Exemple #1
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def createDino(tipo=1):
    if tipo == 1:
        d = Dino2(context, 43, 47, position=random.randint(10, 25))
    else:
        d = Dino(context, 43, 47, position=random.randint(10, 25))
        d.set_color(random_color())
    return d
Exemple #2
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 def __init__(self,
              context,
              sizex=-1,
              sizey=-1,
              position=15,
              redeNeural=None):
     Dino.__init__(self, context, sizex, sizey, position)
     if (redeNeural != None):
         self.redeNeural = redeNeural
     else:
         self.redeNeural = RedeNeural()
Exemple #3
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    def reset(self):
        self.curses_initialize_screen()
        self.set_max_dimensions()

        self.ground_level = self.rows_max - 3
        self.ground_string = '=' * (self.cols_max - 3)

        self.dino = Dino(self)
        self.score = Score(self.stdscr)
        self.initialize_obstacles()

        self.show_loading_animation()
Exemple #4
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def main():

    game = Game()

    player = Dino(50, game.win_height - 250, 64, 64)
    game.add_player(player)

    spawn_thresholds = [1.5, 1.75, 2, 2.5, 3, 3.50]

    enemy_spawn_threshold = 3.5
    time_since_last_spawn = enemy_spawn_threshold

    last_time = time_millis()

    max_speedups = 3
    speedups = 0
    speedup_after = 15.0
    speedup_timer = 0

    # Takto lze změnit texturu země ve hře
    # Případně lze dodat vlastní textury do složky resources a následně
    # Lze využít i vlastních textur
    # game.change_ground('resources/grass.png')
    # game.change_ground('resources/grass_alt.png')
    # game.change_ground('resources/sand.png')
    while game.window_is_open:

        # Počítání časového rozdílu
        current_time = time_millis()
        delta = (current_time - last_time) / 1000
        game.tick(delta)
        last_time = current_time

        # Logika vytváření nepřátelských entit
        time_since_last_spawn += delta
        if time_since_last_spawn >= enemy_spawn_threshold:
            game.add_enemy(get_enemy())
            time_since_last_spawn = 0
            enemy_spawn_threshold = random.choice(spawn_thresholds)

        # Kolize s nepřátelskými entitami
        for enemy in game.enemies:
            if player.collides_with(enemy):
                player.die()

        # Logika zrychlování hry
        speedup_timer += delta
        if speedups < max_speedups and speedup_timer >= speedup_after:
            speedup_timer = 0
            game.increase_speed()
Exemple #5
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def main():
    """ Run the rendering loop for the scene. """
    viewer = Viewer()

    origin = (-100,-120, -100)
    widthScale = 3

    ground = Ground(origin, widthScale, 0.8)
    viewer.add(ground)

    #Generate trees according to a uniform law for appearance
    trees = []
    for x, z in ground.iterPos():
        if(not(x%10) and not(z%10)): #generating
            if(np.random.uniform() > 0.75):
                tree = Tree(x*widthScale, ground.getHeight(x, z)+2, z*widthScale)
                trees.append(tree)
                viewer.add(tree.node)
    

    control = Control()
    viewer.add(control)

    dino = Dino(ground)
    viewer.add(dino)

    viewer.run(dino)
Exemple #6
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class MyScene(scene.Scene):
    def setup(self):
        self.background_color = 'white'

        self.dino = Dino()
        # 这个sb pythonista作者设置的texture中心点作为坐标,而且与opencv坐标不同,|_这种坐标
        self.add_child(self.dino)

        self.grounds = Grounds()
        self.add_child(self.grounds)

        self.clouds = Clouds(-2, self.size.x)
        self.add_child(self.clouds)

        self.cactuses = Cactuses(self.size.x)
        self.add_child(self.cactuses)

        self.score_boards = ScoreBoards()
        self.add_child(self.score_boards)

        self.middle_x = self.size.x / 2

    def check_collision(self):
        if self.cactuses.check_collision(self.dino.left_buttom_coord,
                                         self.dino.size):
            self.dino.is_dead = True
            self.dino.update()
            self.paused = True

    def update(self):
        self.dino.update()
        self.grounds.update()
        self.clouds.update()
        self.cactuses.update()
        self.score_boards.update()

        self.check_collision()

    def touch_began(self, touch):
        if touch.location.x < self.middle_x:
            self.dino.start_jump()
        else:
            self.dino.start_duck()

    def touch_ended(self, touch):
        self.dino.end_duck()
Exemple #7
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def introscreen():
    temp_dino = Dino(44,47)
    temp_dino.isBlinking = True
    gameStart = False

    callout,callout_rect = load_image('call_out.png',196,45,-1)
    callout_rect.left = width*0.05
    callout_rect.top = height*0.4

    temp_ground,temp_ground_rect = load_sprite_sheet('ground.png',15,1,-1,-1,-1)
    temp_ground_rect.left = width/20
    temp_ground_rect.bottom = height

    logo,logo_rect = load_image('logo.png',240,40,-1)
    logo_rect.centerx = width*0.6
    logo_rect.centery = height*0.6
    while not gameStart:
        if pygame.display.get_surface() == None:
            print("Couldn't load display surface")
            return True
        else:
            for event in pygame.event.get():
                if event.type == pygame.QUIT:
                    return True
                if event.type == pygame.KEYDOWN:
                    if event.key == pygame.K_SPACE or event.key == pygame.K_UP:
                        temp_dino.isJumping = True
                        temp_dino.isBlinking = False
                        temp_dino.movement[1] = -1*temp_dino.jumpSpeed

        temp_dino.update()

        if pygame.display.get_surface() != None:
            screen.fill(background_col)
            screen.blit(temp_ground[0],temp_ground_rect)
            if temp_dino.isBlinking:
                screen.blit(logo,logo_rect)
                screen.blit(callout,callout_rect)
            temp_dino.draw(screen)

            pygame.display.update()

        clock.tick(FPS)
        if temp_dino.isJumping == False and temp_dino.isBlinking == False:
            gameStart = True
Exemple #8
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    def evaluate(self, genome, generation, genome_id):
        """Generate a game, test the genome and return its fitness.

        Keyword arguments:
        genome -- genome to test
        generation -- number of the current generation
        genome_id -- genome id in the current generation
        """
        # create neural network from genome.
        net = NEAT.NeuralNetwork()
        genome.BuildPhenotype(net)
        # create player and .
        player = Dino_player_neat(net)
        text = "generation : " + str(generation) + " || genome : " + str(
            genome_id)
        the_game = Dino(player, text)
        fitness = the_game.on_execute(start_immediately=True)
        return fitness
Exemple #9
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    def createDNA(self, p: int) -> None:
        pop: list = []

        if self.__dino is None:
            for i in range(p):
                pop.append(Dino())

            self.__dino = pop
        else:
            if p > len(self.__dino):
                for i in range(len(self.__dino), p):
                    self.__dino.append(Dino())
            else:
                index = len(self.__dino) - 1

                while len(self.__dino) >= p:
                    del self.__dino[index]
                    index -= 1
Exemple #10
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    def setup(self):
        self.background_color = 'white'

        self.dino = Dino()
        # 这个sb pythonista作者设置的texture中心点作为坐标,而且与opencv坐标不同,|_这种坐标
        self.add_child(self.dino)

        self.grounds = Grounds()
        self.add_child(self.grounds)

        self.clouds = Clouds(-2, self.size.x)
        self.add_child(self.clouds)

        self.cactuses = Cactuses(self.size.x)
        self.add_child(self.cactuses)

        self.score_boards = ScoreBoards()
        self.add_child(self.score_boards)

        self.middle_x = self.size.x / 2
Exemple #11
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def main():
    dino_img = load_dino()
    # imshow(dino_img)
    # show()
    dino = Dino(dino_img)
    dino.init()
    dino.start()
Exemple #12
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    def reset(self):
        self.gamespeed = 4
        self.startMenu = False
        self.gameOver = False
        self.gameQuit = False
        self.playerDino = Dino(44,47)
        self.new_ground = Ground(-1*self.gamespeed)
        self.scb = Scoreboard()
        self.highsc = Scoreboard(self.width*0.78)
        self.counter = 0

        self.t_reward = 0
        self.crow_height_index = 0

        self.nearest = 800
        self.second_nearest = 1000
        self.action_complete = True

        self.cacti = pygame.sprite.Group()
        self.crows = pygame.sprite.Group()
        self.last_obstacle = pygame.sprite.Group()

        Cactus.containers = self.cacti
        Crow.containers = self.crows

        self.old_states = []
        self.new_states = []

        self.old_states.append(self.new_ground.speed/-4)
        self.old_states.append(np.digitize(9.0, self.discrete_spaces))
        self.old_states.append(np.digitize(9.0, self.discrete_spaces))
        self.old_states.append(self.crow_height_index)
        # self.old_states.append("Crouch" if self.playerDino.rect[2] != 44 else " standing")
        self.old_states.append(0 if self.playerDino.rect[2] != 44 else 1)

        self.play()

        return np.array(self.old_states, dtype=np.float64)
Exemple #13
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    def __init__(self, args):
        super(Gym).__init__()
        self.args = args

        # environment parameters
        self.dino = Dino(args)

        # game parameters
        self.highscore = load_highscore(args.highscore_filename)
        self.t = 0

        # to play with an AI
        self.isHuman = (args.agent == "human")
        if not self.isHuman:
            self.agent = AIAgent(args, self.dino)
            # load saved parameters
            if self.args.load_save:
                load_agent(self.agent, self.args.save_filename)

        # listen to user inputs
        self.inputs_list = []
        threading.Thread(target=input_thread,
                         args=(self.inputs_list, )).start()
Exemple #14
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def run_game():

    crrnt_sttngs = Settings()
    # Screen vars
    screen_width = crrnt_sttngs.screen_width
    screen_height = crrnt_sttngs.screen_height
    bg_color = crrnt_sttngs.bg_color
    # Game vars
    init_speed = crrnt_sttngs.init_speed
    # Misc vars
    logo = pygame.image.load("assets/dino_still_ground.png")

    # Initialize the game and create a screen object
    pygame.init()
    pygame.display.set_icon(logo)
    pygame.display.set_caption("Python Port of chrome://dino")
    screen = pygame.display.set_mode([screen_width, screen_height])

    # Init dino and cactus
    start_bt = Button(crrnt_sttngs, screen, "Play!")
    dino = Dino(screen, crrnt_sttngs)
    cactus = Cactus(screen, crrnt_sttngs, 'small')

    # Main loop of the game
    print("[INFO] The game starts.")
    
    #cactuses = Group()
    
    
    while True:

        # Use the ioresolv module to check events
        ioresolv.check_events(dino)
        dino.update(crrnt_sttngs.dhmax)
        sleep(1/crrnt_sttngs.init_speed)
        cactus.update()
        start_bt.update()
Exemple #15
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def run_game():
    pygame.init()
    set = Settings()

    screen = pygame.display.set_mode((set.screen_width, set.screen_height))
    pygame.display.set_caption("Dino Run")

    # Creates background
    sun = Sun(set, screen)
    ct1 = City(set, screen, 1)
    ct2 = City(set, screen, 2)
    # Active game scoreboard
    sb = Scoreboard(set, screen)
    # High score shows when game paused
    high_score = Scoreboard(set, screen)
    # Playbutton - to start game
    play_button = Button(set, screen, "Play")

    # Creates game objects
    dino = Dino(set, screen)
    cacti = Group()
    dino.jump()  # Initialize jump for player

    while True:
        # Checks jump, fireball, dino/cacti collisions
        gf.check_events(set, play_button, dino, cacti)

        if set.play:
            # Updates city movement
            ct1.update()
            ct2.update()
            sb.prep_score(set)  # Preps scoreboard

        if set.play:
            # Checks for fireball collision or offscreen cacti
            gf.update_cacti(set, cacti, dino.fireball)
            dino.update(set)  # Updates dino, fireball, explosion
            gf.check_score(set, dino, cacti)

            if random.randint(0, 10) > 8:  # Need better spawning method
                gf.make_cactus(set, screen, cacti)
        else:
            high_score.prep_score(set, True)
            high_score.prep_score(set, True)
            high_score.show_score()

        gf.draw_background(set, ct1, ct2, sun, sb)
        gf.draw_screen(set, play_button, high_score, dino, cacti)

        sleep(.03)  # Gets around 34 frames a second
Exemple #16
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    def loadDNA(self, directory: str) -> bool:
        elements: list
        ret: bool = False

        if exists(directory):
            if isdir(directory):
                elements = listdir(directory)

                aux: Dino = None
                self.__dino = []

                for i in elements:
                    if i[-2:] == 'h5':
                        try:
                            aux = Dino()
                            aux.model.load_weights(directory + i)
                            self.__dino.append(aux)

                        except ValueError as error:
                            self.destroyDNA()
                            raise ValueError(error)

                        except TypeError as error:
                            self.destroyDNA()
                            raise TypeError(error)

                        except OSError:
                            self.destroyDNA()
                            raise OSError(error)
                        else:
                            ret = True
                    else:
                        raise TypeError(
                            "este diretorio não possui arquivos que possa ser carregados para o modelo"
                        )
            else:
                raise ValueError("O destino informado não é um diretorio.")
        else:
            raise ValueError("O destino informado não existe.")

        return ret
Exemple #17
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                    return None
    if len(arguments) != 0 and len(sys.argv) == 1:
        return arguments
    else:
        return None


if __name__ == "__main__":
    arguments = verify_arguments()
    if arguments is None:
        print(f'Usage: python {sys.argv[0]} [ --type (human|random|neat \
                       [--population <size>] [--generations <size>]) ] ')
    elif "type" in arguments:
        if arguments["type"] == "human":
            player = Dino_player()
            theDino = Dino(player)
            theDino.on_execute()
        elif arguments["type"] == "random":
            player = Dino_player_random()
            theDino = Dino(player)
            theDino.on_execute()
        else:
            data = dict()
            if "population" in arguments:
                data["population_size"] = arguments["population"]
            if "generations" in arguments:
                data["generations"] = arguments["generations"]
            cycle = NEAT_trainer(**data)
            cycle.start_cycle()
    else:
        player = Dino_player()
Exemple #18
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def main(genomes, config):
    nn = []  #lista sieci neurnowych
    ge = []  #lista genomów
    dinos = []  #lista dino

    os.environ['SDL_VIDEO_WINDOW_POS'] = '400,50'  # ustiawienie pozycji okna
    window = pygame.display.set_mode(
        (WIN_WIDTH, WIN_HEIGHT))  # stworzenie okna

    for _, g in genomes:
        net = neat.nn.FeedForwardNetwork.create(
            g, config)  #stowrzenie sieci neuronowej
        nn.append(net)  #dodanie jej do listy sieci
        dinos.append(Dino(50, 450))  #stworzenie dino i dodanie go do listy
        g.fitness = 0  #ustawienie funkcji fitness
        ge.append(g)  #dodanie genomu do listy

    run = True
    bg = Background(0)
    cactuses = [Cactus()]
    score = 0
    add_cactus = False

    while run:
        cactus_ind = 0
        if len(dinos) > 0:
            if len(cactuses) > 1 and dinos[
                    0].x > cactuses[0].x + cactuses[0].IMG.get_width():
                cactus_ind = 1
        else:
            run = False

        for event in pygame.event.get():
            if event.type == pygame.QUIT:
                run = False
                pygame.quit()
                quit()

        for x, dino in enumerate(dinos):
            dino.move()
            output = nn[x].activate((dino.y, dino.x - cactuses[cactus_ind].x))
            if output[0] > 0.5 and not dino.is_jumping:
                dino.jump()
                ge[x].fitness -= 1.5

        remove_cactus = []
        for cactus in cactuses:
            for x, dino in enumerate(dinos):
                if not cactus.passed and cactus.x < dino.x:  # pokonanie przez Dino
                    score += 1
                    cactus.passed = True
                    add_cactus = True
                if cactus.collide(dino):
                    dinos.pop(x)
                    nn.pop(x)
                    ge.pop(x)
            if cactus.x + cactus.IMG.get_width() < 0:  # wyjsce poza ekran
                remove_cactus.append(cactus)

        for cactus in cactuses:
            cactus.move()

        if add_cactus:
            cactuses.append(Cactus())
            for g in ge:
                g.fitness += 3
            add_cactus = False

        for r in remove_cactus:
            cactuses.remove(r)
        bg.move()
        draw_window(window, dinos, bg, cactuses, score)
Exemple #19
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def dino_game():
    # Instansiasi objek
    menu = Menu()
    dino = Dino(road_height)
    enemy = EnemyMgr(road_height)

    # Frame mula-mula
    frame = 0

    while True:
        # Tampilkan background game
        display.blit(background, (0, 0))

        # Dapatkan informasi event saat ini
        for event in pygame.event.get():
            # Keluar dari game jika layar ditutup
            if event.type == pygame.QUIT:
                return

            # Game sedang berjalan
            elif menu.state == "RUN":
                if event.type == pygame.KEYDOWN:
                    # Tekan UP untuk melompat
                    if event.key == pygame.K_UP:
                        dino.jump()
                    # Tekan DOWN untuk menunduk
                    elif event.key == pygame.K_DOWN:
                        dino.duck()
                    # Tekan ESC untuk berhenti sejenak
                    elif event.key == pygame.K_ESCAPE:
                        menu.pause()
                # Kembali berjalan sesudah menekan tombol
                elif event.type == pygame.KEYUP:
                    dino.walk()

            # Game sedang berhenti pada menu
            elif menu.state != "RUN":
                if event.type == pygame.KEYDOWN:
                    # Tekan UP untuk pilihan sebelumnya
                    if event.key == pygame.K_UP:
                        menu.prev()
                    # Tekan DOWN untuk pilihan selanjutnya
                    elif event.key == pygame.K_DOWN:
                        menu.next()
                    # Tekan ENTER untuk memilih pilihan menu
                    elif event.key == pygame.K_RETURN:
                        # Posisi pilihan pada menu pause sebagai basis
                        if menu.state == "PAUSE":
                            choose = menu.choose
                        # Sesuaikan posisi pilihan seperti menu pause
                        elif menu.state == "DIED":
                            choose = menu.choose + 1

                        # Memilih "Lanjutkan permainan"
                        if choose == 0:
                            menu.unpause()
                        # Memilih "Permainan baru"
                        elif choose == 1:
                            menu.reset()
                            dino.reset()
                            enemy.reset(display)
                        # Memilih "Keluar"
                        elif choose == 2:
                            return

        # Update gerakan dino
        dino.update(display, frame, menu)

        # Update musuh, skor, dan cek tabrakan
        enemy.update(display, frame, menu, dino)

        # Update gerakan menu dan layar
        menu.update(display)
        pygame.display.update()

        # Atur frame untuk loop selanjutnya
        frame = (frame + 1) % menu.speed
        fps.tick(menu.speed)
Exemple #20
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class DinoGameEnv:
    def __init__(self):
        self.crow_height_index = 0
        self.i = 0
        self.high_score = 0
        self.nearest = 800
        self.second_nearest = 1000
        self.t_reward = 0

        self.discrete_spaces = np.linspace(1, 8, num=25)

        self.action_complete = True

        self.old_states = []
        self.new_states = []

        self.allow_rendering = False

        pygame.mixer.pre_init(44100, -16, 2, 2048) # fix audio delay
        pygame.init()

        self.scr_size = (self.width,self.height) = (600,150)
        self.FPS = 60

        # background_col = (235,235,235)
        self.background_col = (255,255,255)

        self.clock = pygame.time.Clock()
        self.screen = pygame.display.set_mode(self.scr_size)
        pygame.display.set_caption("T-Rex Rush")

        temp_images,temp_rect = self.load_sprite_sheet('numbers.png',12,1,11,int(11*6/5),-1)
        self.HI_image = pygame.Surface((22,int(11*6/5)))
        self.HI_rect = self.HI_image.get_rect()
        self.HI_image.fill(self.background_col)
        self.HI_image.blit(temp_images[10],temp_rect)
        temp_rect.left += temp_rect.width
        self.HI_image.blit(temp_images[11],temp_rect)
        self.HI_rect.top = self.height*0.1
        self.HI_rect.left = self.width*0.73

    def render(self):
        if pygame.display.get_surface() != None:
            self.screen.fill(self.background_col)
            self.new_ground.draw()
            # clouds.draw(screen)
            self.scb.draw()
            if self.high_score != 0:
                self.highsc.draw()
                self.screen.blit(self.HI_image,self.HI_rect)
            self.cacti.draw(self.screen)
            self.crows.draw(self.screen)
            self.playerDino.draw()

            pygame.display.update()

    def load_sprite_sheet(
            self,
            sheetname,
            nx,
            ny,
            scalex = -1,
            scaley = -1,
            colorkey = None,
            ):
        fullname = os.path.join('sprites_copy',sheetname)
        sheet = pygame.image.load(fullname)
        sheet = sheet.convert()

        sheet_rect = sheet.get_rect()

        sprites = []

        sizex = sheet_rect.width/nx
        sizey = sheet_rect.height/ny

        for i in range(0,ny):
            for j in range(0,nx):
                rect = pygame.Rect((j*sizex,i*sizey,sizex,sizey))
                image = pygame.Surface(rect.size)
                image = image.convert()
                image.blit(sheet,(0,0),rect)

                if colorkey is not None:
                    if colorkey is -1:
                        colorkey = image.get_at((0,0))
                    image.set_colorkey(colorkey,RLEACCEL)

                if scalex != -1 or scaley != -1:
                    image = pygame.transform.scale(image,(scalex,scaley))

                sprites.append(image)

        sprite_rect = sprites[0].get_rect()

        return sprites,sprite_rect

    def reset(self):
        self.gamespeed = 4
        self.startMenu = False
        self.gameOver = False
        self.gameQuit = False
        self.playerDino = Dino(44,47)
        self.new_ground = Ground(-1*self.gamespeed)
        self.scb = Scoreboard()
        self.highsc = Scoreboard(self.width*0.78)
        self.counter = 0

        self.t_reward = 0
        self.crow_height_index = 0

        self.nearest = 800
        self.second_nearest = 1000
        self.action_complete = True

        self.cacti = pygame.sprite.Group()
        self.crows = pygame.sprite.Group()
        self.last_obstacle = pygame.sprite.Group()

        Cactus.containers = self.cacti
        Crow.containers = self.crows

        self.old_states = []
        self.new_states = []

        self.old_states.append(self.new_ground.speed/-4)
        self.old_states.append(np.digitize(9.0, self.discrete_spaces))
        self.old_states.append(np.digitize(9.0, self.discrete_spaces))
        self.old_states.append(self.crow_height_index)
        # self.old_states.append("Crouch" if self.playerDino.rect[2] != 44 else " standing")
        self.old_states.append(0 if self.playerDino.rect[2] != 44 else 1)

        self.play()

        return np.array(self.old_states, dtype=np.float64)

    def play(self):
        for c in self.cacti:
            c.movement[0] = -1*self.gamespeed
            if pygame.sprite.collide_mask(self.playerDino,c):
                self.playerDino.isDead = True

        for p in self.crows:
            p.movement[0] = -1*self.gamespeed
            if pygame.sprite.collide_mask(self.playerDino,p):
                self.playerDino.isDead = True

        if len(self.cacti) < 2:
            if len(self.cacti) == 0:
                self.last_obstacle.empty()
                self.last_obstacle.add(Cactus(self.gamespeed,40,40))
            else:
                for l in self.last_obstacle:
                    if l.rect.right < self.width*0.7 and random.randrange(0,200) == 10:
                        self.last_obstacle.empty()
                        self.last_obstacle.add(Cactus(self.gamespeed, 40, 40))

        if len(self.crows) == 0 and random.randrange(0,200) == 30 and self.counter == 1:
            for l in self.last_obstacle:
                if l.rect.right < self.width*0.7:
                    self.last_obstacle.empty()
                    self.last_obstacle.add(Crow(self.gamespeed, 40, 40))

        self.playerDino.update()
        self.cacti.update()
        # self.crows.update()
        self.new_ground.update()
        self.scb.update(self.playerDino.score)

        all_loc = []
        self.nearest = 1000
        self.crow_height_index = 0

        for c in self.cacti:
            if c.rect.left > 80:
                all_loc.append(c.rect.left)
                if c.rect.left < self.nearest:
                    self.nearest = c.rect.left

        for p in self.crows:
            if p.rect.left > 80:
                all_loc.append(p.rect.left)
                if p.rect.left < self.nearest:
                    self.nearest = p.rect.left
                    self.crow_height_index = p.crow_height_index + 1

        if len(all_loc) > 1:
            all_loc.remove(min(all_loc))
            self.second_nearest = min(all_loc)
        else:
            self.second_nearest += self.playerDino.rect.right

        # print(nearest - self.playerDino.rect.right, second_nearest - self.playerDino.rect.right)

        self.new_states = []

        self.new_states.append(self.new_ground.speed/-4)
        # self.new_states.append(np.digitize(self.nearest, self.discrete_spaces))
        self.new_states.append(np.digitize(round(self.nearest / self.playerDino.rect.right,2), self.discrete_spaces))
        self.new_states.append(np.digitize(round(self.second_nearest / self.playerDino.rect.right,2), self.discrete_spaces))
        self.new_states.append(self.crow_height_index)
        # self.new_states.append("Jump" if self.playerDino.rect[1] != 100 else "running")
        # self.new_states.append("Crouch" if self.playerDino.rect[2] != 44 else " standing")
        self.new_states.append(0 if self.playerDino.rect[2] != 44 else 1)


        if(self.playerDino.rect[1] == 100 and (self.playerDino.rect[2] == 44 or self.playerDino.rect[2] == 59)):
            self.i = 0
            self.action_complete = True

        if(self.playerDino.rect[1] != 100):
            self.i += 1

        self.highsc.update(self.high_score)

        if self.allow_rendering:
            self.render()

        self.clock.tick(self.FPS)

        if self.playerDino.isDead:
            # print('Reward: -1000')

            # print("final_ states: ", self.new_states)
            # print("<<<<<<GAME OVER>>>>>>>")
            self.gameOver = True
            # self.reset()

        if self.counter%700 == 699:
            self.new_ground.speed -= 1
            self.gamespeed += 1
            self.t_reward += 99

        self.counter = (self.counter + 1)

    def step(self, action): ## 0 - stay, 1 - jump, 2 - crouch, 3 - standup
        # while not self.gameQuit:
        #     while not self.gameOver:
        self.t_reward = 0
        if True:
            if action == 0: ## event.key == pygame.K_SPACE
                self.action_complete = False
                if self.playerDino.rect.bottom == int(0.98*self.height):
                    self.playerDino.isJumping = True
                    # if pygame.mixer.get_init() != None:
                    #     jump_sound.play()
                    self.playerDino.movement[1] = -1*self.playerDino.jumpSpeed
                    # self.t_reward -= 36
                while True:
                    self.play()
                    if self.action_complete :
                        self.action_complete = False
                        break

            if action == 1:      ## event.key == pygame.K_DOWN
                # if not (self.playerDino.isJumping and self.playerDino.isDead):
                #     self.playerDino.isDucking = True

                self.play()

            if action == 2:
                self.playerDino.isDucking = False
                self.play()

            if action == 4:
                self.close()
                return 0, 0, True
            else:
                self.play()

        self.t_reward += 1

        if self.gameOver:

            self.t_reward -= 101

        return np.array(self.new_states), self.t_reward, self.gameOver

        # self.close()

    def close(self):
        pygame.display.quit()
        pygame.quit()
        quit()
Exemple #21
0
def run_game():
    #初始化循环并创建一个对象
    prtips()
    pygame.init()
    #设置背景音效
    pygame.mixer_music.load('Lullatone - outside sandwiches.mp3')
    pygame.mixer_music.play(10, 0)
    #加载动作音效
    di_settings = Settings()
    screen = pygame.display.set_mode(
        (di_settings.screen_width, di_settings.screen_height))
    pygame.display.set_caption('dinosaur run!')
    #生成对象图片列表
    image_d = ['images/long1.png', 'images/long2.png', 'images/long3.png']
    image_c = [
        'images/cactus01.png', 'images/cactus02.png', 'images/cactus03.png'
    ]
    image_b = ['images/bird1.png', 'images/bird2.png', 'images/bird3.png']
    #初始化障碍物-鸟
    bird = Bird(800, 150, screen)
    dino = Dino(screen)
    dino.load('images/long1_2.png', 40, 43, 2)
    group = pygame.sprite.Group()
    group.add(dino)
    #初始化地图
    aa = 0
    cc = 0
    dd = 0
    bg1 = MyMap(0, 0, screen)
    bg2 = MyMap(734, 0, screen)
    ca1 = obstacle.Cactus(800, 205, screen)
    ca2 = obstacle.Cactus(1200, 205, screen)
    ca3 = obstacle.Cactus(800, 205, screen)
    #设置一些标志变量
    player_jump = 0
    jump_vel = -4.95
    flag_bird = False
    flag_cactus1 = -1
    flag_cactus2 = -1
    flag_cactus3 = -1
    a_rate = 10000
    rate = 2
    #载入结束图像
    image_over = pygame.image.load('images/game_over.png').convert_alpha()
    image_overd = pygame.image.load('images/over.png').convert_alpha()

    tick = pygame.time.Clock()
    #开始游戏主循环
    while True:
        tick.tick(100)
        ticks = pygame.time.get_ticks()
        #计数器
        dd += 1
        scoreboard = Scoreboard(di_settings, screen, dd / 10)
        cc += 1
        if int(cc / 10) == 3:
            cc = 0
        # 监视键盘和鼠标事件
        for event in pygame.event.get():
            if event.type == pygame.QUIT:
                sys.exit()
            elif event.type == pygame.KEYDOWN:
                if event.key == pygame.K_SPACE:
                    player_jump = 1
                elif event.key == pygame.K_p:
                    while not event.key == 27:
                        for event in pygame.event.get():
                            print()
                elif event.key == 27:
                    sys.exit()
                else:
                    prtips()

        if dd == 1050:
            a_rate = 2100

        #绘制背景
        bg1.map_update()
        bg2.map_update()
        bg1.map_rolling(rate * (1 + dd / a_rate))
        bg2.map_rolling(rate * (1 + dd / a_rate))
        #是否生成仙人掌
        flag_cactus1 = ca1.randcactus(flag_cactus1)
        flag_cactus2 = ca2.randcactus(flag_cactus2)
        if (not flag_cactus1 == -1) and dd > 1300:
            # 绘制仙人掌
            ca1.blitme(image_c[flag_cactus1])
            flag_cactus1 = ca1.cactus_rolling(flag_cactus1,
                                              rate * (1 + dd / a_rate))
        if (not flag_cactus2 == -1) and dd > 1300:
            ca2.blitme(image_c[flag_cactus2])
            flag_cactus2 = ca2.cactus_rolling(flag_cactus2,
                                              rate * (1 + dd / a_rate))
        if dd <= 1000:
            flag_cactus3 = 2
        if flag_cactus3 == 2:
            ca3.blitme(image_c[flag_cactus3])
            flag_cactus3 = ca3.cactus_rolling(flag_cactus3,
                                              rate * (1 + dd / a_rate))
        #更新恐龙位置
        jump_vel, player_jump = dino.jump(player_jump, jump_vel,
                                          1 + dd / a_rate)
        if player_jump == 0:
            group.update(ticks)
            group.draw(screen)
        else:
            dino.blitme(image_d[2])
        #是否生成飞鸟
        if dd == 800:
            flag_bird = True
            # 更新飞鸟
        if flag_bird:
            flag_bird = bird.bird_rolling()
            bird.blitme(image_b[int(cc / 15)])
        #更新计分板
        scoreboard.show_score()
        # 更新画面

        pygame.display.update()
        #检测碰撞
        hit = hit_find(dino.x, ca1.x, ca2.x, bird.x, dino.y)
        if hit:
            break
    screen.blit(image_over, (270, 100))
    screen.blit(image_overd, (220, 140))
    pygame.display.update()
    time.sleep(1)
Exemple #22
0
class Game:
    def __init__(self):
        self.reset()

    def curses_initialize_screen(self):
        self.stdscr = curses.initscr()
        curses.noecho()
        curses.cbreak()
        self.stdscr.keypad(True)
        curses.curs_set(0)
        self.stdscr.border()
        self.stdscr.nodelay(1)

    def set_max_dimensions(self):
        self.rows_max, self.cols_max = self.stdscr.getmaxyx()

    def initialize_obstacles(self):
        self.array_obstacles = [
            Obstacle(self, self.cols_max - 1, self.ground_level, 2)
        ]
        self.next_obstacle_generate_time = 0

    def reset(self):
        self.curses_initialize_screen()
        self.set_max_dimensions()

        self.ground_level = self.rows_max - 3
        self.ground_string = '=' * (self.cols_max - 3)

        self.dino = Dino(self)
        self.score = Score(self.stdscr)
        self.initialize_obstacles()

        self.show_loading_animation()

    def show_loading_animation(self):
        def draw_multiline_string(s):
            for y, line in enumerate(s.splitlines(), 2):
                self.stdscr.addstr(y, 2, line)

            self.stdscr.refresh()

        self.stdscr.refresh()
        self.update()

        for ascii_number in ascii_numbers:
            draw_multiline_string(clear_text)
            draw_multiline_string(ascii_number)
            time.sleep(1)

    def handle_key_press(self):
        k = self.stdscr.getch()
        if k == curses.ERR:
            return
        if k == 27:
            self.destroy()
            sys.exit()

        elif k == 98:
            self.reset()

        elif k == 97:
            self.dino.jump()

    def draw_obstacles(self):
        for obstacle in self.array_obstacles:
            obstacle.draw()

    def generate_next_obstacle(self):
        if self.next_obstacle_generate_time - time.time() < 0:
            self.next_obstacle_generate_time = time.time() + random.randint(
                1, 5)
            self.array_obstacles.append(
                Obstacle(self, self.cols_max - 1, self.ground_level,
                         random.randint(2, 4)))

    def draw_ground(self):
        self.stdscr.addstr(self.ground_level, 3, self.ground_string)

    def update(self):
        self.stdscr.erase()
        self.set_max_dimensions()
        self.handle_key_press()
        self.draw_obstacles()
        self.generate_next_obstacle()

        self.dino.update()
        self.score.update()
        self.draw_ground()
        self.stdscr.refresh()

    def destroy(self):
        self.stdscr.clear()
        curses.nocbreak()
        self.stdscr.keypad(False)
        curses.echo()
        curses.endwin()
Exemple #23
0
from dino import Dino
from cactus import Cactus
from ScreenPrinter import ScreenPrinter
from pterosaur import Pterosaur
from color import colors
# from highscorehandler import ServerHandler

printer = ScreenPrinter("background.txt",
                        term_dim_x=WINDOW_DIM_X,
                        term_dim_y=WINDOW_DIM_Y)
dino_spr = Sprite.fromFilePath("resources/dino/dino.txt")

printer.attachSprite(dino_spr)
dino = Dino(dino_spr,
            strength=DINO_STRENGTH,
            gravity=DINO_GRAVITY,
            pos_y=WINDOW_DIM_Y - 12,
            collision_logic=DINO_COLLISION_LOGIC,
            framerate=DINO_FRAMERATE)

cactus_sprites = []
cacti = []
pterosaurs = []

counter = 0
latest = 0

cactus_spacer_float = 50.0
pterosaur_spacer_float = 50.0

speed = 3
Exemple #24
0
from dino import Dino
from DQNAgent import DQNAgent
import numpy as np
import time

episodes = 1000

state_size = 4
action_size = 3  # 1. do nothing, 2. jump, 3. lower

agent = DQNAgent(state_size, action_size)

dino = Dino()
scores = []

for e in range(episodes):
    # restart the game
    dino.start()

    state = dino.get_obstacles()
    state = np.reshape(state, [1, 4])

    done = False

    while not done:
        state = dino.get_obstacles()
        state = np.reshape(state, [1, 4])
        # decide action
        action = agent.act(state)

        if action == 1:
Exemple #25
0
            return False
    return True


pygame.init()  #inicializando jogo

velX = 4
floor = pygame.image.load('chao0.png')
back = pygame.image.load('chao4.bmp')

#1600 de largura por 600 de altura
win = pygame.display.set_mode((CONTS_XWIN, CONTS_YWIN))
win.fill((255, 255, 255))  #fills with wight
pygame.display.set_caption("first Game")

dino1 = Dino()

tempoIni = clock()

run = True

lista = []

flag = False


def drawBackGround():
    win.fill((255, 255, 255))  #fills with wight

    for i in range(0, CONTS_XWIN, 60):
        win.blit(floor, (i, CONTS_YINI + CONTS_CHARH))
Exemple #26
0
class Agent:
    def __init__(self, index, debug=False):
        self.index = index
        self.debug = debug
        self.alive_since = None
        self.died_at = None
        self.dino = Dino()

    def setup(self):
        self.dino.setup()
        self.driver = webdriver.Chrome(options=options)
        self.driver.implicitly_wait(10)
        self.driver.get(
            'file:///Users/lukaszskrzeszewski/projects/venv3.7/dinotrainer/trex/index.html'
        )
        self.document = self.driver.find_element(By.XPATH, '//html')

    def start(self):
        self.setup()
        self.alive_since = dt.now()
        #self.document.send_keys(Keys.SPACE)

        while self.isDead() == False:
            self.react()
            sleep(0.1)

        if (self.debug == True):
            print('Agent ', self.index, ' died, score: ', self.score())

        return {'score': self.score(), 'index': self.index}

    def score(self):
        return (self.died_at - self.alive_since).total_seconds()

    def isDead(self):
        if self.died_at == None:
            if self.driver.execute_script(
                    "return Runner.instance_.crashed") == True:
                self.died_at = dt.now()
                return True
            else:
                return False
        else:
            return True

    def react(self):
        X = self.get_data()
        action = self.dino.react(X)
        self.__react(action)

    def get_data(self):
        self.document.send_keys(Keys.SPACE)
        screenshot = self.get_screenshot()
        rhdata = screenshot[60:, 45:450]
        rhdata = np.where(rhdata > 0, 1, 0)
        up = rhdata[:25]
        down = rhdata[25:]
        up_sum = np.sum(up, axis=0)
        down_sum = np.sum(down, axis=0)
        return np.append(up_sum, down_sum).reshape((1, 810))

    def __react(self, action):
        actions = {
            'down': lambda: self.document.send_keys(Keys.ARROW_DOWN),
            'up': lambda: self.document.send_keys(Keys.SPACE),
        }
        print('action', action)
        callback = actions.get(action, lambda: None)
        callback()

    def get_screenshot(self):
        data = self.driver.execute_script(
            'return Runner.instance_.canvasCtx.getImageData(0,0,150,600)'
        )['data']
        #data = self.driver.execute_script('return document.getElementsByClassName("runner-canvas")[0].getContext("2d").getImageData(0,0,600,150);')['data']
        #a = np.array(data).reshape((90000, 4))
        #a = a[:, 2]
        a = data[0::4]
        b = np.reshape(a, (150, 600))
        #self.driver.save_screenshot(os.path.join(os.path.dirname(os.path.realpath(__file__)), '.', 'screenshot.png'))
        save_file = os.path.join(os.getcwd(), "data.png")
        fig = plt.figure(figsize=(4, 5))
        plt.imshow(b, interpolation='nearest')
        plt.savefig(save_file)
        plt.close(fig)
        return b

    def test(self):
        data = self.driver.execute_script(
            'return document.getElementsByClassName("runner-canvas")[0].getContext("2d").getImageData(0,0,600,150);'
        )['data']
        a = np.array(data).reshape((90000, 4))
        a = a[:, 0]
        b = a.reshape((150, 600))
        fig = plt.figure(figsize=(4, 5))
        plt.imshow(b, interpolation='nearest')
        plt.savefig(save_file)
        plt.close(fig)
        self.driver.save_screenshot(
            os.path.join(os.path.dirname(os.path.realpath(__file__)), '.',
                         'ss.png'))
        data = self.driver.execute_script(
            'return document.getElementsByClassName("runner-canvas")[0].toDataURL("image/png");'
        )
        print('Canvas length: ', data)
        return b
Exemple #27
0
 def __init__(self, index, debug=False):
     self.index = index
     self.debug = debug
     self.alive_since = None
     self.died_at = None
     self.dino = Dino()
Exemple #28
0
 def __init__(self):
     self.herd = [
         Dino("Raptor", 125, 15),
         Dino("T-Rex", 125, 15),
         Dino("Stegosaurus", 125, 15)
     ]
Exemple #29
0
def gameplay():
    global high_score
    gamespeed = 4
    startMenu = False
    gameOver = False
    gameQuit = False
    playerDino = Dino(44,47)
    new_ground = Ground(-1*gamespeed)
    scb = Scoreboard()
    highsc = Scoreboard(width*0.78)
    counter = 0

    cacti = pygame.sprite.Group()
    pteras = pygame.sprite.Group()
    clouds = pygame.sprite.Group()
    last_obstacle = pygame.sprite.Group()

    Cactus.containers = cacti
    Ptera.containers = pteras
    Cloud.containers = clouds

    retbutton_image,retbutton_rect = load_image('replay_button.png',35,31,-1)
    gameover_image,gameover_rect = load_image('game_over.png',190,11,-1)

    temp_images,temp_rect = load_sprite_sheet('numbers.png',12,1,11,int(11*6/5),-1)
    HI_image = pygame.Surface((22,int(11*6/5)))
    HI_rect = HI_image.get_rect()
    HI_image.fill(background_col)
    HI_image.blit(temp_images[10],temp_rect)
    temp_rect.left += temp_rect.width
    HI_image.blit(temp_images[11],temp_rect)
    HI_rect.top = height*0.1
    HI_rect.left = width*0.73

    while not gameQuit:
        while startMenu:
            pass
        while not gameOver:
            if pygame.display.get_surface() == None:
                print("Couldn't load display surface")
                gameQuit = True
                gameOver = True
            else:
                for event in pygame.event.get():
                    if event.type == pygame.QUIT:
                        gameQuit = True
                        gameOver = True

                    if event.type == pygame.KEYDOWN:
                        if event.key == pygame.K_SPACE:
                            if playerDino.rect.bottom == int(0.98*height):
                                playerDino.isJumping = True
                                if pygame.mixer.get_init() != None:
                                    jump_sound.play()
                                playerDino.movement[1] = -1*playerDino.jumpSpeed

                        if event.key == pygame.K_DOWN:
                            if not (playerDino.isJumping and playerDino.isDead):
                                playerDino.isDucking = True

                    if event.type == pygame.KEYUP:
                        if event.key == pygame.K_DOWN:
                            playerDino.isDucking = False
            for c in cacti:
                c.movement[0] = -1*gamespeed
                if pygame.sprite.collide_mask(playerDino,c):
                    playerDino.isDead = True
                    if pygame.mixer.get_init() != None:
                        die_sound.play()

            for p in pteras:
                p.movement[0] = -1*gamespeed
                if pygame.sprite.collide_mask(playerDino,p):
                    playerDino.isDead = True
                    if pygame.mixer.get_init() != None:
                        die_sound.play()

            if len(cacti) < 2:
                if len(cacti) == 0:
                    last_obstacle.empty()
                    last_obstacle.add(Cactus(gamespeed,40,40))
                else:
                    for l in last_obstacle:
                        if l.rect.right < width*0.7 and random.randrange(0,50) == 10:
                            last_obstacle.empty()
                            last_obstacle.add(Cactus(gamespeed, 40, 40))

            if len(pteras) == 0 and random.randrange(0,200) == 10 and counter > 500:
                for l in last_obstacle:
                    if l.rect.right < width*0.8:
                        last_obstacle.empty()
                        last_obstacle.add(Ptera(gamespeed, 46, 40))

            if len(clouds) < 5 and random.randrange(0,300) == 10:
                Cloud(width,random.randrange(height/5,height/2))

            playerDino.update()
            cacti.update()
            pteras.update()
            clouds.update()
            new_ground.update()
            scb.update(playerDino.score)
            highsc.update(high_score)

            if pygame.display.get_surface() != None:
                screen.fill(background_col)
                new_ground.draw(screen)
                clouds.draw(screen)
                scb.draw(screen)
                if high_score != 0:
                    highsc.draw(screen)
                    screen.blit(HI_image,HI_rect)
                cacti.draw(screen)
                pteras.draw(screen)
                playerDino.draw(screen)

                pygame.display.update()
            clock.tick(FPS)

            if playerDino.isDead:
                gameOver = True
                if playerDino.score > high_score:
                    high_score = playerDino.score

            if counter%700 == 699:
                new_ground.speed -= 1
                gamespeed += 1

            counter = (counter + 1)

        if gameQuit:
            break

        while gameOver:
            if pygame.display.get_surface() == None:
                print("Couldn't load display surface")
                gameQuit = True
                gameOver = False
            else:
                for event in pygame.event.get():
                    if event.type == pygame.QUIT:
                        gameQuit = True
                        gameOver = False
                    if event.type == pygame.KEYDOWN:
                        if event.key == pygame.K_ESCAPE:
                            gameQuit = True
                            gameOver = False

                        if event.key == pygame.K_RETURN or event.key == pygame.K_SPACE:
                            gameOver = False
                            gameplay()
            highsc.update(high_score)
            if pygame.display.get_surface() != None:
                disp_gameOver_msg(retbutton_image,gameover_image)
                if high_score != 0:
                    highsc.draw(screen)
                    screen.blit(HI_image,HI_rect)
                pygame.display.update()
            clock.tick(FPS)

    pygame.quit()
    quit()
Exemple #30
0
class Gym:
    """'Gym' class: train the AI agent
    
    Attributes:
        'args' (ArgumentParser): parser gethering all the Game parameters
        'dino' (Dino): Dino controller
        
        'highscore' (tuple of int, (human, AI)): the best score achieved by a human and an AI
        'isHuman' (bool): whether a human or an AI is playing the game
        't' (int): number of time steps since the beginning of the game
        
        'agent' (AIAgent, default=None): AI agent playing the game
    """
    def __init__(self, args):
        super(Gym).__init__()
        self.args = args

        # environment parameters
        self.dino = Dino(args)

        # game parameters
        self.highscore = load_highscore(args.highscore_filename)
        self.t = 0

        # to play with an AI
        self.isHuman = (args.agent == "human")
        if not self.isHuman:
            self.agent = AIAgent(args, self.dino)
            # load saved parameters
            if self.args.load_save:
                load_agent(self.agent, self.args.save_filename)

        # listen to user inputs
        self.inputs_list = []
        threading.Thread(target=input_thread,
                         args=(self.inputs_list, )).start()

    def step(self):
        """Play one time step in the game.
        """
        # take an action
        self.agent.choose_action()

        # feed the transition information to the agent
        self.agent.set_transition()

        # update the number of time steps
        self.t += 1

    def play(self):
        """Play games continuously.
        """
        # display command info
        display_info(self.dino.get_n_sim(), self.highscore,
                     self.args.commands_filename)
        handle_user_command(self)

        # start the first game
        self.dino.start()

        while True:
            # check if the game is not failed
            if not self.dino.is_crashed():
                if not self.isHuman:
                    # check if the game is not paused
                    if not self.dino.is_playing() and self.args.play_bg:
                        self.dino.game.resume()

                    # take a step if the AI is playing
                    if self.dino.is_playing():
                        self.step()

            # otherwise launch a new game
            else:
                # reset the number of steps
                self.t = 0

                # current score
                score = self.dino.get_score()
                # check if the highscore is beaten
                human_score = max(score * self.isHuman, self.highscore[0])
                ai_score = max(score * (not self.isHuman), self.highscore[1])
                # update the highscore
                self.highscore = (human_score, ai_score)
                update_score(self.highscore, self.args.highscore_filename)

                # display command info
                display_info(self.dino.get_n_sim(), self.highscore,
                             self.args.commands_filename)
                handle_user_command(self)

                if not self.isHuman:
                    # save the last simulation
                    self.agent.reset()
                else:
                    self.dino.start()