def main(): car = vehicles.Car('BMW', 2001, 70000, 15000.0, 4) truck = vehicles.Truck('Toyota', 2002, 40000, 12000.0, '4WD') suv = vehicles.SUV('Volvo', 2000, 30000, 18500.0, 5) print('USED CAR INVENTORY') print('====================') print('The following car is in inventory:') print('Make:', car.get_make()) print('Model:', car.get_model()) print('Mileage:', car.get_mileage()) print('Price:', car.get_price()) print('Doors:', car.get_doors()) print() print('The following pickup truck is in inventory:') print('Make:', truck.get_make()) print('Model:', truck.get_model()) print('Mileage:', truck.get_mileage()) print('Price:', truck.get_price()) print('Drive type:', truck.get_drive_type()) print() print('The following SUV is in inventory:') print('Make:', suv.get_make()) print('Model:', suv.get_model()) print('Mileage:', suv.get_mileage()) print('Price:', suv.get_price()) print('Passanger Capacity:', suv.get_pass_cap()) print()
def main(): used_car = vehicles.Car('Audi', 2007, 12500, 21500.00, 4) truck = vehicles.Truck('Toyota', 2002, 40000, 12000.0, '4WD') suv = vehicles.SUV('Volvo', 2000, 30000, 18500.0, 5) #display data print('Make: ', used_car.get_make()) print('Model: ', used_car.get_model()) print('Mileage: ', used_car.get_mileage()) print('Price: ', used_car.get_price()) print('Doors: ', used_car.get_doors()) print() #display truck print('Make: ', truck.get_make()) print('Model: ', truck.get_model()) print('Mileage: ', truck.get_mileage()) print('Price: ', truck.get_price()) print('Drive Type: ', truck.get_driver_type()) print() #display SUV print('Make: ', suv.get_make()) print('Model: ', suv.get_model()) print('Mileage: ', suv.get_mileage()) print('Price: ', suv.get_price()) print('Passenger Capacity: ', suv.get_pass_cap())
def main(): # create Car object car = vehicles.Car('Bugatti', 'Veyron', 0, 3000000, 2) # create a Truck object truck = vehicles.Truck('Dodge', 'Power Wagon', 0, 57000, '4WD') # create a SUV object suv = vehicles.SUV('Jeep', 'Wrangler', 200000, 5000, 4) print('VEHICLE INVENTORY') print('=================') # display the car data print('Make:', car.get_make()) print('Model:', car.get_model()) print('Mileage:', car.get_mileage()) print('Price', car.get_price()) print('Number of doors:', car.get_doors()) # display the truck data print('Make:', truck.get_make()) print('Model:', truck.get_model()) print('Mileage:', truck.get_mileage()) print('Price', truck.get_price()) print('Drive Type:', truck.get_drive_type()) # display the SUV data print('Make:', suv.get_make()) print('Model:', suv.get_model()) print('Mileage:', suv.get_mileage()) print('Price', suv.get_price()) print('Number of doors:', suv.get_pass_cap())
def main(): # create a Car object car = vehicles.Car('Bugatti', 'Veyron', 0, 3000000, 2) # create a Truck object truck = vehicles.Truck('Dodge', 'Power Wagon', 0, 57000, '4WD') # create a SUV object suv = vehicles.SUV('Jeep', 'Wrangler', 200000, 5000, 4) print('Vehicle Inventory') print('=================') # Display the car's information print('Make: ', car.get_make()) print('Model: ', car.get_model()) print('Mileage: ', car.get_mileage()) print('Price: ', car.get_price()) print('# of Doors: ', car.get_doors()) # Display the trucks's information print('Make: ', truck.get_make()) print('Model: ', truck.get_model()) print('Mileage: ', truck.get_mileage()) print('Price: ', truck.get_price()) print('Drive Type: ', truck.get_drive_type()) # Display the suv's information print('Make: ', suv.get_make()) print('Model: ', suv.get_model()) print('Mileage: ', suv.get_mileage()) print('Price: ', suv.get_price()) print('Passenger Capacity: ', suv.get_pass_cap())
def main(): #create a main function for storing the objects #start with the car by entering its input print("Please enter the data for the car :") make = input("Make type of the car: ") model = input("The Model of your car: ") mileage = input("Its Mileage: ") price = input("Its price: ") doors = input("Number of doors: ") #create the object cars to be used to access the car data cars = vehicles.Car(make, model, mileage, price, doors) print() #enter details for the suv vehicle print('SUV details') make = input("Make type of the SUV: ") model = input("The Model of your SUV: ") mileage = input("Its Mileage: ") price = input("Its price: ") pass_cap = input("Passenger capacity: ") #create aan object suv to be used to acces the suv data suv = vehicles.SUV(make, model, mileage, price, pass_cap) print() #Enter the details for the truck print("Trucks details ") make = input("Make type of the car: ") model = input("The Model of your car: ") mileage = input("Its Mileage: ") price = input("Its price: ") drive_type = input("Drve type i.e 4WD or 2WD: ") #cretae the object truct to be used to access the data for the truck trucks = vehicles.Truck(make, model, mileage, price, drive_type) #Dispaly the data you entered #We are using the fumctions plus the objects we have to display the data print("Here is the details for the cars in the inventory!!: ") print("CAR DETAILS: ") print("CAR Make type :", cars.get_make()) print("Car Model: ", cars.get_model()) print("Car Mileage: ", cars.get_mileage()) print("Car cost: ", cars.get_price()) print("Number of doors of the car: ", cars.get_doors()) print("Here is the details for the suv vehicles in the inventory!!: ") print("SUV DETAILS: ") print("SUV Make type :", suv.get_make()) print("SUV Model: ", suv.get_model()) print("SUV Mileage: ", suv.get_mileage()) print("SUV cost: ", suv.get_price()) print("Total SUV capacity: ", suv.get_pass_cap()) print("Here is the details for the trucks in the inventory!!: ") print("TRUCK DETAILS: ") print("SUV Make type :", trucks.get_make()) print("Truck Model: ", trucks.get_model()) print("Truck Mileage: ", trucks.get_mileage()) print("Truck cost: ", trucks.get_price()) print("Truck drive type: ", trucks.get_drive_type())
def make_models(): _ = models.Sedan(2017, "Toyota", "Camary", "white", 4) vehicles[_.id] = _ _ = models.Sedan(2017, "Toyota", "Camary", "red", 4) _.gas_level = 20 vehicles[_.id] = _ _ = models.Sedan(1999, "Toyota", "Camary", "green", 4) vehicles[_.id] = _ _ = models.Sedan(2006, "Ford", "Fusion", "white", 3) _.has_flat = True vehicles[_.id] = _ _ = models.Sedan(2006, "Nissan", "Altima", "gray", 4) vehicles[_.id] = _ _ = models.Coupe(2009, "Ford", "Mustang", "red", 2) vehicles[_.id] = _ _ = models.Coupe(2017, "Dodge", "Mustang", "white", 4) vehicles[_.id] = _ _ = models.Coupe(2014, "Chevy", "Camaro", "white", 4) _.has_flat = True vehicles[_.id] = _ _ = models.Coupe(2016, "Toyota", "86", "red", 3) vehicles[_.id] = _ _ = models.Truck(2016, "Toyota", "Tacoma", "red", 4) vehicles[_.id] = _ _ = models.Truck(2016, "Ford", "F150", "gray", 2) _.has_flat = True _.gas_level = 0 vehicles[_.id] = _
def main(): # Utworzenie obiektu Car przedstawiającego # używane czterodrzwiowe BMW z roku 2001 # o przebiegu 70000 i cenie 15000. car = vehicles.Car('BMW', 2001, 70000, 15000.0, 4) # Utworzenie obiektu Truck przedstawiającego # używaną Toyotę o przebiegu 40000 w cenie # 12000 oraz z napędem na cztery koła. truck = vehicles.Truck('Toyota', 2002, 40000, 12000.0, '4WD') # Utworzenie obiektu SUV przedstawiającego # używane pięciomiejscowe Volvo z roku 2000 # o przebiegu 30000 i cenie 18500. suv = vehicles.SUV('Volvo', 2000, 30000, 18500.0, 5) print('DOSTĘPNE SAMOCHODY UŻYWANE') print('==========================') # Wyświetlenie danych samochodu osobowego. print('W ofercie jest następujący samochód osobowy:') print('Marka:', car.get_make()) print('Model:', car.get_model()) print('Przebieg:', car.get_mileage()) print('Cena:', car.get_price()) print('Liczba drzwi:', car.get_doors()) print() # Wyświetlenie danych samochodu terenowego. print('W ofercie jest następujący samochód terenowy:') print('Marka:', truck.get_make()) print('Model:', truck.get_model()) print('Przebieg:', truck.get_mileage()) print('Cena:', truck.get_price()) print('Drive type:', truck.get_drive_type()) print() # Wyświetlenie danych samochodu typu SUV. print('W ofercie jest następujący samochód typu SUV:') print('Marka:', suv.get_make()) print('Model:', suv.get_model()) print('Przebieg:', suv.get_mileage()) print('Cena:', suv.get_price()) print('Passenger Capacity:', suv.get_pass_cap())
def main(): # create a Car object for a used 2001 BMW # with 70,000 miles, priced at $15,000, with # 4 doors. car = vehicles.Car("BMW", 2001, 70000, 15000.0, 4) # create a Truck object for a used 2002 # Toyota pickup with 40,000 miles, priced # at $12,000, with 4 wheel drive. truck = vehicles.Truck("Toyota", 2002, 40000, 12000.0, "4WD") # create an SUV object for a used 2002 # Toyota pickup with 40,000 miles, priced # at $12,000, with 4-wheel drive. suv = vehicles.SUV("Volvo", 2000, 30000, 18500.0, 5) print("USED CAR INVENTORY") print("===================") # display the car's data print('The following car is in inventory:') print('Make:', car.get_make()) print('Model:', car.get_model()) print('Mileage:', car.get_mileage()) print('Price:', car.get_price()) print('Number of doors:', car.get_doors()) print() # display the truck's data. print("The following pickup truck is in inventory.") print('Make:', truck.get_make()) print('Model:', truck.get_model()) print('Mileage:', truck.get_mileage()) print('Price:', truck.get_price()) print('Drive type:', truck.get_drive_type()) print() # display the SUV's data. print("The following SUV is in inventory.") print('Make:', suv.get_make()) print('Model:', suv.get_model()) print('Mileage:', suv.get_mileage()) print('Price:', suv.get_price()) print('Passenger Capacity:', suv.get_pass_cap())
def main(): # Create a Car object for a used 2001 BMW # with 70,000 miles, priced at $15,000, with # 4 doors. car = vehicles.Car('BMW', 2001, 70000, 15000.0, 4) # Create a Truck object for a used 2002 # Toyota pickup with 40,000 miles, priced # at $12,000, with 4-wheel drive. truck = vehicles.Truck('Toyota', 2002, 40000, 12000.0, '4WD') # Create an SUV object for a used 2000 # Volvo with 30,000 miles, priced # at $18,500, with 5 passenger capacity. suv = vehicles.SUV('Volvo', 2000, 30000, 18500.0, 5) print('USED CAR INVENTORY') print('===================') # Display the car's data. print('The following car is in inventory:') print('Make:', car.get_make()) print('Model:', car.get_model()) print('Mileage:', car.get_mileage()) print('Price:', car.get_price()) print('Number of doors:', car.get_doors()) print() # Display the truck's data. print('The following pickup truck is in inventory.') print('Make:', truck.get_make()) print('Model:', truck.get_model()) print('Mileage:', truck.get_mileage()) print('Price:', truck.get_price()) print('Drive type:', truck.get_drive_type()) print() # Display the SUV's data. print('The following SUV is in inventory.') print('Make:', suv.get_make()) print('Model:', suv.get_model()) print('Mileage:', suv.get_mileage()) print('Price:', suv.get_price()) print('Passenger Capacity:', suv.get_pass_cap())
def main(): # Создать объект Car для подержанного авто 2001 BMW # с 70000 милями пробега, ценой $15000, # c 4 дверьми. car = vehicles.Car('BMW', 2001, 70000, 15000.0, 4) # Создать объект Truck для подержанного пикапа 2002 # Toyota c 40000 милями пробега, ценой # $12000 и с 4-колесным приводом. truck = vehicles.Truck('Toyota', 2002, 40000, 12000.0, '4WD') # Создать объект SUV для поддержанного 2000 # Volvo с 30000 милями пробега, ценой # $18500 и вместимостью 5 человек. suv = vehicles.SUV('Volvo', 2000, 30000, 18500.0, 5) print('ПОДЕРЖАННЫЕ АВТО НА СКЛАДЕ', "==========================", sep="\n") # Показать данные легкового авто. print('Данный легковой автомобиль имеется на складе:') print('Изготовитель:', car.get_make()) print('Модель:', car.get_model()) print('Пробег:', car.get_mileage()) print('Цена:', car.get_price()) print('Количество дверей:', car.get_doors()) print() # Показать данные пикапа. print('Данный пикап имеется на складе:') print('Изготовитель:', truck.get_make()) print('Модель:', truck.get_model()) print('Пробег:', truck.get_mileage()) print('Цена:', truck.get_price()) print('Тип привода:', truck.get_drive_type()) print() # Показать данные джипа. print('Данный джип имеется на складе:') print('Изготовитель:', suv.get_make()) print('Модель:', suv.get_model()) print('Пробег:', suv.get_mileage()) print('Цена:', suv.get_price()) print('Пассажирская вместимость:', suv.get_pass_cap())