def menu(account_number): while True: first_name = model.get_f_name(account_number) last_name = model.get_l_name(account_number) view.main_menu(account_number, first_name, last_name) selection = view.choice() if selection == "1": model.get_balance(account_number) elif selection == "2": witdraw = float(view.withdraw()) model.withdraw_money(account_number, witdraw) money_left = model.balance(account_number) model.save() if money_left < 0: view.insuf() elif selection == "3": depo = float(view.deposit()) model.add_amount(account_number, depo) model.save() elif selection == "4": model.save() return
def game_loop(username): # Main menu (balance, buy, sell, lookup, quote, portfolio, exit) main_done = False while not main_done: balance_inputs = ["a", "balance"] buy_inputs = ["b", "buy"] sell_inputs = ["s", "sell"] lookup_inputs = ["l", "lookup"] quote_inputs = ["q", "quote"] portfolio_inputs = ["p", "portfolio"] exit_inputs = ["e", "exit"] acceptable_inputs = balance_inputs\ +buy_inputs\ +sell_inputs\ +lookup_inputs\ +quote_inputs\ +portfolio_inputs\ +exit_inputs user_input = view.main_menu(username) # If the user input is acceptable. if user_input.lower() in acceptable_inputs: # Balance if user_input.lower() in balance_inputs: balance = model.get_balance(username) view.balance_menu(balance) # Buy elif user_input.lower() in buy_inputs: ticker_symbol, trade_volume = view.buy_menu() res = model.buy(ticker_symbol, trade_volume, username) view.display_response(res) # Sell elif user_input.lower() in sell_inputs: ticker_symbol, trade_volume = view.sell_menu() res = model.sell(ticker_symbol, trade_volume, username) view.display_response(res) # Lookup elif user_input.lower() in lookup_inputs: company_name = view.lookup_menu() ticker_symbol = model.get_ticker_symbol(company_name) view.display_ticker_symbol(ticker_symbol) # Quote elif user_input.lower() in quote_inputs: ticker_symbol = view.quote_menu() last_price = model.get_last_price(ticker_symbol) view.display_last_price(last_price) # Portfolio (Holdings) elif user_input.lower() in portfolio_inputs: df = model.get_holdings_dataframe(username) balance = model.get_balance(username) earnings = model.get_earnings(username) view.display_dataframe(df, balance, earnings, username) # Exit elif user_input.lower() in exit_inputs: view.exit_message() main_done = True # Otherwise else: return "Error"
def game_loop(): while True: #x = input('what do you want to do?') buy_inputs = ['b', 'buy'] sell_inputs = ['s', 'sell'] lookup_inputs = ['l', 'lookup'] quote_inputs = ['q', 'quote'] exit_inputs = ['e', 'exit'] acceptable_inputs = buy_inputs \ + sell_inputs \ + lookup_inputs \ + quote_inputs \ + exit_inputs user_input = view.main_menu() if user_input.lower() in acceptable_inputs: if user_input.lower() in buy_inputs: pass elif user_input.lower() in sell_inputs: pass elif user_input.lower() in lookup_inputs: company_name = view.lookup_menu() ticker_symbol = model.get_ticker_symbol(company_name) return ticker_symbol elif user_input.lower() in quote_inputs: ticker_symbol = view.quote_menu() last_price = model.get_last_price(ticker_symbol) return last_price elif user_input.lower() in exit_inputs: #TODO add exit message in the view module break else: return 'Error'
def game_loop(): user_input = view.main_menu() buy_inputs = ['b', 'buy'] sell_inputs = ['s', 'sell'] lookup_inputs = ['l', 'lookup'] quote_inputs = ['q', 'quote'] exit_inputs = ['e', 'exit'] view_inputs = ['v', 'view'] pl_inputs = ['p', 'p'] acceptable_inputs = buy_inputs \ + sell_inputs \ + lookup_inputs \ + quote_inputs \ + exit_inputs \ + view_inputs \ + pl_inputs on_off_switch = True while on_off_switch: if user_input.lower() in acceptable_inputs: if user_input.lower() in buy_inputs: (ticker_symbol, trade_volume) = view.buy_menu() x = model.buy(ticker_symbol, trade_volume) return x elif user_input.lower() in sell_inputs: (ticker_symbol, trade_volume) = view.sell_menu() x = model.sell(ticker_symbol, trade_volume) return x elif user_input.lower() in lookup_inputs: company_name = view.lookup_menu() x = model.lookup(company_name) return x elif user_input.lower() in quote_inputs: ticker_symbol = view.quote_menu() x = model.quote(ticker_symbol) return x elif user_input.lower() in view_inputs: balance = view.portfolio_menu() x = model.portfolio(balance) return x elif user_input.lower() in pl_inputs: p = view.pl_menu() x = model.pl(p) return x elif user_input.lower() in exit_inputs: break #on_off_switch = False else: print('Bad input. Restarting game in five seconds...') time.sleep(5) game_loop() else: return 'Plese Start Over'
def run(): play = True while play == True: rows, columns = view.main_menu() #return error for non-numeric input if rows.isnumeric() == False or columns.isnumeric() == False: view.not_num() play = False rows = int(rows) columns = int(columns) battleship = model.Gameboard(rows, columns) view.show_board(battleship.board, rows) print(battleship.ship_row, battleship.ship_column) print(type(battleship.board)) play = True while play == True: #TODO Error handling when input is out of range or not number view.input_coordinates() #return error for non-numeric input or not in range input guess_again = True while guess_again == True: guess_column = view.guess_x() if guess_column.isnumeric() == False: view.not_num() elif int(guess_column) > columns or int(guess_column) < 1: view.input_not_in_range(columns) else: guess_again = False guess_again = True while guess_again == True: guess_row = view.guess_y() if guess_row.isnumeric() == False: view.not_num() elif int(guess_row) > rows or int(guess_row) < 1: view.input_not_in_range(rows) else: guess_again = False guess_row = int(guess_row) - 1 guess_column = int(guess_column) - 1 view.fire() #Compare guess to battleship location #win condition if guess_row == battleship.ship_row and guess_column == battleship.ship_column: battleship.board[guess_row][guess_column] = "S" view.win() view.show_board(battleship.board, rows) return #miss condition battleship.board[guess_row][guess_column] = "X" view.miss() view.show_board(battleship.board, rows)
def run(): while True: choice = view.main_menu() if choice == "3": #Exit return elif choice == "1": #Create Account view.create_account() fname = view.first_name() lname = view.last_name() pin = view.choose_pin() initial = float(view.deposit_initial()) #Create new account then display view.new_account(model.create_account(fname, lname, pin, initial)) elif choice == "2": #log in account_num, pin = view.login() #Check if login info is correct if model.login(account_num, pin) == False: view.bad_login() else: #Login Menu - Check Balance, Withdraw, Deposit, Open Savings Account info = model.login(account_num, pin) view.welcome(account_num, info) while True: choice = view.login_menu() if choice == "1": view.check_balance(info) elif choice == "2": login_withdrawal(account_num) #see line 58 elif choice == "3": num = view.deposit() new_balance = model.deposit(num, account_num) view.deposit_new_balance(num, new_balance) elif choice == "4": from_account, to_account, amount = view.transfer() #Add " account" at the end of the string so it matches the key in the dictionary from_account = from_account + " account" to_account = to_account + " account" #convert amount value from string to float amount = float(amount) info = model.transfer(from_account, to_account, amount, account_num) view.transfer_new_balance(info, from_account, to_account) elif choice == "5": yesorno, deposit = view.create_savings() model.open_savings(yesorno, float(deposit), account_num) view.savings_opened(float(deposit)) elif choice == "6": view.signout() return else: view.bad_input()
def main_loop(): user_input = view.main_menu() account_input = '1' login_input = '2' quit = '3' if user_input == account_input: account_create_loop() if user_input == login_input: login_loop() if user_input == quit: print("Goodbye.") exit()
def game_loop(): while True: user_input = view.main_menu().lower() buy_inputs = ["b", "buy"] sell_inputs = ["s", "sell"] lookup_inputs = ["l", "lookup"] quote_inputs = ["q", "quote"] exit_inputs = ["e", "exit"] acceptable_inputs = buy_inputs \ +sell_inputs \ +lookup_inputs \ +quote_inputs \ +exit_inputs if user_input in acceptable_inputs: if user_input in buy_inputs: # FIXME # State of the Program: ## User wants to buy stock ### company referred to by TICKER SYMBOL #### global unique identifiers ## What we should try to do next (ie sudo code) ## --trader_name ## --ticker_symbol ## --trade_volume ## --limit_price --> coming from `view` ## --time_stamp --> defined in `model` ## "we're building out the order ticket" (username, password) = view.login_menu() (ticker_symbol, trade_volume) = view.buy_menu() ####################################### with model.User(username) as u: if u.login(password): # excute the buy order, # if there's enough money in acct confirmation_message = u.buy(ticker_symbol, trade_volume) print(confirmation_message) pass pass elif user_input in sell_inputs: # FIXME pass
def command_func(com): global command2 com = view.main_menu() if com == 1: base.view_base() return 1 if com == 2: command2 = view.sec_menu() if command2 == 1: base.new_faculty() if command2 == 2: base.new_group() return 1 if com == 3: command2 = view.sec_menu() if command2 == 1: base.change_faculty() if command2 == 2: base.change_group() return 1 if com == 4: command2 = view.sec_menu() if command2 == 1: base.del_faculty() if command2 == 2: base.del_group() return 1 if com == 5: base.filter() return 1 if com == 6: base.save_base() return 1 if com == 7: base.refresh_from_f() return 1 if com == 8: base.del_base() return 1 if com == 9: return 0 if com in range(1, 8): print("Неверный номер, попробуйте еще.")
def game_loop(): user_input = view.main_menu() lookup_inputs = ['l', 'lookup', 'look-up', 'lookup'] quote_inputs = ['q', 'quote'] acceptable_inputs = lookup_inputs \ +quote_inputs if user_input in acceptable_inputs: if user_input in lookup_inputs: x = view.lookup_menu() y = model.lookup(x) print(y) elif user_input in quote_inputs: x = view.quote_menu() y = model.quote(x) print(y) else: print('Error: uncaught exception') else: print('Error: uncaught exception')
def main_menu(account): while True: choice = view.main_menu() if choice == "1": balance = account.balance print(balance) elif choice == "2": withdraw = view.withdraw() account.withdraw(withdraw) account.save() elif choice == "3": depo = view.deposit() account.deposit(depo) account.save() elif choice == "4": account.save() return else: view.bad_input()
def game_loop(): while True: #x = input('what do you want to do?') acceptable_inputs = ['b', 's', 'l', 'q', 'e'] user_input = view.main_menu() if user_input.lower() in acceptable_inputs: if user_input == 'b': pass elif user_input == 's': pass elif user_input == 'l': pass elif user_input == 'q': ticker_symbol = view.quote_menu() last_price = model.get_last_price(ticker_symbol) return last_price elif user_input == 'e': #TODO add exit message in the view module break else: return 'Error'
#location : tiketPesawat from datetime import datetime #Module punya sendiri from models import ticket, user import view import system system.tickets = system.load_ticket_data() system.users = system.load_user_data() while not system.error : view.main_menu()
import view import model import time while True: menu_item = view.main_menu() print(menu_item) if menu_item == '1': attrs = view.insert_menu() try: getattr(model, f'insert_{attrs[0]}')(attrs[1].split(',')) except: print("Oops, table doesn't exists") elif menu_item == '2': attrs = view.delete_menu() model.delete(*attrs) elif menu_item == '3': attrs = view.update_menu() model.update(*attrs) elif menu_item == '4': attrs = view.random_menu() try: view.show_random_query( getattr(model, f'random_{attrs[0]}')(int(attrs[1]))) except: print("Oops, table doesn't exists") elif menu_item == '5': attrs = view.select_menu() f_name = [ 'student_grade', 'teacher_subject', 'student_teacher_subject'
) == 'LOG IN' or selection.strip() == 'log in': username, password = view.login_prompt() pk = model.login(username, password) exit_terminal = True view.pause() elif selection.strip() == '2' or selection.strip( ) == 'CREATE ACCOUNT' or selection.strip() == 'create account': username, password, balance = view.create_account() pk = model.save_create_account(username, password, balance) exit_terminal == True while pk == None: username, password = view.login_prompt(True) pk = model.login(username, password) exit_terminal = False while exit_terminal == False: option = view.main_menu() if option.strip() == "0": exit_terminal = True elif option.strip() == "1": balance = model.get_balance(pk) holdings = model.get_holdings(pk) view.show_status(balance, holdings) view.pause() elif option.strip() == '3': ticker_symbol, number_of_shares = view.sell_menu() status = model.sell(pk, ticker_symbol, number_of_shares) if status == False: view.sell_error() view.pause() else: view.sell_good()
def game_loop(): current_username = '' condition = True while 1: user_choice = view.log_or_sign() user_choice = user_choice.lower() log_in = ['l', 'login'] create_ = ['c', 'create'] exit_ = ['e', 'exit'] accept_input = log_in \ +create_ \ +exit_ if user_choice in accept_input: if user_choice in log_in: (user_name, password) = view.log_menu() current_username = user_name has_account = model.log_in(user_name, password) if has_account: break else: print('WRONG LOGIN INFORMATION. TRY AGAIN') import time time.sleep(3) elif user_choice in exit_: condition = False m.log_out() os.system('clear') break elif user_choice in create_: #(new_user,new_password,new_funds) = view.create_menu() # new_user = input("username:"******"password:"******"""INSERT INTO user( username, password, current_balance ) VALUES(?,?,? )""", newuser) connection.commit() cursor.close() connection.close() print("You have signed up!") import time time.sleep(3) while condition: buy_inputs = ['b', 'buy'] sell_inputs = ['s', 'sell'] lookup_inputs = ['l', 'lookup'] quote_inputs = ['q', 'quote'] exit_inputs = ['e', 'exit'] acceptable_inputs = buy_inputs \ +sell_inputs \ +lookup_inputs \ +quote_inputs \ +exit_inputs user_input = view.main_menu() if user_input in acceptable_inputs: if user_input in buy_inputs: (ticker_symbol, trade_volume) = view.buy_menu() confirmation_message, return_list = model.buy( current_username, ticker_symbol, trade_volume) if confirmation_message == True: yes = ['y', 'yes'] no = ['n', 'no'] choice = input( "You have enough money. Would you like to buy this stock?\n[y] Yes\n[n] No\n" ) if choice in yes: model.buy_db(return_list) else: print("Returning to main menu.") else: print("You do not have enough money to buy this stock.") elif user_input in sell_inputs: (ticker_symbol, trade_volume) = view.sell_menu() confirmation_message, return_list = model.sell( current_username, ticker_symbol, trade_volume) #TODO if confirmation_message == True: yes = ['y', 'yes'] no = ['n', 'no'] choice = input( "You have enough shares to sell. Would you like to sell this stock?\n[y] Yes\n[n] No\n" ) if choice.lower() in yes: model.sell_db(return_list) #TODO else: print("Returning to main menu.") else: print("You do not have enough shares to sell.") elif user_input in lookup_inputs: company_name = view.lookup_menu() print(model.lookup_ticker_symbol(company_name)) elif user_input in quote_inputs: #TODO ticker_symbol = view.quote_menu() print(model.quote_last_price(ticker_symbol)) #import time #time.sleep(5) elif user_input in exit_inputs: os.system('clear') break else: #catches huge error #should contain a fallback function pass else: pass model.updateHoldings() import time time.sleep(3)
os.system('scp {0}/.ssh/id_rsa.pub root@{1}:/etc/ssh/{2}/authorized_keys'.format(expanduser('~'), ip_address, username)) os.system('sh -c \'echo "{0}" > .htpasswd-credentials\''.format(password)) os.system('sh -c \'echo "{1}:{0}" > .chpasswd-credentials\''.format(password, username)) os.system('scp .htpasswd-credentials root@{0}:/home/{1}/'.format(ip_address, username)) os.system('scp .chpasswd-credentials root@{0}:/home/{1}/'.format(ip_address, username)) os.system('rm .htpasswd-credentials') os.system('rm .chpasswd-credentials') os.system('scp root@{0}:/etc/pki/tls/certs/logstash-forwarder.crt .'.format(ip_address)) # TODO Find a place to store the certificate os.system('ssh -o "StrictHostKeyChecking no" root@{2} \'bash -s\' < procedures/docker/configuration-{1}-{0}.sh'.format(count, hostname, ip_address)) os.system('ssh -o "StrictHostKeyChecking no" root@{2} \'bash -s\' < procedures/elastic_search/configuration-{1}-{0}.sh'.format(count, hostname, ip_address)) os.system('ssh -o "StrictHostKeyChecking no" root@{2} \'bash -s\' < procedures/fail2ban/configuration-{1}-{0}.sh'.format(count, hostname, ip_address)) os.system('ssh -o "StrictHostKeyChecking no" root@{2} \'bash -s\' < procedures/firewalld/configuration-{1}-{0}.sh'.format(count, hostname, ip_address)) os.system('ssh -o "StrictHostKeyChecking no" root@{2} \'bash -s\' < procedures/kibana/configuration-{1}-{0}.sh'.format(count, hostname, ip_address)) os.system('ssh -o "StrictHostKeyChecking no" root@{2} \'bash -s\' < procedures/logstash/configuration-{1}-{0}.sh'.format(count, hostname, ip_address)) os.system('ssh -o "StrictHostKeyChecking no" root@{2} \'bash -s\' < procedures/nano/configuration-{1}-{0}.sh'.format(count, hostname, ip_address)) os.system('ssh -o "StrictHostKeyChecking no" root@{2} \'bash -s\' < procedures/nginx/configuration-{1}-{0}.sh'.format(count, hostname, ip_address)) os.system('ssh -o "StrictHostKeyChecking no" root@{2} \'bash -s\' < procedures/openssh/configuration-{1}-{0}.sh'.format(count, hostname, ip_address)) os.system('ssh -o "StrictHostKeyChecking no" root@{2} \'bash -s\' < procedures/systemd/configuration-{1}-{0}.sh'.format(count, hostname, ip_address)) count += 1 return ip_addresses if __name__ == '__main__': (hostname, ssh_port, email, username, password, k) = view.main_menu() print(provision(hostname, ssh_port, email, username, password, k))
def main(): create_db.create_tables() view.main_menu()
def run(): model.load() view.main_menu() selection = view.get_input() mainmenu(selection)
def game_loop(): current_username = '' condition = True while 1: user_choice = view.log_or_sign() user_choice = user_choice.lower() log_in = ['l','login'] create_ = ['c','create'] exit_ = ['e','exit'] accept_input = log_in \ +create_ \ +exit_ if user_choice in accept_input: if user_choice in log_in: (user_name, password) = view.log_menu() current_username = user_name has_account = model.log_in(user_name, password) if has_account: break else: input("You have entered the wrong login information. \nPlease try again. Press enter to continue. ") elif user_choice in exit_: condition = False m.log_out() view.clear_screen() break elif user_choice in create_: model.create_() print("You have signed up!") input("Press enter to continue. ") while condition: #while true, the loop continues buy_inputs = ['b', 'buy'] sell_inputs = ['s', 'sell'] lookup_inputs = ['l', 'lookup'] quote_inputs = ['q', 'quote'] funds = ['f', 'funds'] holdings = ['h', 'holdings'] transactions = ['t', 'transactions'] exit_inputs = ['e', 'exit'] acceptable_inputs = buy_inputs \ +sell_inputs \ +lookup_inputs \ +quote_inputs \ +funds \ +holdings \ +transactions \ +exit_inputs user_input = view.main_menu() user_input = user_input.lower() if user_input in acceptable_inputs: if user_input in buy_inputs: (ticker_symbol, trade_volume) = view.buy_menu() confirmation_message, return_list = model.buy(current_username, ticker_symbol, trade_volume) if confirmation_message == True: #if the transaction cost is less than the current balance yes = ['y', 'yes'] no = ['n', 'no'] choice = input("You have enough money. Would you like to buy this stock?\n[y] Yes\n[n] No\n") if choice in yes: model.buy_db(return_list) print("You have bought {} shares of {}. ".format(trade_volume, ticker_symbol)) else: print("Returning to main menu.") else: print("You do not have enough money to buy this stock.") elif user_input in sell_inputs: (ticker_symbol, trade_volume) = view.sell_menu() confirmation_message, return_list = model.sell(current_username, ticker_symbol, trade_volume) if confirmation_message == True: yes = ['y', 'yes'] no = ['n', 'no'] choice = input("You have enough shares to sell. Would you like to sell this stock?\n[y] Yes\n[n] No\n") if choice.lower() in yes: model.sell_db(return_list) print("You have sold {} shares of {}. ".format(trade_volume, ticker_symbol)) else: print("Returning to main menu.") else: print("You do not have enough shares to sell.") elif user_input in lookup_inputs: company_name = view.lookup_menu() ticker_symbol = model.lookup_ticker_symbol(company_name) if len(ticker_symbol) <=6: #if it returns an actual ticker symbol instead of the error message print("The ticker symbol for {} is {}.".format(company_name, ticker_symbol)) else: #error message print("The ticker symbol for the company you searched cannot be found. \nPlease try again.") elif user_input in quote_inputs: ticker_symbol = view.quote_menu() last_price = model.quote_last_price(ticker_symbol) if len(str(last_price)) <= 6: print("The last price for {} is ${}.".format(ticker_symbol, last_price)) else: print("The last price for the company you searched cannot be found. \nPlease try again.") elif user_input in funds: view.clear_screen() bal = model.funds() print("Your current balance is ${}.".format(bal)) elif user_input in holdings: view.clear_screen() holdings = m.holdings() print("Your current holdings: \n{}".format(holdings)) elif user_input in transactions: view.clear_screen() transactions = m.transactions() print("All of your previous transactions: \n{}".format(transactions)) elif user_input in exit_inputs: view.clear_screen() condition = False m.log_out() break else: print("Error.") else: print("Error.") model.update_holdings() input("\nPress enter to continue. ")
def game_loop(): start = view.start_up_menu() if start == "s": (user_name, password) = view.sign_up_menu() model.sign_up(user_name, password) else: (user_name, password) = view.logg_in_menu() _id = model.user_check(password) print(_id) while 1: buy_inputs = ['b', 'buy'] sell_inputs = ['s', 'sell'] lookup_inputs = ['l', 'lookup', 'look up', 'look-up'] quote_inputs = ['q', 'quote'] exit_inputs = ['e', 'exit', 'quit'] view_inputs = ['v'] acceptable_inputs = buy_inputs \ +sell_inputs \ +lookup_inputs \ +quote_inputs \ +exit_inputs \ +view_inputs user_input = view.main_menu() if user_input in acceptable_inputs: if user_input in buy_inputs: balance = model.check_balance(user_name) fee = 6.25 ticker_symbol = view.quote_menu() price = model.quote(ticker_symbol) trade_volume = view.transaction_menu(balance, ticker_symbol, price) transaction_cost = (float(trade_volume) * price) + fee if transaction_cost <= balance: balance -= transaction_cost model.update_cash(user_name, balance) model.buy(user_name, ticker_symbol, float(trade_volume), float(price)) model.buy_holdings(user_name, ticker_symbol, float(trade_volume), price) else: print("Not enough monay") elif user_input in sell_inputs: ticker_symbol = view.quote_menu() price = model.quote(ticker_symbol) trade_volume = view.sell_menu() owned = model.check_holdings(user_name, ticker_symbol) if owned and int(trade_volume) <= owned: model.sell_holdings(user_name, ticker_symbol, trade_volume, price, owned) elif user_input in lookup_inputs: return model.lookup(view.lookup_menu()) elif user_input in quote_inputs: return model.quote(view.quote_menu()) elif user_input in view_inputs: users = model.get_users() users_list = [ ] # this is a list of all the users that currenttly have holdings for i in users: users_list.append(i[0]) users_holdings = [ ] # users holdings by tickers but not numbers for i in users_list: user_holdings = model.get_holdings(i) a = [] for i in user_holdings: a.append(i[0]) users_holdings.append(a) tickers = [ ] # is all the stocks the users, un "set'd" and joinined together for i in users_holdings: for j in i: tickers.append(j) prices = { } # this has all the prices for all the stocks owned in the holdings for i in set(tickers): # price = model.quote(i) prices[i] = price volumes = [ ] # a list of lists of amount of stock each of them own for i in users_list: volumes.append(model.holdings_volumes(i)) # print(users_holdings) # print(volumes) values_final = {} for i in range(len(users_holdings)): total = 0 for j in range(len(users_holdings[i])): total += (prices[users_holdings[i][j]]) * ( volumes[i][j][0]) values_final[users_list[i]] = total highest = 0 sorted_words = {} while values_final: for i in values_final: if values_final[i] >= highest: highest = values_final[i] word = i sorted_words[word] = highest values_final.pop(i) highest = 0 for i in sorted_words: print("{} : {}".format(i, sorted_words[i])) # highest = 0 # while values_final: # for i in range(len(values)) # if values[i] # need to add total balance #work vwamp elif user_input in exit_inputs: break
import sqlite3 import os import time import model import view while True: choice = view.main_menu() if choice.upper() == 'C': view.add_class() subject = input('Subject: ') room = int(input('Room number: ')) t_id = int(input('Teacher ID: ')) capacity = int(input('Class capaciiy: ')) c_id = int(input('Class ID: ')) success = model.add_class(subject,room,t_id,capacity,c_id) if success: view.success('Class') else: view.error() elif choice.upper() == 'T': view.add_teacher() first = input('First name: ') last = input('Last name: ') homeroom = int(input('Homeroom number: ')) subj = input('Subject: ') phone = input('Phone number: ') tenure = input('Tenure (1/0): ')