:48', '2004-11-12 15:23', '2004-09-09 14:37', '2004-08-30 15:55', '2004-08-25 15:03', '2002-09-13 19:30',)) if mibBuilder.loadTexts: etsysRadiusAcctClientMIB.setLastUpdated('200908071548Z') if mibBuilder.loadTexts: etsysRadiusAcctClientMIB.setOrganization('Enterasys Networks') etsysRadiusAcctClientMIBObjects = MibIdentifier((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1)) etsysRadiusAcctClientEnable = MibScalar((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 1), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("enable", 1), ("disable", 2))).clone('disable')).setMaxAccess("readwrite") if mibBuilder.loadTexts: etsysRadiusAcctClientEnable.setStatus('current') etsysRadiusAcctClientUpdateInterval = MibScalar((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 2), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 2147483647)).clone(1800)).setUnits('seconds').setMaxAccess("readwrite") if mibBuilder.loadTexts: etsysRadiusAcctClientUpdateInterval.setStatus('current') etsysRadiusAcctClientIntervalMinimum = MibScalar((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 3), Integer32().subtype(subtypeSpec=ValueRangeConstraint(60, 2147483647)).clone(600)).setUnits('seconds').setMaxAccess("readwrite") if mibBuilder.loadTexts: etsysRadiusAcctClientIntervalMinimum.setStatus('current') etsysRadiusAcctClientServerTable = MibTable((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4), ) if mibBuilder.loadTexts: etsysRadiusAcctClientServerTable.setStatus('current') etsysRadiusAcctClientServerEntry = MibTableRow((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1), ).setIndexNames((0, "ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerIndex")) if mibBuilder.loadTexts: etsysRadiusAcctClientServerEntry.setStatus('current') etsysRadiusAcctClientServerIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 2147483647))) if mibBuilder.loadTexts: etsysRadiusAcctClientServerIndex.setStatus('current') etsysRadiusAcctClientServerAddressType = MibTableColumn((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 2), InetAddressType().clone('ipv4')).setMaxAccess("readcreate") if mibBuilder.loadTexts: etsysRadiusAcctClientServerAddressType.setStatus('current') etsysRadiusAcctClientServerAddress = MibTableColumn((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 3), InetAddress().subtype(subtypeSpec=ValueSizeConstraint(1, 64))).setMaxAccess("readcreate") if mibBuilder.loadTexts: etsysRadiusAcctClientServerAddress.setStatus('current') etsysRadiusAcctClientServerPortNumber = MibTableColumn((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 4), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 65535)).clone(1813)).setMaxAccess("readcreate") if mibBuilder.loadTexts: etsysRadiusAcctClientServerPortNumber.setStatus('current') etsysRadiusAcctClientServerSecret = MibTableColumn((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 5), OctetString().subtype(subtypeSpec=ValueSizeConstraint(0, 255))).setMaxAccess("readcreate") if mibBuilder.loadTexts: etsysRadiusAcctClientServerSecret.setStatus('current') etsysRadiusAcctClientServerSecretEntered = MibTableColumn((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 6), TruthValue()).setMaxAccess("readonly") if mibBuilder.loadTexts: etsysRadiusAcctClientServerSecretEntered.setStatus('current') etsysRadiusAcctClientServerRetryTimeout = MibTableColumn((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 7), Integer32().subtype(subtypeSpec=ValueRangeConstraint(2, 10)).clone(5)).setUnits('seconds').setMaxAccess("readcreate") if mibBuilder.loadTexts: etsysRadiusAcctClientServerRetryTimeout.setStatus('current') etsysRadiusAcctClientServerRetries = MibTableColumn((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 8), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 20)).clone(2)).setMaxAccess("readcreate") if mibBuilder.loadTexts: etsysRadiusAcctClientServerRetries.setStatus('current') etsysRadiusAcctClientServerClearTime = MibTableColumn((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 9), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 2147483647))).setMaxAccess("readcreate") if mibBuilder.loadTexts: etsysRadiusAcctClientServerClearTime.setStatus('deprecated') etsysRadiusAcctClientServerStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 10), RowStatus()).setMaxAccess("readcreate") if mibBuilder.loadTexts: etsysRadiusAcctClientServerStatus.setStatus('current') etsysRadiusAcctClientServerUpdateInterval = MibTableColumn((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 11), Integer32().subtype(subtypeSpec=ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(0, 2147483647), )).clone(-1)).setUnits('seconds').setMaxAccess("readcreate") if mibBuilder.loadTexts: etsysRadiusAcctClientServerUpdateInterval.setStatus('current') etsysRadiusAcctClientServerIntervalMinimum = MibTableColumn((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 12), Integer32().subtype(subtypeSpec=ConstraintsUnion(ValueRangeConstraint(-1, -1), ValueRangeConstraint(60, 2147483647), )).clone(-1)).setUnits('seconds').setMaxAccess("readcreate") if mibBuilder.loadTexts: etsysRadiusAcctClientServerIntervalMinimum.setStatus('current') etsysRadiusAcctClientMIBConformance = MibIdentifier((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2)) etsysRadiusAcctClientMIBCompliances = MibIdentifier((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 1)) etsysRadiusAcctClientMIBGroups = MibIdentifier((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 2)) etsysRadiusAcctClientMIBGroup = ObjectGroup((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 2, 1)).setObjects(("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientEnable"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientUpdateInterval"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientIntervalMinimum"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerAddressType"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerAddress"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerPortNumber"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerSecret"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerSecretEntered"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerRetryTimeout"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerRetries"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerClearTime"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerStatus")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): etsysRadiusAcctClientMIBGroup = etsysRadiusAcctClientMIBGroup.setStatus('deprecated') etsysRadiusAcctClientMIBGroupV2 = ObjectGroup((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 2, 2)).setObjects(("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientEnable"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientUpdateInterval"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientIntervalMinimum"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerAddressType"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerAddress"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerPortNumber"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerSecret"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerSecretEntered"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerRetryTimeout"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerRetries"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerStatus")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): etsysRadiusAcctClientMIBGroupV2 = etsysRadiusAcctClientMIBGroupV2.setStatus('deprecated') etsysRadiusAcctClientMIBGroupV3 = ObjectGroup((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 2, 3)).setObjects(("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientEnable"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientUpdateInterval"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientIntervalMinimum"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerAddressType"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerAddress"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerPortNumber"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerSecret"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerSecretEntered"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerRetryTimeout"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerRetries"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerStatus"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerIntervalMinimum"), ("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientServerUpdateInterval")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): etsysRadiusAcctClientMIBGroupV3 = etsysRadiusAcctClientMIBGroupV3.setStatus('current') etsysRadiusAcctClientMIBCompliance = ModuleCompliance((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 1, 2)).setObjects(("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientMIBGroup")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): etsysRadiusAcctClientMIBCompliance = etsysRadiusAcctClientMIBCompliance.setStatus('deprecated') etsysRadiusAcctClientMIBComplianceV2 = ModuleCompliance((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 1, 3)).setObjects(("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientMIBGroupV2")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): etsysRadiusAcctClientMIBComplianceV2 = etsysRadiusAcctClientMIBComplianceV2.setStatus('deprecated') etsysRadiusAcctClientMIBComplianceV3 = ModuleCompliance((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 1, 4)).setObjects(("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", "etsysRadiusAcctClientMIBGroupV3")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): etsysRadiusAcctClientMIBComplianceV3 = etsysRadiusAcctClientMIBComplianceV3.setStatus('current') mibBuilder.exportSymbols("ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB", etsysRadiusAcctClientMIBComplianceV2=etsysRadiusAcctClientMIBComplianceV2, etsysRadiusAcctClientServerClearTime=etsysRadiusAcctClientServerClearTime, etsysRadiusAcctClientServerPortNumber=etsysRadiusAcctClientServerPortNumber, etsysRadiusAcctClientServerAddressType=etsysRadiusAcctClientServerAddressType, etsysRadiusAcctClientIntervalMinimum=etsysRadiusAcctClientIntervalMinimum, etsysRadiusAcctClientServerAddress=etsysRadiusAcctClientServerAddress, etsysRadiusAcctClientServerSecret=etsysRadiusAcctClientServerSecret, etsysRadiusAcctClientMIBCompliances=etsysRadiusAcctClientMIBCompliances, etsysRadiusAcctClientServerIndex=etsysRadiusAcctClientServerIndex, etsysRadiusAcctClientServerRetryTimeout=etsysRadiusAcctClientServerRetryTimeout, etsysRadiusAcctClientMIB=etsysRadiusAcctClientMIB, etsysRadiusAcctClientServerUpdateInterval=etsysRadiusAcctClientServerUpdateInterval, PYSNMP_MODULE_ID=etsysRadiusAcctClientMIB, etsysRadiusAcctClientMIBObjects=etsysRadiusAcctClientMIBObjects, etsysRadiusAcctClientMIBGroupV2=etsysRadiusAcctClientMIBGroupV2, etsysRadiusAcctClientMIBGroup=etsysRadiusAcctClientMIBGroup, etsysRadiusAcctClientServerSecretEntered=etsysRadiusAcctClientServerSecretEntered, etsysRadiusAcctClientServerStatus=etsysRadiusAcctClientServerStatus, etsysRadiusAcctClientServerTable=etsysRadiusAcctClientServerTable, etsysRadiusAcctClientMIBCompliance=etsysRadiusAcctClientMIBCompliance, etsysRadiusAcctClientMIBGroupV3=etsysRadiusAcctClientMIBGroupV3, etsysRadiusAcctClientMIBGroups=etsysRadiusAcctClientMIBGroups, etsysRadiusAcctClientEnable=etsysRadiusAcctClientEnable, etsysRadiusAcctClientServerRetries=etsysRadiusAcctClientServerRetries, etsysRadiusAcctClientUpdateInterval=etsysRadiusAcctClientUpdateInterval, etsysRadiusAcctClientServerEntry=etsysRadiusAcctClientServerEntry, etsysRadiusAcctClientServerIntervalMinimum=etsysRadiusAcctClientServerIntervalMinimum, etsysRadiusAcctClientMIBConformance=etsysRadiusAcctClientMIBConformance, etsysRadiusAcctClientMIBComplianceV3=etsysRadiusAcctClientMIBComplianceV3)
(object_identifier, octet_string, integer) = mibBuilder.importSymbols('ASN1', 'ObjectIdentifier', 'OctetString', 'Integer') (named_values,) = mibBuilder.importSymbols('ASN1-ENUMERATION', 'NamedValues') (constraints_intersection, value_size_constraint, constraints_union, single_value_constraint, value_range_constraint) = mibBuilder.importSymbols('ASN1-REFINEMENT', 'ConstraintsIntersection', 'ValueSizeConstraint', 'ConstraintsUnion', 'SingleValueConstraint', 'ValueRangeConstraint') (etsys_modules,) = mibBuilder.importSymbols('ENTERASYS-MIB-NAMES', 'etsysModules') (inet_address, inet_address_type) = mibBuilder.importSymbols('INET-ADDRESS-MIB', 'InetAddress', 'InetAddressType') (object_group, module_compliance, notification_group) = mibBuilder.importSymbols('SNMPv2-CONF', 'ObjectGroup', 'ModuleCompliance', 'NotificationGroup') (ip_address, counter32, iso, mib_scalar, mib_table, mib_table_row, mib_table_column, integer32, bits, module_identity, time_ticks, object_identity, mib_identifier, counter64, unsigned32, notification_type, gauge32) = mibBuilder.importSymbols('SNMPv2-SMI', 'IpAddress', 'Counter32', 'iso', 'MibScalar', 'MibTable', 'MibTableRow', 'MibTableColumn', 'Integer32', 'Bits', 'ModuleIdentity', 'TimeTicks', 'ObjectIdentity', 'MibIdentifier', 'Counter64', 'Unsigned32', 'NotificationType', 'Gauge32') (row_status, textual_convention, display_string, truth_value) = mibBuilder.importSymbols('SNMPv2-TC', 'RowStatus', 'TextualConvention', 'DisplayString', 'TruthValue') etsys_radius_acct_client_mib = module_identity((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27)) etsysRadiusAcctClientMIB.setRevisions(('2009-08-07 15:48', '2004-11-12 15:23', '2004-09-09 14:37', '2004-08-30 15:55', '2004-08-25 15:03', '2002-09-13 19:30')) if mibBuilder.loadTexts: etsysRadiusAcctClientMIB.setLastUpdated('200908071548Z') if mibBuilder.loadTexts: etsysRadiusAcctClientMIB.setOrganization('Enterasys Networks') etsys_radius_acct_client_mib_objects = mib_identifier((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1)) etsys_radius_acct_client_enable = mib_scalar((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 1), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('enable', 1), ('disable', 2))).clone('disable')).setMaxAccess('readwrite') if mibBuilder.loadTexts: etsysRadiusAcctClientEnable.setStatus('current') etsys_radius_acct_client_update_interval = mib_scalar((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 2), integer32().subtype(subtypeSpec=value_range_constraint(0, 2147483647)).clone(1800)).setUnits('seconds').setMaxAccess('readwrite') if mibBuilder.loadTexts: etsysRadiusAcctClientUpdateInterval.setStatus('current') etsys_radius_acct_client_interval_minimum = mib_scalar((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 3), integer32().subtype(subtypeSpec=value_range_constraint(60, 2147483647)).clone(600)).setUnits('seconds').setMaxAccess('readwrite') if mibBuilder.loadTexts: etsysRadiusAcctClientIntervalMinimum.setStatus('current') etsys_radius_acct_client_server_table = mib_table((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4)) if mibBuilder.loadTexts: etsysRadiusAcctClientServerTable.setStatus('current') etsys_radius_acct_client_server_entry = mib_table_row((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1)).setIndexNames((0, 'ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerIndex')) if mibBuilder.loadTexts: etsysRadiusAcctClientServerEntry.setStatus('current') etsys_radius_acct_client_server_index = mib_table_column((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 2147483647))) if mibBuilder.loadTexts: etsysRadiusAcctClientServerIndex.setStatus('current') etsys_radius_acct_client_server_address_type = mib_table_column((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 2), inet_address_type().clone('ipv4')).setMaxAccess('readcreate') if mibBuilder.loadTexts: etsysRadiusAcctClientServerAddressType.setStatus('current') etsys_radius_acct_client_server_address = mib_table_column((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 3), inet_address().subtype(subtypeSpec=value_size_constraint(1, 64))).setMaxAccess('readcreate') if mibBuilder.loadTexts: etsysRadiusAcctClientServerAddress.setStatus('current') etsys_radius_acct_client_server_port_number = mib_table_column((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 4), integer32().subtype(subtypeSpec=value_range_constraint(1, 65535)).clone(1813)).setMaxAccess('readcreate') if mibBuilder.loadTexts: etsysRadiusAcctClientServerPortNumber.setStatus('current') etsys_radius_acct_client_server_secret = mib_table_column((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 5), octet_string().subtype(subtypeSpec=value_size_constraint(0, 255))).setMaxAccess('readcreate') if mibBuilder.loadTexts: etsysRadiusAcctClientServerSecret.setStatus('current') etsys_radius_acct_client_server_secret_entered = mib_table_column((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 6), truth_value()).setMaxAccess('readonly') if mibBuilder.loadTexts: etsysRadiusAcctClientServerSecretEntered.setStatus('current') etsys_radius_acct_client_server_retry_timeout = mib_table_column((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 7), integer32().subtype(subtypeSpec=value_range_constraint(2, 10)).clone(5)).setUnits('seconds').setMaxAccess('readcreate') if mibBuilder.loadTexts: etsysRadiusAcctClientServerRetryTimeout.setStatus('current') etsys_radius_acct_client_server_retries = mib_table_column((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 8), integer32().subtype(subtypeSpec=value_range_constraint(0, 20)).clone(2)).setMaxAccess('readcreate') if mibBuilder.loadTexts: etsysRadiusAcctClientServerRetries.setStatus('current') etsys_radius_acct_client_server_clear_time = mib_table_column((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 9), integer32().subtype(subtypeSpec=value_range_constraint(1, 2147483647))).setMaxAccess('readcreate') if mibBuilder.loadTexts: etsysRadiusAcctClientServerClearTime.setStatus('deprecated') etsys_radius_acct_client_server_status = mib_table_column((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 10), row_status()).setMaxAccess('readcreate') if mibBuilder.loadTexts: etsysRadiusAcctClientServerStatus.setStatus('current') etsys_radius_acct_client_server_update_interval = mib_table_column((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 11), integer32().subtype(subtypeSpec=constraints_union(value_range_constraint(-1, -1), value_range_constraint(0, 2147483647))).clone(-1)).setUnits('seconds').setMaxAccess('readcreate') if mibBuilder.loadTexts: etsysRadiusAcctClientServerUpdateInterval.setStatus('current') etsys_radius_acct_client_server_interval_minimum = mib_table_column((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 1, 4, 1, 12), integer32().subtype(subtypeSpec=constraints_union(value_range_constraint(-1, -1), value_range_constraint(60, 2147483647))).clone(-1)).setUnits('seconds').setMaxAccess('readcreate') if mibBuilder.loadTexts: etsysRadiusAcctClientServerIntervalMinimum.setStatus('current') etsys_radius_acct_client_mib_conformance = mib_identifier((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2)) etsys_radius_acct_client_mib_compliances = mib_identifier((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 1)) etsys_radius_acct_client_mib_groups = mib_identifier((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 2)) etsys_radius_acct_client_mib_group = object_group((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 2, 1)).setObjects(('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientEnable'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientUpdateInterval'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientIntervalMinimum'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerAddressType'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerAddress'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerPortNumber'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerSecret'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerSecretEntered'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerRetryTimeout'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerRetries'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerClearTime'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerStatus')) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): etsys_radius_acct_client_mib_group = etsysRadiusAcctClientMIBGroup.setStatus('deprecated') etsys_radius_acct_client_mib_group_v2 = object_group((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 2, 2)).setObjects(('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientEnable'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientUpdateInterval'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientIntervalMinimum'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerAddressType'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerAddress'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerPortNumber'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerSecret'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerSecretEntered'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerRetryTimeout'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerRetries'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerStatus')) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): etsys_radius_acct_client_mib_group_v2 = etsysRadiusAcctClientMIBGroupV2.setStatus('deprecated') etsys_radius_acct_client_mib_group_v3 = object_group((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 2, 3)).setObjects(('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientEnable'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientUpdateInterval'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientIntervalMinimum'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerAddressType'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerAddress'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerPortNumber'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerSecret'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerSecretEntered'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerRetryTimeout'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerRetries'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerStatus'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerIntervalMinimum'), ('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientServerUpdateInterval')) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): etsys_radius_acct_client_mib_group_v3 = etsysRadiusAcctClientMIBGroupV3.setStatus('current') etsys_radius_acct_client_mib_compliance = module_compliance((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 1, 2)).setObjects(('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientMIBGroup')) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): etsys_radius_acct_client_mib_compliance = etsysRadiusAcctClientMIBCompliance.setStatus('deprecated') etsys_radius_acct_client_mib_compliance_v2 = module_compliance((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 1, 3)).setObjects(('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientMIBGroupV2')) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): etsys_radius_acct_client_mib_compliance_v2 = etsysRadiusAcctClientMIBComplianceV2.setStatus('deprecated') etsys_radius_acct_client_mib_compliance_v3 = module_compliance((1, 3, 6, 1, 4, 1, 5624, 1, 2, 27, 2, 1, 4)).setObjects(('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', 'etsysRadiusAcctClientMIBGroupV3')) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): etsys_radius_acct_client_mib_compliance_v3 = etsysRadiusAcctClientMIBComplianceV3.setStatus('current') mibBuilder.exportSymbols('ENTERASYS-RADIUS-ACCT-CLIENT-EXT-MIB', etsysRadiusAcctClientMIBComplianceV2=etsysRadiusAcctClientMIBComplianceV2, etsysRadiusAcctClientServerClearTime=etsysRadiusAcctClientServerClearTime, etsysRadiusAcctClientServerPortNumber=etsysRadiusAcctClientServerPortNumber, etsysRadiusAcctClientServerAddressType=etsysRadiusAcctClientServerAddressType, etsysRadiusAcctClientIntervalMinimum=etsysRadiusAcctClientIntervalMinimum, etsysRadiusAcctClientServerAddress=etsysRadiusAcctClientServerAddress, etsysRadiusAcctClientServerSecret=etsysRadiusAcctClientServerSecret, etsysRadiusAcctClientMIBCompliances=etsysRadiusAcctClientMIBCompliances, etsysRadiusAcctClientServerIndex=etsysRadiusAcctClientServerIndex, etsysRadiusAcctClientServerRetryTimeout=etsysRadiusAcctClientServerRetryTimeout, etsysRadiusAcctClientMIB=etsysRadiusAcctClientMIB, etsysRadiusAcctClientServerUpdateInterval=etsysRadiusAcctClientServerUpdateInterval, PYSNMP_MODULE_ID=etsysRadiusAcctClientMIB, etsysRadiusAcctClientMIBObjects=etsysRadiusAcctClientMIBObjects, etsysRadiusAcctClientMIBGroupV2=etsysRadiusAcctClientMIBGroupV2, etsysRadiusAcctClientMIBGroup=etsysRadiusAcctClientMIBGroup, etsysRadiusAcctClientServerSecretEntered=etsysRadiusAcctClientServerSecretEntered, etsysRadiusAcctClientServerStatus=etsysRadiusAcctClientServerStatus, etsysRadiusAcctClientServerTable=etsysRadiusAcctClientServerTable, etsysRadiusAcctClientMIBCompliance=etsysRadiusAcctClientMIBCompliance, etsysRadiusAcctClientMIBGroupV3=etsysRadiusAcctClientMIBGroupV3, etsysRadiusAcctClientMIBGroups=etsysRadiusAcctClientMIBGroups, etsysRadiusAcctClientEnable=etsysRadiusAcctClientEnable, etsysRadiusAcctClientServerRetries=etsysRadiusAcctClientServerRetries, etsysRadiusAcctClientUpdateInterval=etsysRadiusAcctClientUpdateInterval, etsysRadiusAcctClientServerEntry=etsysRadiusAcctClientServerEntry, etsysRadiusAcctClientServerIntervalMinimum=etsysRadiusAcctClientServerIntervalMinimum, etsysRadiusAcctClientMIBConformance=etsysRadiusAcctClientMIBConformance, etsysRadiusAcctClientMIBComplianceV3=etsysRadiusAcctClientMIBComplianceV3)
par = [] impar = [] print('Para o inicio da contagem, inicie com 1 para mostrar os impares e 2 para os pares.') n1 = int(input('Digite o inico da contagem [ 1 ] [ 2 ]:')) n2 = int(input('Digite o final da contagem:')) for c in range(n1, n2+1, 2): if n1 == 2: par.append(c) elif n1 == 1: impar.append(c) print(f'Com a contagem de {n1} a {n2}.') if n1 == 2: print(f'Temos um total de {par} pares.') elif n1 == 1: print(f'E temos o total de {impar} impares.')
par = [] impar = [] print('Para o inicio da contagem, inicie com 1 para mostrar os impares e 2 para os pares.') n1 = int(input('Digite o inico da contagem [ 1 ] [ 2 ]:')) n2 = int(input('Digite o final da contagem:')) for c in range(n1, n2 + 1, 2): if n1 == 2: par.append(c) elif n1 == 1: impar.append(c) print(f'Com a contagem de {n1} a {n2}.') if n1 == 2: print(f'Temos um total de {par} pares.') elif n1 == 1: print(f'E temos o total de {impar} impares.')
# Crie um programa onde o usuario digite # uma expressao qualquer que use parenteses. # Seu aplicativo devera analisar se a # expressao passada esta com os # parenteses abertos e fechados na ordem correta. expr = str(input('Digite a expressao: ')) pilha = list() for simb in expr: if simb == '(': pilha.append('(') elif simb == ')': if len(pilha) > 0: pilha.pop() else: pilha.append(')') break if len(pilha) == 0: print('Sua expressao esta valida!') else: print('Sua expressao esta errada!')
expr = str(input('Digite a expressao: ')) pilha = list() for simb in expr: if simb == '(': pilha.append('(') elif simb == ')': if len(pilha) > 0: pilha.pop() else: pilha.append(')') break if len(pilha) == 0: print('Sua expressao esta valida!') else: print('Sua expressao esta errada!')
# Python Program To Sort The Elements Of A Dictionary Based On A Key Or Value ''' Function Name : Sort Elements Of Dictionary Based On Key, Value. Function Date : 13 Sep 2020 Function Author : Prasad Dangare Input : String Output : String ''' colors = {10: "Red", 35: "Green", 15: "Blue", 25: "White"} # Sort The Dictionary By Keys i.e. 0th Elements c1 = sorted(colors.items(), key = lambda t: t[0]) print(c1) # Sort The Dictionary By Values , i.e. 1st Elements c2 = sorted(colors.items(), key = lambda t: t[1]) print(c2)
""" Function Name : Sort Elements Of Dictionary Based On Key, Value. Function Date : 13 Sep 2020 Function Author : Prasad Dangare Input : String Output : String """ colors = {10: 'Red', 35: 'Green', 15: 'Blue', 25: 'White'} c1 = sorted(colors.items(), key=lambda t: t[0]) print(c1) c2 = sorted(colors.items(), key=lambda t: t[1]) print(c2)
# Mergesort is the best sorting algorithm for use with a linked-list # Time Complexity O(nlogn) # Merging will require log(n) doublings from subarrays of size (1) to a single array of size length(n), # where each pass will require (n) iterations to compare and sort each element # Space Complexity O(n) arrays # O(1) linked-list def mergesort(a): if len(a) > 1: # divide array into subarrays of length one m = len(a)//2 # floor division returns a truncated integer by rounding towards negative infinity l = a[:m] r = a[m:] mergesort(l) # create auxillary arrays requiring O(n) memory in addition to the call stack overhead mergesort(r) i=0 # left half index j=0 # right half index k=0 # merge array index while i < len(l) and j < len(r): # WHILE left and right halves both contain elements if l[i] < r[j]: a[k]=l[i] i += 1 else: a[k]=r[j] j += 1 k += 1 while i < len(l): # WHILE only left half contains elements a[k]=l[i] i += 1 k += 1 while j < len(r): # WHILE only right half contains elements a[k]=r[j] j += 1 k += 1 x = [68,99,49,54,26,93,17,1,0,33,77] print("Sorting {}" .format(x)) mergesort(x) print("Result is {}" .format(x))
def mergesort(a): if len(a) > 1: m = len(a) // 2 l = a[:m] r = a[m:] mergesort(l) mergesort(r) i = 0 j = 0 k = 0 while i < len(l) and j < len(r): if l[i] < r[j]: a[k] = l[i] i += 1 else: a[k] = r[j] j += 1 k += 1 while i < len(l): a[k] = l[i] i += 1 k += 1 while j < len(r): a[k] = r[j] j += 1 k += 1 x = [68, 99, 49, 54, 26, 93, 17, 1, 0, 33, 77] print('Sorting {}'.format(x)) mergesort(x) print('Result is {}'.format(x))
def solution(inp): data = [row.split() for row in inp.splitlines()] count = 0 for passphrase in data: if len(passphrase) == len(set(passphrase)): count = count + 1 return count def main(): with open('input.txt', 'r') as f: inp = f.read() print('[*] Reading input from input.txt...') print('[*] The solution is: ') print(solution(inp)) if __name__=='__main__': main()
def solution(inp): data = [row.split() for row in inp.splitlines()] count = 0 for passphrase in data: if len(passphrase) == len(set(passphrase)): count = count + 1 return count def main(): with open('input.txt', 'r') as f: inp = f.read() print('[*] Reading input from input.txt...') print('[*] The solution is: ') print(solution(inp)) if __name__ == '__main__': main()
# -*- coding: utf-8 -*- __author__ = "venkat" __author_email__ = "[email protected]"
__author__ = 'venkat' __author_email__ = '[email protected]'
s1=set([1,3,7,94]) s2=set([2,3]) print(s1) print(s2) print(s1.intersection(s2)) print(s1.difference(s2)) print(s2.difference(s1)) print(s1.symmetric_difference(s2)) print(s1.union(s2)) s1.difference_update(s2) #S1 becomes equal to the difference print(s1) s1=set([1,3]) s1.discard(1) s1.remove(3) print(s1) s1.add(5) print(s1) t=([6,7]) s2.update(t) print(s2) x=s2.pop() print(x)
s1 = set([1, 3, 7, 94]) s2 = set([2, 3]) print(s1) print(s2) print(s1.intersection(s2)) print(s1.difference(s2)) print(s2.difference(s1)) print(s1.symmetric_difference(s2)) print(s1.union(s2)) s1.difference_update(s2) print(s1) s1 = set([1, 3]) s1.discard(1) s1.remove(3) print(s1) s1.add(5) print(s1) t = [6, 7] s2.update(t) print(s2) x = s2.pop() print(x)
def convert_to_alt_caps(message): lower = message.lower() upper = message.upper() data = [] space_offset = 0 for i in range(len(lower)): if not lower[i].isalpha(): space_offset += 1 if (i + space_offset) % 2 == 0: data.append(lower[i]) else: data.append(upper[i]) return ''.join(data) def main(): input_str = "Pikachu" print(input_str) print(convert_to_alt_caps(input_str)) input_str = "section is AWESOME" print(input_str) print(convert_to_alt_caps(input_str)) if __name__ == '__main__': main()
def convert_to_alt_caps(message): lower = message.lower() upper = message.upper() data = [] space_offset = 0 for i in range(len(lower)): if not lower[i].isalpha(): space_offset += 1 if (i + space_offset) % 2 == 0: data.append(lower[i]) else: data.append(upper[i]) return ''.join(data) def main(): input_str = 'Pikachu' print(input_str) print(convert_to_alt_caps(input_str)) input_str = 'section is AWESOME' print(input_str) print(convert_to_alt_caps(input_str)) if __name__ == '__main__': main()
TIME_FORMAT = ('day', 'hour') OPERATORS = { '==': lambda x, y: x == y, '<=': lambda x, y: x <= y, '>=': lambda x, y: x >= y, '>': lambda x, y: x > y, '<': lambda x, y: x < y, } class TimeDelta(object): def __init__(self, amount, fmt, operator): if int(amount) < 0: raise ValueError('amount must be over zero') if fmt not in TIME_FORMAT: raise ValueError( 'Time format must be one of {}' ''.format(', '.join(TIME_FORMAT)) ) if operator not in OPERATORS.keys(): raise ValueError( 'Comparision type must be one of {}' ''.format(', '.join(OPERATORS.keys())) ) if int(amount) > 1: fmt += 's' self.amount = amount self.format = fmt self.operator = operator def parse(self, results): d = [] for content in results: # O(N) - hacky as fuck! :( val, fmt = content['age'].split(' ') if fmt == self.format and \ OPERATORS[self.operator](int(val), int(self.amount)): d.append(content) return d
time_format = ('day', 'hour') operators = {'==': lambda x, y: x == y, '<=': lambda x, y: x <= y, '>=': lambda x, y: x >= y, '>': lambda x, y: x > y, '<': lambda x, y: x < y} class Timedelta(object): def __init__(self, amount, fmt, operator): if int(amount) < 0: raise value_error('amount must be over zero') if fmt not in TIME_FORMAT: raise value_error('Time format must be one of {}'.format(', '.join(TIME_FORMAT))) if operator not in OPERATORS.keys(): raise value_error('Comparision type must be one of {}'.format(', '.join(OPERATORS.keys()))) if int(amount) > 1: fmt += 's' self.amount = amount self.format = fmt self.operator = operator def parse(self, results): d = [] for content in results: (val, fmt) = content['age'].split(' ') if fmt == self.format and OPERATORS[self.operator](int(val), int(self.amount)): d.append(content) return d
class Solution: def mostCommonWord(self, paragraph: str, banned: List[str]) -> str: banset = set(banned) for c in "!?',;.": paragraph = paragraph.replace(c, ' ') cnt = Counter(word for word in paragraph.lower().split()) ans, best = '', 0 for word in cnt: if cnt[word] > best and word not in banset: ans, best = word, cnt[word] return ans
class Solution: def most_common_word(self, paragraph: str, banned: List[str]) -> str: banset = set(banned) for c in "!?',;.": paragraph = paragraph.replace(c, ' ') cnt = counter((word for word in paragraph.lower().split())) (ans, best) = ('', 0) for word in cnt: if cnt[word] > best and word not in banset: (ans, best) = (word, cnt[word]) return ans
#program to input a number, if it is not a number generate an error message. while True: try: a = int(input("Input a number: ")) break except ValueError: print("\nThis is not a number. Try again...") print() break
while True: try: a = int(input('Input a number: ')) break except ValueError: print('\nThis is not a number. Try again...') print() break
# Introduction to deep learning with Python # A. Forward propogation # Process of working from the input layer to the hidden layer to the final output layer # Values contained within the input layer are multiplied by the weights that are connected to the interactions for the hidden layer. # Details contained within this hidden layer nodes are then multiplied by the weights that connect to the output layer to create the prediction # First two chapters are aiming to predict the number of bank transactions that a customer will make # Calculate node 0 value: node_0_value node_0_value = (input_data * weights['node_0']).sum() # Calculate node 1 value: node_1_value node_1_value = (input_data * weights['node_1']).sum() # Put node values into array: hidden_layer_outputs hidden_layer_outputs = np.array([node_0_value, node_1_value]) # Calculate output: output output = (hidden_layer_outputs * weights['output']).sum() # Print output print(output) # B. Activation functions # Used to introduce non-linear interactions that occur. Aims to move away from simple linear interactions # These functions are applied at each node to convert the inputs into an output value for that node. # 1. The Rectified Linear Activation Function. Aims to predict only positive values by taking the maximum of input and zero. Don't want to # predict negative transaction values def relu(input): '''Define your relu activation function here''' # Calculate the value for the output of the relu function: output output = max(input, 0) # Return the value just calculated return(output) # Calculate node 0 value: node_0_output node_0_input = (input_data * weights['node_0']).sum() node_0_output = relu(node_0_input) # Calculate node 1 value: node_1_output node_1_input = (input_data * weights['node_1']).sum() node_1_output = relu(node_1_input) # Put node values into array: hidden_layer_outputs hidden_layer_outputs = np.array([node_0_output, node_1_output]) # Calculate model output (do not apply relu) model_output = (hidden_layer_outputs * weights['output']).sum() # Print model output print(model_output) # 2. Applying the network to many observations # Define predict_with_network() def predict_with_network(input_data_row, weights): # Calculate node 0 value node_0_input = (input_data_row * weights['node_0']).sum() node_0_output = relu(node_0_input) # Calculate node 1 value node_1_input = (input_data_row * weights['node_1']).sum() node_1_output = relu(node_1_input) # Put node values into array: hidden_layer_outputs hidden_layer_outputs = np.array([node_0_output, node_1_output]) # Calculate model output input_to_final_layer = (hidden_layer_outputs * weights['output']).sum() model_output = relu(input_to_final_layer) # Return model output return(model_output) # Create empty list to store prediction results results = [] for input_data_row in input_data: # Append prediction to results results.append(predict_with_network(input_data_row, weights)) # Print results print(results) # C. Deeper networks # 1. Multi-layer neural network. The hidden layers build on top of each other. In this example there are four layers; input, hidden_1, hidden_2 and output. # The model works to calulate predictions by working through each layer until the prediction is ready for the output layer def predict_with_network(input_data): # Calculate node 0 in the first hidden layer node_0_0_input = (input_data * weights['node_0_0']).sum() node_0_0_output = relu(node_0_0_input) # Calculate node 1 in the first hidden layer node_0_1_input = (input_data * weights['node_0_1']).sum() node_0_1_output = relu(node_0_1_input) # Put node values into array: hidden_0_outputs hidden_0_outputs = np.array([node_0_0_output, node_0_1_output]) # Calculate node 0 in the second hidden layer node_1_0_input = (hidden_0_outputs * weights['node_1_0']).sum() node_1_0_output = relu(node_1_0_input) # Calculate node 1 in the second hidden layer node_1_1_input = (hidden_0_outputs * weights['node_1_1']).sum() node_1_1_output = relu(node_1_1_input) # Put node values into array: hidden_1_outputs hidden_1_outputs = np.array([node_1_0_output, node_1_1_output]) # Calculate model output: model_output model_output = (hidden_1_outputs * weights['output']).sum() # Return model_output return(model_output) output = predict_with_network(input_data) print(output)
node_0_value = (input_data * weights['node_0']).sum() node_1_value = (input_data * weights['node_1']).sum() hidden_layer_outputs = np.array([node_0_value, node_1_value]) output = (hidden_layer_outputs * weights['output']).sum() print(output) def relu(input): """Define your relu activation function here""" output = max(input, 0) return output node_0_input = (input_data * weights['node_0']).sum() node_0_output = relu(node_0_input) node_1_input = (input_data * weights['node_1']).sum() node_1_output = relu(node_1_input) hidden_layer_outputs = np.array([node_0_output, node_1_output]) model_output = (hidden_layer_outputs * weights['output']).sum() print(model_output) def predict_with_network(input_data_row, weights): node_0_input = (input_data_row * weights['node_0']).sum() node_0_output = relu(node_0_input) node_1_input = (input_data_row * weights['node_1']).sum() node_1_output = relu(node_1_input) hidden_layer_outputs = np.array([node_0_output, node_1_output]) input_to_final_layer = (hidden_layer_outputs * weights['output']).sum() model_output = relu(input_to_final_layer) return model_output results = [] for input_data_row in input_data: results.append(predict_with_network(input_data_row, weights)) print(results) def predict_with_network(input_data): node_0_0_input = (input_data * weights['node_0_0']).sum() node_0_0_output = relu(node_0_0_input) node_0_1_input = (input_data * weights['node_0_1']).sum() node_0_1_output = relu(node_0_1_input) hidden_0_outputs = np.array([node_0_0_output, node_0_1_output]) node_1_0_input = (hidden_0_outputs * weights['node_1_0']).sum() node_1_0_output = relu(node_1_0_input) node_1_1_input = (hidden_0_outputs * weights['node_1_1']).sum() node_1_1_output = relu(node_1_1_input) hidden_1_outputs = np.array([node_1_0_output, node_1_1_output]) model_output = (hidden_1_outputs * weights['output']).sum() return model_output output = predict_with_network(input_data) print(output)
class Destiny2APIError(Exception): pass class Destiny2InvalidParameters(Destiny2APIError): pass class Destiny2APICooldown(Destiny2APIError): pass class Destiny2RefreshTokenError(Destiny2APIError): pass class Destiny2MissingAPITokens(Destiny2APIError): pass class Destiny2MissingManifest(Destiny2APIError): pass
class Destiny2Apierror(Exception): pass class Destiny2Invalidparameters(Destiny2APIError): pass class Destiny2Apicooldown(Destiny2APIError): pass class Destiny2Refreshtokenerror(Destiny2APIError): pass class Destiny2Missingapitokens(Destiny2APIError): pass class Destiny2Missingmanifest(Destiny2APIError): pass
class Solution: def twoSum(self, numbers: List[int], target: int) -> List[int]: dic = {} for i, num in enumerate(numbers): if target - num in dic: return [dic[target - num] + 1, i + 1] dic[num] = i
class Solution: def two_sum(self, numbers: List[int], target: int) -> List[int]: dic = {} for (i, num) in enumerate(numbers): if target - num in dic: return [dic[target - num] + 1, i + 1] dic[num] = i
# OpenWeatherMap API Key weather_api_key = "601b4c14f4ddb46a0080bbfb5ca51d3e" # Google API Key g_key = "AIzaSyDNUFB01N6sBwZfPznGBiHayHJrON12pYw"
weather_api_key = '601b4c14f4ddb46a0080bbfb5ca51d3e' g_key = 'AIzaSyDNUFB01N6sBwZfPznGBiHayHJrON12pYw'
class BaseModel: def __init__(self): self.ops = {}
class Basemodel: def __init__(self): self.ops = {}
# user.py __all__ = ['User'] class User: pass def user_helper_1(): pass
__all__ = ['User'] class User: pass def user_helper_1(): pass
description = 'IPC Motor bus device configuration' group = 'lowlevel' instrument_values = configdata('instrument.values') tango_base = instrument_values['tango_base'] # data from instrument.inf # used for: # - shutter_gamma (addr 0x31) # - nok2 (addr 0x32, 0x33) # - nok3 (addr 0x34, 0x35) # - nok4 reactor side (addr 0x36) # - zb0 (addr 0x37) # - zb1 (addr 0x38) # devices = dict( nokbus1 = device('nicos.devices.vendor.ipc.IPCModBusTango', tangodevice = tango_base + 'test/ipcsms_a/bio', lowlevel = True, ), )
description = 'IPC Motor bus device configuration' group = 'lowlevel' instrument_values = configdata('instrument.values') tango_base = instrument_values['tango_base'] devices = dict(nokbus1=device('nicos.devices.vendor.ipc.IPCModBusTango', tangodevice=tango_base + 'test/ipcsms_a/bio', lowlevel=True))
def extractMichilunWordpressCom(item): ''' Parser for 'michilun.wordpress.com' ''' bad = [ 'Recommendations and Reviews', ] if any([tmp in item['tags'] for tmp in bad]): return None vol, chp, frag, postfix = extractVolChapterFragmentPostfix(item['title']) if not (chp or vol) or "preview" in item['title'].lower(): return None tagmap = [ ('Side Projects - Scheme of the Official Descendant', 'Scheme of the Official Descendant', 'translated'), ('Song in the Peach Blossoms', 'Song in the Peach Blossoms', 'translated'), ('Onrain (Online - The Novel)', 'Onrain (Online - The Novel)', 'translated'), ('At the End of the Wish', 'At the End of the Wish', 'translated'), ('Bringing Calamity to the Nation', 'Bringing Calamity to the Nation', 'translated'), ('Side Projects - The Flame\'s Daughter', 'The Flame\'s Daughter', 'translated'), ('PRC', 'PRC', 'translated'), ('Loiterous', 'Loiterous', 'oel'), ] for tagname, name, tl_type in tagmap: if tagname in item['tags']: return buildReleaseMessageWithType(item, name, vol, chp, frag=frag, postfix=postfix, tl_type=tl_type) return False
def extract_michilun_wordpress_com(item): """ Parser for 'michilun.wordpress.com' """ bad = ['Recommendations and Reviews'] if any([tmp in item['tags'] for tmp in bad]): return None (vol, chp, frag, postfix) = extract_vol_chapter_fragment_postfix(item['title']) if not (chp or vol) or 'preview' in item['title'].lower(): return None tagmap = [('Side Projects - Scheme of the Official Descendant', 'Scheme of the Official Descendant', 'translated'), ('Song in the Peach Blossoms', 'Song in the Peach Blossoms', 'translated'), ('Onrain (Online - The Novel)', 'Onrain (Online - The Novel)', 'translated'), ('At the End of the Wish', 'At the End of the Wish', 'translated'), ('Bringing Calamity to the Nation', 'Bringing Calamity to the Nation', 'translated'), ("Side Projects - The Flame's Daughter", "The Flame's Daughter", 'translated'), ('PRC', 'PRC', 'translated'), ('Loiterous', 'Loiterous', 'oel')] for (tagname, name, tl_type) in tagmap: if tagname in item['tags']: return build_release_message_with_type(item, name, vol, chp, frag=frag, postfix=postfix, tl_type=tl_type) return False
def main(): with open('inputs/01.in') as f: data = [int(line) for line in f] print(sum(data)) result = 0 seen = {0} while True: for item in data: result += item if result in seen: print(result) return seen.add(result) if __name__ == '__main__': main()
def main(): with open('inputs/01.in') as f: data = [int(line) for line in f] print(sum(data)) result = 0 seen = {0} while True: for item in data: result += item if result in seen: print(result) return seen.add(result) if __name__ == '__main__': main()
strikeout = 'K' className = "This is CS50." age = 30 anotherAge = 63 pi = 3.14 morePi = 3.1415962 fun = True print("strikeout: {}".format(strikeout)) print("className: {}".format(className)) print("age: {}".format(age)) print("anotherAge: {}".format(anotherAge)) print("pi: {}".format(pi)) print("morePi: {}".format(morePi)) print("fun: {}".format(fun))
strikeout = 'K' class_name = 'This is CS50.' age = 30 another_age = 63 pi = 3.14 more_pi = 3.1415962 fun = True print('strikeout: {}'.format(strikeout)) print('className: {}'.format(className)) print('age: {}'.format(age)) print('anotherAge: {}'.format(anotherAge)) print('pi: {}'.format(pi)) print('morePi: {}'.format(morePi)) print('fun: {}'.format(fun))
def is_all_strings(iterable): return all(isinstance(string, str) for string in iterable) print(['a', 'b', 'c']) print([2, 'a', 'b', 'c'])
def is_all_strings(iterable): return all((isinstance(string, str) for string in iterable)) print(['a', 'b', 'c']) print([2, 'a', 'b', 'c'])
def concat_multiples(num, multiples): return int("".join([str(num*multiple) for multiple in range(1,multiples+1)])) def is_pandigital(num): return sorted([int(digit) for digit in str(num)]) == list(range(1,10)) def solve_p038(): # retrieve only 9 digit concatinations of multiples where n = (1,2,..n) n6 = [concat_multiples(num, 6) for num in [3]] n5 = [concat_multiples(num, 5) for num in range(5,10)] n4 = [concat_multiples(num, 4) for num in range(25,33)] n3 = [concat_multiples(num, 3) for num in range(100,333)] n2 = [concat_multiples(num, 2) for num in range(5000,9999)] all_concats = set(n2 + n3 + n4 + n5 + n6) return max([num for num in all_concats if is_pandigital(num)]) if __name__ == '__main__': print((solve_p038()))
def concat_multiples(num, multiples): return int(''.join([str(num * multiple) for multiple in range(1, multiples + 1)])) def is_pandigital(num): return sorted([int(digit) for digit in str(num)]) == list(range(1, 10)) def solve_p038(): n6 = [concat_multiples(num, 6) for num in [3]] n5 = [concat_multiples(num, 5) for num in range(5, 10)] n4 = [concat_multiples(num, 4) for num in range(25, 33)] n3 = [concat_multiples(num, 3) for num in range(100, 333)] n2 = [concat_multiples(num, 2) for num in range(5000, 9999)] all_concats = set(n2 + n3 + n4 + n5 + n6) return max([num for num in all_concats if is_pandigital(num)]) if __name__ == '__main__': print(solve_p038())
# Copyright 2015 The Chromium Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. { 'variables': { 'chromium_code': 1, }, 'targets': [ { # GN version: //ui/aura_extra 'target_name': 'aura_extra', 'type': '<(component)', 'dependencies': [ '../../base/base.gyp:base', '../../skia/skia.gyp:skia', '../aura/aura.gyp:aura', '../base/ui_base.gyp:ui_base', '../events/events.gyp:events', '../gfx/gfx.gyp:gfx', '../gfx/gfx.gyp:gfx_geometry', ], 'defines': [ 'AURA_EXTRA_IMPLEMENTATION', ], 'sources': [ 'aura_extra_export.h', 'image_window_delegate.cc', 'image_window_delegate.h', ], }, ], }
{'variables': {'chromium_code': 1}, 'targets': [{'target_name': 'aura_extra', 'type': '<(component)', 'dependencies': ['../../base/base.gyp:base', '../../skia/skia.gyp:skia', '../aura/aura.gyp:aura', '../base/ui_base.gyp:ui_base', '../events/events.gyp:events', '../gfx/gfx.gyp:gfx', '../gfx/gfx.gyp:gfx_geometry'], 'defines': ['AURA_EXTRA_IMPLEMENTATION'], 'sources': ['aura_extra_export.h', 'image_window_delegate.cc', 'image_window_delegate.h']}]}
class Env: __table = None _prev = None def __init__(self, n): self.__table = {} self._prev = n def put(self, w, i): self.__table[w] = i def get(self, w): e = self while e is not None: found = e.__table.get(w) if found is not None: return found e = e._prev return None
class Env: __table = None _prev = None def __init__(self, n): self.__table = {} self._prev = n def put(self, w, i): self.__table[w] = i def get(self, w): e = self while e is not None: found = e.__table.get(w) if found is not None: return found e = e._prev return None
def foo(*args, **kwargs): pass fo<caret>o(1, 2, 3, x = 4)
def foo(*args, **kwargs): pass fo < caret > o(1, 2, 3, x=4)
#!/usr/bin/python3 # -*- coding: utf-8 -*- # # 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. # # Copyright (C) 2017, Kai Raphahn <[email protected]> # __all__ = [ "logging", "lang", "data", "utils" ] #: package name __name__ = "bbutils" #: package author __author__ = "Kai Raphahn" #: email of package maintainer __email__ = "[email protected]" #: copyright year __year__ = 2020 #: package copyright __copyright__ = "Copyright (C) {0:d}, {1:s} <{2:s}>".format(__year__, __author__, __email__) #: package description __description__ = "Small collection of stuff for all my other python projects (including logging)." #: package license __license__ = "Apache License, Version 2.0" #: package credits __credits__ = [__author__] #: version milestone __milestone__ = 0 #: version major __major__ = 4 #: version minor __minor__ = 0 #: version patch __patch__ = 6 #: package version __version__ = "{0:d}.{1:d}.{2:d}.{3:d}".format(__milestone__, __major__, __minor__, __patch__) #: package maintainer __maintainer__ = __author__
__all__ = ['logging', 'lang', 'data', 'utils'] __name__ = 'bbutils' __author__ = 'Kai Raphahn' __email__ = '[email protected]' __year__ = 2020 __copyright__ = 'Copyright (C) {0:d}, {1:s} <{2:s}>'.format(__year__, __author__, __email__) __description__ = 'Small collection of stuff for all my other python projects (including logging).' __license__ = 'Apache License, Version 2.0' __credits__ = [__author__] __milestone__ = 0 __major__ = 4 __minor__ = 0 __patch__ = 6 __version__ = '{0:d}.{1:d}.{2:d}.{3:d}'.format(__milestone__, __major__, __minor__, __patch__) __maintainer__ = __author__
class physics:#universal physics(excluding projectiles because i hate them) def __init__(self,world,gravity = 2): self.gravity = gravity self.world = world def isAtScreenBottom(self,obj):#unused if obj.y + obj.size[1] <= screenSize[1]: return True else: return False def colliding(self,xy1, size1, xy2, size2):#returns true if two rectangles are touching if xy1[0] + size1[0] > xy2[0] and xy1[0] < xy2[0] + size2[0] and xy1[1] + size1[1] > xy2[1] and xy1[1] < xy2[1] + size2[1]: return True def touchingTile(self,xy,z=1,filtered = True): try: if self.world.tiles[xy[0]//32][xy[1]//32][z] != None: if self.world.tiles[xy[0]//32][xy[1]//32][z].tileType != 24: if filtered == True: return self.world.tiles[xy[0]//32][xy[1]//32][z].physical else: return True return False except: return False def applyPhys(self,obj):#applies physics to an object below = False beside = False above = False if self.touchingTile((obj.x + (obj.legLeft.size[0] * 2),(obj.y + obj.size[1]) + obj.yVel)) == True or self.touchingTile((obj.x + obj.armLeft.size[0],(obj.y + obj.size[1]) + obj.yVel)) == True: obj.yVel = 0 below = True if self.touchingTile(((obj.x + obj.size[0] + obj.xVel),obj.y)) == True or self.touchingTile(((obj.x + obj.size[0] + obj.xVel),obj.y + obj.legLeft.size[1])) == True or self.touchingTile(((obj.x + obj.size[0] + obj.xVel),obj.y + obj.size[1] - 2)) == True : obj.xVel = 0 beside = True if self.touchingTile(((obj.x + obj.armLeft.size[0]) + obj.xVel,obj.y)) == True or self.touchingTile(((obj.x + obj.armLeft.size[0]) + obj.xVel,obj.y + obj.legLeft.size[1])) == True or self.touchingTile(((obj.x + obj.armLeft.size[0]) + obj.xVel,obj.y + obj.size[1] - 2)) == True : obj.xVel = 0 beside = True if self.touchingTile((obj.x + (obj.legLeft.size[0] * 2), obj.y + obj.yVel)) == True or self.touchingTile((obj.x + obj.armLeft.size[0], obj.y + obj.yVel)) == True: obj.yVel = 0 above = True if below == False: obj.addSpeed(0,self.gravity) else: if self.touchingTile((obj.x + (obj.legLeft.size[0] * 2), obj.y + obj.size[1] - 1)) == True or self.touchingTile((obj.x + obj.armLeft.size[0],obj.y + obj.size[1] - 1)) == True: obj.changeXY(0,-1) if beside == True: obj.faceTile = True else: obj.faceTile = False if obj.xVel != 0: obj.changeXY(obj.xVel) obj.walkAnim() if obj.xVel > 0: obj.xVel -= 1 if obj.faceRight == False: obj.flip() else: obj.xVel += 1 if obj.faceRight == True: obj.flip() if obj.yVel != 0: obj.changeXY(0,obj.yVel) objType = str(type(obj))#find the object type objType = objType.split("'") objType = objType[1] objType = objType.split('.')[1] if objType == 'character': if obj.isJump == True: if below == True:#moving down obj.isJump = False#no longer jumping obj.y -= 1#lower the y coordinate to prevent some bad stuff probably obj.limbReset()#reset limbs obj.attacking = False#no attack else: obj.fallAnim()#fall
class Physics: def __init__(self, world, gravity=2): self.gravity = gravity self.world = world def is_at_screen_bottom(self, obj): if obj.y + obj.size[1] <= screenSize[1]: return True else: return False def colliding(self, xy1, size1, xy2, size2): if xy1[0] + size1[0] > xy2[0] and xy1[0] < xy2[0] + size2[0] and (xy1[1] + size1[1] > xy2[1]) and (xy1[1] < xy2[1] + size2[1]): return True def touching_tile(self, xy, z=1, filtered=True): try: if self.world.tiles[xy[0] // 32][xy[1] // 32][z] != None: if self.world.tiles[xy[0] // 32][xy[1] // 32][z].tileType != 24: if filtered == True: return self.world.tiles[xy[0] // 32][xy[1] // 32][z].physical else: return True return False except: return False def apply_phys(self, obj): below = False beside = False above = False if self.touchingTile((obj.x + obj.legLeft.size[0] * 2, obj.y + obj.size[1] + obj.yVel)) == True or self.touchingTile((obj.x + obj.armLeft.size[0], obj.y + obj.size[1] + obj.yVel)) == True: obj.yVel = 0 below = True if self.touchingTile((obj.x + obj.size[0] + obj.xVel, obj.y)) == True or self.touchingTile((obj.x + obj.size[0] + obj.xVel, obj.y + obj.legLeft.size[1])) == True or self.touchingTile((obj.x + obj.size[0] + obj.xVel, obj.y + obj.size[1] - 2)) == True: obj.xVel = 0 beside = True if self.touchingTile((obj.x + obj.armLeft.size[0] + obj.xVel, obj.y)) == True or self.touchingTile((obj.x + obj.armLeft.size[0] + obj.xVel, obj.y + obj.legLeft.size[1])) == True or self.touchingTile((obj.x + obj.armLeft.size[0] + obj.xVel, obj.y + obj.size[1] - 2)) == True: obj.xVel = 0 beside = True if self.touchingTile((obj.x + obj.legLeft.size[0] * 2, obj.y + obj.yVel)) == True or self.touchingTile((obj.x + obj.armLeft.size[0], obj.y + obj.yVel)) == True: obj.yVel = 0 above = True if below == False: obj.addSpeed(0, self.gravity) elif self.touchingTile((obj.x + obj.legLeft.size[0] * 2, obj.y + obj.size[1] - 1)) == True or self.touchingTile((obj.x + obj.armLeft.size[0], obj.y + obj.size[1] - 1)) == True: obj.changeXY(0, -1) if beside == True: obj.faceTile = True else: obj.faceTile = False if obj.xVel != 0: obj.changeXY(obj.xVel) obj.walkAnim() if obj.xVel > 0: obj.xVel -= 1 if obj.faceRight == False: obj.flip() else: obj.xVel += 1 if obj.faceRight == True: obj.flip() if obj.yVel != 0: obj.changeXY(0, obj.yVel) obj_type = str(type(obj)) obj_type = objType.split("'") obj_type = objType[1] obj_type = objType.split('.')[1] if objType == 'character': if obj.isJump == True: if below == True: obj.isJump = False obj.y -= 1 obj.limbReset() obj.attacking = False else: obj.fallAnim()
class DoublyNode: def __init__(self, data): self.data = data self.leftlink = None self.rightlink = None def __str__(self): return '| {0} |'.format(self.data) def __repr__(self): return "Node('{0}')".format(self.data) def getdata(self): return self.data class DoublyLinkedList: def __init__(self, list_of_values): if not list_of_values: raise IndexError self.first_node = self.last_node = DoublyNode(list_of_values[0]) for val in list_of_values[1:]: self.insert_to_the_bottom(val) def __str__(self): node, i = self.first_node, 0 repres = list() repres.append('None <-> ') while node: repres.append(str(node)) repres.append(' <-> ') node, i = node.rightlink, i+1 repres.append('None') return ''.join(repres) def __repr__(self): node, i = self.first_node, 0 values = list() while node: values.append(node.data) node, i = node.rightlink, i+1 return "DoublyLinkedList({0})".format(values) def get_node_by_index_from_top(self, index): node, i = self.first_node, 0 while i < index: node, i = node.rightlink, i+1 return node def get_node_by_index_from_bottom(self, index): node, i = self.last_node, 0 while i < index: node, i = node.leftlink, i+1 return node def get_node_by_value_from_top(self, value): node = self.first_node while node: if node.data == value: return node node = node.rightlink return None def get_node_by_value_from_bottom(self, value): node = self.last_node while node: if node.getdata() == value: return node node = node.leftlink return None def get_index_by_value_from_top(self, value): node, i = self.first_node, 0 while node: if node.data == value: return i node, i = node.rightlink, i+1 return None def get_index_by_value_from_bottom(self, value): node, i = self.last_node, 0 while node: if node.data == value: return i node, i = node.leftlink, i+1 return None def insert_to_the_top(self, value): new_node = DoublyNode(value) new_node.rightlink = self.first_node self.first_node.leftlink = new_node self.first_node = new_node def insert_to_the_bottom(self, value): new_node = DoublyNode(value) new_node.leftlink = self.last_node self.last_node.rightlink = new_node self.last_node = new_node def insert_at_index(self, index, value): new_node = DoublyNode(value) if index == 0: self.insert_to_the_top(value) return index node, i = self.first_node, 0 while node: if index == i+1 and node == self.last_node: self.insert_to_the_bottom(value) break if index == i: new_node.leftlink = node.leftlink new_node.rightlink = node node.leftlink.rightlink = new_node node.leftlink = new_node return index node, i = node.rightlink, i+1 return None def delete_from_the_top(self): if self.last_node == self.first_node: raise IndexError self.first_node.rightlink.leftlink = None self.first_node = self.first_node.rightlink def delete_from_the_bottom(self): if self.last_node == self.first_node: raise IndexError self.last_node.leftlink.rightlink = None self.last_node = self.last_node.leftlink def delete_at_index(self, index): if index == 0: self.delete_from_the_top() node, i = self.first_node.rightlink, 1 while i <= index: if not node: raise IndexError if i == index: if node == self.last_node: self.delete_from_the_bottom() break node.leftlink.rightlink, node.rightlink.leftlink = node.rightlink, node.leftlink node, i = node.rightlink, i+1 return None
class Doublynode: def __init__(self, data): self.data = data self.leftlink = None self.rightlink = None def __str__(self): return '| {0} |'.format(self.data) def __repr__(self): return "Node('{0}')".format(self.data) def getdata(self): return self.data class Doublylinkedlist: def __init__(self, list_of_values): if not list_of_values: raise IndexError self.first_node = self.last_node = doubly_node(list_of_values[0]) for val in list_of_values[1:]: self.insert_to_the_bottom(val) def __str__(self): (node, i) = (self.first_node, 0) repres = list() repres.append('None <-> ') while node: repres.append(str(node)) repres.append(' <-> ') (node, i) = (node.rightlink, i + 1) repres.append('None') return ''.join(repres) def __repr__(self): (node, i) = (self.first_node, 0) values = list() while node: values.append(node.data) (node, i) = (node.rightlink, i + 1) return 'DoublyLinkedList({0})'.format(values) def get_node_by_index_from_top(self, index): (node, i) = (self.first_node, 0) while i < index: (node, i) = (node.rightlink, i + 1) return node def get_node_by_index_from_bottom(self, index): (node, i) = (self.last_node, 0) while i < index: (node, i) = (node.leftlink, i + 1) return node def get_node_by_value_from_top(self, value): node = self.first_node while node: if node.data == value: return node node = node.rightlink return None def get_node_by_value_from_bottom(self, value): node = self.last_node while node: if node.getdata() == value: return node node = node.leftlink return None def get_index_by_value_from_top(self, value): (node, i) = (self.first_node, 0) while node: if node.data == value: return i (node, i) = (node.rightlink, i + 1) return None def get_index_by_value_from_bottom(self, value): (node, i) = (self.last_node, 0) while node: if node.data == value: return i (node, i) = (node.leftlink, i + 1) return None def insert_to_the_top(self, value): new_node = doubly_node(value) new_node.rightlink = self.first_node self.first_node.leftlink = new_node self.first_node = new_node def insert_to_the_bottom(self, value): new_node = doubly_node(value) new_node.leftlink = self.last_node self.last_node.rightlink = new_node self.last_node = new_node def insert_at_index(self, index, value): new_node = doubly_node(value) if index == 0: self.insert_to_the_top(value) return index (node, i) = (self.first_node, 0) while node: if index == i + 1 and node == self.last_node: self.insert_to_the_bottom(value) break if index == i: new_node.leftlink = node.leftlink new_node.rightlink = node node.leftlink.rightlink = new_node node.leftlink = new_node return index (node, i) = (node.rightlink, i + 1) return None def delete_from_the_top(self): if self.last_node == self.first_node: raise IndexError self.first_node.rightlink.leftlink = None self.first_node = self.first_node.rightlink def delete_from_the_bottom(self): if self.last_node == self.first_node: raise IndexError self.last_node.leftlink.rightlink = None self.last_node = self.last_node.leftlink def delete_at_index(self, index): if index == 0: self.delete_from_the_top() (node, i) = (self.first_node.rightlink, 1) while i <= index: if not node: raise IndexError if i == index: if node == self.last_node: self.delete_from_the_bottom() break (node.leftlink.rightlink, node.rightlink.leftlink) = (node.rightlink, node.leftlink) (node, i) = (node.rightlink, i + 1) return None
{ 'variables': { 'SMRF_LIB_DIR': '/usr/local/lib', 'SMRF_INCLUDE_DIR': '/usr/local/include' }, 'targets': [ { 'target_name': 'smrf-native-cpp', 'sources': [ 'src/smrf.cpp' ], 'cflags_cc': [ '-std=c++14' ], 'cflags!': [ '-fno-exceptions'], 'cflags_cc!': [ '-fno-exceptions'], 'include_dirs': [ "<!(node -e \"require('nan')\")", '<@(SMRF_INCLUDE_DIR)' ], 'libraries': ['-Wl,-rpath,<@(SMRF_LIB_DIR) -L<@(SMRF_LIB_DIR) -lsmrf'], 'conditions': [ ['OS=="mac"', { 'xcode_settings': { 'GCC_ENABLE_CPP_EXCEPTIONS': 'YES', 'OTHER_CPLUSPLUSFLAGS': ['-std=c++14'] }, } ] ], } ] }
{'variables': {'SMRF_LIB_DIR': '/usr/local/lib', 'SMRF_INCLUDE_DIR': '/usr/local/include'}, 'targets': [{'target_name': 'smrf-native-cpp', 'sources': ['src/smrf.cpp'], 'cflags_cc': ['-std=c++14'], 'cflags!': ['-fno-exceptions'], 'cflags_cc!': ['-fno-exceptions'], 'include_dirs': ['<!(node -e "require(\'nan\')")', '<@(SMRF_INCLUDE_DIR)'], 'libraries': ['-Wl,-rpath,<@(SMRF_LIB_DIR) -L<@(SMRF_LIB_DIR) -lsmrf'], 'conditions': [['OS=="mac"', {'xcode_settings': {'GCC_ENABLE_CPP_EXCEPTIONS': 'YES', 'OTHER_CPLUSPLUSFLAGS': ['-std=c++14']}}]]}]}
# Definition for a undirected graph node # class UndirectedGraphNode: # def __init__(self, x): # self.label = x # self.neighbors = [] class Solution: # @param node, a undirected graph node # @return a undirected graph node def cloneGraph(self, node): root = UndirectedGraphNode(node.label) node.clone = root stack = [(root, x) for x in node.neighbors] while stack: connectee, node = stack.pop() if hasattr(node, 'clone'): connectee.neighbors.append(node.clone) else: node.clone = UndirectedGraphNode(node.label) connectee.neighbors.append(node.clone) stack.extend([(node.clone, x) for x in node.neighbors]) return root
class Solution: def clone_graph(self, node): root = undirected_graph_node(node.label) node.clone = root stack = [(root, x) for x in node.neighbors] while stack: (connectee, node) = stack.pop() if hasattr(node, 'clone'): connectee.neighbors.append(node.clone) else: node.clone = undirected_graph_node(node.label) connectee.neighbors.append(node.clone) stack.extend([(node.clone, x) for x in node.neighbors]) return root
#!/usr/bin/env python # encoding: utf-8 # This file is made available under Elastic License 2.0 # This file is based on code available under the Apache license here: # https://github.com/apache/incubator-doris/blob/master/gensrc/script/doris_builtins_functions.py # Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you 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. # This is a list of all the functions that are not auto-generated. # It contains all the meta data that describes the function. # The format is: # [sql aliases], <return_type>, [<args>], <backend symbol>, # With an optional # <prepare symbol>, <close symbol> # # 'sql aliases' are the function names that can be used from sql. There must be at least # one per function. # # The symbol can be empty for functions that are not yet implemented or are special-cased # in Expr::CreateExpr() (i.e., functions that are implemented via a custom Expr class # rather than a single function). visible_functions = [ # Bit and Byte functions # For functions corresponding to builtin operators, we can reuse the implementations [['bitand'], 'TINYINT', ['TINYINT', 'TINYINT'], '_ZN9starrocks9Operators32bitand_tiny_int_val_tiny_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_10TinyIntValES6_'], [['bitand'], 'SMALLINT', ['SMALLINT', 'SMALLINT'], '_ZN9starrocks9Operators34bitand_small_int_val_small_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_11SmallIntValES6_'], [['bitand'], 'INT', ['INT', 'INT'], '_ZN9starrocks9Operators22bitand_int_val_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_6IntValES6_'], [['bitand'], 'BIGINT', ['BIGINT', 'BIGINT'], '_ZN9starrocks9Operators30bitand_big_int_val_big_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValES6_'], [['bitand'], 'LARGEINT', ['LARGEINT', 'LARGEINT'], '_ZN9starrocks9Operators34bitand_large_int_val_large_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_11LargeIntValES6_'], [['bitor'], 'TINYINT', ['TINYINT', 'TINYINT'], '_ZN9starrocks9Operators31bitor_tiny_int_val_tiny_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_10TinyIntValES6_'], [['bitor'], 'SMALLINT', ['SMALLINT', 'SMALLINT'], '_ZN9starrocks9Operators33bitor_small_int_val_small_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_11SmallIntValES6_'], [['bitor'], 'INT', ['INT', 'INT'], '_ZN9starrocks9Operators21bitor_int_val_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_6IntValES6_'], [['bitor'], 'BIGINT', ['BIGINT', 'BIGINT'], '_ZN9starrocks9Operators29bitor_big_int_val_big_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValES6_'], [['bitor'], 'LARGEINT', ['LARGEINT', 'LARGEINT'], '_ZN9starrocks9Operators33bitor_large_int_val_large_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_11LargeIntValES6_'], [['bitxor'], 'TINYINT', ['TINYINT', 'TINYINT'], '_ZN9starrocks9Operators32bitxor_tiny_int_val_tiny_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_10TinyIntValES6_'], [['bitxor'], 'SMALLINT', ['SMALLINT', 'SMALLINT'], '_ZN9starrocks9Operators34bitxor_small_int_val_small_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_11SmallIntValES6_'], [['bitxor'], 'INT', ['INT', 'INT'], '_ZN9starrocks9Operators22bitxor_int_val_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_6IntValES6_'], [['bitxor'], 'BIGINT', ['BIGINT', 'BIGINT'], '_ZN9starrocks9Operators30bitxor_big_int_val_big_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValES6_'], [['bitxor'], 'LARGEINT', ['LARGEINT', 'LARGEINT'], '_ZN9starrocks9Operators34bitxor_large_int_val_large_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_11LargeIntValES6_'], [['bitnot'], 'TINYINT', ['TINYINT'], '_ZN9starrocks9Operators19bitnot_tiny_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_10TinyIntValE'], [['bitnot'], 'SMALLINT', ['SMALLINT'], '_ZN9starrocks9Operators20bitnot_small_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_11SmallIntValE'], [['bitnot'], 'INT', ['INT'], '_ZN9starrocks9Operators14bitnot_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_6IntValE'], [['bitnot'], 'BIGINT', ['BIGINT'], '_ZN9starrocks9Operators18bitnot_big_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValE'], [['bitnot'], 'LARGEINT', ['LARGEINT'], '_ZN9starrocks9Operators20bitnot_large_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_11LargeIntValE'], # Timestamp functions [['unix_timestamp'], 'INT', [], '_ZN9starrocks18TimestampFunctions7to_unixEPN13starrocks_udf15FunctionContextE'], [['unix_timestamp'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions7to_unixEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['unix_timestamp'], 'INT', ['DATE'], '_ZN9starrocks18TimestampFunctions7to_unixEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['unix_timestamp'], 'INT', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks18TimestampFunctions7to_unixEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['from_unixtime'], 'VARCHAR', ['INT'], '_ZN9starrocks18TimestampFunctions9from_unixEPN13starrocks_udf15FunctionContextERKNS1_6IntValE'], [['from_unixtime'], 'VARCHAR', ['INT', 'VARCHAR'], '_ZN9starrocks18TimestampFunctions9from_unixEPN13starrocks_udf' '15FunctionContextERKNS1_6IntValERKNS1_9StringValE', '_ZN9starrocks18TimestampFunctions14format_prepareEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks18TimestampFunctions12format_closeEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE'], [['now', 'current_timestamp', 'localtime', 'localtimestamp'], 'DATETIME', [], '_ZN9starrocks18TimestampFunctions3nowEPN13starrocks_udf15FunctionContextE'], [['curtime', 'current_time'], 'TIME', [], '_ZN9starrocks18TimestampFunctions7curtimeEPN13starrocks_udf15FunctionContextE'], [['curdate', 'current_date'], 'DATE', [], '_ZN9starrocks18TimestampFunctions7curdateEPN13starrocks_udf15FunctionContextE'], [['utc_timestamp'], 'DATETIME', [], '_ZN9starrocks18TimestampFunctions13utc_timestampEPN13starrocks_udf15FunctionContextE'], [['timestamp'], 'DATETIME', ['DATETIME'], '_ZN9starrocks18TimestampFunctions9timestampEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['from_days'], 'DATE', ['INT'], '_ZN9starrocks18TimestampFunctions9from_daysEPN13starrocks_udf15FunctionContextERKNS1_6IntValE'], [['to_days'], 'INT', ['DATE'], '_ZN9starrocks18TimestampFunctions7to_daysEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['year'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions4yearEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['month'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions5monthEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['quarter'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions7quarterEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['dayofweek'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions11day_of_weekEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['day', 'dayofmonth'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions12day_of_monthEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValE'], [['dayofyear'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions11day_of_yearEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValE'], [['weekofyear'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions12week_of_yearEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValE'], [['hour'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions4hourEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['minute'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions6minuteEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['second'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions6secondEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['years_add'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions9years_addEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['years_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions9years_subEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['months_add', 'add_months'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions10months_addEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['months_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions10months_subEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['weeks_add'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions9weeks_addEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['weeks_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions9weeks_subEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['days_add', 'date_add', 'adddate'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions8days_addEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['days_sub', 'date_sub', 'subdate'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions8days_subEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['hours_add'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions9hours_addEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['hours_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions9hours_subEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['minutes_add'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions11minutes_addEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['minutes_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions11minutes_subEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['seconds_add'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions11seconds_addEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['seconds_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions11seconds_subEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['microseconds_add'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions10micros_addEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['microseconds_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions10micros_subEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['datediff'], 'INT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions9date_diffEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValES6_'], [['timediff'], 'TIME', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions9time_diffEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValES6_'], [['date_trunc'], 'DATETIME', ['VARCHAR', 'DATETIME'], '_ZN9starrocks18TimestampFunctions14datetime_truncEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValERKNS1_11DateTimeValE', '_ZN9starrocks18TimestampFunctions22datetime_trunc_prepareEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks18TimestampFunctions20datetime_trunc_closeEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE'], [['date_trunc'], 'DATE', ['VARCHAR', 'DATE'], '_ZN9starrocks18TimestampFunctions10date_truncEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValERKNS1_11DateTimeValE', '_ZN9starrocks18TimestampFunctions18date_trunc_prepareEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks18TimestampFunctions16date_trunc_closeEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE'], [['str_to_date'], 'DATETIME', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks18TimestampFunctions11str_to_dateEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValES6_'], [['date_format'], 'VARCHAR', ['DATETIME', 'VARCHAR'], '_ZN9starrocks18TimestampFunctions11date_formatEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_9StringValE', '_ZN9starrocks18TimestampFunctions14format_prepareEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks18TimestampFunctions12format_closeEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE'], [['date_format'], 'VARCHAR', ['DATE', 'VARCHAR'], '_ZN9starrocks18TimestampFunctions11date_formatEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValERKNS1_9StringValE', '_ZN9starrocks18TimestampFunctions14format_prepareEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks18TimestampFunctions12format_closeEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE'], [['date', 'to_date'], 'DATE', ['DATETIME'], '_ZN9starrocks18TimestampFunctions7to_dateEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['dayname'], 'VARCHAR', ['DATETIME'], '_ZN9starrocks18TimestampFunctions8day_nameEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValE'], [['monthname'], 'VARCHAR', ['DATETIME'], '_ZN9starrocks18TimestampFunctions10month_nameEPN13starrocks_udf' '15FunctionContextERKNS1_11DateTimeValE'], [['convert_tz'], 'DATETIME', ['DATETIME', 'VARCHAR', 'VARCHAR'], '_ZN9starrocks18TimestampFunctions10convert_tzEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_9StringValES9_', '_ZN9starrocks18TimestampFunctions18convert_tz_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks18TimestampFunctions16convert_tz_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['years_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions10years_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['months_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions11months_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['weeks_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions10weeks_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['days_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions9days_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['hours_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions10hours_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['minutes_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions12minutes_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['seconds_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions12seconds_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], # Math builtin functions [['pi'], 'DOUBLE', [], '_ZN9starrocks13MathFunctions2piEPN13starrocks_udf15FunctionContextE'], [['e'], 'DOUBLE', [], '_ZN9starrocks13MathFunctions1eEPN13starrocks_udf15FunctionContextE'], [['abs'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['abs'], 'FLOAT', ['FLOAT'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_8FloatValE'], [['abs'], 'LARGEINT', ['LARGEINT'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_11LargeIntValE'], [['abs'], 'LARGEINT', ['BIGINT'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['abs'], 'INT', ['SMALLINT'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_11SmallIntValE'], [['abs'], 'BIGINT', ['INT'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_6IntValE'], [['abs'], 'SMALLINT', ['TINYINT'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_10TinyIntValE'], [['abs'], 'DECIMALV2', ['DECIMALV2'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_12DecimalV2ValE'], [['abs'], 'DECIMAL32', ['DECIMAL32'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_6IntValE'], [['abs'], 'DECIMAL64', ['DECIMAL64'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['abs'], 'DECIMAL128', ['DECIMAL128'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_11LargeIntValE'], [['sign'], 'FLOAT', ['DOUBLE'], '_ZN9starrocks13MathFunctions4signEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['sin'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions3sinEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['asin'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions4asinEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['cos'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions3cosEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['acos'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions4acosEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['tan'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions3tanEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['atan'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions4atanEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['ceil', 'ceiling', 'dceil'], 'BIGINT', ['DOUBLE'], '_ZN9starrocks13MathFunctions4ceilEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['floor', 'dfloor'], 'BIGINT', ['DOUBLE'], '_ZN9starrocks13MathFunctions5floorEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['round', 'dround'], 'BIGINT', ['DOUBLE'], '_ZN9starrocks13MathFunctions5roundEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['round', 'dround'], 'DOUBLE', ['DOUBLE', 'INT'], '_ZN9starrocks13MathFunctions11round_up_toEPN13starrocks_udf' '15FunctionContextERKNS1_9DoubleValERKNS1_6IntValE'], [['truncate'], 'DOUBLE', ['DOUBLE', 'INT'], '_ZN9starrocks13MathFunctions8truncateEPN13starrocks_udf' '15FunctionContextERKNS1_9DoubleValERKNS1_6IntValE'], [['ln', 'dlog1'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions2lnEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['log'], 'DOUBLE', ['DOUBLE', 'DOUBLE'], '_ZN9starrocks13MathFunctions3logEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValES6_'], [['log2'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions4log2EPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['log10', 'dlog10'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions5log10EPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['exp', 'dexp'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions3expEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['radians'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions7radiansEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['degrees'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions7degreesEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['sqrt', 'dsqrt'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions4sqrtEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['pow', 'power', 'dpow', 'fpow'], 'DOUBLE', ['DOUBLE', 'DOUBLE'], '_ZN9starrocks13MathFunctions3powEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValES6_'], [['rand', 'random'], 'DOUBLE', [], '_ZN9starrocks13MathFunctions4randEPN13starrocks_udf15FunctionContextE', '_ZN9starrocks13MathFunctions12rand_prepareEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE'], [['rand', 'random'], 'DOUBLE', ['BIGINT'], '_ZN9starrocks13MathFunctions9rand_seedEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE', '_ZN9starrocks13MathFunctions12rand_prepareEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE'], [['bin'], 'VARCHAR', ['BIGINT'], '_ZN9starrocks13MathFunctions3binEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['hex'], 'VARCHAR', ['BIGINT'], '_ZN9starrocks13MathFunctions7hex_intEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['hex'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks13MathFunctions10hex_stringEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['unhex'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks13MathFunctions5unhexEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['conv'], 'VARCHAR', ['BIGINT', 'TINYINT', 'TINYINT'], '_ZN9starrocks13MathFunctions8conv_intEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValERKNS1_10TinyIntValES9_'], [['conv'], 'VARCHAR', ['VARCHAR', 'TINYINT', 'TINYINT'], '_ZN9starrocks13MathFunctions11conv_stringEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValERKNS1_10TinyIntValES9_'], [['pmod'], 'BIGINT', ['BIGINT', 'BIGINT'], '_ZN9starrocks13MathFunctions11pmod_bigintEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValES6_'], [['pmod'], 'DOUBLE', ['DOUBLE', 'DOUBLE'], '_ZN9starrocks13MathFunctions11pmod_doubleEPN13starrocks_udf' '15FunctionContextERKNS1_9DoubleValES6_'], [['mod'], 'TINYINT', ['TINYINT', 'TINYINT'], '_ZN9starrocks9Operators29mod_tiny_int_val_tiny_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_10TinyIntValES6_'], [['mod'], 'SMALLINT', ['SMALLINT', 'SMALLINT'], '_ZN9starrocks9Operators31mod_small_int_val_small_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_11SmallIntValES6_'], [['mod'], 'INT', ['INT', 'INT'], '_ZN9starrocks9Operators19mod_int_val_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_6IntValES6_'], [['mod'], 'BIGINT', ['BIGINT', 'BIGINT'], '_ZN9starrocks9Operators27mod_big_int_val_big_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValES6_'], [['mod'], 'LARGEINT', ['LARGEINT', 'LARGEINT'], '_ZN9starrocks9Operators31mod_large_int_val_large_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_11LargeIntValES6_'], [['mod'], 'DECIMALV2', ['DECIMALV2', 'DECIMALV2'], '_ZN9starrocks18DecimalV2Operators31mod_decimalv2_val_decimalv2_valEPN13starrocks_udf' '15FunctionContextERKNS1_12DecimalV2ValES6_'], [['mod', 'fmod'], 'DOUBLE', ['DOUBLE', 'DOUBLE'], '_ZN9starrocks13MathFunctions11fmod_doubleEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValES6_'], [['mod', 'fmod'], 'FLOAT', ['FLOAT', 'FLOAT'], '_ZN9starrocks13MathFunctions10fmod_floatEPN13starrocks_udf15FunctionContextERKNS1_8FloatValES6_'], [['mod'], 'DECIMAL32', ['DECIMAL32', 'DECIMAL32'], '_ZN9starrocks9Operators19mod_int_val_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_6IntValES6_'], [['mod'], 'DECIMAL64', ['DECIMAL64', 'DECIMAL64'], '_ZN9starrocks9Operators27mod_big_int_val_big_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValES6_'], [['mod'], 'DECIMAL128', ['DECIMAL128', 'DECIMAL128'], '_ZN9starrocks9Operators31mod_large_int_val_large_int_valEPN13starrocks_udf' '15FunctionContextERKNS1_11LargeIntValES6_'], [['positive'], 'BIGINT', ['BIGINT'], '_ZN9starrocks13MathFunctions15positive_bigintEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValE'], [['positive'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions15positive_doubleEPN13starrocks_udf' '15FunctionContextERKNS1_9DoubleValE'], [['positive'], 'DECIMALV2', ['DECIMALV2'], '_ZN9starrocks13MathFunctions16positive_decimalEPN13starrocks_udf' '15FunctionContextERKNS1_12DecimalV2ValE'], [['positive'], 'DECIMAL32', ['DECIMAL32'], '_ZN9starrocks13MathFunctions15positive_bigintEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValE'], [['positive'], 'DECIMAL64', ['DECIMAL64'], '_ZN9starrocks13MathFunctions15positive_bigintEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValE'], [['positive'], 'DECIMAL128', ['DECIMAL128'], '_ZN9starrocks13MathFunctions15positive_bigintEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValE'], [['negative'], 'BIGINT', ['BIGINT'], '_ZN9starrocks13MathFunctions15negative_bigintEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValE'], [['negative'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions15negative_doubleEPN13starrocks_udf' '15FunctionContextERKNS1_9DoubleValE'], [['negative'], 'DECIMALV2', ['DECIMALV2'], '_ZN9starrocks13MathFunctions16negative_decimalEPN13starrocks_udf' '15FunctionContextERKNS1_12DecimalV2ValE'], [['negative'], 'DECIMAL32', ['DECIMAL32'], '_ZN9starrocks13MathFunctions15negative_bigintEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValE'], [['negative'], 'DECIMAL64', ['DECIMAL64'], '_ZN9starrocks13MathFunctions15negative_bigintEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValE'], [['negative'], 'DECIMAL128', ['DECIMAL128'], '_ZN9starrocks13MathFunctions15negative_bigintEPN13starrocks_udf' '15FunctionContextERKNS1_9BigIntValE'], [['least'], 'TINYINT', ['TINYINT', '...'], '_ZN9starrocks13MathFunctions5leastEPN13starrocks_udf15FunctionContextEiPKNS1_10TinyIntValE'], [['least'], 'SMALLINT', ['SMALLINT', '...'], '_ZN9starrocks13MathFunctions5leastEPN13starrocks_udf15FunctionContextEiPKNS1_11SmallIntValE'], [['least'], 'INT', ['INT', '...'], '_ZN9starrocks13MathFunctions5leastEPN13starrocks_udf15FunctionContextEiPKNS1_6IntValE'], [['least'], 'BIGINT', ['BIGINT', '...'], '_ZN9starrocks13MathFunctions5leastEPN13starrocks_udf15FunctionContextEiPKNS1_9BigIntValE'], [['least'], 'LARGEINT', ['LARGEINT', '...'], '_ZN9starrocks13MathFunctions5leastEPN13starrocks_udf15FunctionContextEiPKNS1_11LargeIntValE'], [['least'], 'DECIMAL32', ['DECIMAL32', '...'], '_ZN9starrocks13MathFunctions5leastEPN13starrocks_udf15FunctionContextEiPKNS1_6IntValE'], [['least'], 'DECIMAL64', ['DECIMAL64', '...'], '_ZN9starrocks13MathFunctions5leastEPN13starrocks_udf15FunctionContextEiPKNS1_9BigIntValE'], [['least'], 'DECIMAL128', ['DECIMAL128', '...'], '_ZN9starrocks13MathFunctions5leastEPN13starrocks_udf15FunctionContextEiPKNS1_11LargeIntValE'], [['least'], 'FLOAT', ['FLOAT', '...'], '_ZN9starrocks13MathFunctions5leastEPN13starrocks_udf15FunctionContextEiPKNS1_8FloatValE'], [['least'], 'DOUBLE', ['DOUBLE', '...'], '_ZN9starrocks13MathFunctions5leastEPN13starrocks_udf15FunctionContextEiPKNS1_9DoubleValE'], [['least'], 'DATETIME', ['DATETIME', '...'], '_ZN9starrocks13MathFunctions5leastEPN13starrocks_udf15FunctionContextEiPKNS1_11DateTimeValE'], [['least'], 'DECIMALV2', ['DECIMALV2', '...'], '_ZN9starrocks13MathFunctions5leastEPN13starrocks_udf15FunctionContextEiPKNS1_12DecimalV2ValE'], [['least'], 'VARCHAR', ['VARCHAR', '...'], '_ZN9starrocks13MathFunctions5leastEPN13starrocks_udf15FunctionContextEiPKNS1_9StringValE'], [['greatest'], 'TINYINT', ['TINYINT', '...'], '_ZN9starrocks13MathFunctions8greatestEPN13starrocks_udf15FunctionContextEiPKNS1_10TinyIntValE'], [['greatest'], 'SMALLINT', ['SMALLINT', '...'], '_ZN9starrocks13MathFunctions8greatestEPN13starrocks_udf15FunctionContextEiPKNS1_11SmallIntValE'], [['greatest'], 'INT', ['INT', '...'], '_ZN9starrocks13MathFunctions8greatestEPN13starrocks_udf15FunctionContextEiPKNS1_6IntValE'], [['greatest'], 'BIGINT', ['BIGINT', '...'], '_ZN9starrocks13MathFunctions8greatestEPN13starrocks_udf15FunctionContextEiPKNS1_9BigIntValE'], [['greatest'], 'LARGEINT', ['LARGEINT', '...'], '_ZN9starrocks13MathFunctions8greatestEPN13starrocks_udf15FunctionContextEiPKNS1_11LargeIntValE'], [['greatest'], 'DECIMAL32', ['DECIMAL32', '...'], '_ZN9starrocks13MathFunctions8greatestEPN13starrocks_udf15FunctionContextEiPKNS1_6IntValE'], [['greatest'], 'DECIMAL64', ['DECIMAL64', '...'], '_ZN9starrocks13MathFunctions8greatestEPN13starrocks_udf15FunctionContextEiPKNS1_9BigIntValE'], [['greatest'], 'DECIMAL128', ['DECIMAL128', '...'], '_ZN9starrocks13MathFunctions8greatestEPN13starrocks_udf15FunctionContextEiPKNS1_11LargeIntValE'], [['greatest'], 'FLOAT', ['FLOAT', '...'], '_ZN9starrocks13MathFunctions8greatestEPN13starrocks_udf15FunctionContextEiPKNS1_8FloatValE'], [['greatest'], 'DOUBLE', ['DOUBLE', '...'], '_ZN9starrocks13MathFunctions8greatestEPN13starrocks_udf15FunctionContextEiPKNS1_9DoubleValE'], [['greatest'], 'DECIMALV2', ['DECIMALV2', '...'], '_ZN9starrocks13MathFunctions8greatestEPN13starrocks_udf15FunctionContextEiPKNS1_12DecimalV2ValE'], [['greatest'], 'DATETIME', ['DATETIME', '...'], '_ZN9starrocks13MathFunctions8greatestEPN13starrocks_udf15FunctionContextEiPKNS1_11DateTimeValE'], [['greatest'], 'VARCHAR', ['VARCHAR', '...'], '_ZN9starrocks13MathFunctions8greatestEPN13starrocks_udf15FunctionContextEiPKNS1_9StringValE'], # Conditional Functions # Some of these have empty symbols because the BE special-cases them based on the # function name [['if'], 'BOOLEAN', ['BOOLEAN', 'BOOLEAN', 'BOOLEAN'], ''], [['if'], 'TINYINT', ['BOOLEAN', 'TINYINT', 'TINYINT'], ''], [['if'], 'SMALLINT', ['BOOLEAN', 'SMALLINT', 'SMALLINT'], ''], [['if'], 'INT', ['BOOLEAN', 'INT', 'INT'], ''], [['if'], 'BIGINT', ['BOOLEAN', 'BIGINT', 'BIGINT'], ''], [['if'], 'LARGEINT', ['BOOLEAN', 'LARGEINT', 'LARGEINT'], ''], [['if'], 'FLOAT', ['BOOLEAN', 'FLOAT', 'FLOAT'], ''], [['if'], 'DOUBLE', ['BOOLEAN', 'DOUBLE', 'DOUBLE'], ''], [['if'], 'DATETIME', ['BOOLEAN', 'DATETIME', 'DATETIME'], ''], [['if'], 'DATE', ['BOOLEAN', 'DATE', 'DATE'], ''], [['if'], 'DECIMALV2', ['BOOLEAN', 'DECIMALV2', 'DECIMALV2'], ''], # The priority of varchar should be lower than decimal in IS_SUPERTYPE_OF mode. [['if'], 'VARCHAR', ['BOOLEAN', 'VARCHAR', 'VARCHAR'], ''], [['if'], 'BITMAP', ['BOOLEAN', 'BITMAP', 'BITMAP'], ''], [['if'], 'PERCENTILE', ['BOOLEAN', 'PERCENTILE', 'PERCENTILE'], ''], [['if'], 'HLL', ['BOOLEAN', 'HLL', 'HLL'], ''], [['if'], 'DECIMAL32', ['BOOLEAN', 'DECIMAL32', 'DECIMAL32'], ''], [['if'], 'DECIMAL64', ['BOOLEAN', 'DECIMAL64', 'DECIMAL64'], ''], [['if'], 'DECIMAL128', ['BOOLEAN', 'DECIMAL128', 'DECIMAL128'], ''], [['nullif'], 'BOOLEAN', ['BOOLEAN', 'BOOLEAN'], ''], [['nullif'], 'TINYINT', ['TINYINT', 'TINYINT'], ''], [['nullif'], 'SMALLINT', ['SMALLINT', 'SMALLINT'], ''], [['nullif'], 'INT', ['INT', 'INT'], ''], [['nullif'], 'BIGINT', ['BIGINT', 'BIGINT'], ''], [['nullif'], 'LARGEINT', ['LARGEINT', 'LARGEINT'], ''], [['nullif'], 'FLOAT', ['FLOAT', 'FLOAT'], ''], [['nullif'], 'DOUBLE', ['DOUBLE', 'DOUBLE'], ''], [['nullif'], 'DATETIME', ['DATETIME', 'DATETIME'], ''], [['nullif'], 'DATE', ['DATE', 'DATE'], ''], [['nullif'], 'DECIMALV2', ['DECIMALV2', 'DECIMALV2'], ''], # The priority of varchar should be lower than decimal in IS_SUPERTYPE_OF mode. [['nullif'], 'VARCHAR', ['VARCHAR', 'VARCHAR'], ''], [['nullif'], 'BITMAP', ['BITMAP', 'BITMAP'], ''], [['nullif'], 'PERCENTILE', ['PERCENTILE', 'PERCENTILE'], ''], [['nullif'], 'HLL', ['HLL', 'HLL'], ''], [['nullif'], 'DECIMAL32', ['DECIMAL32', 'DECIMAL32'], ''], [['nullif'], 'DECIMAL64', ['DECIMAL64', 'DECIMAL64'], ''], [['nullif'], 'DECIMAL128', ['DECIMAL128', 'DECIMAL128'], ''], [['ifnull'], 'BOOLEAN', ['BOOLEAN', 'BOOLEAN'], ''], [['ifnull'], 'TINYINT', ['TINYINT', 'TINYINT'], ''], [['ifnull'], 'SMALLINT', ['SMALLINT', 'SMALLINT'], ''], [['ifnull'], 'INT', ['INT', 'INT'], ''], [['ifnull'], 'BIGINT', ['BIGINT', 'BIGINT'], ''], [['ifnull'], 'LARGEINT', ['LARGEINT', 'LARGEINT'], ''], [['ifnull'], 'FLOAT', ['FLOAT', 'FLOAT'], ''], [['ifnull'], 'DOUBLE', ['DOUBLE', 'DOUBLE'], ''], [['ifnull'], 'DATE', ['DATE', 'DATE'], ''], [['ifnull'], 'DATETIME', ['DATETIME', 'DATETIME'], ''], [['ifnull'], 'DECIMALV2', ['DECIMALV2', 'DECIMALV2'], ''], # The priority of varchar should be lower than decimal in IS_SUPERTYPE_OF mode. [['ifnull'], 'VARCHAR', ['VARCHAR', 'VARCHAR'], ''], [['ifnull'], 'BITMAP', ['BITMAP', 'BITMAP'], ''], [['ifnull'], 'PERCENTILE', ['PERCENTILE', 'PERCENTILE'], ''], [['ifnull'], 'HLL', ['HLL', 'HLL'], ''], [['ifnull'], 'DECIMAL32', ['DECIMAL32', 'DECIMAL32'], ''], [['ifnull'], 'DECIMAL64', ['DECIMAL64', 'DECIMAL64'], ''], [['ifnull'], 'DECIMAL128', ['DECIMAL128', 'DECIMAL128'], ''], [['coalesce'], 'BOOLEAN', ['BOOLEAN', '...'], ''], [['coalesce'], 'TINYINT', ['TINYINT', '...'], ''], [['coalesce'], 'SMALLINT', ['SMALLINT', '...'], ''], [['coalesce'], 'INT', ['INT', '...'], ''], [['coalesce'], 'BIGINT', ['BIGINT', '...'], ''], [['coalesce'], 'LARGEINT', ['LARGEINT', '...'], ''], [['coalesce'], 'FLOAT', ['FLOAT', '...'], ''], [['coalesce'], 'DOUBLE', ['DOUBLE', '...'], ''], [['coalesce'], 'DATETIME', ['DATETIME', '...'], ''], [['coalesce'], 'DATE', ['DATE', '...'], ''], [['coalesce'], 'DECIMALV2', ['DECIMALV2', '...'], ''], # The priority of varchar should be lower than decimal in IS_SUPERTYPE_OF mode. [['coalesce'], 'VARCHAR', ['VARCHAR', '...'], ''], [['coalesce'], 'BITMAP', ['BITMAP', '...'], ''], [['coalesce'], 'PERCENTILE', ['PERCENTILE', '...'], ''], [['coalesce'], 'HLL', ['HLL', '...'], ''], [['coalesce'], 'DECIMAL32', ['DECIMAL32', '...'], ''], [['coalesce'], 'DECIMAL64', ['DECIMAL64', '...'], ''], [['coalesce'], 'DECIMAL128', ['DECIMAL128', '...'], ''], [['esquery'], 'BOOLEAN', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks11ESFunctions5matchEPN' '13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], # String builtin functions [['substr', 'substring'], 'VARCHAR', ['VARCHAR', 'INT'], '_ZN9starrocks15StringFunctions9substringEPN' '13starrocks_udf15FunctionContextERKNS1_9StringValERKNS1_6IntValE'], [['substr', 'substring'], 'VARCHAR', ['VARCHAR', 'INT', 'INT'], '_ZN9starrocks15StringFunctions9substringEPN' '13starrocks_udf15FunctionContextERKNS1_9StringValERKNS1_6IntValES9_'], [['strleft', 'left'], 'VARCHAR', ['VARCHAR', 'INT'], '_ZN9starrocks15StringFunctions4leftEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValERKNS1_6IntValE'], [['strright', 'right'], 'VARCHAR', ['VARCHAR', 'INT'], '_ZN9starrocks15StringFunctions5rightEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValERKNS1_6IntValE'], [['ends_with'], 'BOOLEAN', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks15StringFunctions9ends_withEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['starts_with'], 'BOOLEAN', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks15StringFunctions11starts_withEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['null_or_empty'], 'BOOLEAN', ['VARCHAR'], '_ZN9starrocks15StringFunctions13null_or_emptyEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['space'], 'VARCHAR', ['INT'], '_ZN9starrocks15StringFunctions5spaceEPN13starrocks_udf15FunctionContextERKNS1_6IntValE'], [['repeat'], 'VARCHAR', ['VARCHAR', 'INT'], '_ZN9starrocks15StringFunctions6repeatEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValERKNS1_6IntValE'], [['lpad'], 'VARCHAR', ['VARCHAR', 'INT', 'VARCHAR'], '_ZN9starrocks15StringFunctions4lpadEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValERKNS1_6IntValES6_'], [['rpad'], 'VARCHAR', ['VARCHAR', 'INT', 'VARCHAR'], '_ZN9starrocks15StringFunctions4rpadEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValERKNS1_6IntValES6_'], [['append_trailing_char_if_absent'], 'VARCHAR', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks15StringFunctions30append_trailing_char_if_absentEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['length'], 'INT', ['VARCHAR'], '_ZN9starrocks15StringFunctions6lengthEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['char_length', 'character_length'], 'INT', ['VARCHAR'], '_ZN9starrocks15StringFunctions16char_utf8_lengthEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['lower', 'lcase'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks15StringFunctions5lowerEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['upper', 'ucase'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks15StringFunctions5upperEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['reverse'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks15StringFunctions7reverseEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['trim'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks15StringFunctions4trimEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['ltrim'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks15StringFunctions5ltrimEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['rtrim'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks15StringFunctions5rtrimEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['ascii'], 'INT', ['VARCHAR'], '_ZN9starrocks15StringFunctions5asciiEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['instr'], 'INT', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks15StringFunctions5instrEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['locate'], 'INT', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks15StringFunctions6locateEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['locate'], 'INT', ['VARCHAR', 'VARCHAR', 'INT'], '_ZN9starrocks15StringFunctions10locate_posEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValES6_RKNS1_6IntValE'], [['regexp_extract'], 'VARCHAR', ['VARCHAR', 'VARCHAR', 'BIGINT'], '_ZN9starrocks15StringFunctions14regexp_extractEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValES6_RKNS1_9BigIntValE', '_ZN9starrocks15StringFunctions14regexp_prepareEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks15StringFunctions12regexp_closeEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE'], [['regexp_replace'], 'VARCHAR', ['VARCHAR', 'VARCHAR', 'VARCHAR'], '_ZN9starrocks15StringFunctions14regexp_replaceEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValES6_S6_', '_ZN9starrocks15StringFunctions14regexp_prepareEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks15StringFunctions12regexp_closeEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE'], [['concat'], 'VARCHAR', ['VARCHAR', '...'], '_ZN9starrocks15StringFunctions6concatEPN13starrocks_udf15FunctionContextEiPKNS1_9StringValE'], [['concat_ws'], 'VARCHAR', ['VARCHAR', 'VARCHAR', '...'], '_ZN9starrocks15StringFunctions9concat_wsEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValEiPS5_'], [['find_in_set'], 'INT', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks15StringFunctions11find_in_setEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValES6_'], [['parse_url'], 'VARCHAR', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks15StringFunctions9parse_urlEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValES6_', '_ZN9starrocks15StringFunctions17parse_url_prepareEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks15StringFunctions15parse_url_closeEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE'], [['parse_url'], 'VARCHAR', ['VARCHAR', 'VARCHAR', 'VARCHAR'], '_ZN9starrocks15StringFunctions13parse_url_keyEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValES6_S6_', '_ZN9starrocks15StringFunctions17parse_url_prepareEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks15StringFunctions15parse_url_closeEPN13starrocks_udf' '15FunctionContextENS2_18FunctionStateScopeE'], [['money_format'], 'VARCHAR', ['BIGINT'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['money_format'], 'VARCHAR', ['LARGEINT'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_11LargeIntValE'], [['money_format'], 'VARCHAR', ['DOUBLE'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['money_format'], 'VARCHAR', ['DECIMALV2'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_12DecimalV2ValE'], [['split_part'], 'VARCHAR', ['VARCHAR', 'VARCHAR', 'INT'], '_ZN9starrocks15StringFunctions10split_partEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_RKNS1_6IntValE'], [['money_format'], 'VARCHAR', ['DECIMAL32'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['money_format'], 'VARCHAR', ['DECIMAL64'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['money_format'], 'VARCHAR', ['DECIMAL128'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], # Utility functions [['sleep'], 'BOOLEAN', ['INT'], '_ZN9starrocks16UtilityFunctions5sleepEPN13starrocks_udf15FunctionContextERKNS1_6IntValE'], [['version'], 'VARCHAR', [], '_ZN9starrocks16UtilityFunctions7versionEPN13starrocks_udf15FunctionContextE'], [['current_version'], 'VARCHAR', [], '_ZN9starrocks16UtilityFunctions15current_versionEPN13starrocks_udf15FunctionContextE'], [['last_query_id'], 'VARCHAR', [], '_ZN9starrocks16UtilityFunctions13last_query_idEPN13starrocks_udf15FunctionContextE'], # Json functions [['get_json_int'], 'INT', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks13JsonFunctions12get_json_intEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_', '_ZN9starrocks13JsonFunctions17json_path_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks13JsonFunctions15json_path_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['get_json_double'], 'DOUBLE', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks13JsonFunctions15get_json_doubleEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_', '_ZN9starrocks13JsonFunctions17json_path_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks13JsonFunctions15json_path_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['get_json_string'], 'VARCHAR', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks13JsonFunctions15get_json_stringEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_', '_ZN9starrocks13JsonFunctions17json_path_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks13JsonFunctions15json_path_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], #hll function [['hll_cardinality'], 'BIGINT', ['HLL'], '_ZN9starrocks12HllFunctions15hll_cardinalityEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['hll_cardinality'], 'BIGINT', ['VARCHAR'], '_ZN9starrocks12HllFunctions15hll_cardinalityEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['hll_hash'], 'HLL', ['VARCHAR'], '_ZN9starrocks12HllFunctions8hll_hashEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['hll_empty'], 'HLL', [], '_ZN9starrocks12HllFunctions9hll_emptyEPN13starrocks_udf15FunctionContextE'], #bitmap function [['to_bitmap'], 'BITMAP', ['VARCHAR'], '_ZN9starrocks15BitmapFunctions9to_bitmapEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['bitmap_hash'], 'BITMAP', ['VARCHAR'], '_ZN9starrocks15BitmapFunctions11bitmap_hashEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['bitmap_count'], 'BIGINT', ['BITMAP'], '_ZN9starrocks15BitmapFunctions12bitmap_countEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['bitmap_empty'], 'BITMAP', [], '_ZN9starrocks15BitmapFunctions12bitmap_emptyEPN13starrocks_udf15FunctionContextE'], [['bitmap_or'], 'BITMAP', ['BITMAP','BITMAP'], '_ZN9starrocks15BitmapFunctions9bitmap_orEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['bitmap_and'], 'BITMAP', ['BITMAP','BITMAP'], '_ZN9starrocks15BitmapFunctions10bitmap_andEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['bitmap_to_string'], 'VARCHAR', ['BITMAP'], '_ZN9starrocks15BitmapFunctions16bitmap_to_stringEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['bitmap_from_string'], 'BITMAP', ['VARCHAR'], '_ZN9starrocks15BitmapFunctions18bitmap_from_stringEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['bitmap_contains'], 'BOOLEAN', ['BITMAP','BIGINT'], '_ZN9starrocks15BitmapFunctions15bitmap_containsEPN13starrocks_udf15FunctionContextERKNS1_9StringValERKNS1_9BigIntValE'], [['bitmap_has_any'], 'BOOLEAN', ['BITMAP','BITMAP'], '_ZN9starrocks15BitmapFunctions14bitmap_has_anyEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], #percentile function [['percentile_hash'], 'PERCENTILE', ['DOUBLE'], '_ZN9starrocks19PercentileFunctions15percentile_hashEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['percentile_empty'], 'PERCENTILE', [], '_ZN9starrocks19PercentileFunctions16percentile_emptyEPN13starrocks_udf15FunctionContextE'], [['percentile_approx_raw'], 'DOUBLE', ['PERCENTILE', 'DOUBLE'], '_ZN9starrocks19PercentileFunctions21percentile_approx_rawEPN13starrocks_udf15FunctionContextERKNS1_9StringValERKNS1_9DoubleValE'], # hash functions [['murmur_hash3_32'], 'INT', ['VARCHAR', '...'], '_ZN9starrocks13HashFunctions15murmur_hash3_32EPN13starrocks_udf15FunctionContextEiPKNS1_9StringValE'], # aes and base64 function [['aes_encrypt'], 'VARCHAR', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks19EncryptionFunctions11aes_encryptEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValES6_'], [['aes_decrypt'], 'VARCHAR', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks19EncryptionFunctions11aes_decryptEPN13starrocks_udf' '15FunctionContextERKNS1_9StringValES6_'], [['from_base64'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks19EncryptionFunctions11from_base64EPN13starrocks_udf' '15FunctionContextERKNS1_9StringValE'], [['to_base64'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks19EncryptionFunctions9to_base64EPN13starrocks_udf' '15FunctionContextERKNS1_9StringValE'], # for compatable with MySQL [['md5'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks19EncryptionFunctions3md5EPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['md5sum'], 'VARCHAR', ['VARCHAR', '...'], '_ZN9starrocks19EncryptionFunctions6md5sumEPN13starrocks_udf15FunctionContextEiPKNS1_9StringValE'], # geo functions [['ST_Point'], 'VARCHAR', ['DOUBLE', 'DOUBLE'], '_ZN9starrocks12GeoFunctions8st_pointEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValES6_'], [['ST_X'], 'DOUBLE', ['VARCHAR'], '_ZN9starrocks12GeoFunctions4st_xEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['ST_Y'], 'DOUBLE', ['VARCHAR'], '_ZN9starrocks12GeoFunctions4st_yEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['ST_Distance_Sphere'], 'DOUBLE', ['DOUBLE', 'DOUBLE', 'DOUBLE', 'DOUBLE'], '_ZN9starrocks12GeoFunctions18st_distance_sphereEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValES6_S6_S6_'], [['ST_AsText', 'ST_AsWKT'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks12GeoFunctions9st_as_wktEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['ST_GeometryFromText', 'ST_GeomFromText'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks12GeoFunctions11st_from_wktEPN13starrocks_udf15FunctionContextERKNS1_9StringValE', '_ZN9starrocks12GeoFunctions19st_from_wkt_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks12GeoFunctions17st_from_wkt_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['ST_LineFromText', 'ST_LineStringFromText'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks12GeoFunctions7st_lineEPN13starrocks_udf15FunctionContextERKNS1_9StringValE', '_ZN9starrocks12GeoFunctions15st_line_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks12GeoFunctions17st_from_wkt_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['ST_Polygon', 'ST_PolyFromText', 'ST_PolygonFromText'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks12GeoFunctions10st_polygonEPN13starrocks_udf15FunctionContextERKNS1_9StringValE', '_ZN9starrocks12GeoFunctions18st_polygon_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks12GeoFunctions17st_from_wkt_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['ST_Circle'], 'VARCHAR', ['DOUBLE', 'DOUBLE', 'DOUBLE'], '_ZN9starrocks12GeoFunctions9st_circleEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValES6_S6_', '_ZN9starrocks12GeoFunctions17st_circle_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks12GeoFunctions17st_from_wkt_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['ST_Contains'], 'BOOLEAN', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks12GeoFunctions11st_containsEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_', '_ZN9starrocks12GeoFunctions19st_contains_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks12GeoFunctions17st_contains_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], # grouping sets functions [['grouping_id'], 'BIGINT', ['BIGINT'], '_ZN9starrocks21GroupingSetsFunctions11grouping_idEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['grouping'], 'BIGINT', ['BIGINT'], '_ZN9starrocks21GroupingSetsFunctions8groupingEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['array_length'], 'INT', ['ANY_ARRAY'], ''], [['array_append'], 'ANY_ARRAY', ['ANY_ARRAY', 'ANY_ELEMENT'], ''], [['array_contains'], 'BOOLEAN', ['ANY_ARRAY', 'ANY_ELEMENT'], ''], ] # Except the following functions, other function will directly return # null if there is null parameters. # Functions in this set will handle null values, not just return null. # # This set is only used to replace 'functions with null parameters' with NullLiteral # when applying FoldConstantsRule rules on the FE side. # TODO(cmy): Are these functions only required to handle null values? non_null_result_with_null_param_functions = [ 'if', 'hll_hash', 'concat_ws', 'ifnull', 'nullif', 'null_or_empty', 'coalesce' ] invisible_functions = [ ]
visible_functions = [[['bitand'], 'TINYINT', ['TINYINT', 'TINYINT'], '_ZN9starrocks9Operators32bitand_tiny_int_val_tiny_int_valEPN13starrocks_udf15FunctionContextERKNS1_10TinyIntValES6_'], [['bitand'], 'SMALLINT', ['SMALLINT', 'SMALLINT'], '_ZN9starrocks9Operators34bitand_small_int_val_small_int_valEPN13starrocks_udf15FunctionContextERKNS1_11SmallIntValES6_'], [['bitand'], 'INT', ['INT', 'INT'], '_ZN9starrocks9Operators22bitand_int_val_int_valEPN13starrocks_udf15FunctionContextERKNS1_6IntValES6_'], [['bitand'], 'BIGINT', ['BIGINT', 'BIGINT'], '_ZN9starrocks9Operators30bitand_big_int_val_big_int_valEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValES6_'], [['bitand'], 'LARGEINT', ['LARGEINT', 'LARGEINT'], '_ZN9starrocks9Operators34bitand_large_int_val_large_int_valEPN13starrocks_udf15FunctionContextERKNS1_11LargeIntValES6_'], [['bitor'], 'TINYINT', ['TINYINT', 'TINYINT'], '_ZN9starrocks9Operators31bitor_tiny_int_val_tiny_int_valEPN13starrocks_udf15FunctionContextERKNS1_10TinyIntValES6_'], [['bitor'], 'SMALLINT', ['SMALLINT', 'SMALLINT'], '_ZN9starrocks9Operators33bitor_small_int_val_small_int_valEPN13starrocks_udf15FunctionContextERKNS1_11SmallIntValES6_'], [['bitor'], 'INT', ['INT', 'INT'], '_ZN9starrocks9Operators21bitor_int_val_int_valEPN13starrocks_udf15FunctionContextERKNS1_6IntValES6_'], [['bitor'], 'BIGINT', ['BIGINT', 'BIGINT'], '_ZN9starrocks9Operators29bitor_big_int_val_big_int_valEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValES6_'], [['bitor'], 'LARGEINT', ['LARGEINT', 'LARGEINT'], '_ZN9starrocks9Operators33bitor_large_int_val_large_int_valEPN13starrocks_udf15FunctionContextERKNS1_11LargeIntValES6_'], [['bitxor'], 'TINYINT', ['TINYINT', 'TINYINT'], '_ZN9starrocks9Operators32bitxor_tiny_int_val_tiny_int_valEPN13starrocks_udf15FunctionContextERKNS1_10TinyIntValES6_'], [['bitxor'], 'SMALLINT', ['SMALLINT', 'SMALLINT'], '_ZN9starrocks9Operators34bitxor_small_int_val_small_int_valEPN13starrocks_udf15FunctionContextERKNS1_11SmallIntValES6_'], [['bitxor'], 'INT', ['INT', 'INT'], '_ZN9starrocks9Operators22bitxor_int_val_int_valEPN13starrocks_udf15FunctionContextERKNS1_6IntValES6_'], [['bitxor'], 'BIGINT', ['BIGINT', 'BIGINT'], '_ZN9starrocks9Operators30bitxor_big_int_val_big_int_valEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValES6_'], [['bitxor'], 'LARGEINT', ['LARGEINT', 'LARGEINT'], '_ZN9starrocks9Operators34bitxor_large_int_val_large_int_valEPN13starrocks_udf15FunctionContextERKNS1_11LargeIntValES6_'], [['bitnot'], 'TINYINT', ['TINYINT'], '_ZN9starrocks9Operators19bitnot_tiny_int_valEPN13starrocks_udf15FunctionContextERKNS1_10TinyIntValE'], [['bitnot'], 'SMALLINT', ['SMALLINT'], '_ZN9starrocks9Operators20bitnot_small_int_valEPN13starrocks_udf15FunctionContextERKNS1_11SmallIntValE'], [['bitnot'], 'INT', ['INT'], '_ZN9starrocks9Operators14bitnot_int_valEPN13starrocks_udf15FunctionContextERKNS1_6IntValE'], [['bitnot'], 'BIGINT', ['BIGINT'], '_ZN9starrocks9Operators18bitnot_big_int_valEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['bitnot'], 'LARGEINT', ['LARGEINT'], '_ZN9starrocks9Operators20bitnot_large_int_valEPN13starrocks_udf15FunctionContextERKNS1_11LargeIntValE'], [['unix_timestamp'], 'INT', [], '_ZN9starrocks18TimestampFunctions7to_unixEPN13starrocks_udf15FunctionContextE'], [['unix_timestamp'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions7to_unixEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['unix_timestamp'], 'INT', ['DATE'], '_ZN9starrocks18TimestampFunctions7to_unixEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['unix_timestamp'], 'INT', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks18TimestampFunctions7to_unixEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['from_unixtime'], 'VARCHAR', ['INT'], '_ZN9starrocks18TimestampFunctions9from_unixEPN13starrocks_udf15FunctionContextERKNS1_6IntValE'], [['from_unixtime'], 'VARCHAR', ['INT', 'VARCHAR'], '_ZN9starrocks18TimestampFunctions9from_unixEPN13starrocks_udf15FunctionContextERKNS1_6IntValERKNS1_9StringValE', '_ZN9starrocks18TimestampFunctions14format_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks18TimestampFunctions12format_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['now', 'current_timestamp', 'localtime', 'localtimestamp'], 'DATETIME', [], '_ZN9starrocks18TimestampFunctions3nowEPN13starrocks_udf15FunctionContextE'], [['curtime', 'current_time'], 'TIME', [], '_ZN9starrocks18TimestampFunctions7curtimeEPN13starrocks_udf15FunctionContextE'], [['curdate', 'current_date'], 'DATE', [], '_ZN9starrocks18TimestampFunctions7curdateEPN13starrocks_udf15FunctionContextE'], [['utc_timestamp'], 'DATETIME', [], '_ZN9starrocks18TimestampFunctions13utc_timestampEPN13starrocks_udf15FunctionContextE'], [['timestamp'], 'DATETIME', ['DATETIME'], '_ZN9starrocks18TimestampFunctions9timestampEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['from_days'], 'DATE', ['INT'], '_ZN9starrocks18TimestampFunctions9from_daysEPN13starrocks_udf15FunctionContextERKNS1_6IntValE'], [['to_days'], 'INT', ['DATE'], '_ZN9starrocks18TimestampFunctions7to_daysEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['year'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions4yearEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['month'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions5monthEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['quarter'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions7quarterEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['dayofweek'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions11day_of_weekEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['day', 'dayofmonth'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions12day_of_monthEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['dayofyear'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions11day_of_yearEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['weekofyear'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions12week_of_yearEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['hour'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions4hourEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['minute'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions6minuteEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['second'], 'INT', ['DATETIME'], '_ZN9starrocks18TimestampFunctions6secondEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['years_add'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions9years_addEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['years_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions9years_subEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['months_add', 'add_months'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions10months_addEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['months_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions10months_subEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['weeks_add'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions9weeks_addEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['weeks_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions9weeks_subEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['days_add', 'date_add', 'adddate'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions8days_addEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['days_sub', 'date_sub', 'subdate'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions8days_subEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['hours_add'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions9hours_addEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['hours_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions9hours_subEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['minutes_add'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions11minutes_addEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['minutes_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions11minutes_subEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['seconds_add'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions11seconds_addEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['seconds_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions11seconds_subEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['microseconds_add'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions10micros_addEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['microseconds_sub'], 'DATETIME', ['DATETIME', 'INT'], '_ZN9starrocks18TimestampFunctions10micros_subEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_6IntValE'], [['datediff'], 'INT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions9date_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['timediff'], 'TIME', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions9time_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['date_trunc'], 'DATETIME', ['VARCHAR', 'DATETIME'], '_ZN9starrocks18TimestampFunctions14datetime_truncEPN13starrocks_udf15FunctionContextERKNS1_9StringValERKNS1_11DateTimeValE', '_ZN9starrocks18TimestampFunctions22datetime_trunc_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks18TimestampFunctions20datetime_trunc_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['date_trunc'], 'DATE', ['VARCHAR', 'DATE'], '_ZN9starrocks18TimestampFunctions10date_truncEPN13starrocks_udf15FunctionContextERKNS1_9StringValERKNS1_11DateTimeValE', '_ZN9starrocks18TimestampFunctions18date_trunc_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks18TimestampFunctions16date_trunc_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['str_to_date'], 'DATETIME', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks18TimestampFunctions11str_to_dateEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['date_format'], 'VARCHAR', ['DATETIME', 'VARCHAR'], '_ZN9starrocks18TimestampFunctions11date_formatEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_9StringValE', '_ZN9starrocks18TimestampFunctions14format_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks18TimestampFunctions12format_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['date_format'], 'VARCHAR', ['DATE', 'VARCHAR'], '_ZN9starrocks18TimestampFunctions11date_formatEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_9StringValE', '_ZN9starrocks18TimestampFunctions14format_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks18TimestampFunctions12format_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['date', 'to_date'], 'DATE', ['DATETIME'], '_ZN9starrocks18TimestampFunctions7to_dateEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['dayname'], 'VARCHAR', ['DATETIME'], '_ZN9starrocks18TimestampFunctions8day_nameEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['monthname'], 'VARCHAR', ['DATETIME'], '_ZN9starrocks18TimestampFunctions10month_nameEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValE'], [['convert_tz'], 'DATETIME', ['DATETIME', 'VARCHAR', 'VARCHAR'], '_ZN9starrocks18TimestampFunctions10convert_tzEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValERKNS1_9StringValES9_', '_ZN9starrocks18TimestampFunctions18convert_tz_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks18TimestampFunctions16convert_tz_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['years_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions10years_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['months_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions11months_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['weeks_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions10weeks_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['days_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions9days_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['hours_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions10hours_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['minutes_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions12minutes_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['seconds_diff'], 'BIGINT', ['DATETIME', 'DATETIME'], '_ZN9starrocks18TimestampFunctions12seconds_diffEPN13starrocks_udf15FunctionContextERKNS1_11DateTimeValES6_'], [['pi'], 'DOUBLE', [], '_ZN9starrocks13MathFunctions2piEPN13starrocks_udf15FunctionContextE'], [['e'], 'DOUBLE', [], '_ZN9starrocks13MathFunctions1eEPN13starrocks_udf15FunctionContextE'], [['abs'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['abs'], 'FLOAT', ['FLOAT'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_8FloatValE'], [['abs'], 'LARGEINT', ['LARGEINT'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_11LargeIntValE'], [['abs'], 'LARGEINT', ['BIGINT'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['abs'], 'INT', ['SMALLINT'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_11SmallIntValE'], [['abs'], 'BIGINT', ['INT'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_6IntValE'], [['abs'], 'SMALLINT', ['TINYINT'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_10TinyIntValE'], [['abs'], 'DECIMALV2', ['DECIMALV2'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_12DecimalV2ValE'], [['abs'], 'DECIMAL32', ['DECIMAL32'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_6IntValE'], [['abs'], 'DECIMAL64', ['DECIMAL64'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['abs'], 'DECIMAL128', ['DECIMAL128'], '_ZN9starrocks13MathFunctions3absEPN13starrocks_udf15FunctionContextERKNS1_11LargeIntValE'], [['sign'], 'FLOAT', ['DOUBLE'], '_ZN9starrocks13MathFunctions4signEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['sin'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions3sinEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['asin'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions4asinEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['cos'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions3cosEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['acos'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions4acosEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['tan'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions3tanEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['atan'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions4atanEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['ceil', 'ceiling', 'dceil'], 'BIGINT', ['DOUBLE'], '_ZN9starrocks13MathFunctions4ceilEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['floor', 'dfloor'], 'BIGINT', ['DOUBLE'], '_ZN9starrocks13MathFunctions5floorEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['round', 'dround'], 'BIGINT', ['DOUBLE'], '_ZN9starrocks13MathFunctions5roundEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['round', 'dround'], 'DOUBLE', ['DOUBLE', 'INT'], '_ZN9starrocks13MathFunctions11round_up_toEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValERKNS1_6IntValE'], [['truncate'], 'DOUBLE', ['DOUBLE', 'INT'], '_ZN9starrocks13MathFunctions8truncateEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValERKNS1_6IntValE'], [['ln', 'dlog1'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions2lnEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['log'], 'DOUBLE', ['DOUBLE', 'DOUBLE'], '_ZN9starrocks13MathFunctions3logEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValES6_'], [['log2'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions4log2EPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['log10', 'dlog10'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions5log10EPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['exp', 'dexp'], 'DOUBLE', ['DOUBLE'], '_ZN9starrocks13MathFunctions3expEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['radians'], 'DOUBLE', ['DOUBLE'], 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'_ZN9starrocks15StringFunctions6locateEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['locate'], 'INT', ['VARCHAR', 'VARCHAR', 'INT'], '_ZN9starrocks15StringFunctions10locate_posEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_RKNS1_6IntValE'], [['regexp_extract'], 'VARCHAR', ['VARCHAR', 'VARCHAR', 'BIGINT'], '_ZN9starrocks15StringFunctions14regexp_extractEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_RKNS1_9BigIntValE', '_ZN9starrocks15StringFunctions14regexp_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks15StringFunctions12regexp_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['regexp_replace'], 'VARCHAR', ['VARCHAR', 'VARCHAR', 'VARCHAR'], '_ZN9starrocks15StringFunctions14regexp_replaceEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_S6_', '_ZN9starrocks15StringFunctions14regexp_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks15StringFunctions12regexp_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['concat'], 'VARCHAR', ['VARCHAR', '...'], '_ZN9starrocks15StringFunctions6concatEPN13starrocks_udf15FunctionContextEiPKNS1_9StringValE'], [['concat_ws'], 'VARCHAR', ['VARCHAR', 'VARCHAR', '...'], '_ZN9starrocks15StringFunctions9concat_wsEPN13starrocks_udf15FunctionContextERKNS1_9StringValEiPS5_'], [['find_in_set'], 'INT', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks15StringFunctions11find_in_setEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['parse_url'], 'VARCHAR', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks15StringFunctions9parse_urlEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_', '_ZN9starrocks15StringFunctions17parse_url_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks15StringFunctions15parse_url_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['parse_url'], 'VARCHAR', ['VARCHAR', 'VARCHAR', 'VARCHAR'], '_ZN9starrocks15StringFunctions13parse_url_keyEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_S6_', '_ZN9starrocks15StringFunctions17parse_url_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks15StringFunctions15parse_url_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['money_format'], 'VARCHAR', ['BIGINT'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['money_format'], 'VARCHAR', ['LARGEINT'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_11LargeIntValE'], [['money_format'], 'VARCHAR', ['DOUBLE'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['money_format'], 'VARCHAR', ['DECIMALV2'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_12DecimalV2ValE'], [['split_part'], 'VARCHAR', ['VARCHAR', 'VARCHAR', 'INT'], '_ZN9starrocks15StringFunctions10split_partEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_RKNS1_6IntValE'], [['money_format'], 'VARCHAR', ['DECIMAL32'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['money_format'], 'VARCHAR', ['DECIMAL64'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['money_format'], 'VARCHAR', ['DECIMAL128'], '_ZN9starrocks15StringFunctions12money_formatEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['sleep'], 'BOOLEAN', ['INT'], '_ZN9starrocks16UtilityFunctions5sleepEPN13starrocks_udf15FunctionContextERKNS1_6IntValE'], [['version'], 'VARCHAR', [], '_ZN9starrocks16UtilityFunctions7versionEPN13starrocks_udf15FunctionContextE'], [['current_version'], 'VARCHAR', [], '_ZN9starrocks16UtilityFunctions15current_versionEPN13starrocks_udf15FunctionContextE'], [['last_query_id'], 'VARCHAR', [], '_ZN9starrocks16UtilityFunctions13last_query_idEPN13starrocks_udf15FunctionContextE'], [['get_json_int'], 'INT', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks13JsonFunctions12get_json_intEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_', '_ZN9starrocks13JsonFunctions17json_path_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks13JsonFunctions15json_path_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['get_json_double'], 'DOUBLE', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks13JsonFunctions15get_json_doubleEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_', '_ZN9starrocks13JsonFunctions17json_path_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks13JsonFunctions15json_path_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['get_json_string'], 'VARCHAR', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks13JsonFunctions15get_json_stringEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_', '_ZN9starrocks13JsonFunctions17json_path_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks13JsonFunctions15json_path_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['hll_cardinality'], 'BIGINT', ['HLL'], '_ZN9starrocks12HllFunctions15hll_cardinalityEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['hll_cardinality'], 'BIGINT', ['VARCHAR'], '_ZN9starrocks12HllFunctions15hll_cardinalityEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['hll_hash'], 'HLL', ['VARCHAR'], '_ZN9starrocks12HllFunctions8hll_hashEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['hll_empty'], 'HLL', [], '_ZN9starrocks12HllFunctions9hll_emptyEPN13starrocks_udf15FunctionContextE'], [['to_bitmap'], 'BITMAP', ['VARCHAR'], '_ZN9starrocks15BitmapFunctions9to_bitmapEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['bitmap_hash'], 'BITMAP', ['VARCHAR'], '_ZN9starrocks15BitmapFunctions11bitmap_hashEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['bitmap_count'], 'BIGINT', ['BITMAP'], '_ZN9starrocks15BitmapFunctions12bitmap_countEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['bitmap_empty'], 'BITMAP', [], '_ZN9starrocks15BitmapFunctions12bitmap_emptyEPN13starrocks_udf15FunctionContextE'], [['bitmap_or'], 'BITMAP', ['BITMAP', 'BITMAP'], '_ZN9starrocks15BitmapFunctions9bitmap_orEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['bitmap_and'], 'BITMAP', ['BITMAP', 'BITMAP'], '_ZN9starrocks15BitmapFunctions10bitmap_andEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['bitmap_to_string'], 'VARCHAR', ['BITMAP'], '_ZN9starrocks15BitmapFunctions16bitmap_to_stringEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['bitmap_from_string'], 'BITMAP', ['VARCHAR'], '_ZN9starrocks15BitmapFunctions18bitmap_from_stringEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['bitmap_contains'], 'BOOLEAN', ['BITMAP', 'BIGINT'], '_ZN9starrocks15BitmapFunctions15bitmap_containsEPN13starrocks_udf15FunctionContextERKNS1_9StringValERKNS1_9BigIntValE'], [['bitmap_has_any'], 'BOOLEAN', ['BITMAP', 'BITMAP'], '_ZN9starrocks15BitmapFunctions14bitmap_has_anyEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['percentile_hash'], 'PERCENTILE', ['DOUBLE'], '_ZN9starrocks19PercentileFunctions15percentile_hashEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValE'], [['percentile_empty'], 'PERCENTILE', [], '_ZN9starrocks19PercentileFunctions16percentile_emptyEPN13starrocks_udf15FunctionContextE'], [['percentile_approx_raw'], 'DOUBLE', ['PERCENTILE', 'DOUBLE'], '_ZN9starrocks19PercentileFunctions21percentile_approx_rawEPN13starrocks_udf15FunctionContextERKNS1_9StringValERKNS1_9DoubleValE'], [['murmur_hash3_32'], 'INT', ['VARCHAR', '...'], '_ZN9starrocks13HashFunctions15murmur_hash3_32EPN13starrocks_udf15FunctionContextEiPKNS1_9StringValE'], [['aes_encrypt'], 'VARCHAR', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks19EncryptionFunctions11aes_encryptEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['aes_decrypt'], 'VARCHAR', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks19EncryptionFunctions11aes_decryptEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_'], [['from_base64'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks19EncryptionFunctions11from_base64EPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['to_base64'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks19EncryptionFunctions9to_base64EPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['md5'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks19EncryptionFunctions3md5EPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['md5sum'], 'VARCHAR', ['VARCHAR', '...'], '_ZN9starrocks19EncryptionFunctions6md5sumEPN13starrocks_udf15FunctionContextEiPKNS1_9StringValE'], [['ST_Point'], 'VARCHAR', ['DOUBLE', 'DOUBLE'], '_ZN9starrocks12GeoFunctions8st_pointEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValES6_'], [['ST_X'], 'DOUBLE', ['VARCHAR'], '_ZN9starrocks12GeoFunctions4st_xEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['ST_Y'], 'DOUBLE', ['VARCHAR'], '_ZN9starrocks12GeoFunctions4st_yEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['ST_Distance_Sphere'], 'DOUBLE', ['DOUBLE', 'DOUBLE', 'DOUBLE', 'DOUBLE'], '_ZN9starrocks12GeoFunctions18st_distance_sphereEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValES6_S6_S6_'], [['ST_AsText', 'ST_AsWKT'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks12GeoFunctions9st_as_wktEPN13starrocks_udf15FunctionContextERKNS1_9StringValE'], [['ST_GeometryFromText', 'ST_GeomFromText'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks12GeoFunctions11st_from_wktEPN13starrocks_udf15FunctionContextERKNS1_9StringValE', '_ZN9starrocks12GeoFunctions19st_from_wkt_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks12GeoFunctions17st_from_wkt_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['ST_LineFromText', 'ST_LineStringFromText'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks12GeoFunctions7st_lineEPN13starrocks_udf15FunctionContextERKNS1_9StringValE', '_ZN9starrocks12GeoFunctions15st_line_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks12GeoFunctions17st_from_wkt_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['ST_Polygon', 'ST_PolyFromText', 'ST_PolygonFromText'], 'VARCHAR', ['VARCHAR'], '_ZN9starrocks12GeoFunctions10st_polygonEPN13starrocks_udf15FunctionContextERKNS1_9StringValE', '_ZN9starrocks12GeoFunctions18st_polygon_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks12GeoFunctions17st_from_wkt_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['ST_Circle'], 'VARCHAR', ['DOUBLE', 'DOUBLE', 'DOUBLE'], '_ZN9starrocks12GeoFunctions9st_circleEPN13starrocks_udf15FunctionContextERKNS1_9DoubleValES6_S6_', '_ZN9starrocks12GeoFunctions17st_circle_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks12GeoFunctions17st_from_wkt_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['ST_Contains'], 'BOOLEAN', ['VARCHAR', 'VARCHAR'], '_ZN9starrocks12GeoFunctions11st_containsEPN13starrocks_udf15FunctionContextERKNS1_9StringValES6_', '_ZN9starrocks12GeoFunctions19st_contains_prepareEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE', '_ZN9starrocks12GeoFunctions17st_contains_closeEPN13starrocks_udf15FunctionContextENS2_18FunctionStateScopeE'], [['grouping_id'], 'BIGINT', ['BIGINT'], '_ZN9starrocks21GroupingSetsFunctions11grouping_idEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['grouping'], 'BIGINT', ['BIGINT'], '_ZN9starrocks21GroupingSetsFunctions8groupingEPN13starrocks_udf15FunctionContextERKNS1_9BigIntValE'], [['array_length'], 'INT', ['ANY_ARRAY'], ''], [['array_append'], 'ANY_ARRAY', ['ANY_ARRAY', 'ANY_ELEMENT'], ''], [['array_contains'], 'BOOLEAN', ['ANY_ARRAY', 'ANY_ELEMENT'], '']] non_null_result_with_null_param_functions = ['if', 'hll_hash', 'concat_ws', 'ifnull', 'nullif', 'null_or_empty', 'coalesce'] invisible_functions = []
def test_get_empty_collection(client): empty_response = client.get('/data') assert empty_response.status_code == 200 assert 'json' in empty_response.content_type assert empty_response.is_json assert empty_response.json['href'].startswith('http') assert empty_response.json['href'].endswith('/data') assert not empty_response.json['collection'] def test_put_to_collection(client): put_response = client.put('/data', data={'python': '1'}, ) assert put_response.status_code == 201 assert 'json' in put_response.content_type assert put_response.is_json assert put_response.location == put_response.json['href'] assert put_response.json['href'].startswith('http') assert '/data/' in put_response.json['href'] def test_get_collection(client): response = client.get('/data') assert response.status_code == 200 assert 'json' in response.content_type assert response.is_json assert response.json['href'].startswith('http') assert response.json['href'].endswith('/data') assert response.json['collection']
def test_get_empty_collection(client): empty_response = client.get('/data') assert empty_response.status_code == 200 assert 'json' in empty_response.content_type assert empty_response.is_json assert empty_response.json['href'].startswith('http') assert empty_response.json['href'].endswith('/data') assert not empty_response.json['collection'] def test_put_to_collection(client): put_response = client.put('/data', data={'python': '1'}) assert put_response.status_code == 201 assert 'json' in put_response.content_type assert put_response.is_json assert put_response.location == put_response.json['href'] assert put_response.json['href'].startswith('http') assert '/data/' in put_response.json['href'] def test_get_collection(client): response = client.get('/data') assert response.status_code == 200 assert 'json' in response.content_type assert response.is_json assert response.json['href'].startswith('http') assert response.json['href'].endswith('/data') assert response.json['collection']
#!/usr/bin/env python3 def next_nums(): A = 703 B = 516 for _ in range(40000000): A *= 16807 A %= 2147483647 B *= 48271 B %= 2147483647 yield (A, B) count = 0 for newA, newB in next_nums(): if newA % 65536 == newB % 65536: count += 1 print(count)
def next_nums(): a = 703 b = 516 for _ in range(40000000): a *= 16807 a %= 2147483647 b *= 48271 b %= 2147483647 yield (A, B) count = 0 for (new_a, new_b) in next_nums(): if newA % 65536 == newB % 65536: count += 1 print(count)
class ApiConfig: def __init__(self, environment: str = None, name: str = None, is_debug: bool = None, port: int = None, root_directory: str = None): self.port = port self.is_debug = is_debug self.name = name self.environment = environment self.root_directory = root_directory
class Apiconfig: def __init__(self, environment: str=None, name: str=None, is_debug: bool=None, port: int=None, root_directory: str=None): self.port = port self.is_debug = is_debug self.name = name self.environment = environment self.root_directory = root_directory
data = ( 'Mang ', # 0x00 'Zhu ', # 0x01 'Utsubo ', # 0x02 'Du ', # 0x03 'Ji ', # 0x04 'Xiao ', # 0x05 'Ba ', # 0x06 'Suan ', # 0x07 'Ji ', # 0x08 'Zhen ', # 0x09 'Zhao ', # 0x0a 'Sun ', # 0x0b 'Ya ', # 0x0c 'Zhui ', # 0x0d 'Yuan ', # 0x0e 'Hu ', # 0x0f 'Gang ', # 0x10 'Xiao ', # 0x11 'Cen ', # 0x12 'Pi ', # 0x13 'Bi ', # 0x14 'Jian ', # 0x15 'Yi ', # 0x16 'Dong ', # 0x17 'Shan ', # 0x18 'Sheng ', # 0x19 'Xia ', # 0x1a 'Di ', # 0x1b 'Zhu ', # 0x1c 'Na ', # 0x1d 'Chi ', # 0x1e 'Gu ', # 0x1f 'Li ', # 0x20 'Qie ', # 0x21 'Min ', # 0x22 'Bao ', # 0x23 'Tiao ', # 0x24 'Si ', # 0x25 'Fu ', # 0x26 'Ce ', # 0x27 'Ben ', # 0x28 'Pei ', # 0x29 'Da ', # 0x2a 'Zi ', # 0x2b 'Di ', # 0x2c 'Ling ', # 0x2d 'Ze ', # 0x2e 'Nu ', # 0x2f 'Fu ', # 0x30 'Gou ', # 0x31 'Fan ', # 0x32 'Jia ', # 0x33 'Ge ', # 0x34 'Fan ', # 0x35 'Shi ', # 0x36 'Mao ', # 0x37 'Po ', # 0x38 'Sey ', # 0x39 'Jian ', # 0x3a 'Qiong ', # 0x3b 'Long ', # 0x3c 'Souke ', # 0x3d 'Bian ', # 0x3e 'Luo ', # 0x3f 'Gui ', # 0x40 'Qu ', # 0x41 'Chi ', # 0x42 'Yin ', # 0x43 'Yao ', # 0x44 'Xian ', # 0x45 'Bi ', # 0x46 'Qiong ', # 0x47 'Gua ', # 0x48 'Deng ', # 0x49 'Jiao ', # 0x4a 'Jin ', # 0x4b 'Quan ', # 0x4c 'Sun ', # 0x4d 'Ru ', # 0x4e 'Fa ', # 0x4f 'Kuang ', # 0x50 'Zhu ', # 0x51 'Tong ', # 0x52 'Ji ', # 0x53 'Da ', # 0x54 'Xing ', # 0x55 'Ce ', # 0x56 'Zhong ', # 0x57 'Kou ', # 0x58 'Lai ', # 0x59 'Bi ', # 0x5a 'Shai ', # 0x5b 'Dang ', # 0x5c 'Zheng ', # 0x5d 'Ce ', # 0x5e 'Fu ', # 0x5f 'Yun ', # 0x60 'Tu ', # 0x61 'Pa ', # 0x62 'Li ', # 0x63 'Lang ', # 0x64 'Ju ', # 0x65 'Guan ', # 0x66 'Jian ', # 0x67 'Han ', # 0x68 'Tong ', # 0x69 'Xia ', # 0x6a 'Zhi ', # 0x6b 'Cheng ', # 0x6c 'Suan ', # 0x6d 'Shi ', # 0x6e 'Zhu ', # 0x6f 'Zuo ', # 0x70 'Xiao ', # 0x71 'Shao ', # 0x72 'Ting ', # 0x73 'Ce ', # 0x74 'Yan ', # 0x75 'Gao ', # 0x76 'Kuai ', # 0x77 'Gan ', # 0x78 'Chou ', # 0x79 'Kago ', # 0x7a 'Gang ', # 0x7b 'Yun ', # 0x7c 'O ', # 0x7d 'Qian ', # 0x7e 'Xiao ', # 0x7f 'Jian ', # 0x80 'Pu ', # 0x81 'Lai ', # 0x82 'Zou ', # 0x83 'Bi ', # 0x84 'Bi ', # 0x85 'Bi ', # 0x86 'Ge ', # 0x87 'Chi ', # 0x88 'Guai ', # 0x89 'Yu ', # 0x8a 'Jian ', # 0x8b 'Zhao ', # 0x8c 'Gu ', # 0x8d 'Chi ', # 0x8e 'Zheng ', # 0x8f 'Jing ', # 0x90 'Sha ', # 0x91 'Zhou ', # 0x92 'Lu ', # 0x93 'Bo ', # 0x94 'Ji ', # 0x95 'Lin ', # 0x96 'Suan ', # 0x97 'Jun ', # 0x98 'Fu ', # 0x99 'Zha ', # 0x9a 'Gu ', # 0x9b 'Kong ', # 0x9c 'Qian ', # 0x9d 'Quan ', # 0x9e 'Jun ', # 0x9f 'Chui ', # 0xa0 'Guan ', # 0xa1 'Yuan ', # 0xa2 'Ce ', # 0xa3 'Ju ', # 0xa4 'Bo ', # 0xa5 'Ze ', # 0xa6 'Qie ', # 0xa7 'Tuo ', # 0xa8 'Luo ', # 0xa9 'Dan ', # 0xaa 'Xiao ', # 0xab 'Ruo ', # 0xac 'Jian ', # 0xad 'Xuan ', # 0xae 'Bian ', # 0xaf 'Sun ', # 0xb0 'Xiang ', # 0xb1 'Xian ', # 0xb2 'Ping ', # 0xb3 'Zhen ', # 0xb4 'Sheng ', # 0xb5 'Hu ', # 0xb6 'Shi ', # 0xb7 'Zhu ', # 0xb8 'Yue ', # 0xb9 'Chun ', # 0xba 'Lu ', # 0xbb 'Wu ', # 0xbc 'Dong ', # 0xbd 'Xiao ', # 0xbe 'Ji ', # 0xbf 'Jie ', # 0xc0 'Huang ', # 0xc1 'Xing ', # 0xc2 'Mei ', # 0xc3 'Fan ', # 0xc4 'Chui ', # 0xc5 'Zhuan ', # 0xc6 'Pian ', # 0xc7 'Feng ', # 0xc8 'Zhu ', # 0xc9 'Hong ', # 0xca 'Qie ', # 0xcb 'Hou ', # 0xcc 'Qiu ', # 0xcd 'Miao ', # 0xce 'Qian ', # 0xcf None, # 0xd0 'Kui ', # 0xd1 'Sik ', # 0xd2 'Lou ', # 0xd3 'Yun ', # 0xd4 'He ', # 0xd5 'Tang ', # 0xd6 'Yue ', # 0xd7 'Chou ', # 0xd8 'Gao ', # 0xd9 'Fei ', # 0xda 'Ruo ', # 0xdb 'Zheng ', # 0xdc 'Gou ', # 0xdd 'Nie ', # 0xde 'Qian ', # 0xdf 'Xiao ', # 0xe0 'Cuan ', # 0xe1 'Gong ', # 0xe2 'Pang ', # 0xe3 'Du ', # 0xe4 'Li ', # 0xe5 'Bi ', # 0xe6 'Zhuo ', # 0xe7 'Chu ', # 0xe8 'Shai ', # 0xe9 'Chi ', # 0xea 'Zhu ', # 0xeb 'Qiang ', # 0xec 'Long ', # 0xed 'Lan ', # 0xee 'Jian ', # 0xef 'Bu ', # 0xf0 'Li ', # 0xf1 'Hui ', # 0xf2 'Bi ', # 0xf3 'Di ', # 0xf4 'Cong ', # 0xf5 'Yan ', # 0xf6 'Peng ', # 0xf7 'Sen ', # 0xf8 'Zhuan ', # 0xf9 'Pai ', # 0xfa 'Piao ', # 0xfb 'Dou ', # 0xfc 'Yu ', # 0xfd 'Mie ', # 0xfe 'Zhuan ', # 0xff )
data = ('Mang ', 'Zhu ', 'Utsubo ', 'Du ', 'Ji ', 'Xiao ', 'Ba ', 'Suan ', 'Ji ', 'Zhen ', 'Zhao ', 'Sun ', 'Ya ', 'Zhui ', 'Yuan ', 'Hu ', 'Gang ', 'Xiao ', 'Cen ', 'Pi ', 'Bi ', 'Jian ', 'Yi ', 'Dong ', 'Shan ', 'Sheng ', 'Xia ', 'Di ', 'Zhu ', 'Na ', 'Chi ', 'Gu ', 'Li ', 'Qie ', 'Min ', 'Bao ', 'Tiao ', 'Si ', 'Fu ', 'Ce ', 'Ben ', 'Pei ', 'Da ', 'Zi ', 'Di ', 'Ling ', 'Ze ', 'Nu ', 'Fu ', 'Gou ', 'Fan ', 'Jia ', 'Ge ', 'Fan ', 'Shi ', 'Mao ', 'Po ', 'Sey ', 'Jian ', 'Qiong ', 'Long ', 'Souke ', 'Bian ', 'Luo ', 'Gui ', 'Qu ', 'Chi ', 'Yin ', 'Yao ', 'Xian ', 'Bi ', 'Qiong ', 'Gua ', 'Deng ', 'Jiao ', 'Jin ', 'Quan ', 'Sun ', 'Ru ', 'Fa ', 'Kuang ', 'Zhu ', 'Tong ', 'Ji ', 'Da ', 'Xing ', 'Ce ', 'Zhong ', 'Kou ', 'Lai ', 'Bi ', 'Shai ', 'Dang ', 'Zheng ', 'Ce ', 'Fu ', 'Yun ', 'Tu ', 'Pa ', 'Li ', 'Lang ', 'Ju ', 'Guan ', 'Jian ', 'Han ', 'Tong ', 'Xia ', 'Zhi ', 'Cheng ', 'Suan ', 'Shi ', 'Zhu ', 'Zuo ', 'Xiao ', 'Shao ', 'Ting ', 'Ce ', 'Yan ', 'Gao ', 'Kuai ', 'Gan ', 'Chou ', 'Kago ', 'Gang ', 'Yun ', 'O ', 'Qian ', 'Xiao ', 'Jian ', 'Pu ', 'Lai ', 'Zou ', 'Bi ', 'Bi ', 'Bi ', 'Ge ', 'Chi ', 'Guai ', 'Yu ', 'Jian ', 'Zhao ', 'Gu ', 'Chi ', 'Zheng ', 'Jing ', 'Sha ', 'Zhou ', 'Lu ', 'Bo ', 'Ji ', 'Lin ', 'Suan ', 'Jun ', 'Fu ', 'Zha ', 'Gu ', 'Kong ', 'Qian ', 'Quan ', 'Jun ', 'Chui ', 'Guan ', 'Yuan ', 'Ce ', 'Ju ', 'Bo ', 'Ze ', 'Qie ', 'Tuo ', 'Luo ', 'Dan ', 'Xiao ', 'Ruo ', 'Jian ', 'Xuan ', 'Bian ', 'Sun ', 'Xiang ', 'Xian ', 'Ping ', 'Zhen ', 'Sheng ', 'Hu ', 'Shi ', 'Zhu ', 'Yue ', 'Chun ', 'Lu ', 'Wu ', 'Dong ', 'Xiao ', 'Ji ', 'Jie ', 'Huang ', 'Xing ', 'Mei ', 'Fan ', 'Chui ', 'Zhuan ', 'Pian ', 'Feng ', 'Zhu ', 'Hong ', 'Qie ', 'Hou ', 'Qiu ', 'Miao ', 'Qian ', None, 'Kui ', 'Sik ', 'Lou ', 'Yun ', 'He ', 'Tang ', 'Yue ', 'Chou ', 'Gao ', 'Fei ', 'Ruo ', 'Zheng ', 'Gou ', 'Nie ', 'Qian ', 'Xiao ', 'Cuan ', 'Gong ', 'Pang ', 'Du ', 'Li ', 'Bi ', 'Zhuo ', 'Chu ', 'Shai ', 'Chi ', 'Zhu ', 'Qiang ', 'Long ', 'Lan ', 'Jian ', 'Bu ', 'Li ', 'Hui ', 'Bi ', 'Di ', 'Cong ', 'Yan ', 'Peng ', 'Sen ', 'Zhuan ', 'Pai ', 'Piao ', 'Dou ', 'Yu ', 'Mie ', 'Zhuan ')
# Python 3.6.1 with open("input.txt", "r") as f: puzzle_input = [int(i) for i in f.read()[0:-1]] total = 0 for cur_index in range(len(puzzle_input)): next_index = cur_index + 1 if not cur_index == len(puzzle_input) - 1 else 0 puz_cur = puzzle_input[cur_index] pnext = puzzle_input[next_index] if puz_cur == pnext: total += puz_cur print(total)
with open('input.txt', 'r') as f: puzzle_input = [int(i) for i in f.read()[0:-1]] total = 0 for cur_index in range(len(puzzle_input)): next_index = cur_index + 1 if not cur_index == len(puzzle_input) - 1 else 0 puz_cur = puzzle_input[cur_index] pnext = puzzle_input[next_index] if puz_cur == pnext: total += puz_cur print(total)
s = input() y = int(input()) n = int(input()) c = 0 for i in s: if int(i) <= y: c += 1 for i in range(n): for j in range(2, n-1): if int(s[i:j+i]) <= y: c += 1 print(c) ''' qx = [i for i in range(input1)] for i, j in input3: if i == 1: qx = qx[1:] if i == 2: qx.remove(j) if i == 3: return qx.index(j) '''
s = input() y = int(input()) n = int(input()) c = 0 for i in s: if int(i) <= y: c += 1 for i in range(n): for j in range(2, n - 1): if int(s[i:j + i]) <= y: c += 1 print(c) '\nqx = [i for i in range(input1)]\nfor i, j in input3:\n if i == 1:\n qx = qx[1:]\n if i == 2:\n qx.remove(j)\n if i == 3:\n return qx.index(j)\n'
def is_balanced(s): pairs = {"(": ")", "[": "]", "{": "}"} stack = [] for ch in s: if ch in pairs: stack.append(ch) else: if len(stack) == 0: return False if pairs[stack.pop()] != ch: return False return len(stack) == 0
def is_balanced(s): pairs = {'(': ')', '[': ']', '{': '}'} stack = [] for ch in s: if ch in pairs: stack.append(ch) else: if len(stack) == 0: return False if pairs[stack.pop()] != ch: return False return len(stack) == 0
def generate(label): ( bbox_xmin, bbox_ymin, bbox_xmax, bbox_ymax, img_width, img_height ) = ( label.get('xmin'), label.get('ymin'), label.get('xmax'), label.get('ymax'), label.get('img_width'), label.get('img_height') ) dw = 1. / img_width dh = 1. / img_height x = (bbox_xmin + bbox_xmax) / 2.0 y = (bbox_ymin + bbox_ymax) / 2.0 w = bbox_xmax - bbox_xmin h = bbox_ymax - bbox_ymin x = x * dw w = w * dw y = y * dh h = h * dh return (x, y, w, h)
def generate(label): (bbox_xmin, bbox_ymin, bbox_xmax, bbox_ymax, img_width, img_height) = (label.get('xmin'), label.get('ymin'), label.get('xmax'), label.get('ymax'), label.get('img_width'), label.get('img_height')) dw = 1.0 / img_width dh = 1.0 / img_height x = (bbox_xmin + bbox_xmax) / 2.0 y = (bbox_ymin + bbox_ymax) / 2.0 w = bbox_xmax - bbox_xmin h = bbox_ymax - bbox_ymin x = x * dw w = w * dw y = y * dh h = h * dh return (x, y, w, h)
print("hello") count=1 if count<1: print("yes") else: print("no")
print('hello') count = 1 if count < 1: print('yes') else: print('no')
# functions print("Demonstrating functions....") def fun(): print("Printing my function: fun") def fun1(): print("Printing my function: fun1") def multiply(x, y): z = x * y return z mulnum = multiply(150, 160) print(f"The return value is {mulnum}") # Demonstrating lambda functions # Lambda functions are anonymous functions x = lambda a: a + 10 print(f'The value of x is {x}') y = x(5) print(f'The value of y is {y}')
print('Demonstrating functions....') def fun(): print('Printing my function: fun') def fun1(): print('Printing my function: fun1') def multiply(x, y): z = x * y return z mulnum = multiply(150, 160) print(f'The return value is {mulnum}') x = lambda a: a + 10 print(f'The value of x is {x}') y = x(5) print(f'The value of y is {y}')
class MCP3008(): def __init__(self, channel): self.fake_val = 0 def value(self, pin=None): return self.fake_val
class Mcp3008: def __init__(self, channel): self.fake_val = 0 def value(self, pin=None): return self.fake_val
firt_tuple = (5,5,4,6,1,2,3) new_list = list(firt_tuple) new_tuple = tuple(new_list) print(len(firt_tuple)) print(max(new_list)) print(min(new_tuple))
firt_tuple = (5, 5, 4, 6, 1, 2, 3) new_list = list(firt_tuple) new_tuple = tuple(new_list) print(len(firt_tuple)) print(max(new_list)) print(min(new_tuple))
# Please note that if you uncomment and press multiple times, the program will keep appending to the file. def cap_four(name): new_name = name[0].upper() + name[1:3] + name[3].upper() + name[4:] return new_name # Check answer = cap_four('macdonald') print(answer)
def cap_four(name): new_name = name[0].upper() + name[1:3] + name[3].upper() + name[4:] return new_name answer = cap_four('macdonald') print(answer)
class Solution: def isPalindrome(self, s: str) -> bool: s=s.lower() s=[x for x in s if x.isalnum() ] return s==s[::-1]
class Solution: def is_palindrome(self, s: str) -> bool: s = s.lower() s = [x for x in s if x.isalnum()] return s == s[::-1]
if _: l = 2 else: l = []
if _: l = 2 else: l = []
MONTHS = { 'january': 1, 'february': 2, 'march': 3, 'april': 4, 'may': 5, 'june': 6, 'july': 7, 'august': 8, 'september': 9, 'october': 10, 'november': 11, 'december': 12, } SHORT_MONTH = [ '', 'Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec', ]
months = {'january': 1, 'february': 2, 'march': 3, 'april': 4, 'may': 5, 'june': 6, 'july': 7, 'august': 8, 'september': 9, 'october': 10, 'november': 11, 'december': 12} short_month = ['', 'Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec']
# Copyright (c) 2009 Google Inc. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. { 'targets': [ { 'target_name': 'subdir_file', 'type': 'none', 'msvs_cygwin_shell': 0, 'actions': [ { 'action_name': 'make-subdir-file', 'inputs': [ 'make-subdir-file.py', ], 'outputs': [ '<(PRODUCT_DIR)/subdir_file.out', ], 'action': [ 'python', '<(_inputs)', '<@(_outputs)', ], 'process_outputs_as_sources': 1, } ], }, ], }
{'targets': [{'target_name': 'subdir_file', 'type': 'none', 'msvs_cygwin_shell': 0, 'actions': [{'action_name': 'make-subdir-file', 'inputs': ['make-subdir-file.py'], 'outputs': ['<(PRODUCT_DIR)/subdir_file.out'], 'action': ['python', '<(_inputs)', '<@(_outputs)'], 'process_outputs_as_sources': 1}]}]}
# nCk n, m = map(int, input().split(' ')) # numerator numerator = 1 for i in range(0, m): numerator *= n n -= 1 # denominator denominator = 1 for i in range(m, 0, -1): denominator *= i print(numerator // denominator)
(n, m) = map(int, input().split(' ')) numerator = 1 for i in range(0, m): numerator *= n n -= 1 denominator = 1 for i in range(m, 0, -1): denominator *= i print(numerator // denominator)
''' Problem Statement: ----------------- Given an array A of size N of integers. Your task is to find the minimum and maximum elements in the array. Example 1: --------- Input: N = 6 A[] = {3, 2, 1, 56, 10000, 167} Output: min = 1, max = 10000 Example 2: ---------- Input: N = 5 A[] = {1, 345, 234, 21, 56789} Output: min = 1, max = 56789 ''' # Link ---> https://practice.geeksforgeeks.org/problems/find-minimum-and-maximum-element-in-an-array4428/1 # Code: def getMinMax(a , n): ls = [] min = a[0] max = a[0] for i in a: if(min > i): min = i; elif(max < i): max = i; ls.append(min) ls.append(max) return ls
""" Problem Statement: ----------------- Given an array A of size N of integers. Your task is to find the minimum and maximum elements in the array. Example 1: --------- Input: N = 6 A[] = {3, 2, 1, 56, 10000, 167} Output: min = 1, max = 10000 Example 2: ---------- Input: N = 5 A[] = {1, 345, 234, 21, 56789} Output: min = 1, max = 56789 """ def get_min_max(a, n): ls = [] min = a[0] max = a[0] for i in a: if min > i: min = i elif max < i: max = i ls.append(min) ls.append(max) return ls
class Enum(object): def __init__(self, plugin, node): if node.tag != 'enum': raise ValueError('expected <enum>, got <%s>' % node.tag) self.plugin = plugin self.name = node.attrib['name'] self.item_prefix = node.attrib.get('item-prefix', '') self.base = int(node.attrib.get('base', 0)) self.items = [n.attrib['name'] for n in node.findall('item')]
class Enum(object): def __init__(self, plugin, node): if node.tag != 'enum': raise value_error('expected <enum>, got <%s>' % node.tag) self.plugin = plugin self.name = node.attrib['name'] self.item_prefix = node.attrib.get('item-prefix', '') self.base = int(node.attrib.get('base', 0)) self.items = [n.attrib['name'] for n in node.findall('item')]
connChoices = ( {'name': 'automatic', 'rate': {'min': 0, 'max': 5000, 'def': 0}, 'conn': {'min': 0, 'max': 100, 'def': 0}, 'automatic': 1}, {'name': 'unlimited', 'rate': {'min': 0, 'max': 5000, 'def': 0, 'div': 50}, 'conn': {'min': 4, 'max': 100, 'def': 4}}, {'name': 'dialup/isdn', 'rate': {'min': 3, 'max': 8, 'def': 5}, 'conn': {'min': 2, 'max': 3, 'def': 2}, 'initiate': 12}, {'name': 'dsl/cable slow', 'rate': {'min': 10, 'max': 48, 'def': 13}, 'conn': {'min': 4, 'max': 20, 'def': 4}}, {'name': 'dsl/cable fast', 'rate': {'min': 20, 'max': 100, 'def': 40}, 'conn': {'min': 4, 'max': 30, 'def': 6}}, {'name': 'T1', 'rate': {'min': 100, 'max': 300, 'def': 150}, 'conn': {'min': 4, 'max': 40, 'def': 10}}, {'name': 'T3+', 'rate': {'min': 400, 'max': 2000, 'def': 500}, 'conn': {'min': 4, 'max': 100, 'def': 20}}, {'name': 'seeder', 'rate': {'min': 0, 'max': 5000, 'def': 0, 'div': 50}, 'conn': {'min': 1, 'max': 100, 'def': 1}}, {'name': 'SUPER-SEED', 'super-seed': 1} ) connChoiceList = map(lambda x: x['name'], connChoices)
conn_choices = ({'name': 'automatic', 'rate': {'min': 0, 'max': 5000, 'def': 0}, 'conn': {'min': 0, 'max': 100, 'def': 0}, 'automatic': 1}, {'name': 'unlimited', 'rate': {'min': 0, 'max': 5000, 'def': 0, 'div': 50}, 'conn': {'min': 4, 'max': 100, 'def': 4}}, {'name': 'dialup/isdn', 'rate': {'min': 3, 'max': 8, 'def': 5}, 'conn': {'min': 2, 'max': 3, 'def': 2}, 'initiate': 12}, {'name': 'dsl/cable slow', 'rate': {'min': 10, 'max': 48, 'def': 13}, 'conn': {'min': 4, 'max': 20, 'def': 4}}, {'name': 'dsl/cable fast', 'rate': {'min': 20, 'max': 100, 'def': 40}, 'conn': {'min': 4, 'max': 30, 'def': 6}}, {'name': 'T1', 'rate': {'min': 100, 'max': 300, 'def': 150}, 'conn': {'min': 4, 'max': 40, 'def': 10}}, {'name': 'T3+', 'rate': {'min': 400, 'max': 2000, 'def': 500}, 'conn': {'min': 4, 'max': 100, 'def': 20}}, {'name': 'seeder', 'rate': {'min': 0, 'max': 5000, 'def': 0, 'div': 50}, 'conn': {'min': 1, 'max': 100, 'def': 1}}, {'name': 'SUPER-SEED', 'super-seed': 1}) conn_choice_list = map(lambda x: x['name'], connChoices)
# # PySNMP MIB module HUAWEI-MA5200-DEVICE-MIB (http://snmplabs.com/pysmi) # ASN.1 source file:///Users/davwang4/Dev/mibs.snmplabs.com/asn1/HUAWEI-MA5200-DEVICE-MIB # Produced by pysmi-0.3.4 at Wed May 1 13:46:33 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, ObjectIdentifier, OctetString = mibBuilder.importSymbols("ASN1", "Integer", "ObjectIdentifier", "OctetString") NamedValues, = mibBuilder.importSymbols("ASN1-ENUMERATION", "NamedValues") ConstraintsIntersection, SingleValueConstraint, ValueSizeConstraint, ConstraintsUnion, ValueRangeConstraint = mibBuilder.importSymbols("ASN1-REFINEMENT", "ConstraintsIntersection", "SingleValueConstraint", "ValueSizeConstraint", "ConstraintsUnion", "ValueRangeConstraint") hwFrameIndex, hwSlotIndex = mibBuilder.importSymbols("HUAWEI-DEVICE-MIB", "hwFrameIndex", "hwSlotIndex") hwMA5200Mib, = mibBuilder.importSymbols("HUAWEI-MIB", "hwMA5200Mib") HWFrameType, HWPCBType, HWPortType, HWSubPCBType = mibBuilder.importSymbols("HUAWEI-TC-MIB", "HWFrameType", "HWPCBType", "HWPortType", "HWSubPCBType") VlanIdOrNone, VlanId = mibBuilder.importSymbols("Q-BRIDGE-MIB", "VlanIdOrNone", "VlanId") ModuleCompliance, NotificationGroup = mibBuilder.importSymbols("SNMPv2-CONF", "ModuleCompliance", "NotificationGroup") Integer32, Counter64, iso, MibScalar, MibTable, MibTableRow, MibTableColumn, ModuleIdentity, IpAddress, MibIdentifier, TimeTicks, Unsigned32, Counter32, NotificationType, ObjectIdentity, Gauge32, Bits = mibBuilder.importSymbols("SNMPv2-SMI", "Integer32", "Counter64", "iso", "MibScalar", "MibTable", "MibTableRow", "MibTableColumn", "ModuleIdentity", "IpAddress", "MibIdentifier", "TimeTicks", "Unsigned32", "Counter32", "NotificationType", "ObjectIdentity", "Gauge32", "Bits") MacAddress, DisplayString, DateAndTime, TextualConvention, RowStatus, TruthValue = mibBuilder.importSymbols("SNMPv2-TC", "MacAddress", "DisplayString", "DateAndTime", "TextualConvention", "RowStatus", "TruthValue") hwMA5200Device = ModuleIdentity((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201)) if mibBuilder.loadTexts: hwMA5200Device.setLastUpdated('200408300900Z') if mibBuilder.loadTexts: hwMA5200Device.setOrganization(' NanJing Institute,Huawei Technologies Co.,Ltd. HuiHong Mansion,No.91 BaiXia Rd. NanJing, P.R. of China Zipcode:210001 Http://www.huawei.com E-mail:[email protected] ') if mibBuilder.loadTexts: hwMA5200Device.setContactInfo('The MIB contains objects of module MA5200 device.') if mibBuilder.loadTexts: hwMA5200Device.setDescription('Huawei ma5200 device mib.') hw52DevSlot = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 1)) hw52DevSlotNum = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 255))).setMaxAccess("accessiblefornotify") if mibBuilder.loadTexts: hw52DevSlotNum.setStatus('current') if mibBuilder.loadTexts: hw52DevSlotNum.setDescription(' The slot number. ') hw52DevSubSlotNum = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 1, 2), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 255))).setMaxAccess("accessiblefornotify") if mibBuilder.loadTexts: hw52DevSubSlotNum.setStatus('current') if mibBuilder.loadTexts: hw52DevSubSlotNum.setDescription(' THe sub Slot number. ') hw52DevPortNum = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 1, 3), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 255))).setMaxAccess("accessiblefornotify") if mibBuilder.loadTexts: hw52DevPortNum.setStatus('current') if mibBuilder.loadTexts: hw52DevPortNum.setDescription(' The port number. ') hw52DevPortOperateStatus = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 1, 4), Integer32()).setMaxAccess("accessiblefornotify") if mibBuilder.loadTexts: hw52DevPortOperateStatus.setStatus('current') if mibBuilder.loadTexts: hw52DevPortOperateStatus.setDescription(' The port Operate Status. ') hw52DevSlotTrap = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 2)) hw52DevSlotReset = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 2, 1006)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum")) if mibBuilder.loadTexts: hw52DevSlotReset.setStatus('current') if mibBuilder.loadTexts: hw52DevSlotReset.setDescription(' The trap report of slot reset. ') hw52DevSlotRegOK = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 2, 1007)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum")) if mibBuilder.loadTexts: hw52DevSlotRegOK.setStatus('current') if mibBuilder.loadTexts: hw52DevSlotRegOK.setDescription(' The trap report of slot register OK. ') hw52DevSlotPlugOut = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 2, 1008)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum")) if mibBuilder.loadTexts: hw52DevSlotPlugOut.setStatus('current') if mibBuilder.loadTexts: hw52DevSlotPlugOut.setDescription(' The trap report of slot plug out. ') hwHdDev = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 5)) hwHdDevTable = MibTable((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 5, 1), ) if mibBuilder.loadTexts: hwHdDevTable.setStatus('current') if mibBuilder.loadTexts: hwHdDevTable.setDescription(' This table contains harddisk information. ') hwHdDevEntry = MibTableRow((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 5, 1, 1), ).setIndexNames((0, "HUAWEI-DEVICE-MIB", "hwFrameIndex"), (0, "HUAWEI-DEVICE-MIB", "hwSlotIndex"), (0, "HUAWEI-MA5200-DEVICE-MIB", "hwHdDevIndex")) if mibBuilder.loadTexts: hwHdDevEntry.setStatus('current') if mibBuilder.loadTexts: hwHdDevEntry.setDescription(' The table entry of harddisk information. ') hwHdDevIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 5, 1, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 65535))) if mibBuilder.loadTexts: hwHdDevIndex.setStatus('current') if mibBuilder.loadTexts: hwHdDevIndex.setDescription(' The index of harddisk information table. ') hwHdDevSize = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 5, 1, 1, 2), Integer32()).setMaxAccess("readonly") if mibBuilder.loadTexts: hwHdDevSize.setStatus('current') if mibBuilder.loadTexts: hwHdDevSize.setDescription(' Total Size in Octets of harddisk memory. ') hwHdDevFree = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 5, 1, 1, 3), Integer32()).setMaxAccess("readonly") if mibBuilder.loadTexts: hwHdDevFree.setStatus('current') if mibBuilder.loadTexts: hwHdDevFree.setDescription(' Unused Size in Octets of harddisk memory. ') hw52DevPortTrap = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 6)) hw52DevPortUp = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 6, 1)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSubSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevPortNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevPortOperateStatus")) if mibBuilder.loadTexts: hw52DevPortUp.setStatus('current') if mibBuilder.loadTexts: hw52DevPortUp.setDescription(' Port up. ') hw52DevPortDown = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 6, 2)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSubSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevPortNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevPortOperateStatus")) if mibBuilder.loadTexts: hw52DevPortDown.setStatus('current') if mibBuilder.loadTexts: hw52DevPortDown.setDescription(' Port down. ') hw52DevUserAttackInfo = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 7)) hw52DevUserIPAddr = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 7, 1), IpAddress()).setMaxAccess("accessiblefornotify") if mibBuilder.loadTexts: hw52DevUserIPAddr.setStatus('current') if mibBuilder.loadTexts: hw52DevUserIPAddr.setDescription(" The user's IP address. ") hw52DevUserMac = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 7, 2), MacAddress()).setMaxAccess("accessiblefornotify") if mibBuilder.loadTexts: hw52DevUserMac.setStatus('current') if mibBuilder.loadTexts: hw52DevUserMac.setDescription(" The user's MAC address. ") hw52DevUserIndex = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 7, 3), Integer32()).setMaxAccess("accessiblefornotify") if mibBuilder.loadTexts: hw52DevUserIndex.setStatus('current') if mibBuilder.loadTexts: hw52DevUserIndex.setDescription(' The index of user, could be vlan id, Session id or VCD according with the type of user. ') hw52DevUserOuterVlan = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 7, 4), VlanIdOrNone()).setMaxAccess("accessiblefornotify") if mibBuilder.loadTexts: hw52DevUserOuterVlan.setStatus('current') if mibBuilder.loadTexts: hw52DevUserOuterVlan.setDescription(' The outer vlan. ') hw52DevUserAttack = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 8)) hw52DevUserAttackTrap = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 8, 1)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevUserIPAddr"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevUserMac"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSubSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevPortNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevUserIndex"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevUserOuterVlan")) if mibBuilder.loadTexts: hw52DevUserAttackTrap.setStatus('current') if mibBuilder.loadTexts: hw52DevUserAttackTrap.setDescription(' The trap report of user attack. ') hw52TrapSwitch = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 9)) hw52HwdeviceOrBasetrap = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 9, 1), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 3))).clone(namedValues=NamedValues(("disable", 1), ("hwdevice", 2), ("basetrap", 3)))).setMaxAccess("readwrite") if mibBuilder.loadTexts: hw52HwdeviceOrBasetrap.setStatus('current') if mibBuilder.loadTexts: hw52HwdeviceOrBasetrap.setDescription(' Trap switches between basetrap and hwdevice. ') hw52DevMemUsage = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 10)) hw52DevMemUsageThreshold = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 10, 1), Integer32()).setMaxAccess("accessiblefornotify") if mibBuilder.loadTexts: hw52DevMemUsageThreshold.setStatus('current') if mibBuilder.loadTexts: hw52DevMemUsageThreshold.setDescription(' Memory usage threshold. ') hw52DevMemUsageTrap = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 11)) hw52DevMemUsageAlarm = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 11, 1)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevMemUsageThreshold")) if mibBuilder.loadTexts: hw52DevMemUsageAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevMemUsageAlarm.setDescription(' Memory usage alarm. ') hw52DevMemUsageResume = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 11, 2)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevMemUsageThreshold")) if mibBuilder.loadTexts: hw52DevMemUsageResume.setStatus('current') if mibBuilder.loadTexts: hw52DevMemUsageResume.setDescription(' Memory usage alarm resum. ') hw52DevStartupFileFail = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 12)) hw52DevDefaultStartupFileName = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 12, 1), OctetString()).setMaxAccess("accessiblefornotify") if mibBuilder.loadTexts: hw52DevDefaultStartupFileName.setStatus('current') if mibBuilder.loadTexts: hw52DevDefaultStartupFileName.setDescription(' Default startup file name. ') hw52DevCurrentStartupFileName = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 12, 2), OctetString()).setMaxAccess("accessiblefornotify") if mibBuilder.loadTexts: hw52DevCurrentStartupFileName.setStatus('current') if mibBuilder.loadTexts: hw52DevCurrentStartupFileName.setDescription(' Current startup file name. ') hw52DevStartupFileFailTrap = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 13)) hw52DevStartupFileReloadAlarm = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 13, 1)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevDefaultStartupFileName"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevCurrentStartupFileName"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum")) if mibBuilder.loadTexts: hw52DevStartupFileReloadAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevStartupFileReloadAlarm.setDescription(' Startup file load fail alarm. ') hw52DevDiskSelfTestFail = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 14)) hw52DevDiskSelfTestDiskType = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 14, 1), OctetString()).setMaxAccess("accessiblefornotify") if mibBuilder.loadTexts: hw52DevDiskSelfTestDiskType.setStatus('current') if mibBuilder.loadTexts: hw52DevDiskSelfTestDiskType.setDescription(' Disk type: cfcard or harddisk. ') hw52DevDiskSelfTestFailStep = MibScalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 14, 2), OctetString()).setMaxAccess("accessiblefornotify") if mibBuilder.loadTexts: hw52DevDiskSelfTestFailStep.setStatus('current') if mibBuilder.loadTexts: hw52DevDiskSelfTestFailStep.setDescription(' Disk self-test fail step. ') hw52DevDiskSelfTestFailTrap = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 15)) hw52DevDiskSelfTestFailAlarm = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 15, 1)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevDiskSelfTestDiskType"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevDiskSelfTestFailStep"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum")) if mibBuilder.loadTexts: hw52DevDiskSelfTestFailAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevDiskSelfTestFailAlarm.setDescription(' Disk selftest error alarm. ') hw52DevCfUnregisterTrap = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 16)) hw52DevCfUnregisteredAlarm = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 16, 1)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum")) if mibBuilder.loadTexts: hw52DevCfUnregisteredAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevCfUnregisteredAlarm.setDescription(' Cf card unregistered. ') hw52DevHpt372ErrorTrap = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 17)) hw52DevHpt372ErrorAlarm = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 17, 1)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum")) if mibBuilder.loadTexts: hw52DevHpt372ErrorAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevHpt372ErrorAlarm.setDescription(' Hpt372 occur error. ') hw52DevHarddiskUsageTrap = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 18)) hw52DevHarddiskUsageAlarm = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 18, 1)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum")) if mibBuilder.loadTexts: hw52DevHarddiskUsageAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevHarddiskUsageAlarm.setDescription(' Harddisk usage alarm. ') hw52DevHarddiskUsageResume = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 18, 2)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum")) if mibBuilder.loadTexts: hw52DevHarddiskUsageResume.setStatus('current') if mibBuilder.loadTexts: hw52DevHarddiskUsageResume.setDescription(' Harddisk usage alarm resume. ') hw52PacketError = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 19)) hw52InPacketErrorTrap = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 19, 1)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSubSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevPortNum")) if mibBuilder.loadTexts: hw52InPacketErrorTrap.setStatus('current') if mibBuilder.loadTexts: hw52InPacketErrorTrap.setDescription(' In packet error. ') hw52OutPacketErrorTrap = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 19, 2)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSubSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevPortNum")) if mibBuilder.loadTexts: hw52OutPacketErrorTrap.setStatus('current') if mibBuilder.loadTexts: hw52OutPacketErrorTrap.setDescription(' Out packet error. ') hw52DevCfcardUsageTrap = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 20)) hw52DevCfcardUsageAlarm = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 20, 1)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum")) if mibBuilder.loadTexts: hw52DevCfcardUsageAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevCfcardUsageAlarm.setDescription(' Cfcard usage alarm. ') hw52DevCfcardUsageResume = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 20, 2)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum")) if mibBuilder.loadTexts: hw52DevCfcardUsageResume.setStatus('current') if mibBuilder.loadTexts: hw52DevCfcardUsageResume.setDescription(' Cfcard usage alarm resume. ') hw52DevFlashUsageTrap = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 21)) hw52DevFlashUsageAlarm = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 21, 1)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum")) if mibBuilder.loadTexts: hw52DevFlashUsageAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevFlashUsageAlarm.setDescription(' Flash usage alarm. ') hw52DevFlashUsageResume = NotificationType((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 21, 2)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum")) if mibBuilder.loadTexts: hw52DevFlashUsageResume.setStatus('current') if mibBuilder.loadTexts: hw52DevFlashUsageResume.setDescription(' Flash usage alarm resume. ') hw52DevConformance = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200)) hw52DevCompliances = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 1)) hw52DevCompliance = ModuleCompliance((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 1, 1)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotGroup"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevHdTableGroup"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevTrapsGroup"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevTrapObjectsGroup")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): hw52DevCompliance = hw52DevCompliance.setStatus('current') if mibBuilder.loadTexts: hw52DevCompliance.setDescription('The compliance statement for systems supporting the this module.') hw52DevObjectGroups = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 2)) hw52DevSlotGroup = ObjectGroup((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 2, 1)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSubSlotNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevPortNum"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevPortOperateStatus")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): hw52DevSlotGroup = hw52DevSlotGroup.setStatus('current') if mibBuilder.loadTexts: hw52DevSlotGroup.setDescription('The MA5200 device slot group objects.') hw52DevHdTableGroup = ObjectGroup((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 2, 2)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hwHdDevSize"), ("HUAWEI-MA5200-DEVICE-MIB", "hwHdDevFree")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): hw52DevHdTableGroup = hw52DevHdTableGroup.setStatus('current') if mibBuilder.loadTexts: hw52DevHdTableGroup.setDescription('The MA5200 device harddisk information table group.') hw52DevTrapsGroup = NotificationGroup((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 2, 3)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotReset"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotRegOK"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevSlotPlugOut"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevPortUp"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevPortDown"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevUserAttackTrap"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevMemUsageAlarm"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevMemUsageResume"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevStartupFileReloadAlarm"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevDiskSelfTestFailAlarm"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevCfUnregisteredAlarm"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevHpt372ErrorAlarm"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevHarddiskUsageAlarm"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevHarddiskUsageResume"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52InPacketErrorTrap"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52OutPacketErrorTrap"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevCfcardUsageAlarm"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevCfcardUsageResume"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevFlashUsageAlarm"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevFlashUsageResume")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): hw52DevTrapsGroup = hw52DevTrapsGroup.setStatus('current') if mibBuilder.loadTexts: hw52DevTrapsGroup.setDescription('The MA5200 device traps group.') hw52DevTrapObjectsGroup = ObjectGroup((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 2, 4)).setObjects(("HUAWEI-MA5200-DEVICE-MIB", "hw52DevUserIPAddr"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevUserMac"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevUserIndex"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevUserOuterVlan"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52HwdeviceOrBasetrap"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevMemUsageThreshold"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevDefaultStartupFileName"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevCurrentStartupFileName"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevDiskSelfTestDiskType"), ("HUAWEI-MA5200-DEVICE-MIB", "hw52DevDiskSelfTestFailStep")) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): hw52DevTrapObjectsGroup = hw52DevTrapObjectsGroup.setStatus('current') if mibBuilder.loadTexts: hw52DevTrapObjectsGroup.setDescription('The objects of MA5200 device traps group.') mibBuilder.exportSymbols("HUAWEI-MA5200-DEVICE-MIB", hwHdDevFree=hwHdDevFree, hw52DevHarddiskUsageResume=hw52DevHarddiskUsageResume, hw52DevConformance=hw52DevConformance, hw52DevObjectGroups=hw52DevObjectGroups, hw52DevMemUsageTrap=hw52DevMemUsageTrap, hw52DevHdTableGroup=hw52DevHdTableGroup, hw52DevTrapObjectsGroup=hw52DevTrapObjectsGroup, hw52DevSubSlotNum=hw52DevSubSlotNum, hw52DevCfcardUsageResume=hw52DevCfcardUsageResume, hw52DevHpt372ErrorAlarm=hw52DevHpt372ErrorAlarm, hw52HwdeviceOrBasetrap=hw52HwdeviceOrBasetrap, hw52DevMemUsageResume=hw52DevMemUsageResume, hwHdDevIndex=hwHdDevIndex, hw52DevUserAttackInfo=hw52DevUserAttackInfo, hw52DevSlotReset=hw52DevSlotReset, hw52DevSlot=hw52DevSlot, hw52DevMemUsageAlarm=hw52DevMemUsageAlarm, hw52DevUserIndex=hw52DevUserIndex, hw52DevFlashUsageAlarm=hw52DevFlashUsageAlarm, hw52DevMemUsageThreshold=hw52DevMemUsageThreshold, hw52DevDefaultStartupFileName=hw52DevDefaultStartupFileName, hw52DevHarddiskUsageAlarm=hw52DevHarddiskUsageAlarm, hw52DevPortTrap=hw52DevPortTrap, hw52DevUserIPAddr=hw52DevUserIPAddr, hw52TrapSwitch=hw52TrapSwitch, hwHdDevEntry=hwHdDevEntry, hw52DevDiskSelfTestFail=hw52DevDiskSelfTestFail, hw52DevSlotPlugOut=hw52DevSlotPlugOut, hwHdDevSize=hwHdDevSize, hw52DevUserAttack=hw52DevUserAttack, hw52DevPortUp=hw52DevPortUp, hw52DevStartupFileFail=hw52DevStartupFileFail, hw52DevDiskSelfTestDiskType=hw52DevDiskSelfTestDiskType, hw52DevDiskSelfTestFailAlarm=hw52DevDiskSelfTestFailAlarm, hw52DevCfUnregisteredAlarm=hw52DevCfUnregisteredAlarm, hw52DevTrapsGroup=hw52DevTrapsGroup, hw52DevCurrentStartupFileName=hw52DevCurrentStartupFileName, hw52DevFlashUsageTrap=hw52DevFlashUsageTrap, hw52DevCompliances=hw52DevCompliances, hw52DevSlotGroup=hw52DevSlotGroup, hwHdDev=hwHdDev, hw52DevDiskSelfTestFailTrap=hw52DevDiskSelfTestFailTrap, hw52PacketError=hw52PacketError, hw52InPacketErrorTrap=hw52InPacketErrorTrap, hw52DevStartupFileFailTrap=hw52DevStartupFileFailTrap, hw52DevCfUnregisterTrap=hw52DevCfUnregisterTrap, hw52DevCfcardUsageTrap=hw52DevCfcardUsageTrap, hw52DevHarddiskUsageTrap=hw52DevHarddiskUsageTrap, hw52DevCfcardUsageAlarm=hw52DevCfcardUsageAlarm, hw52DevFlashUsageResume=hw52DevFlashUsageResume, hw52DevDiskSelfTestFailStep=hw52DevDiskSelfTestFailStep, hw52DevUserOuterVlan=hw52DevUserOuterVlan, hw52DevUserAttackTrap=hw52DevUserAttackTrap, hw52DevUserMac=hw52DevUserMac, hw52DevPortDown=hw52DevPortDown, hwHdDevTable=hwHdDevTable, hw52DevCompliance=hw52DevCompliance, hw52DevPortNum=hw52DevPortNum, hw52DevHpt372ErrorTrap=hw52DevHpt372ErrorTrap, hw52DevStartupFileReloadAlarm=hw52DevStartupFileReloadAlarm, hw52DevMemUsage=hw52DevMemUsage, hw52DevSlotNum=hw52DevSlotNum, hw52DevPortOperateStatus=hw52DevPortOperateStatus, hwMA5200Device=hwMA5200Device, PYSNMP_MODULE_ID=hwMA5200Device, hw52DevSlotRegOK=hw52DevSlotRegOK, hw52OutPacketErrorTrap=hw52OutPacketErrorTrap, hw52DevSlotTrap=hw52DevSlotTrap)
(integer, object_identifier, octet_string) = mibBuilder.importSymbols('ASN1', 'Integer', 'ObjectIdentifier', 'OctetString') (named_values,) = mibBuilder.importSymbols('ASN1-ENUMERATION', 'NamedValues') (constraints_intersection, single_value_constraint, value_size_constraint, constraints_union, value_range_constraint) = mibBuilder.importSymbols('ASN1-REFINEMENT', 'ConstraintsIntersection', 'SingleValueConstraint', 'ValueSizeConstraint', 'ConstraintsUnion', 'ValueRangeConstraint') (hw_frame_index, hw_slot_index) = mibBuilder.importSymbols('HUAWEI-DEVICE-MIB', 'hwFrameIndex', 'hwSlotIndex') (hw_ma5200_mib,) = mibBuilder.importSymbols('HUAWEI-MIB', 'hwMA5200Mib') (hw_frame_type, hwpcb_type, hw_port_type, hw_sub_pcb_type) = mibBuilder.importSymbols('HUAWEI-TC-MIB', 'HWFrameType', 'HWPCBType', 'HWPortType', 'HWSubPCBType') (vlan_id_or_none, vlan_id) = mibBuilder.importSymbols('Q-BRIDGE-MIB', 'VlanIdOrNone', 'VlanId') (module_compliance, notification_group) = mibBuilder.importSymbols('SNMPv2-CONF', 'ModuleCompliance', 'NotificationGroup') (integer32, counter64, iso, mib_scalar, mib_table, mib_table_row, mib_table_column, module_identity, ip_address, mib_identifier, time_ticks, unsigned32, counter32, notification_type, object_identity, gauge32, bits) = mibBuilder.importSymbols('SNMPv2-SMI', 'Integer32', 'Counter64', 'iso', 'MibScalar', 'MibTable', 'MibTableRow', 'MibTableColumn', 'ModuleIdentity', 'IpAddress', 'MibIdentifier', 'TimeTicks', 'Unsigned32', 'Counter32', 'NotificationType', 'ObjectIdentity', 'Gauge32', 'Bits') (mac_address, display_string, date_and_time, textual_convention, row_status, truth_value) = mibBuilder.importSymbols('SNMPv2-TC', 'MacAddress', 'DisplayString', 'DateAndTime', 'TextualConvention', 'RowStatus', 'TruthValue') hw_ma5200_device = module_identity((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201)) if mibBuilder.loadTexts: hwMA5200Device.setLastUpdated('200408300900Z') if mibBuilder.loadTexts: hwMA5200Device.setOrganization(' NanJing Institute,Huawei Technologies Co.,Ltd. HuiHong Mansion,No.91 BaiXia Rd. NanJing, P.R. of China Zipcode:210001 Http://www.huawei.com E-mail:[email protected] ') if mibBuilder.loadTexts: hwMA5200Device.setContactInfo('The MIB contains objects of module MA5200 device.') if mibBuilder.loadTexts: hwMA5200Device.setDescription('Huawei ma5200 device mib.') hw52_dev_slot = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 1)) hw52_dev_slot_num = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(0, 255))).setMaxAccess('accessiblefornotify') if mibBuilder.loadTexts: hw52DevSlotNum.setStatus('current') if mibBuilder.loadTexts: hw52DevSlotNum.setDescription(' The slot number. ') hw52_dev_sub_slot_num = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 1, 2), integer32().subtype(subtypeSpec=value_range_constraint(0, 255))).setMaxAccess('accessiblefornotify') if mibBuilder.loadTexts: hw52DevSubSlotNum.setStatus('current') if mibBuilder.loadTexts: hw52DevSubSlotNum.setDescription(' THe sub Slot number. ') hw52_dev_port_num = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 1, 3), integer32().subtype(subtypeSpec=value_range_constraint(0, 255))).setMaxAccess('accessiblefornotify') if mibBuilder.loadTexts: hw52DevPortNum.setStatus('current') if mibBuilder.loadTexts: hw52DevPortNum.setDescription(' The port number. ') hw52_dev_port_operate_status = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 1, 4), integer32()).setMaxAccess('accessiblefornotify') if mibBuilder.loadTexts: hw52DevPortOperateStatus.setStatus('current') if mibBuilder.loadTexts: hw52DevPortOperateStatus.setDescription(' The port Operate Status. ') hw52_dev_slot_trap = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 2)) hw52_dev_slot_reset = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 2, 1006)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum')) if mibBuilder.loadTexts: hw52DevSlotReset.setStatus('current') if mibBuilder.loadTexts: hw52DevSlotReset.setDescription(' The trap report of slot reset. ') hw52_dev_slot_reg_ok = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 2, 1007)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum')) if mibBuilder.loadTexts: hw52DevSlotRegOK.setStatus('current') if mibBuilder.loadTexts: hw52DevSlotRegOK.setDescription(' The trap report of slot register OK. ') hw52_dev_slot_plug_out = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 2, 1008)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum')) if mibBuilder.loadTexts: hw52DevSlotPlugOut.setStatus('current') if mibBuilder.loadTexts: hw52DevSlotPlugOut.setDescription(' The trap report of slot plug out. ') hw_hd_dev = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 5)) hw_hd_dev_table = mib_table((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 5, 1)) if mibBuilder.loadTexts: hwHdDevTable.setStatus('current') if mibBuilder.loadTexts: hwHdDevTable.setDescription(' This table contains harddisk information. ') hw_hd_dev_entry = mib_table_row((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 5, 1, 1)).setIndexNames((0, 'HUAWEI-DEVICE-MIB', 'hwFrameIndex'), (0, 'HUAWEI-DEVICE-MIB', 'hwSlotIndex'), (0, 'HUAWEI-MA5200-DEVICE-MIB', 'hwHdDevIndex')) if mibBuilder.loadTexts: hwHdDevEntry.setStatus('current') if mibBuilder.loadTexts: hwHdDevEntry.setDescription(' The table entry of harddisk information. ') hw_hd_dev_index = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 5, 1, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(0, 65535))) if mibBuilder.loadTexts: hwHdDevIndex.setStatus('current') if mibBuilder.loadTexts: hwHdDevIndex.setDescription(' The index of harddisk information table. ') hw_hd_dev_size = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 5, 1, 1, 2), integer32()).setMaxAccess('readonly') if mibBuilder.loadTexts: hwHdDevSize.setStatus('current') if mibBuilder.loadTexts: hwHdDevSize.setDescription(' Total Size in Octets of harddisk memory. ') hw_hd_dev_free = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 5, 1, 1, 3), integer32()).setMaxAccess('readonly') if mibBuilder.loadTexts: hwHdDevFree.setStatus('current') if mibBuilder.loadTexts: hwHdDevFree.setDescription(' Unused Size in Octets of harddisk memory. ') hw52_dev_port_trap = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 6)) hw52_dev_port_up = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 6, 1)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSubSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevPortNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevPortOperateStatus')) if mibBuilder.loadTexts: hw52DevPortUp.setStatus('current') if mibBuilder.loadTexts: hw52DevPortUp.setDescription(' Port up. ') hw52_dev_port_down = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 6, 2)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSubSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevPortNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevPortOperateStatus')) if mibBuilder.loadTexts: hw52DevPortDown.setStatus('current') if mibBuilder.loadTexts: hw52DevPortDown.setDescription(' Port down. ') hw52_dev_user_attack_info = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 7)) hw52_dev_user_ip_addr = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 7, 1), ip_address()).setMaxAccess('accessiblefornotify') if mibBuilder.loadTexts: hw52DevUserIPAddr.setStatus('current') if mibBuilder.loadTexts: hw52DevUserIPAddr.setDescription(" The user's IP address. ") hw52_dev_user_mac = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 7, 2), mac_address()).setMaxAccess('accessiblefornotify') if mibBuilder.loadTexts: hw52DevUserMac.setStatus('current') if mibBuilder.loadTexts: hw52DevUserMac.setDescription(" The user's MAC address. ") hw52_dev_user_index = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 7, 3), integer32()).setMaxAccess('accessiblefornotify') if mibBuilder.loadTexts: hw52DevUserIndex.setStatus('current') if mibBuilder.loadTexts: hw52DevUserIndex.setDescription(' The index of user, could be vlan id, Session id or VCD according with the type of user. ') hw52_dev_user_outer_vlan = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 7, 4), vlan_id_or_none()).setMaxAccess('accessiblefornotify') if mibBuilder.loadTexts: hw52DevUserOuterVlan.setStatus('current') if mibBuilder.loadTexts: hw52DevUserOuterVlan.setDescription(' The outer vlan. ') hw52_dev_user_attack = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 8)) hw52_dev_user_attack_trap = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 8, 1)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevUserIPAddr'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevUserMac'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSubSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevPortNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevUserIndex'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevUserOuterVlan')) if mibBuilder.loadTexts: hw52DevUserAttackTrap.setStatus('current') if mibBuilder.loadTexts: hw52DevUserAttackTrap.setDescription(' The trap report of user attack. ') hw52_trap_switch = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 9)) hw52_hwdevice_or_basetrap = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 9, 1), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2, 3))).clone(namedValues=named_values(('disable', 1), ('hwdevice', 2), ('basetrap', 3)))).setMaxAccess('readwrite') if mibBuilder.loadTexts: hw52HwdeviceOrBasetrap.setStatus('current') if mibBuilder.loadTexts: hw52HwdeviceOrBasetrap.setDescription(' Trap switches between basetrap and hwdevice. ') hw52_dev_mem_usage = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 10)) hw52_dev_mem_usage_threshold = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 10, 1), integer32()).setMaxAccess('accessiblefornotify') if mibBuilder.loadTexts: hw52DevMemUsageThreshold.setStatus('current') if mibBuilder.loadTexts: hw52DevMemUsageThreshold.setDescription(' Memory usage threshold. ') hw52_dev_mem_usage_trap = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 11)) hw52_dev_mem_usage_alarm = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 11, 1)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevMemUsageThreshold')) if mibBuilder.loadTexts: hw52DevMemUsageAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevMemUsageAlarm.setDescription(' Memory usage alarm. ') hw52_dev_mem_usage_resume = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 11, 2)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevMemUsageThreshold')) if mibBuilder.loadTexts: hw52DevMemUsageResume.setStatus('current') if mibBuilder.loadTexts: hw52DevMemUsageResume.setDescription(' Memory usage alarm resum. ') hw52_dev_startup_file_fail = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 12)) hw52_dev_default_startup_file_name = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 12, 1), octet_string()).setMaxAccess('accessiblefornotify') if mibBuilder.loadTexts: hw52DevDefaultStartupFileName.setStatus('current') if mibBuilder.loadTexts: hw52DevDefaultStartupFileName.setDescription(' Default startup file name. ') hw52_dev_current_startup_file_name = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 12, 2), octet_string()).setMaxAccess('accessiblefornotify') if mibBuilder.loadTexts: hw52DevCurrentStartupFileName.setStatus('current') if mibBuilder.loadTexts: hw52DevCurrentStartupFileName.setDescription(' Current startup file name. ') hw52_dev_startup_file_fail_trap = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 13)) hw52_dev_startup_file_reload_alarm = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 13, 1)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevDefaultStartupFileName'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevCurrentStartupFileName'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum')) if mibBuilder.loadTexts: hw52DevStartupFileReloadAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevStartupFileReloadAlarm.setDescription(' Startup file load fail alarm. ') hw52_dev_disk_self_test_fail = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 14)) hw52_dev_disk_self_test_disk_type = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 14, 1), octet_string()).setMaxAccess('accessiblefornotify') if mibBuilder.loadTexts: hw52DevDiskSelfTestDiskType.setStatus('current') if mibBuilder.loadTexts: hw52DevDiskSelfTestDiskType.setDescription(' Disk type: cfcard or harddisk. ') hw52_dev_disk_self_test_fail_step = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 14, 2), octet_string()).setMaxAccess('accessiblefornotify') if mibBuilder.loadTexts: hw52DevDiskSelfTestFailStep.setStatus('current') if mibBuilder.loadTexts: hw52DevDiskSelfTestFailStep.setDescription(' Disk self-test fail step. ') hw52_dev_disk_self_test_fail_trap = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 15)) hw52_dev_disk_self_test_fail_alarm = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 15, 1)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevDiskSelfTestDiskType'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevDiskSelfTestFailStep'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum')) if mibBuilder.loadTexts: hw52DevDiskSelfTestFailAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevDiskSelfTestFailAlarm.setDescription(' Disk selftest error alarm. ') hw52_dev_cf_unregister_trap = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 16)) hw52_dev_cf_unregistered_alarm = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 16, 1)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum')) if mibBuilder.loadTexts: hw52DevCfUnregisteredAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevCfUnregisteredAlarm.setDescription(' Cf card unregistered. ') hw52_dev_hpt372_error_trap = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 17)) hw52_dev_hpt372_error_alarm = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 17, 1)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum')) if mibBuilder.loadTexts: hw52DevHpt372ErrorAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevHpt372ErrorAlarm.setDescription(' Hpt372 occur error. ') hw52_dev_harddisk_usage_trap = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 18)) hw52_dev_harddisk_usage_alarm = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 18, 1)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum')) if mibBuilder.loadTexts: hw52DevHarddiskUsageAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevHarddiskUsageAlarm.setDescription(' Harddisk usage alarm. ') hw52_dev_harddisk_usage_resume = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 18, 2)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum')) if mibBuilder.loadTexts: hw52DevHarddiskUsageResume.setStatus('current') if mibBuilder.loadTexts: hw52DevHarddiskUsageResume.setDescription(' Harddisk usage alarm resume. ') hw52_packet_error = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 19)) hw52_in_packet_error_trap = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 19, 1)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSubSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevPortNum')) if mibBuilder.loadTexts: hw52InPacketErrorTrap.setStatus('current') if mibBuilder.loadTexts: hw52InPacketErrorTrap.setDescription(' In packet error. ') hw52_out_packet_error_trap = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 19, 2)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSubSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevPortNum')) if mibBuilder.loadTexts: hw52OutPacketErrorTrap.setStatus('current') if mibBuilder.loadTexts: hw52OutPacketErrorTrap.setDescription(' Out packet error. ') hw52_dev_cfcard_usage_trap = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 20)) hw52_dev_cfcard_usage_alarm = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 20, 1)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum')) if mibBuilder.loadTexts: hw52DevCfcardUsageAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevCfcardUsageAlarm.setDescription(' Cfcard usage alarm. ') hw52_dev_cfcard_usage_resume = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 20, 2)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum')) if mibBuilder.loadTexts: hw52DevCfcardUsageResume.setStatus('current') if mibBuilder.loadTexts: hw52DevCfcardUsageResume.setDescription(' Cfcard usage alarm resume. ') hw52_dev_flash_usage_trap = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 21)) hw52_dev_flash_usage_alarm = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 21, 1)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum')) if mibBuilder.loadTexts: hw52DevFlashUsageAlarm.setStatus('current') if mibBuilder.loadTexts: hw52DevFlashUsageAlarm.setDescription(' Flash usage alarm. ') hw52_dev_flash_usage_resume = notification_type((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 21, 2)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum')) if mibBuilder.loadTexts: hw52DevFlashUsageResume.setStatus('current') if mibBuilder.loadTexts: hw52DevFlashUsageResume.setDescription(' Flash usage alarm resume. ') hw52_dev_conformance = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200)) hw52_dev_compliances = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 1)) hw52_dev_compliance = module_compliance((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 1, 1)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotGroup'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevHdTableGroup'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevTrapsGroup'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevTrapObjectsGroup')) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): hw52_dev_compliance = hw52DevCompliance.setStatus('current') if mibBuilder.loadTexts: hw52DevCompliance.setDescription('The compliance statement for systems supporting the this module.') hw52_dev_object_groups = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 2)) hw52_dev_slot_group = object_group((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 2, 1)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSubSlotNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevPortNum'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevPortOperateStatus')) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): hw52_dev_slot_group = hw52DevSlotGroup.setStatus('current') if mibBuilder.loadTexts: hw52DevSlotGroup.setDescription('The MA5200 device slot group objects.') hw52_dev_hd_table_group = object_group((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 2, 2)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hwHdDevSize'), ('HUAWEI-MA5200-DEVICE-MIB', 'hwHdDevFree')) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): hw52_dev_hd_table_group = hw52DevHdTableGroup.setStatus('current') if mibBuilder.loadTexts: hw52DevHdTableGroup.setDescription('The MA5200 device harddisk information table group.') hw52_dev_traps_group = notification_group((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 2, 3)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotReset'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotRegOK'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevSlotPlugOut'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevPortUp'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevPortDown'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevUserAttackTrap'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevMemUsageAlarm'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevMemUsageResume'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevStartupFileReloadAlarm'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevDiskSelfTestFailAlarm'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevCfUnregisteredAlarm'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevHpt372ErrorAlarm'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevHarddiskUsageAlarm'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevHarddiskUsageResume'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52InPacketErrorTrap'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52OutPacketErrorTrap'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevCfcardUsageAlarm'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevCfcardUsageResume'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevFlashUsageAlarm'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevFlashUsageResume')) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): hw52_dev_traps_group = hw52DevTrapsGroup.setStatus('current') if mibBuilder.loadTexts: hw52DevTrapsGroup.setDescription('The MA5200 device traps group.') hw52_dev_trap_objects_group = object_group((1, 3, 6, 1, 4, 1, 2011, 2, 6, 2, 201, 200, 2, 4)).setObjects(('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevUserIPAddr'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevUserMac'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevUserIndex'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevUserOuterVlan'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52HwdeviceOrBasetrap'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevMemUsageThreshold'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevDefaultStartupFileName'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevCurrentStartupFileName'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevDiskSelfTestDiskType'), ('HUAWEI-MA5200-DEVICE-MIB', 'hw52DevDiskSelfTestFailStep')) if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0): hw52_dev_trap_objects_group = hw52DevTrapObjectsGroup.setStatus('current') if mibBuilder.loadTexts: hw52DevTrapObjectsGroup.setDescription('The objects of MA5200 device traps group.') mibBuilder.exportSymbols('HUAWEI-MA5200-DEVICE-MIB', hwHdDevFree=hwHdDevFree, hw52DevHarddiskUsageResume=hw52DevHarddiskUsageResume, hw52DevConformance=hw52DevConformance, hw52DevObjectGroups=hw52DevObjectGroups, hw52DevMemUsageTrap=hw52DevMemUsageTrap, hw52DevHdTableGroup=hw52DevHdTableGroup, hw52DevTrapObjectsGroup=hw52DevTrapObjectsGroup, hw52DevSubSlotNum=hw52DevSubSlotNum, hw52DevCfcardUsageResume=hw52DevCfcardUsageResume, hw52DevHpt372ErrorAlarm=hw52DevHpt372ErrorAlarm, hw52HwdeviceOrBasetrap=hw52HwdeviceOrBasetrap, hw52DevMemUsageResume=hw52DevMemUsageResume, hwHdDevIndex=hwHdDevIndex, hw52DevUserAttackInfo=hw52DevUserAttackInfo, hw52DevSlotReset=hw52DevSlotReset, hw52DevSlot=hw52DevSlot, hw52DevMemUsageAlarm=hw52DevMemUsageAlarm, hw52DevUserIndex=hw52DevUserIndex, hw52DevFlashUsageAlarm=hw52DevFlashUsageAlarm, hw52DevMemUsageThreshold=hw52DevMemUsageThreshold, hw52DevDefaultStartupFileName=hw52DevDefaultStartupFileName, hw52DevHarddiskUsageAlarm=hw52DevHarddiskUsageAlarm, hw52DevPortTrap=hw52DevPortTrap, hw52DevUserIPAddr=hw52DevUserIPAddr, hw52TrapSwitch=hw52TrapSwitch, hwHdDevEntry=hwHdDevEntry, hw52DevDiskSelfTestFail=hw52DevDiskSelfTestFail, hw52DevSlotPlugOut=hw52DevSlotPlugOut, hwHdDevSize=hwHdDevSize, hw52DevUserAttack=hw52DevUserAttack, hw52DevPortUp=hw52DevPortUp, hw52DevStartupFileFail=hw52DevStartupFileFail, hw52DevDiskSelfTestDiskType=hw52DevDiskSelfTestDiskType, hw52DevDiskSelfTestFailAlarm=hw52DevDiskSelfTestFailAlarm, hw52DevCfUnregisteredAlarm=hw52DevCfUnregisteredAlarm, hw52DevTrapsGroup=hw52DevTrapsGroup, hw52DevCurrentStartupFileName=hw52DevCurrentStartupFileName, hw52DevFlashUsageTrap=hw52DevFlashUsageTrap, hw52DevCompliances=hw52DevCompliances, hw52DevSlotGroup=hw52DevSlotGroup, hwHdDev=hwHdDev, hw52DevDiskSelfTestFailTrap=hw52DevDiskSelfTestFailTrap, hw52PacketError=hw52PacketError, hw52InPacketErrorTrap=hw52InPacketErrorTrap, hw52DevStartupFileFailTrap=hw52DevStartupFileFailTrap, hw52DevCfUnregisterTrap=hw52DevCfUnregisterTrap, hw52DevCfcardUsageTrap=hw52DevCfcardUsageTrap, hw52DevHarddiskUsageTrap=hw52DevHarddiskUsageTrap, hw52DevCfcardUsageAlarm=hw52DevCfcardUsageAlarm, hw52DevFlashUsageResume=hw52DevFlashUsageResume, hw52DevDiskSelfTestFailStep=hw52DevDiskSelfTestFailStep, hw52DevUserOuterVlan=hw52DevUserOuterVlan, hw52DevUserAttackTrap=hw52DevUserAttackTrap, hw52DevUserMac=hw52DevUserMac, hw52DevPortDown=hw52DevPortDown, hwHdDevTable=hwHdDevTable, hw52DevCompliance=hw52DevCompliance, hw52DevPortNum=hw52DevPortNum, hw52DevHpt372ErrorTrap=hw52DevHpt372ErrorTrap, hw52DevStartupFileReloadAlarm=hw52DevStartupFileReloadAlarm, hw52DevMemUsage=hw52DevMemUsage, hw52DevSlotNum=hw52DevSlotNum, hw52DevPortOperateStatus=hw52DevPortOperateStatus, hwMA5200Device=hwMA5200Device, PYSNMP_MODULE_ID=hwMA5200Device, hw52DevSlotRegOK=hw52DevSlotRegOK, hw52OutPacketErrorTrap=hw52OutPacketErrorTrap, hw52DevSlotTrap=hw52DevSlotTrap)
BOT_NAME = 'podcast_scraper' SPIDER_MODULES = ['podcast_scraper.spiders'] NEWSPIDER_MODULE = 'podcast_scraper.spiders' SCHEDULER_DEBUG = 'True' LOG_LEVEL = 'DEBUG' # LOG_FILE = './logs/log.txt' # app.py will use OUTPUT_BUCKET to generate an OUTPUT_URI # using OUTPUT_BUCKET and spider_name. OUTPUT_BUCKET = 'output-rss-bucket-name' ITEM_PIPELINES = { 'scrapy_podcast_rss.pipelines.PodcastPipeline': 300, }
bot_name = 'podcast_scraper' spider_modules = ['podcast_scraper.spiders'] newspider_module = 'podcast_scraper.spiders' scheduler_debug = 'True' log_level = 'DEBUG' output_bucket = 'output-rss-bucket-name' item_pipelines = {'scrapy_podcast_rss.pipelines.PodcastPipeline': 300}
def fib(n_max): n, a, b = 0, 0, 1 while n < n_max: yield b a, b = b, a + b n = n + 1 list = fib(int(input("Input a number:"))) print(next(list)) for o in list: print(o)
def fib(n_max): (n, a, b) = (0, 0, 1) while n < n_max: yield b (a, b) = (b, a + b) n = n + 1 list = fib(int(input('Input a number:'))) print(next(list)) for o in list: print(o)
def mostFrequentDigitSum(n): ''' A step(x) operation works like this: it changes a number x into x - s(x), where s(x) is the sum of x's digits. You like applying functions to numbers, so given the number n, you decide to build a decreasing sequence of numbers: n, step(n), step(step(n)), etc., with 0 as the last element. Building a single sequence isn't enough for you, so you replace all elements of the sequence with the sums of their digits (s(x)). Now you're curious as to which number appears in the new sequence most often. If there are several answers, return the maximal one. Example For n = 88, the output should be mostFrequentDigitSum(n) = 9. Here is the first sequence you built: 88, 72, 63, 54, 45, 36, 27, 18, 9, 0; And here is s(x) for each of its elements: 16, 9, 9, 9, 9, 9, 9, 9, 9, 0. As you can see, the most frequent number in the second sequence is 9. For n = 8, the output should be mostFrequentDigitSum(n) = 8. At first you built the following sequence: 8, 0 s(x) for each of its elements is: 8, 0 As you can see, the answer is 8 (it appears as often as 0, but is greater than it). ''' firstSequence = [n] while n > 0: n = n - sumDigits(n) firstSequence.append(n) secondSequence = [sumDigits(i) for i in firstSequence] d = dict() for i in firstSequence + secondSequence: if i in d: d[i] += 1 else: d[i] = 1 currentMax = n currentCounter = 1 for k in d.keys(): if d[k] == currentCounter: if k > currentMax: currentMax = k elif d[k] > currentCounter: currentCounter = d[k] currentMax = k return currentMax def sumDigits(n): s = 0 while n: s += n % 10 n //= 10 return s
def most_frequent_digit_sum(n): """ A step(x) operation works like this: it changes a number x into x - s(x), where s(x) is the sum of x's digits. You like applying functions to numbers, so given the number n, you decide to build a decreasing sequence of numbers: n, step(n), step(step(n)), etc., with 0 as the last element. Building a single sequence isn't enough for you, so you replace all elements of the sequence with the sums of their digits (s(x)). Now you're curious as to which number appears in the new sequence most often. If there are several answers, return the maximal one. Example For n = 88, the output should be mostFrequentDigitSum(n) = 9. Here is the first sequence you built: 88, 72, 63, 54, 45, 36, 27, 18, 9, 0; And here is s(x) for each of its elements: 16, 9, 9, 9, 9, 9, 9, 9, 9, 0. As you can see, the most frequent number in the second sequence is 9. For n = 8, the output should be mostFrequentDigitSum(n) = 8. At first you built the following sequence: 8, 0 s(x) for each of its elements is: 8, 0 As you can see, the answer is 8 (it appears as often as 0, but is greater than it). """ first_sequence = [n] while n > 0: n = n - sum_digits(n) firstSequence.append(n) second_sequence = [sum_digits(i) for i in firstSequence] d = dict() for i in firstSequence + secondSequence: if i in d: d[i] += 1 else: d[i] = 1 current_max = n current_counter = 1 for k in d.keys(): if d[k] == currentCounter: if k > currentMax: current_max = k elif d[k] > currentCounter: current_counter = d[k] current_max = k return currentMax def sum_digits(n): s = 0 while n: s += n % 10 n //= 10 return s
# x=int(input("enter the number")) # print("factors of ",x,"is:") # for i in range (1,x+1): # if X%i==0: # print(i) n=int(input("enter factors number=")) i=1 while i<=n: if n%i==0: print(i) i+=1
n = int(input('enter factors number=')) i = 1 while i <= n: if n % i == 0: print(i) i += 1
''' Created on Feb 20, 2013 @author: gorgolewski, steele ''' #import os #subjects = os.listdir("/scr/namibia1/baird/MPI_Project/Neuroimaging_Data/") working_dir = "/scr/alaska1/steele/BSL_IHI/processing/cmt" results_dir = "/scr/alaska1/steele/BSL_IHI/processing/cmt/results" freesurfer_dir = '/scr/alaska1/steele/BSL_IHI/processing/freesurfer/' subjects_M = ['KCDT100819_T1.TRIO', 'JA7T100824_T1.TRIO', '17230.95_20111026_T1.TRIO', 'SJAT_100416_T1.TRIO', 'DM6T100909_T1.TRIO', 'NS5T090217_T1.TRIO', '11530.56_090910_T1.TRIO', '15205.bb_20110818_T1.TRIO', 'BSLT100916__T1.TRIO', 'SF8T100916_T1.TRIO', 'SAST_100421_T1.TRIO', 'SMXT100805_T1.TRIO', 'MN3T090909_T1.TRIO', 'ED2T101126_T1.TRIO', 'LP4T091026_T1.TRIO', 'DS9T101110_T1.TRIO', 'GD4T100909_T1.TRIO', 'AS3T100715_T1.TRIO', 'SL6T101119_T1.TRIO', 'UF1T100824_T1.TRIO', '12522.80_20110818_T1.TRIO', 'GC6T100805_T1.TRIO', '15832.a8_20110616_T1.TRIO', 'KAHT101103_T1.TRIO', '16833.de_20111025_T1.TRIO', 'SCMT101110_T1.TRIO', 'KE5T100909_T1.TRIO', '14841.b6_20111026_T1.TRIO'] subjects_NM= ['MMJT100420_T1.TRIO', 'RMFT100708_T1.TRIO', 'KG6T100708_T1.TRIO', 'GMOT100628_T1.TRIO', 'STCT090817_T1.TRIO', 'DH2T100420_T1.TRIO', '12612.9b_20090318_T1_TRIO', 'RSET090817_T1.TRIO', 'LC7T100629_T1.TRIO', '14102.d1_20111024_T1.TRIO', 'DA5T110620_T1.TRIO', '16687.41_20111025_T1.TRIO', '01212.43_20090617_T1.TRIO', 'BC9T100831_T1.TRIO', 'NC3T090721_T1.TRIO', 'WMCT090817_T1.TRIO', 'WSFT100322_T1.TRIO', 'BSGT081016_T1.TRIO', '10060.70_20111025_T1.TRIO', 'HCBT060321_T1.DTI', '11401.38_111025_T1.TRIO', '10576.44_20091217_T1.TRIO', '15510.c9_20111110_T1.TRIO', 'JR1T090216_T1.TRIO', 'WF5T091110_T1.TRIO', 'WT6T090807_T1.TRIO', 'HN3T090610_T1.TRIO', 'SU3T090819_T1.TRIO']
""" Created on Feb 20, 2013 @author: gorgolewski, steele """ working_dir = '/scr/alaska1/steele/BSL_IHI/processing/cmt' results_dir = '/scr/alaska1/steele/BSL_IHI/processing/cmt/results' freesurfer_dir = '/scr/alaska1/steele/BSL_IHI/processing/freesurfer/' subjects_m = ['KCDT100819_T1.TRIO', 'JA7T100824_T1.TRIO', '17230.95_20111026_T1.TRIO', 'SJAT_100416_T1.TRIO', 'DM6T100909_T1.TRIO', 'NS5T090217_T1.TRIO', '11530.56_090910_T1.TRIO', '15205.bb_20110818_T1.TRIO', 'BSLT100916__T1.TRIO', 'SF8T100916_T1.TRIO', 'SAST_100421_T1.TRIO', 'SMXT100805_T1.TRIO', 'MN3T090909_T1.TRIO', 'ED2T101126_T1.TRIO', 'LP4T091026_T1.TRIO', 'DS9T101110_T1.TRIO', 'GD4T100909_T1.TRIO', 'AS3T100715_T1.TRIO', 'SL6T101119_T1.TRIO', 'UF1T100824_T1.TRIO', '12522.80_20110818_T1.TRIO', 'GC6T100805_T1.TRIO', '15832.a8_20110616_T1.TRIO', 'KAHT101103_T1.TRIO', '16833.de_20111025_T1.TRIO', 'SCMT101110_T1.TRIO', 'KE5T100909_T1.TRIO', '14841.b6_20111026_T1.TRIO'] subjects_nm = ['MMJT100420_T1.TRIO', 'RMFT100708_T1.TRIO', 'KG6T100708_T1.TRIO', 'GMOT100628_T1.TRIO', 'STCT090817_T1.TRIO', 'DH2T100420_T1.TRIO', '12612.9b_20090318_T1_TRIO', 'RSET090817_T1.TRIO', 'LC7T100629_T1.TRIO', '14102.d1_20111024_T1.TRIO', 'DA5T110620_T1.TRIO', '16687.41_20111025_T1.TRIO', '01212.43_20090617_T1.TRIO', 'BC9T100831_T1.TRIO', 'NC3T090721_T1.TRIO', 'WMCT090817_T1.TRIO', 'WSFT100322_T1.TRIO', 'BSGT081016_T1.TRIO', '10060.70_20111025_T1.TRIO', 'HCBT060321_T1.DTI', '11401.38_111025_T1.TRIO', '10576.44_20091217_T1.TRIO', '15510.c9_20111110_T1.TRIO', 'JR1T090216_T1.TRIO', 'WF5T091110_T1.TRIO', 'WT6T090807_T1.TRIO', 'HN3T090610_T1.TRIO', 'SU3T090819_T1.TRIO']
def szyfr(ciag, k): nowy_ciag = "" for lit in ciag: nowy_ord = 65+(ord(lit)-65+k) % 26 nowy_ciag += chr(nowy_ord) return nowy_ciag def odszyfr(ciag, k): nowy_ciag = "" for lit in ciag: nowy_ord = 65+(ord(lit)-65-k) % 26 nowy_ciag += chr(nowy_ord) return nowy_ciag def szukaj(ciag, ciag2): def zdobadz_klucz(znak, znak2): if ord(znak2) < ord(znak): return 26-(ord(znak)-ord(znak2)) else: return abs(ord(znak2)-ord(znak)) roz = zdobadz_klucz(ciag[0], ciag2[0]) if ciag2 != szyfr(ciag, roz): return False return True with open("wyniki_6_1.txt", "w") as wyjscie: with open("DANE_PR2/dane_6_1.txt") as wejscie: for linia in wejscie: if not linia: continue linia = linia.strip() wyjscie.write(szyfr(linia, 107)+"\n") with open("wyniki_6_2.txt", "w") as wyjscie: with open("DANE_PR2/dane_6_2.txt") as wejscie: for linia in wejscie: if not linia: continue linia = linia.strip() try: ciag, k = linia.split() except: k = 0 wyjscie.write(odszyfr(ciag, int(k))+"\n") with open("wyniki_6_3.txt", "w") as wyjscie: with open("DANE_PR2/dane_6_3.txt") as wejscie: for linia in wejscie: linia = linia.strip() ciag1, ciag2 = linia.split() if not szukaj(ciag1, ciag2): wyjscie.write(ciag1+"\n")
def szyfr(ciag, k): nowy_ciag = '' for lit in ciag: nowy_ord = 65 + (ord(lit) - 65 + k) % 26 nowy_ciag += chr(nowy_ord) return nowy_ciag def odszyfr(ciag, k): nowy_ciag = '' for lit in ciag: nowy_ord = 65 + (ord(lit) - 65 - k) % 26 nowy_ciag += chr(nowy_ord) return nowy_ciag def szukaj(ciag, ciag2): def zdobadz_klucz(znak, znak2): if ord(znak2) < ord(znak): return 26 - (ord(znak) - ord(znak2)) else: return abs(ord(znak2) - ord(znak)) roz = zdobadz_klucz(ciag[0], ciag2[0]) if ciag2 != szyfr(ciag, roz): return False return True with open('wyniki_6_1.txt', 'w') as wyjscie: with open('DANE_PR2/dane_6_1.txt') as wejscie: for linia in wejscie: if not linia: continue linia = linia.strip() wyjscie.write(szyfr(linia, 107) + '\n') with open('wyniki_6_2.txt', 'w') as wyjscie: with open('DANE_PR2/dane_6_2.txt') as wejscie: for linia in wejscie: if not linia: continue linia = linia.strip() try: (ciag, k) = linia.split() except: k = 0 wyjscie.write(odszyfr(ciag, int(k)) + '\n') with open('wyniki_6_3.txt', 'w') as wyjscie: with open('DANE_PR2/dane_6_3.txt') as wejscie: for linia in wejscie: linia = linia.strip() (ciag1, ciag2) = linia.split() if not szukaj(ciag1, ciag2): wyjscie.write(ciag1 + '\n')
#!/usr/bin/python patch_size = [11, 15, 21] detector = ["FeatureDetectorHarrisCV", "FeatureDetectorUniform"] filter_size = [1, 3] max_disparity = [140, 160, 180, 200] fp_runscript = open("/mnt/ssd/kivan/cv-stereo/scripts/eval_batch/run_batch_grid_search_stage2.sh", 'w') fp_runscript.write("#!/bin/bash\n\n") cnt = 0 for i in range(len(patch_size)): for j in range(len(detector)): for k in range(len(filter_size)): for l in range(len(max_disparity)): cnt += 1 filepath = "/home/kivan/Projects/cv-stereo/config_files/experiments/kitti/validation_stage2/param_validation_stage2_" + str(cnt) + ".txt" print(filepath) fp = open(filepath, 'w') fp.write("odometry_method = VisualOdometryRansac\n") fp.write("ransac_iters = 1000\n\n") fp.write("tracker = StereoTracker\n") fp.write("max_disparity = " + str(max_disparity[l]) + "\n") fp.write("stereo_wsz = " + str(patch_size[i]) + "\n") fp.write("ncc_threshold_s = 0.7\n\n") fp.write("tracker_mono = TrackerBFM\n") fp.write("max_features = 5000\n") fp.write("ncc_threshold_m = 0.8\n") fp.write("ncc_patch_size = " + str(patch_size[i]) + "\n") fp.write("search_wsz = 230\n\n") fp.write("detector = " + detector[j] + "\n") fp.write("harris_block_sz = 3\n") fp.write("harris_filter_sz = " + str(filter_size[k]) + "\n") fp.write("harris_k = 0.04\n") fp.write("harris_thr = 1e-05\n") fp.write("harris_margin = " + str(patch_size[i]) + "\n\n") fp.write("use_bundle_adjustment = false") fp.close() fp_runscript.write('./run_kitti_evaluation_dinodas.sh "' + filepath + '"\n') fp_runscript.close()
patch_size = [11, 15, 21] detector = ['FeatureDetectorHarrisCV', 'FeatureDetectorUniform'] filter_size = [1, 3] max_disparity = [140, 160, 180, 200] fp_runscript = open('/mnt/ssd/kivan/cv-stereo/scripts/eval_batch/run_batch_grid_search_stage2.sh', 'w') fp_runscript.write('#!/bin/bash\n\n') cnt = 0 for i in range(len(patch_size)): for j in range(len(detector)): for k in range(len(filter_size)): for l in range(len(max_disparity)): cnt += 1 filepath = '/home/kivan/Projects/cv-stereo/config_files/experiments/kitti/validation_stage2/param_validation_stage2_' + str(cnt) + '.txt' print(filepath) fp = open(filepath, 'w') fp.write('odometry_method = VisualOdometryRansac\n') fp.write('ransac_iters = 1000\n\n') fp.write('tracker = StereoTracker\n') fp.write('max_disparity = ' + str(max_disparity[l]) + '\n') fp.write('stereo_wsz = ' + str(patch_size[i]) + '\n') fp.write('ncc_threshold_s = 0.7\n\n') fp.write('tracker_mono = TrackerBFM\n') fp.write('max_features = 5000\n') fp.write('ncc_threshold_m = 0.8\n') fp.write('ncc_patch_size = ' + str(patch_size[i]) + '\n') fp.write('search_wsz = 230\n\n') fp.write('detector = ' + detector[j] + '\n') fp.write('harris_block_sz = 3\n') fp.write('harris_filter_sz = ' + str(filter_size[k]) + '\n') fp.write('harris_k = 0.04\n') fp.write('harris_thr = 1e-05\n') fp.write('harris_margin = ' + str(patch_size[i]) + '\n\n') fp.write('use_bundle_adjustment = false') fp.close() fp_runscript.write('./run_kitti_evaluation_dinodas.sh "' + filepath + '"\n') fp_runscript.close()
# Definition for a binary tree node. # class TreeNode: # def __init__(self, val=0, left=None, right=None): # self.val = val # self.left = left # self.right = right class Solution: def isMirror(self, r1: TreeNode, r2: TreeNode) -> bool: if r1 == None and r2 == None: return True if r1 == None or r2 == None: return False return (r1.val == r2.val) and self.isMirror(r1.left, r2.right) and self.isMirror(r1.right, r2.left) def isSymmetric(self, root: TreeNode) -> bool: return self.isMirror(root, root)
class Solution: def is_mirror(self, r1: TreeNode, r2: TreeNode) -> bool: if r1 == None and r2 == None: return True if r1 == None or r2 == None: return False return r1.val == r2.val and self.isMirror(r1.left, r2.right) and self.isMirror(r1.right, r2.left) def is_symmetric(self, root: TreeNode) -> bool: return self.isMirror(root, root)
class Passenger: def __init__(self, name): self.name = name def selectTrip(self, tripOptions): ''' Given a list of trip options, a passenger may select a trip This trip is then added to the trip queue, which allows for later return pricing tripOptions: the queue of given trips available to the passenger This should come from TripPlanner.offerReturnPrices() returns the index of the desired trip ''' for idx, trip in enumerate(tripOptions): print(f'Trip Number: {idx}\n{repr(trip)}') trip_num = 100 while trip_num < 0 and trip_num > len(tripOptions): trip_num = int(input('enter desired trip number: ')) return trip_num def stateSource(self): return input('enter desired source: ') def stateDestination(self): return input('enter desired destination: ') def stateHour(self): return int(input('enter desired hour to leave: '))
class Passenger: def __init__(self, name): self.name = name def select_trip(self, tripOptions): """ Given a list of trip options, a passenger may select a trip This trip is then added to the trip queue, which allows for later return pricing tripOptions: the queue of given trips available to the passenger This should come from TripPlanner.offerReturnPrices() returns the index of the desired trip """ for (idx, trip) in enumerate(tripOptions): print(f'Trip Number: {idx}\n{repr(trip)}') trip_num = 100 while trip_num < 0 and trip_num > len(tripOptions): trip_num = int(input('enter desired trip number: ')) return trip_num def state_source(self): return input('enter desired source: ') def state_destination(self): return input('enter desired destination: ') def state_hour(self): return int(input('enter desired hour to leave: '))
# A file containing mappings of CC -> MC file names # Pack version 3 VER3 = { 'char.png': 'minecraft/textures/entity/steve.png', 'chicken.png': 'minecraft/textures/entity/chicken.png', 'creeper.png': 'minecraft/textures/entity/creeper/creeper.png', 'pig.png': 'minecraft/textures/entity/pig/pig.png', 'sheep.png': 'minecraft/textures/entity/sheep/sheep.png', 'sheep_fur.png': 'minecraft/textures/entity/sheep/sheep_fur.png', 'skeleton.png': 'minecraft/textures/entity/skeleton/skeleton.png', 'spider.png': 'minecraft/textures/entity/spider/spider.png', 'zombie.png': 'minecraft/textures/entity/zombie/zombie.png', 'default.png': 'minecraft/textures/font/ascii.png', 'icons.png': 'minecraft/textures/gui/icons.png', 'gui.png': 'minecraft/textures/gui/widgets.png', 'gui_classic.png': 'minecraft/textures/gui/widgets.png' } # Blocks BLOCKS3 = [ # glass_pane_top_brown is substitute for rope 'grass_top', 'stone', 'dirt', 'grass_side', 'planks_oak', 'stone_slab_side', 'stone_slab_top', 'brick', 'tnt_side', 'tnt_top', 'tnt_bottom', ('glass_pane_top_brown', 'glass_pane_top'), 'flower_rose', 'flower_dandelion', 'water_still', 'sapling_oak', 'cobblestone', 'bedrock', 'sand', 'gravel', 'log_oak', 'log_oak_top', 'leaves_oak', 'iron_block', 'gold_block', 'sandstone_top', 'quartz_block_lines_top', None, 'mushroom_red', 'mushroom_brown', 'lava_still', 'grass_top', # TODO: fire_layer_0 is an animation sheet, only get first frame for terrain.png 'gold_ore', 'iron_ore', 'coal_ore', 'bookshelf', 'cobblestone_mossy', 'obsidian', 'fire_layer_0', 'iron_block', 'gold_block', 'sandstone_normal', 'quartz_block_lines', None, None, None, None, None, # shulker_top_brown is crate 'sponge', 'glass', 'snow', 'ice', 'stonebrick', 'shulker_top_brown', 'quartz_block_side', 'iron_block', 'gold_block', 'sandstone_bottom', 'quartz_block_lines_top', None, None, None, None, None, # TODO: Some colours don't exist in modern minecraft, get them from hex colours instead 'wool_colored_red', 'wool_colored_orange', 'wool_colored_yellow', 'wool_colored_lime', 'wool_colored_green', 'TEAL', 'wool_colored_light_blue', 'wool_colored_cyan', 'BLUE', 'wool_colored_purple', 'VIOLET', 'wool_colored_magenta', 'PINK', 'wool_colored_black', 'wool_colored_gray', 'wool_colored_white', 'wool_colored_pink', 'FOREST GREEN', 'wool_colored_brown', 'wool_colored_blue', 'TURQUOISE', None, 'magma' # TODO: Are the breaking state textures at the bottom ever used by anyone? Don't transfer them over for now. ]
ver3 = {'char.png': 'minecraft/textures/entity/steve.png', 'chicken.png': 'minecraft/textures/entity/chicken.png', 'creeper.png': 'minecraft/textures/entity/creeper/creeper.png', 'pig.png': 'minecraft/textures/entity/pig/pig.png', 'sheep.png': 'minecraft/textures/entity/sheep/sheep.png', 'sheep_fur.png': 'minecraft/textures/entity/sheep/sheep_fur.png', 'skeleton.png': 'minecraft/textures/entity/skeleton/skeleton.png', 'spider.png': 'minecraft/textures/entity/spider/spider.png', 'zombie.png': 'minecraft/textures/entity/zombie/zombie.png', 'default.png': 'minecraft/textures/font/ascii.png', 'icons.png': 'minecraft/textures/gui/icons.png', 'gui.png': 'minecraft/textures/gui/widgets.png', 'gui_classic.png': 'minecraft/textures/gui/widgets.png'} blocks3 = ['grass_top', 'stone', 'dirt', 'grass_side', 'planks_oak', 'stone_slab_side', 'stone_slab_top', 'brick', 'tnt_side', 'tnt_top', 'tnt_bottom', ('glass_pane_top_brown', 'glass_pane_top'), 'flower_rose', 'flower_dandelion', 'water_still', 'sapling_oak', 'cobblestone', 'bedrock', 'sand', 'gravel', 'log_oak', 'log_oak_top', 'leaves_oak', 'iron_block', 'gold_block', 'sandstone_top', 'quartz_block_lines_top', None, 'mushroom_red', 'mushroom_brown', 'lava_still', 'grass_top', 'gold_ore', 'iron_ore', 'coal_ore', 'bookshelf', 'cobblestone_mossy', 'obsidian', 'fire_layer_0', 'iron_block', 'gold_block', 'sandstone_normal', 'quartz_block_lines', None, None, None, None, None, 'sponge', 'glass', 'snow', 'ice', 'stonebrick', 'shulker_top_brown', 'quartz_block_side', 'iron_block', 'gold_block', 'sandstone_bottom', 'quartz_block_lines_top', None, None, None, None, None, 'wool_colored_red', 'wool_colored_orange', 'wool_colored_yellow', 'wool_colored_lime', 'wool_colored_green', 'TEAL', 'wool_colored_light_blue', 'wool_colored_cyan', 'BLUE', 'wool_colored_purple', 'VIOLET', 'wool_colored_magenta', 'PINK', 'wool_colored_black', 'wool_colored_gray', 'wool_colored_white', 'wool_colored_pink', 'FOREST GREEN', 'wool_colored_brown', 'wool_colored_blue', 'TURQUOISE', None, 'magma']
# output: ok assert(max(1, 2, 3) == 3) assert(max(1, 3, 2) == 3) assert(max(3, 2, 1) == 3) assert(min([1]) == 1) assert(min([1, 2, 3]) == 1) assert(min([1, 3, 2]) == 1) assert(min([3, 2, 1]) == 1) exception = False try: min() except TypeError: exception = True assert(exception) exception = False try: max() except TypeError: exception = True assert(exception) def testIter(iterable): i = iter(iterable) assert(next(i) == 1) assert(next(i) == 2) assert(next(i) == 3) caught = False try: next(i) except StopIteration: caught = True assert(caught) class OwnSequence: def __init__(self, wrapped): self.wrapped = wrapped def __getitem__(self, index): return self.wrapped[index] testIter([1, 2, 3]) testIter(OwnSequence([1, 2, 3])) def inc(x): return x + 1 assert(list(map(inc, [])) == []) assert(list(map(inc, [1, 2, 3])) == [2, 3, 4]) assert(list(zip()) == []) assert(list(zip([1], [2])) == [(1, 2)]) assert(list(zip([1, 2], [2, 3])) == [(1, 2), (2, 3)]) assert(sum([]) == 0) assert(sum([1, 2, 3]) == 6) assert(sum((1, 2, 3), 4) == 10) # todo: these tests are probably not sufficient assert(divmod(5, 2) == (2, 1)) assert(divmod(4.5, 1.5) == (3.0, 0.0)) assert(divmod(5, 1.5) == (3.0, 0.5)) assert(divmod(1, -1) == (-1, 0)) assert(divmod(-1, 1) == (-1, 0)) # Builtin classes are not modifiable builtinClasses = [ bool, dict, tuple, list, int, float, object ] def checkException(thunk, exceptionType, message): try: thunk() except Exception as e: if isinstance(e, exceptionType) and message in str(e): return True return False def addAttr(c): c.foo = 1 for c in builtinClasses: assert checkException(lambda: addAttr(c), TypeError, "can't set attributes") # Can't add attributes to instances of builtin classes for c in builtinClasses: assert checkException(lambda: addAttr(c()), AttributeError, "object has no attribute") # locals def locals1(): return locals() #assert locals1() == {} assert len(locals1().keys()) == 0 def locals2(): a = 1 b = 2 return locals() x = locals2() assert x['a'] == 1 assert x['b'] == 2 def locals3(z): a = 1 b = 2 return locals() x = locals3(3) assert x['a'] == 1 assert x['b'] == 2 assert x['z'] == 3 def locals4(): a = 1 b = 2 def x(): return a return locals() x = locals4() assert x['a'] == 1 assert x['b'] == 2 assert 'x' in x # globals foo = 1 g = globals() assert g['foo'] == 1 g['foo'] = 2 assert g['foo'] == 2 assert foo == 2 #assert 'foo' in g.keys() assert 2 in g.values() assert len(g.values()) == len(g.keys()) print('ok')
assert max(1, 2, 3) == 3 assert max(1, 3, 2) == 3 assert max(3, 2, 1) == 3 assert min([1]) == 1 assert min([1, 2, 3]) == 1 assert min([1, 3, 2]) == 1 assert min([3, 2, 1]) == 1 exception = False try: min() except TypeError: exception = True assert exception exception = False try: max() except TypeError: exception = True assert exception def test_iter(iterable): i = iter(iterable) assert next(i) == 1 assert next(i) == 2 assert next(i) == 3 caught = False try: next(i) except StopIteration: caught = True assert caught class Ownsequence: def __init__(self, wrapped): self.wrapped = wrapped def __getitem__(self, index): return self.wrapped[index] test_iter([1, 2, 3]) test_iter(own_sequence([1, 2, 3])) def inc(x): return x + 1 assert list(map(inc, [])) == [] assert list(map(inc, [1, 2, 3])) == [2, 3, 4] assert list(zip()) == [] assert list(zip([1], [2])) == [(1, 2)] assert list(zip([1, 2], [2, 3])) == [(1, 2), (2, 3)] assert sum([]) == 0 assert sum([1, 2, 3]) == 6 assert sum((1, 2, 3), 4) == 10 assert divmod(5, 2) == (2, 1) assert divmod(4.5, 1.5) == (3.0, 0.0) assert divmod(5, 1.5) == (3.0, 0.5) assert divmod(1, -1) == (-1, 0) assert divmod(-1, 1) == (-1, 0) builtin_classes = [bool, dict, tuple, list, int, float, object] def check_exception(thunk, exceptionType, message): try: thunk() except Exception as e: if isinstance(e, exceptionType) and message in str(e): return True return False def add_attr(c): c.foo = 1 for c in builtinClasses: assert check_exception(lambda : add_attr(c), TypeError, "can't set attributes") for c in builtinClasses: assert check_exception(lambda : add_attr(c()), AttributeError, 'object has no attribute') def locals1(): return locals() assert len(locals1().keys()) == 0 def locals2(): a = 1 b = 2 return locals() x = locals2() assert x['a'] == 1 assert x['b'] == 2 def locals3(z): a = 1 b = 2 return locals() x = locals3(3) assert x['a'] == 1 assert x['b'] == 2 assert x['z'] == 3 def locals4(): a = 1 b = 2 def x(): return a return locals() x = locals4() assert x['a'] == 1 assert x['b'] == 2 assert 'x' in x foo = 1 g = globals() assert g['foo'] == 1 g['foo'] = 2 assert g['foo'] == 2 assert foo == 2 assert 2 in g.values() assert len(g.values()) == len(g.keys()) print('ok')
# Hack 1: InfoDB lists. Build your own/personalized InfoDb with a list length > 3, create list within a list as illustrated with Owns_Cars blue = "\033[34m" white = "\033[37m" InfoDb = [] # List with dictionary records placed in a list InfoDb.append({ "FirstName": "Michael", "LastName": "Chen", "DOB": "December 1", "Residence": "San Diego", "Email": "[email protected]", "Owns_Cars":["2016 Ford Focus EV", "2019 Honda Pilot"] }) InfoDb.append({ "FirstName": "Ethan", "LastName": "Vo", "DOB": "Not Born", "Residence": "The Moon", "Email": "[email protected]", "Owns_Cars":["Broken Down Golf Cart"] }) InfoDb.append({ "FirstName": "Anirudh", "LastName": "Ramachandran", "DOB": "August 18", "Residence": "Uranus", "Email": "[email protected]", "Owns_Cars":["Can't Even Drive"] }) # given an index this will print InfoDb content def print_data(n): print(InfoDb[n]["FirstName"], InfoDb[n]["LastName"]) # using comma puts space between values print("\t", "Cars: ", end="") # \t is a tab indent, end="" make sure no return occurs print(", ".join(InfoDb[n]["Owns_Cars"])) # join allows printing a string list with separator print() # Hack 2: InfoDB loops. Print values from the lists using three different ways: for, while, recursion ## hack 2a: def for_loop() ## hack 2b: def while_loop(0) ## hack 2c : def recursive_loop(0) def for_loop(): for x in range(len(InfoDb)): # print(InfoDb[x]) print_data(x) def while_loop(x): while x < len(InfoDb): # print(InfoDb[x]) print_data(x) x += 1 def recursive_loop(x): if x < len(InfoDb): # print(InfoDb[x]) print_data(x) recursive_loop(x + 1) # hack 3: fibonnaci def fibonacci(n): if n == 0: return 0 # for 0 elif n == 1: return 1 # for 1 else: return fibonacci(n-1) + fibonacci(n-2) # recursion def tester2(): try: num = int(input("Term of Fibonacci Sequence: ")) # user input # check if the number is negative if num < 0: print("You tested negative for COVID-19! Unfortunately, we only accept postive values at this Wendy's") # negative input else: print(num, "terms of the Fibonacci Sequence:") for i in range(num): print(fibonacci(i), end=" ")# list 0-n print() except: print("INTEGER INTEGER INTEGER WHAT ARE YOU EVEN DOING") # non-integer input # tester2() def tester(): print(blue + "For loop" + white) for_loop() print(blue + "While loop" + white) while_loop(0) # requires initial index to start while print(blue + "Recursive loop" + white) recursive_loop(0) # requires initial index to start recursion # tester2() # exit() # hack3() # tester()
blue = '\x1b[34m' white = '\x1b[37m' info_db = [] InfoDb.append({'FirstName': 'Michael', 'LastName': 'Chen', 'DOB': 'December 1', 'Residence': 'San Diego', 'Email': '[email protected]', 'Owns_Cars': ['2016 Ford Focus EV', '2019 Honda Pilot']}) InfoDb.append({'FirstName': 'Ethan', 'LastName': 'Vo', 'DOB': 'Not Born', 'Residence': 'The Moon', 'Email': '[email protected]', 'Owns_Cars': ['Broken Down Golf Cart']}) InfoDb.append({'FirstName': 'Anirudh', 'LastName': 'Ramachandran', 'DOB': 'August 18', 'Residence': 'Uranus', 'Email': '[email protected]', 'Owns_Cars': ["Can't Even Drive"]}) def print_data(n): print(InfoDb[n]['FirstName'], InfoDb[n]['LastName']) print('\t', 'Cars: ', end='') print(', '.join(InfoDb[n]['Owns_Cars'])) print() def for_loop(): for x in range(len(InfoDb)): print_data(x) def while_loop(x): while x < len(InfoDb): print_data(x) x += 1 def recursive_loop(x): if x < len(InfoDb): print_data(x) recursive_loop(x + 1) def fibonacci(n): if n == 0: return 0 elif n == 1: return 1 else: return fibonacci(n - 1) + fibonacci(n - 2) def tester2(): try: num = int(input('Term of Fibonacci Sequence: ')) if num < 0: print("You tested negative for COVID-19! Unfortunately, we only accept postive values at this Wendy's") else: print(num, 'terms of the Fibonacci Sequence:') for i in range(num): print(fibonacci(i), end=' ') print() except: print('INTEGER INTEGER INTEGER WHAT ARE YOU EVEN DOING') def tester(): print(blue + 'For loop' + white) for_loop() print(blue + 'While loop' + white) while_loop(0) print(blue + 'Recursive loop' + white) recursive_loop(0)
x,y,z = map(int,input().split(' ')) a,b,c = map(int,input().split(' ')) if (x, y, z) == (a, b, c): print("0") elif (y, z) == (b, c): print(15 * (x - a)) elif z==c: if y<=b and x<=a: print("0") else: print(500 * (y - b)) elif z>c: print("10000") else: print("0")
(x, y, z) = map(int, input().split(' ')) (a, b, c) = map(int, input().split(' ')) if (x, y, z) == (a, b, c): print('0') elif (y, z) == (b, c): print(15 * (x - a)) elif z == c: if y <= b and x <= a: print('0') else: print(500 * (y - b)) elif z > c: print('10000') else: print('0')
def get_sum(arr,i,j): sum = 0 sum += arr[i-1][j-1] sum += arr[i-1][j] sum += arr[i - 1][j+1] sum += arr[i][j] sum += arr[i+1][j-1] sum += arr[i+1][j] sum += arr[i+1][j+1] return sum if __name__ == '__main__': arr = [] for _ in range(6): arr.append(list(map(int, input().rstrip().split()))) max_sum = -63 for i in range(1,5): for j in range(1,5): current = get_sum(arr,i,j) if current > max_sum: max_sum = current print(max_sum)
def get_sum(arr, i, j): sum = 0 sum += arr[i - 1][j - 1] sum += arr[i - 1][j] sum += arr[i - 1][j + 1] sum += arr[i][j] sum += arr[i + 1][j - 1] sum += arr[i + 1][j] sum += arr[i + 1][j + 1] return sum if __name__ == '__main__': arr = [] for _ in range(6): arr.append(list(map(int, input().rstrip().split()))) max_sum = -63 for i in range(1, 5): for j in range(1, 5): current = get_sum(arr, i, j) if current > max_sum: max_sum = current print(max_sum)