def drive(self, distance):
     """Similar to parent Car, but pass in reliability attribute."""
     if random.uniform(1, 100) < self.reliability:
         distance_driven = Car.drive(self, distance)
     else:
         distance_driven = 0
     return distance_driven
Exemplo n.º 2
0
def main():
    """Demo test code to show how to use car class."""
    my_car = Car("Car", 180)
    my_car.drive(30)
    print("fuel =", my_car.fuel)
    print("odo =", my_car.odometer)
    print(my_car)

    print("Car {}, {}".format(my_car.fuel, my_car.odometer))
    print("Car {self.fuel}, {self.odometer}".format(self=my_car))

    limo = Car("Limo", 100)
    limo.add_fuel(20)
    print("fuel =", limo.fuel)
    limo.drive(115)
    print("odo =", limo.odometer)
    print(str(limo))
Exemplo n.º 3
0
def run_tests():
    """Run tests to show workings of Car and Taxi classes."""
    bus = Car("Datsun", 180)
    bus.drive(30)
    print("fuel =", bus.fuel)
    print("odo =", bus.odometer)
    bus.drive(55)
    print("fuel =", bus.fuel)
    print("odo = ", bus.odometer)
    print(bus)

    # drive bus (input/loop is oblivious to fuel)
    distance = int(input("Drive how far? "))
    while distance > 0:
        travelled = bus.drive(distance)
        print("{} travelled {}".format(str(bus), travelled))
        distance = int(input("Drive how far? "))

    t = Taxi("Prius 1", 100)
    print(t)
    t.drive(25)
    print(t, t.get_fare())
    t.start_fare()
    t.drive(40)
    print(t, t.get_fare())

    sst = SilverServiceTaxi("Limo", 100, 2)
    print(sst, sst.get_fare())
    sst.drive(10)
    print(sst, sst.get_fare())
Exemplo n.º 4
0
def run_tests():
    bus = Car("Datsun", 180)
    bus.drive(30)
    print("fuel =", bus.fuel)
    print("odo =", bus.odometer)
    bus.drive(55)
    print("fuel =", bus.fuel)
    print("odo = ", bus.odometer)
    print(bus)

    distance = int(input("Drive how far? "))
    while distance > 0:
        travelled = bus.drive(distance)
        print("{} travelled {}".format(str(bus), travelled))
        distance = int(input("Drive how far? "))

    new_taxi = Taxi("Prius 1", 100)
    print(new_taxi)
    new_taxi.drive(25)
    print(new_taxi, new_taxi.get_fare())
    new_taxi.start_fare()
    new_taxi.drive(40)
    print(new_taxi, new_taxi.get_fare())

    new_silver_service_taxi = SilverServiceTaxi("Limo", 100, 2)
    print(new_silver_service_taxi, new_silver_service_taxi.get_fare())
    new_silver_service_taxi.drive(10)
    print(new_silver_service_taxi, new_silver_service_taxi.get_fare())
def tests():
    car = Car("Datsun", 180)
    car.drive(30)
    print("fuel =", car.fuel)
    print("odo =", car.odometer)
    car.drive(55)
    print("fuel =", car.fuel)
    print("odo = ", car.odometer)
    print(car)

    distance = int(input("Drive how far? "))
    while distance > 0:
        travel = car.drive(distance)
        print("{} travelled {}".format(str(car), travel))
        distance = int(input("Drive how far? "))

    taxis = Taxi("Prius 1", 100)
    taxis.drive(25)
    print(taxis)
    print(taxis, taxis.get_fare())
    taxis.start_fare()
    taxis.drive(40)
    print(taxis, taxis.get_fare())

    silver_service_taxi = SilverServiceTaxi("Limo", 100, 2)
    print(silver_service_taxi, silver_service_taxi.get_fare())
    silver_service_taxi.drive(10)
    print(silver_service_taxi, silver_service_taxi.get_fare())
Exemplo n.º 6
0
def run_tests():
    """Run the tests on the functions."""
    # assert test with no message - used to see if the function works properly
    assert repeat_string("Python", 1) == "Python"
    # the test below should fail
    assert repeat_string("hi", 2) == "hi hi"
    # Hint: "-".join(["yo", "yo"] -> "yo-yo"

    # used to see if Car's init method sets the odometer correctly
    test_car = Car()
    assert test_car.odometer == 0, "Car does not set odometer correctly"

    # Note that Car's __init__ function sets the fuel in one of two ways:
    # using the value passed in or the default
    # You should test both of these
    test_car = Car(fuel=10)
    assert test_car.fuel == 10

    test_car = Car(fuel=0)
    assert test_car.fuel == 0, "Car does not set fuel correctly"
Exemplo n.º 7
0
def run_tests():
    """Run the tests on the functions."""
    # assert test with no message - used to see if the function works properly
    assert repeat_string("Python", 1) == "Python"
    # the test below should fail
    assert repeat_string("hi", 2) == "hi hi"

    # assert test with custom message,
    # used to see if Car's init method sets the odometer correctly
    # this should pass (no output)
    test_car = Car()
    assert test_car.odometer == 0, "Car does not set odometer correctly"

    # 2. write assert statements to show if Car sets the fuel correctly
    # Note that Car's __init__ function sets the fuel in one of two ways:
    # using the value passed in or the default
    # You should test both of these
    test_car = Car(fuel=10)
    assert test_car.fuel == 10

    test_car = Car()
    assert test_car.fuel == 0
Exemplo n.º 8
0
def main():
    user_name = input("Let's drive!\nEnter your car name:")
    car = Car(user_name, 100)

    menu_selection = ""
    while menu_selection != "q":
        print(car)
        menu_selection = menu("Menu:\nd) drive\nr) refuel\nq) quit")
        if menu_selection == "d":
            drive(car)
        elif menu_selection == "r":
            refuel(car)
    print("Good bye {}'s driver.".format(user_name))
Exemplo n.º 9
0
def run_tests():
    """Test the Car and Taxi class to show they're working."""
    # Test Car Class
    ferrari = Car("Ferrari", 1000)
    ferrari.drive(333)
    print("Ferrari fuel:{}".format(ferrari.fuel))
    print("Ferrari odometer:{}".format(ferrari.odometer))
    ferrari.drive(200)
    print("Ferrari fuel after driving another 200km:{}".format(ferrari.fuel))
    print("Ferrari odo after driving another 200km:{}".format(ferrari.odometer))
    print(ferrari)

    # Test Taxi Class
    truck = Taxi("Hyundai", 500)
    truck.start_fare()
    truck.drive(333)
    print("Current fare distance of truck is{}".format(truck.current_fare_distance))
    print("Fare of Taxi Hyundai after driving 333 is {}".format(truck.get_fare()))

    # Test SilverServiceClass
    truck = SilverServiceTaxi("Hyundai", 500, 1)
    truck.start_fare()
    truck.drive(333)
    print("Fare of SilverServiceTaxi Hyundai after driving 333 is {}".format(truck.get_fare()))
Exemplo n.º 10
0
 def __init__(self, name, fuel, reliability):
     Car.__init__(self, name, fuel)
     self.reliability = reliability
Exemplo n.º 11
0
 def drive(self, distance):
     start = random.randint(0, 100)
     if start < self.reliability:
         Car.drive(self, distance)
     else:
         print("Car didn't start")