Пример #1
0
def test_enemy_collision_with_brick():
    GAME = Game(99, 100, 1)
    enemy = Enemy(GAME, 33, 31, 6)
    GAME.screen.gmap[30:33, 2:4] = 6
    enemy.move()
    enemy.move()
    enemy.move()
    enemy.move()
    assert enemy.dir == 1
Пример #2
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def test_mario_collision_with_ground():
    GAME = Game(99, 100, 1)
    mario = GAME.player

    assert mario.collision(4) == (True, (mario.i + 1, mario.j - 1))
    oldloc = mario.get_loc()
    mario.vertical()
    newloc = mario.get_loc()
    assert oldloc == newloc
Пример #3
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def test_mario_collision_with_coin():
    GAME = Game(0, 100, 1)
    mario = GAME.player
    GAME.screen.gmap[30:32, 6:8] = 9

    mario.move(1)
    mario.move(1)
    mario.move(1)
    assert GAME.points > 0
Пример #4
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def test_mario_resize_to_large():
    GAME = Game(0, 100, 1)

    # Assert changes on resize
    GAME.player.resize(1)
    assert GAME.player.get_size() == (4, 3)
    assert GAME.player.maxj == 11

    mario_exists_in_bounds(GAME)
Пример #5
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def test_mario_move_right():
    GAME = Game(99, 100, 1)
    mario = GAME.player
    oldloc = mario.get_loc()
    mario.move(1)
    newloc = mario.get_loc()

    assert oldloc[1] == newloc[1] - 1

    mario_exists_in_bounds(GAME)
Пример #6
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    def run(self):
        while True:
            if len(self.game) > 1:
                print('game found')
                p0_id, p0_handler = self.game.popitem()
                p1_id, p1_handler = self.game.popitem()

                Game(p0_handler, p1_handler).start()

            time.sleep(1)
Пример #7
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def test_mario_move_left():
    GAME = Game(0, 100, 1)
    mario = GAME.player
    oldloc = mario.get_loc()
    mario.move(2)
    newloc = mario.get_loc()

    assert oldloc[1] == newloc[1] + 1

    mario_exists_in_bounds(GAME)
Пример #8
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def test_mario_collision_with_powerup():
    GAME = Game(99, 100, 1)
    mario = GAME.player
    powerup = PowerUp(GAME, 31, 6)
    GAME.screen.position(powerup)

    mario.move(1)
    mario.move(1)
    mario.move(1)

    assert mario.get_size() == (4, 3)
Пример #9
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def test_game_init_with_proper_params():
    '''
    Checks for proper initialization of Game
    '''

    GAME = Game(0, 100, 1)
    # Check time allocated is correct
    assert GAME.etime - GAME.stime == 100
    # Check for object inconsistencies
    assert GAME.screen.game == GAME
    assert len(GAME.codes) == 1007
Пример #10
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def test_mario_jump():
    GAME = Game(99, 100, 1)
    mario = GAME.player

    mario.move(3)
    # Check jump up
    assert mario.jstate == mario.maxj
    while mario.jstate > 0:
        pjstate = mario.jstate
        mario.vertical()
        if pjstate == 1:
            assert mario.jstate == -1
        else:
            assert mario.jstate == pjstate - 1
        mario_exists_in_bounds(GAME)
Пример #11
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def test_mario_init_with_default_params():
    '''
    Check for proper initialization of Mario in default
    '''
    GAME = Game(0, 100, 1)

    PLAYER_POS_I = GAME.player.i
    PLAYER_POS_J = GAME.player.j
    PLAYER_SIZE_I = GAME.player.get_size()[0]
    PLAYER_SIZE_J = GAME.player.get_size()[1]

    assert GAME.player.lives == 1
    assert GAME.player.get_size() == (3, 3)

    mario_exists_in_bounds(GAME)
    test_mario_resize_to_large()
Пример #12
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        if LEVEL > 2 or LEVEL < 0:
            played_flag = False
            print('Choice out of bounds. Press any key to continue')
            KEYS.get_ch()
            sys.exit(0)

        # Start a new Game with level
        # the screen used is a property of the game object
        LIVES = configs.MAX_LIFE

        STATUS = 0
        POINTS = 0

        while LIVES > 0:
            GAME = Game(LEVEL, configs.STD_TIME, LIVES)

            # Level screen
            GAME.level_screen(LEVEL, LIVES, POINTS)
            KEYS.flush()
            KEYS.get_ch()

            # Game loop executes as time remains
            while GAME.get_t_remain() > 0:

                # FRAME stores the time remaining at the start of rendering
                # a frame, so as to calculate how long actually rendering it
                # took, and to maintain a framerate
                FRAME = GAME.get_t_remain()

                # repaint screen
Пример #13
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        print("Choose level you want to play:\n0\t1\t2")
        level = int(keys.getCh())

        if level > 2 or level < 0:
            print('Choice out of bounds. Resetting to 0')
            level = 0

        # Start a new Game with level
        # the screen used is a property of the game object
        lives = configs.MAX_LIFE

        status = 0
        points = 0

        while lives > 0:
            game = Game(level, configs.STD_TIME, lives)

            # Level screen
            game.levelScreen(level, lives, points)
            keys.flush()
            keys.getCh()

            # Game loop executes as time remains
            while game.getTRemain() > 0:

                # frame stores the time remaining at the start of rendering
                # a frame, so as to calculate how long actually rendering it
                # took, and to maintain a framerate
                frame = game.getTRemain()

                # repaint screen
Пример #14
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        label = self.font.render(str(self.initial_velocity), True, pg.Color("dodgerblue"))
        surface.blit(label, (10, 40))

        label = self.font.render(str(self.time), True, pg.Color("dodgerblue"))
        surface.blit(label, (10, 80))

        if not self.started:
            text = "Use mouse to launch satellite."
            title = self.font.render(text, True, pg.Color("dodgerblue"))
            title_rect = title.get_rect(center=self.screen_rect.center)
            surface.blit(title, title_rect)

        elif self.paused:
            title = self.font.render("PAUSED", True, pg.Color("dodgerblue"))
            title_rect = title.get_rect(center=self.screen_rect.center)
            surface.blit(title, title_rect)

    
if __name__ == "__main__":
    pg.init()
    screen = pg.display.set_mode((1280, 720))
    states = {
            "SPLASH": SplashScreen(),
            "GAMEPLAY": Gameplay(),
            "FINISHED": FinishScreen()}
    game = Game(screen, states, "SPLASH")
    game.run()
    pg.quit()
    sys.exit()