def read_renter_list_entity_update_input(self): renterListEntity = RentingListScheme() renterListEntity.car_number = input("enter car number: ") while not CheckInput.test_car_number(renterListEntity.car_number): renterListEntity.car_number = input("Wrong input!\nTry again: ") renterListEntity.date = input("enter renting date(format: year-mm-dd): ") while not CheckInput.test_date(renterListEntity.date): renterListEntity.date = input("Wrong input!\nTry again: ") if CheckInput.check_renting_list_entity_existence(renterListEntity.car_number, renterListEntity.date): renterListEntity.driver_license = input("enter renter driver license: ") while not CheckInput.test_driver_license(renterListEntity.driver_license): renterListEntity.driver_license = input("Wrong input!\nTry again: ") while not CheckInput.check_renter_existence(renterListEntity.driver_license): renter_entity = RenterScheme() input_str = "" input_str = input("There is no such renter!\nWanna add?\n(y/n): ") for case in switch(input_str): if case('y'): renter_entity = self.read_renter_input() renterListEntity.driver_license = renter_entity.driver_license db.insert_renter(renter_entity) break if case('n'): print("can't insert renting list entity") return else: print("____________________") print("no such option, try again!") else: print("There's no such renting list entity") return None return renterListEntity
def read_car_input(self): carEntity = CarScheme() carEntity.name = input("enter car name: ") carEntity.color = input("enter car color: ") carEntity.model = input("enter car model: ") carEntity.car_number = input("enter car number: ") while not CheckInput.test_car_number(carEntity.car_number): carEntity.car_number = input("Wrong input!\nTry again: ") carEntity.price_per_day = input("enter car's price per day: ") while not CheckInput.test_price(carEntity.price_per_day): carEntity.price_per_day = input("Wrong input!\nTry again: ") carEntity.has_automatic_transmission = input("enter car if car has automatic transmision (True/False): ") while carEntity.has_automatic_transmission != "True" and carEntity.has_automatic_transmission != "False": carEntity.has_automatic_transmission = input("Wrong input!\nTry again: ") return carEntity
def read_car_update_input(self): carEntity = CarScheme() carEntity.car_number = input("enter car number: ") while not CheckInput.test_car_number(carEntity.car_number): carEntity.car_number = input("Wrong input!\nTry again: ") if CheckInput.check_car_existence(carEntity.car_number): carEntity.name = input("enter new car name: ") carEntity.color = input("enter new car color: ") carEntity.model = input("enter new car model: ") carEntity.price_per_day = input("enter new car's price per day: ") while not CheckInput.test_price(carEntity.price_per_day): carEntity.price_per_day = input("Wrong input!\nTry again: ") carEntity.has_automatic_transmission = input("enter if new car has automatic transmision (True/False): ") while carEntity.has_automatic_transmission != "True" and carEntity.has_automatic_transmission != "False": carEntity.has_automatic_transmission = input("Wrong input!\nTry again: ") return carEntity else: print("There is no such car in db!") return None
def get_car_number_input(self): car_number = input("enter car number to delete: ") while not CheckInput.test_car_number(car_number): car_number = input("Wrong input!\nTry again: ") return car_number