def test_transfer_money(self): """ Tests if customer able to Transfer amount Successfully :return: Assertion of test fail or pass """ self.test__init__() # open an existing account as destination # amount should Transfer to pass test dest_customer = Customer("Gulnaz") dest_customer.open_account(5) prev_balance = dest_customer.check_balance() self.my_customer.transfer_money(5, 50) self.assertEqual(self.my_customer.check_balance(), 50, msg="Transfer from source Account") dest_customer.open_account(5) new_balance = dest_customer.check_balance() self.assertEqual(prev_balance + 50, new_balance, msg=" Amount not comes in destination Account") # open an account that not exist # amount should not transfer to pass test self.test__init__() self.my_customer.transfer_money(200, 50) self.assertEqual(self.my_customer.check_balance(), 100, msg=" Amount Transfer But dest not exist")
def test_open_account(self): """ Tests if an account Open Suceesfully when exist and not opened when not exist :return: Assertion of test fail or pass """ f_customer = Customer("huma") f_customer.open_account(2) self.assertNotEqual(f_customer.check_balance(), -1, msg=" Account Not Opened But it exists") s_customer = Customer("huma") s_customer.open_account(15) self.assertEqual(s_customer.check_balance(), -1, msg=" Account Open when it not exist")
def test_request_new_account(self): """ Tests when request for new account is made it is opened or not :return: Assertion of test fail or pass """ dest_customer = Customer("Tempcust") dest_customer.request_new_account("S") dest_customer.deposit(500) acnt_no = dest_customer.get_account_number() dest_customer.open_account(acnt_no) self.assertEqual(dest_customer.check_balance(), 500, msg=" New Account Not Opened")
def open_account_interface(): """ Prompt User to Enter valid account no and Customer Name :return: Customer instance for Current User """ while True: print "Enter Account No" read_account = raw_input() print "Enter name" read_username = raw_input() current_customer = Customer(read_username) current_customer.open_account(int(read_account)) if current_customer.check_balance() != -1: check_account_details_interface(current_customer) return current_customer else: print "Enter valid Account NO and Name"
class CustomerTestCases(unittest.TestCase): """ This class tests the customer class operations via unit tests """ def test__init__(self): """ This initialize Customer attribute of Customer test cases :return: None """ self.my_customer = Customer("Rabia") self.my_customer.account.c_id = 11 self.my_customer.account.account_no = 11 self.my_customer.account.account_type = "S" self.my_customer.account.balance = 100 def test_balance(self): """ Tests if balance is set successfully or not :return: Assertion of test fail or pass """ self.test__init__() self.assertEqual(self.my_customer.account.balance, 100, msg=" Balance not Set") def test_deposit(self): """ Tests if deposit Work properly :return: Assertion of test fail or pass """ self.test__init__() self.my_customer.deposit(500) self.assertEqual(self.my_customer.account.balance, 600, msg=" Balance Not Updated after deposit") def test_withdraw(self): """ Tests if withdraw Work properly :return: Assertion of test fail or pass """ self.test__init__() self.my_customer.withdraw(50) self.assertEqual(self.my_customer.account.balance, 50, msg=" Balance Not Updated after withdraw") self.my_customer.withdraw(500) self.assertEqual(self.my_customer.account.balance, 50, msg=" Withdraw Even when Not enough amount Available") def test_check_balance(self): """ Tests if Customer is able to check his balance :return:Assertion of test fail or pass """ self.test__init__() self.assertEqual(self.my_customer.check_balance(), 100, msg="Check balance not works Properly") def test_transfer_money(self): """ Tests if customer able to Transfer amount Successfully :return: Assertion of test fail or pass """ self.test__init__() # open an existing account as destination # amount should Transfer to pass test dest_customer = Customer("Gulnaz") dest_customer.open_account(5) prev_balance = dest_customer.check_balance() self.my_customer.transfer_money(5, 50) self.assertEqual(self.my_customer.check_balance(), 50, msg="Transfer from source Account") dest_customer.open_account(5) new_balance = dest_customer.check_balance() self.assertEqual(prev_balance + 50, new_balance, msg=" Amount not comes in destination Account") # open an account that not exist # amount should not transfer to pass test self.test__init__() self.my_customer.transfer_money(200, 50) self.assertEqual(self.my_customer.check_balance(), 100, msg=" Amount Transfer But dest not exist") def test_pay_bills(self): """ Tests if customer able to pay bills Successfully :return: Assertion of test fail or pass """ self.test__init__() self.my_customer.pay_bills(50) self.assertEqual(self.my_customer.check_balance(), 50, msg=" Bills not Pay") def test_request_new_account(self): """ Tests when request for new account is made it is opened or not :return: Assertion of test fail or pass """ dest_customer = Customer("Tempcust") dest_customer.request_new_account("S") dest_customer.deposit(500) acnt_no = dest_customer.get_account_number() dest_customer.open_account(acnt_no) self.assertEqual(dest_customer.check_balance(), 500, msg=" New Account Not Opened") def test_open_account(self): """ Tests if an account Open Suceesfully when exist and not opened when not exist :return: Assertion of test fail or pass """ f_customer = Customer("huma") f_customer.open_account(2) self.assertNotEqual(f_customer.check_balance(), -1, msg=" Account Not Opened But it exists") s_customer = Customer("huma") s_customer.open_account(15) self.assertEqual(s_customer.check_balance(), -1, msg=" Account Open when it not exist")
print(f"{'-' * 30}|") debet_saldo = int(input("Debet Saldo: ")) ''' if atm.check_balance <= 50000: print("[MESSAGE] - Maaf, minimal saldo yang tersisa setelah penarikan minimal IDR. {}") else: pass ''' print(f"[MESSAGE]: Anda akan melakukan debet dengan nominal {debet_saldo}") verify_withdraw = input("KONFIRMASI [y/n]: ") if verify_withdraw == "y" or verify_withdraw == "Y": print(f"Saldo awal : IDR. {atm.check_balance()}") if debet_saldo < atm.check_balance(): atm.withdraw_balance(debet_saldo) print(f"[SUCCESS] Transaksi debet berhasil!") print(f"Saldo tersisa: {atm.check_balance()}") else: print("[GAGAL] Maaf, saldo Anda tidak mencukupi untuk melakukan tarikan!") print("Silahkan melakukan penambahan saldo") elif verify_withdraw == "n" or verify_withdraw == "N": break else: print("pilihan tidak tersedia") elif select_menu == 3: