def realitza_pagament(Usuario): pagament_correcte = B.Bank() confirm = pagament_correcte.do_payment(Usuario, Usuario.Pagament) #pagament_correcte = True pagamentOk = False if (confirm == False): # Reintentamos confirmar la reserva de vuelos... suponemos que no confirmacion = 1 while (confirmacion <= 3): confirm = pagament_correcte.do_payment(Usuario, Usuario.Pagament) #pagament_correcte=True if (confirm): pagamentOk = True break else: confirmacion = confirmacion + 1 if (pagamentOk == False): print( "Ha habido un problema durante el proceso de confirmacion del pagament, no se ha efectuado ningun cargo" ) else: pagamentOk = True return pagamentOk #TRUE OR FALSE
def testAddFundsInt(self): testBank = Bank("Test Bank") testUser = User(testBank, "username", "pass", 10) testUser.login("username", "pass") testAccount = Account(testUser, "account1") testAccount.addFunds(33) self.assertEqual(testAccount.getFunds(), 33)
def setup(self): checking_account = CheckingAccount(G.player_initial_money, self.env) # a checking acount saving_account = SavingAccount(0, self.env) # a saving account self.player.set_bank_account( checking_account, saving_account) #give the above accounts to the player self.bank = Bank(self.player) #set up the bank
def __init__(self): self.players = [] self.currentPlayer = None self.board = Board() self.chancePile = ChanceCards() self.communityPile = CommunityCards() self.dice = TwoDice() self.bank = Bank()
def __init__(self): self.bank = Bank.Bank() self.inventory = Inventory.Inventory() self.dayCounter = 0 self.servedCustomers = 0 self.satisfiedCustomers = 0 self.popularity = 0 self.cost = 0
def __init__(self): self.players = [] self.currentPlayer = None self.board = Board() self.chancePile = ChanceCards() self.communityPile = CommunityCards() self.dice = TwoDice() self.bank = Bank() """Instance variables for the Controller""" self.gameMessages = None self.controllerInput = None self.functionCallName = None self.supportingData = None
def main(): # 欢迎页面 AdminView.printWelcomeView() # 进入登陆页面 if AdminView.checkUserAndPassword() == -1: return -1 # 获取用户信息:通过本地文件读取已存在用户列表 # allUser.txt:存储用户信息的文件 # 假设用户数量为空 allUser = {} if os.path.getsize("allUser.txt") > 0: with open("allUser.txt", "rb") as f1: # 已经存在用户 allUser = pickle.load(f1) print(allUser) # 银行的对象只有一个 bank = Bank.Bank(allUser=allUser) # 进入主程序页面 while True: time.sleep(1) AdminView.mainFunctionView() checkFunc = input("请按照数字输入选择的功能") if checkFunc == "1": bank.createUser() elif checkFunc == "2": bank.seachUser() elif checkFunc == "3": bank.getMoney() elif checkFunc == "4": bank.saveMoney() elif checkFunc == "5": bank.changePassword() elif checkFunc == "6": bank.createOtherCard() elif checkFunc == "7": bank.lockedCard() elif checkFunc == "8": bank.unlockedCard() elif checkFunc == "9": bank.cancelUser() elif checkFunc == "z": bank.transferMoney() elif checkFunc == "0": # 存入或更新数据 with open("allUser.txt", "wb") as f1: pickle.dump(bank.allUser, f1) return 0 else: print("输入错误,请确认后重新输入")
def main(): myBank = Bank("TD Bank") print(myBank) print("total funds: " + str(myBank.getMoneyInBank())) myBank.depositIntoAccount myBank.depositIntoAccount myBank.withdrawFromAccount myBank.withdrawFromAccount print(myBank) print("total funds: " + str(myBank.getMoneyInBank()))
def test_bank_2(self): test_bank = Bank.Bank() test_bank.add_entry(123456789, 1234, "checking", 1000) test_bank.add_account(123456789, "savings", 1000) test_bank.add_entry(987654321, 7321, "checking", 5000) test_atm = ATM.ATM(test_bank, 10000) cash_bin_over_action = [("See Balance", 0), ("Withdraw", 30000)] # Tests cash bin excess handling on account balance self.assertEqual( test_atm(987654321, 7321, "checking", cash_bin_over_action), "Actions completed") exit_action = [("See Balance", 0), ("Leave", 0)] self.assertEqual(test_atm(987654321, 7321, "checking", exit_action), "Gracefully departed")
def test_bank_1(self): test_bank = Bank.Bank() test_bank.add_entry(123456789, 1234, "checking", 1000) test_bank.add_account(123456789, "savings", 1000) test_bank.add_entry(987654321, 7321, "checking", 5000) test_atm = ATM.ATM(test_bank, 10000) action_list = [("See Balance", 0), ("Withdraw", 40), ("Withdraw", 1000), ("Deposit", 100)] # These next test should be a correctly executing test case self.assertEqual(test_atm(987654321, 7321, "checking", action_list), "Actions completed") # Tests whether ATM handles overdraft attempt without crashing self.assertEqual(test_atm(123456789, 1234, "checking", action_list), "Actions completed") # Test incorrect PIN number self.assertEqual(test_atm(987654321, 1234, "checking", action_list), "Invalid Card or Incorrect Pin!") # Test incorrect Account number self.assertEqual(test_atm(876504321, 1234, "checking", action_list), "Invalid Card or Incorrect Pin!")
from Bank import * from Client import * bank = Bank("moj_bank") bank2 = Bank("moj_bank2") client1 = Client("Andrzej", "Kowalski") client2 = Client("Anna", "Nowak") client3 = Client("Grzegorz", "Aaaa") client4 = Client("Katarzyna", "Bbbb") bank.add_client(client1) bank.add_client(client2) bank2.add_client(client3) bank2.add_client(client4) client1.add_money(200) client1.remove_money(50) client1.add_money(2) client2.add_money(1200) client3.add_money(15000) client4.add_money(160) print('Show client - bank') bank.show_all_clients() print('\nShow client - bank2') bank2.show_all_clients() print('\nShow money') client1.cash() client2.cash() print('\nAfter transfer')
from Bank import * bank1 = Bank(1, "Stanbic", "Makerere", "00-0009") bank2 = Bank(2, "DFCU", "Wandegeya", "00-4509") #Tellers for bank 1 teller1A = Teller(1, "Yazid", bank1) teller1B = Teller(2, "Peter", bank1) teller1C = Teller(3, "Alex", bank1) #Tellers for bank2 teller2A = Teller(1, "Moses", bank2) teller2B = Teller(2, "Kalungi", bank2) teller2C = Teller(3, "Isanka", bank2) customer = Customer(1, "miiro", "Lumumba", 900877) customer.OpenAccount(teller1A, "savings") customer2 = Customer(1, "miiro", "Lumumba", 900877) customer2.OpenAccount(teller1A, "savings") customer2.DepositMoney(4000, teller1A) customer2.WithdrawMoney(4000, teller1A) customer.ApplyForLoan(teller1A, 100000) customer.Loan.pay_loan(4000)
print(select) # Exchange n for Blum Gold # Send over bank's public key # Generate Keys n, a, b, p, q = enc.get_Blum_Gold_Keys() print("Sending over public key n:", n) send = str(n) c.send(send.encode("utf-8")) s # Get ATM's public key msg = c.recv(1024).decode() n_ATM = int(msg) print("Recieved ATM's public key:", n_ATM) bank = Bank.Bank(name) # <== Put the ATM users name here # Read the Messages from the ATM while (True): # Get the message data = c.recv(1024).decode() data_no_mac = data[:data.index("M") - 1] print("Recieved:", data) # Decrypt if (select == "BLUM"): msg = enc.Blum_Gold_Decrypt(n, a, b, p, q, data) elif (select == "DES"): msg = DES.decrypt(data_no_mac, key) else: # 3 DES msg = DES.decrypt3(data_no_mac, key)
from BankAccount import* from Bank import* from Employee import* from Manager import* bank = Bank("Interco Bank", 500) (interco, bankId, intercoCash) = bank.createBankAccount("Interco", 20000000) man = Manager("Hhhm", 10000000, 10000, "BeastMaster") print("Manager %s pay %.2f" % (man.getFormattedName(), man.calculatePay())) (name, bankId, cash) = bank.createBankAccount(man.getFormattedName(), 200000) print("%s account %.2f" % (name, cash)) try: bank.transfer(bank.accounts[interco], bank.accounts[name], man.calculatePay()) print("%s account %.2f" % (name, bank.accounts[name].cash)) except InsufficientFundsError: print("We can't pay you :(") print("%s account %.2f" % (interco, bank.accounts[interco].cash)) print("%s transactions %s" % (name, bank.transactions[name].print())) emp = Employee("Julia", 200000) print("Employee %s pay %.2f" % (emp.getFormattedName(), emp.calculatePay())) (name, bankId, cash) = bank.createBankAccount(emp.getFormattedName(), 20000) print("%s account %.2f" % (name, cash)) try: bank.transfer(bank.accounts[interco], bank.accounts[name], emp.calculatePay()) print("%s account %.2f" % (name, bank.accounts[name].cash)) except InsufficientFundsError: print("We are broke :(") print("%s account %.2f" % (interco, bank.accounts[interco].cash))
def test_empty_bank(self): empty_bank = Bank.Bank() empty_atm = ATM.ATM(empty_bank, 0) valid, message = empty_atm.swipe(0, 0) self.assertEqual(valid, 0)
class AtmApplication(): """ Class that handels user input """ #initalize field variables _bank = Bank() _acctNo = 0 _ivalidInput = "Invalid Input. Please enter a valid number\n" def __init__(self): #here for python convention pass def run(self): """starts the ATM""" while True: print("Main Menu\n") print("1: Select Account") print("2: Create Account") print("3: Exit\n") try: choice = int(input("Enter a choice: ")) if choice == 1: self.onSelectAccount() elif choice == 2: self.onCreateAccount() elif choice == 3: break else: print( "Please enter a valid number.\nEnter 1 to select an account.\nEnter 2 to create an account.\nEnter 3 to exit.\n" ) continue except ValueError: print("Invalid Input. Please enter a valid number\n") def onCreateAccount(self): """When Create Account is selected""" while True: try: clientName = input( "Please enter the client name or press [ENTER] to cancel: " ) if clientName == "": break balanceInput = input( "Please enter your intial balance or press [ENTER] to cancel: " ) if balanceInput == "": break elif int(balanceInput) < 0: print("Please enter a number grater than 0\n") continue else: balance = int(balanceInput) accountType = input( "Please enter the account type [c/s: chequing / savings]: " ) if accountType == "": break elif len(accountType) > 1: print("Please enter a [c or s] to select an account\n") continue elif ord(accountType) != 67 and ord(accountType) != 99 and ord( accountType) != 83 and ord(accountType) != 115: print("Please enter a [c or s] to select an account\n") continue if ord(accountType) == 67 or ord(accountType) == 99: interRateInput = float( input( "Please enter the interest rate for this account: " )) if interRateInput == "": break elif float(interRateInput) < 0: print("Please enter a number greater than 0\n") continue elif float(interRateInput) > 1: print("Please enter a number less than 1\n") continue else: interRate = float(interRateInput) elif ord(accountType) == 83 or ord(accountType) == 115: interRateInput = float( input( "Please enter the interest rate for this account: " )) if interRateInput == "": break elif float(interRateInput) < 3: print("Please enter a number greater than 3\n") continue else: interRate = float(interRateInput) acctNoInput = int( input( "Please enter the account number [100 - 1000] or press [ENTER] to cancel: " )) if acctNoInput == "": break elif int(acctNoInput) < 100 or int(acctNoInput) > 1000: print( "Please enter a value a number between [100 - 1000]\n") continue else: acctNo = int(acctNoInput) if self._bank.getAccount(acctNo) != None: print("Account number already exists") continue else: self._bank.openAccount(acctNo, clientName, balance, accountType, interRate) break except ValueError: print("Invalid Input. Please enter a valid input\n") def onSelectAccount(self): """When select account is created""" while True: try: if self._acctNo == 0: acctNo = input( "Please enter your account ID or press [ENTER] to cancel: " ) if acctNo == "": break else: self._acctNo = int(acctNo) if self._bank.getAccount(self._acctNo) == None: print("ID not found!\n") self._acctNo = 0 return else: print("Account Menu\n") print("1: Check Balance") print("2: Withdraw") print("3: Deposit") print("4: Predict Balance") print("5: Exit\n") choice = int(input("Enter a choice: ")) if choice == 1: self.onCheckBalance() elif choice == 2: self.onWithdraw() elif choice == 3: self.onDeposit() elif choice == 4: self.onPredictBalance() elif choice == 5: self._acctNo = 0 break else: print( "Please enter a valid number.\nEnter 1 to chack balance.\nEnter 2 to withdraw from account.\nEnter 3 to deposit into account.\nEnter 4 to predict balance.\nEnter 5 to exit.\n" ) continue except ValueError: print("Invalid Input. Please enter a valid number\n") def onCheckBalance(self): """When check balance is selected""" account = self._bank.getAccount(self._acctNo) print("Current balance: " + str(account.getBalance())) return def onDeposit(self): """When deposit is selected""" account = self._bank.getAccount(self._acctNo) amount = int(input("How much money would you like to deposit: ")) account.deposit(amount) print("New balance is: " + str(account.getBalance())) return def onWithdraw(self): """When withdraw is selected""" account = self._bank.getAccount(self._acctNo) amount = int(input("How much money would you like to withdraw: ")) if amount > account.getBalance(): print("Insufficent funds!") return else: account.withdraw(amount) print("New balance is: " + str(account.getBalance())) return def onPredictBalance(self): """when predict balancce is selected""" while True: try: monthlyDeposit = int(input("Please enter a monthly deposit: ")) if monthlyDeposit < 0: print("Please enter a valid amount") continue monthlyWithdrawl = int( input("Please enter a monthly withdrawl: ")) if monthlyWithdrawl < 0: print("Please enter a valid amount") continue account = self._bank.getAccount(self._acctNo) print("Account Number: " + str(account.getAccountNumber())) print("Name: \t\t" + account.getAccountHolderName()) balance = account.getBalance() newInterest = 0.0 #for 12 months for i in range(0, 12): balance = balance + monthlyDeposit - monthlyWithdrawl interst = account.predictBalance(balance) newInterest += interst print("Month " + str(i + 1) + ":") print("\tBalance: " + str(round(balance, 2))) print("\tInterest: " + str(round(newInterest, 2))) print("End of the Year Balance: " + str(round((newInterest + balance), 2))) break except ValueError: print("Invalid Input. Please enter a valid number\n")
def testConstructor(self): testBank = Bank("Test Bank") testUser = User(testBank, "username", "pass", 10) testBox = DepositBox(testUser, 3, ["hat"]) self.assertEqual(testBox.getContents()[0], "hat")
def testConstructorFundsFloat(self): testBank = Bank("Test Bank") testUser = User(testBank, "username", "pass", 10.989) self.assertEqual(testUser.getPersonalFunds(), 10.99)
def load_bank(self, user): return Bank.Bank(user)
def testConstructorFundsZero(self): testBank = Bank("Test Bank") testUser = User(testBank, "username", "pass", 0) self.assertEqual(testUser.getPersonalFunds(), 0)
def __init__(self): self.bank = Bank() self.listCustomer = []
def testLoginValid(self): testBank = Bank("Test Bank") testUser = User(testBank, "username", "pass", 0) self.assertEqual(testUser.login("username", "pass"), True)
def testLoginInvalid(self): testBank = Bank("Test Bank") testUser = User(testBank, "username", "pass", 0) self.assertEqual(testUser.login("penguin", "123"), False)
def testRegisterDepositBox(self): testBank = Bank("Test Bank") testUser = User(testBank, "username", "pass", 0) testUser.registerDepositBox(5, ["shoe"]) self.assertEqual(testUser.getDepositBoxes()[0].getContents(), ["shoe"])
elif ch == 'cl': ac = bank.close_account(ac) elif ch == 'f': am = raw_input('Enter amount to add: ') ac.change_balance(am) elif ch == 'l': bank.list_all_accounts() elif ch == 'n': ac.print_current_accout() elif ch == 's': ac = bank.change_account() elif ch == 'w': am = raw_input('Enter amount to withdraw: ') ac.change_balance(-float(am)) elif ch == 'x': return False #break else: print('Input not recognized!') if __name__ == '__main__': pass from Bank import * bank = Bank() ac = bank.add_account() main_loop(ac)
def testCreateAccount(self): testBank = Bank("Test Bank") testUser = User(testBank, "username", "pass", 0) testUser.createAccount("account1") self.assertEqual(testUser.getAccounts()[0].getId(), "account1")
def __init__(self, name, starting_amount=40): super().__init__(name) self.Bank = Bank(starting_amount) self.bet_amount = 0
def testAccountConstructor(self): testBank = Bank("Test Bank") testUser = User(testBank, "username", "pass", 10) testAccount = Account(testUser, "account1") self.assertEqual(testAccount.getId(), "account1")
def main(): quitProgram = False loginChoice = "" bankChoice = "" loggedIn = False bankSelected = False # Create bank objects bank1 = Bank("TD Bank") bank2 = Bank("Passumpsic Bank") bank3 = Bank("Community National Bank") banks = [bank1, bank2, bank3] mainBank = banks[0] mainUser = User(bank1, "", "", 10) print("Welcome, please select the bank you would like to use: ") while not bankSelected: for i in range(len(banks)): print(str(i + 1) + ". " + banks[i].getName() + " \n") bankChoice = input("Your Selection: ") try: if int(bankChoice) - 1 < len(banks) and int(bankChoice) - 1 >= 0: mainBank = banks[int(bankChoice) - 1] bankSelected = True except ValueError: print("Input was invalid, try again.") print("Welcome to " + mainBank.getName() + ".") print("Would you like to login as an existing user, or register?") # Handle account creation and login while not loggedIn: print("Please select from the following options: ") print("1. Register user account \n2. Login \n") loginChoice = input("Your Selection: ") # Get input to register new account if loginChoice == "1": usernameChoice = input("Please enter your username: "******"Please enter your password: "******"Please enter your personal funds: ") newUser = User(mainBank, usernameChoice, passwordChoice, int(personalFundsChoice)) newUser.login(usernameChoice, passwordChoice) mainBank.registerUser(newUser) print("Your user profile has been created, " + usernameChoice) loggedIn = True # Attempt to login to existing account elif loginChoice == "2": usernameChoice = "0" passwordChoice = "0" while not loggedIn and usernameChoice != "" and passwordChoice != "": print("To go back, enter nothing for either field.") usernameChoice = input("Please enter your username: "******"Please enter your password: "******"" and passwordChoice != "": for user in mainBank.getUsers(): if user.login(usernameChoice, passwordChoice): print("You have successfully logged in, " + usernameChoice) mainUser = user loggedIn = True break if not loggedIn: print("Your credentials were incorrect, please try again.") print("You are now logged in.") # Interface with accounts and deposit boxes for the selected user userMenuChoice = "" quitProgram = False while not quitProgram: print("\nPlease select from the following user options, or enter 'q' to log out. ") print("1. Create Account \n2. Select Account \n3. Register Deposit Box \n4. Select Deposit Box \n5. Check Personal Funds ") userMenuChoice = input("Your Selection: ") # Account creation if userMenuChoice == "1": newAccountName = input("Please enter the new account's name: ") mainUser.createAccount(newAccountName) print("Account '" + newAccountName + "' has been created. ") # Account selection elif userMenuChoice == "2": print("\nPlease select one of your accounts, or enter nothing to go back. ") for i in range(len(mainUser.getAccounts())): print(str(i + 1) + ". " + mainUser.getAccounts()[i].getId()) accountChoice = input("Your Selection: ") mainAccount = "" mainAccountIndex = 0 accountSelected = False # Validate selection input while not accountSelected and accountChoice != "": try: if int(accountChoice) - 1 < len(mainUser.getAccounts()) and int(accountChoice) - 1 >= 0: mainAccount = mainUser.getAccounts()[int(accountChoice) - 1] mainAccountIndex = int(accountChoice) - 1 accountSelected = True except ValueError: print("Input was invalid, try again.") # Handle checking, withdrawing and depositing if accountSelected: print("\nPlease select an action for this account, or enter nothing to go back. ") print("1. Check Balance \n2. Withdraw Funds \n3. Deposit Funds ") subAccountChoice = input("Your Selection: ") if subAccountChoice == "1": print("Account Balance: " + str(mainAccount.getFunds())) elif subAccountChoice == "2": amount = input("Please enter an amount to withdraw: ") mainUser.addFundsToAccount(float(amount) * -1, mainAccountIndex) elif subAccountChoice == "3": amount = input("Please enter an amount to deposit: ") mainUser.addFundsToAccount(float(amount), mainAccountIndex) # Create deposit box elif userMenuChoice == "3": depositItemChoice = "" itemList = [] itemCount = 0 print("\nThe maximum capacity of your new deposit box is " + str(mainBank.getMaxDepositBoxCapacity())) print("Please enter the contents of the new deposit box one by one, enter 'f' when finished.") while depositItemChoice != "f" and itemCount < mainBank.getMaxDepositBoxCapacity() - 1: itemCount += 1 depositItemChoice = input("Please enter an item: ") if depositItemChoice != "f": itemList.append(depositItemChoice) mainUser.registerDepositBox(mainBank.getMaxDepositBoxCapacity(), itemList) print("Your new deposit box has been registered. ") # Select deposit box elif userMenuChoice == "4": print("\nPlease select one of your deposit boxes, or enter nothing to go back. ") for i in range(len(mainUser.getDepositBoxes())): print("Deposit box #" + str(i + 1)) boxChoice = input("Your Selection: ") mainBox = "" mainBoxIndex = 0 boxSelected = False while not boxSelected and boxChoice != "": try: if int(boxChoice) - 1 < len(mainUser.getDepositBoxes()) and int(boxChoice) - 1 >= 0: mainBox = mainUser.getDepositBoxes()[int(boxChoice) - 1] mainBoxIndex = int(boxChoice) - 1 boxSelected = True except ValueError: print("Input was invalid, please try again.") # Handle checking, withdrawing, and depositing in a deposit box if boxSelected: print("\nPlease select an action for this deposit box, or enter nothing to go back. ") print("1. Check Box \n2. Withdraw item \n3. Deposit item ") subBoxChoice = input("Your Selection: ") if subBoxChoice == "1": print("Box contents: " + str(mainBox.getContents())) elif subBoxChoice == "2": print("The box contents are as follows. ") for i in range(len(mainBox.getContents())): print(str(i) + ". " + mainBox.getContents()[i]) withdrawalItemIndex = int(input("Please enter the number of the item you wish to withdraw: ")) if withdrawalItemIndex >= 0 and withdrawalItemIndex < len(mainBox.getContents()): mainUser.removeItemFromBox(withdrawalItemIndex, mainBoxIndex) print("Item removed.") elif subBoxChoice == "3": newBoxItem = input("Please enter an item to deposit: ") mainUser.addItemToBox(newBoxItem, mainBoxIndex) print("Item added.") elif userMenuChoice == "5": print("Your personal funds are: " + str(mainUser.getPersonalFunds())) elif userMenuChoice == "q": mainUser.logout() quitProgram = True
print('Dealer Wins') def push(player, dealer): print('Dealer and player tie! PUSH!') while True: # Openning statement print("W E L C O M E T O B L A C K J A C K") deck = Deck() deck.shuffle_deck() player = Player.Player() dealer = Dealer.Dealer() bank = Bank.Bank(500, 500) # if the player or dealer have no cards, they will draw 2 cards each. if player.is_empty() == True: for i in range(2): player.draw_card(deck.deal_card()) if dealer.is_empty() == True: for i in range(2): dealer.draw_card(deck.deal_card()) while game: # from hit_or_stand func # ask the player if he wants to hit or stand hit_or_stand(deck, player) # shows the cards. show_some(dealer, player)