Exemplo n.º 1
0
    def test_proper_spot_count(self):
        new_level = Level('tests/test_non_consecutive.txt')

        large_spot_count, compact_spot_count, mc_spot_count = 0, 0, 0

        while 1:
            key = new_level.park(TestLargeVehicle())

            if not key:
                break

            large_spot_count += 1

        while 1:
            key = new_level.park(Car('test car'))

            if not key:
                break

            compact_spot_count += 1

        while 1:
            key = new_level.park(Motorcycle('test mc'))

            if not key:
                break

            mc_spot_count += 1

        self.assertEqual(large_spot_count, 16)
        self.assertEqual(compact_spot_count, 13)
        self.assertEqual(mc_spot_count, 3)
Exemplo n.º 2
0
    def test_park_in_unparked_spot(self):
        new_level = Level('tests/test_consecutive.txt')

        for i in xrange(45):
            car_key = new_level.park(Car('test car'))

        while 1:
            key = new_level.park(Motorcycle('test mc'))

            if not key:
                break

        self.assertIsNone(new_level.park(Motorcycle('test mc')))

        new_level.unpark(car_key)
        self.assertIsNotNone(new_level.park(Motorcycle('test mc')))
    def test_can_fit_empty(self):
        large_spot = Spot(SpotSize.LARGE)
        compact_spot = Spot(SpotSize.COMPACT)
        mc_spot = Spot(SpotSize.MOTORCYCLE)

        self.assertTrue(large_spot.can_fit(Bus('test bus')))
        self.assertFalse(compact_spot.can_fit(Bus('test bus')))
        self.assertFalse(mc_spot.can_fit(Bus('test bus')))

        self.assertTrue(large_spot.can_fit(Car('test car')))
        self.assertTrue(compact_spot.can_fit(Car('test car')))
        self.assertFalse(mc_spot.can_fit(Car('test car')))

        self.assertTrue(large_spot.can_fit(Motorcycle('test mc')))
        self.assertTrue(compact_spot.can_fit(Motorcycle('test mc')))
        self.assertTrue(mc_spot.can_fit(Motorcycle('test mc')))
Exemplo n.º 4
0
    def test_park_full(self):
        new_level = Level('tests/test_non_consecutive.txt')

        while 1:
            key = new_level.park(Motorcycle('test mc'))

            if not key:
                break

        key = new_level.park(Car('test car'))

        self.assertIsNone(key)
Exemplo n.º 5
0
    def test_park_no_bigger_available(self):
        new_level = Level('tests/test_non_consecutive.txt')

        while 1:
            key = new_level.park(Car('test car'))

            if not key:
                break

        mc_spot_count = 0

        while 1:
            key = new_level.park(Motorcycle('test mc'))

            if not key:
                break

            mc_spot_count += 1

        self.assertEqual(mc_spot_count, 3)
Exemplo n.º 6
0
    if text == 'exit':
        break

    text = text.split(' ')

    if len(text) != 2:
        continue

    (command1, command2) = text

    if command1 == 'park':
        if command2 == 'car':
            vehicle = Car('test car')
        elif command2 == 'motorcycle':
            vehicle = Motorcycle('test motorcycle')
        elif command2 == 'bus':
            vehicle = Bus('test bus')
        else:
            continue

        key = garage.park(vehicle)

        if key is None:
            print 'There is no more room'
        else:
            print 'Your key: {}'.format(key)
            list_of_keys.append(key)

    elif command1 == 'unpark':
        vehicle = garage.unpark(command2)
Exemplo n.º 7
0
from vehicle.car import Car
from vehicle.motorcycle import Motorcycle

# car = Car('BMW', 'Merah')

motorcycle = Motorcycle('YAMAHA', 'Blue')

print motorcycle.show_colors_provided()
Exemplo n.º 8
0
 def setUp(self):
     super(MotorcycleTest, self).setUp()
     self.test_mc = Motorcycle('test mc')