def __init__(self): """ Initializer """ # Set the working directory (where we expect to find files) to the same # directory this .py file is in. You can leave this out of your own # code, but it is needed to easily run the examples using "python -m" # as mentioned at the top of this program. file_path = os.path.dirname(os.path.abspath(__file__)) os.chdir(file_path) # Variables that will hold sprite lists self.shape_list = [] self.performance_timing = PerformanceTiming(results_file=RESULTS_FILE, start_n=0, increment_n=100, end_time=60) # Initialize Pygame pygame.init() pygame.display.set_caption(SCREEN_TITLE) # Set the height and width of the screen self.screen = pygame.display.set_mode([SCREEN_WIDTH, SCREEN_HEIGHT]) # This is a list of every sprite. All blocks and the player block as well. self.coin_list = pygame.sprite.Group() self.font = pygame.font.SysFont('Calibri', 25, True, False)
def __init__(self, buffered): super().__init__(SCREEN_WIDTH, SCREEN_HEIGHT, SCREEN_TITLE) self.shape_list = None self.buffered = buffered # Set the working directory (where we expect to find files) to the same # directory this .py file is in. You can leave this out of your own # code, but it is needed to easily run the examples using "python -m" # as mentioned at the top of this program. file_path = os.path.dirname(os.path.abspath(__file__)) os.chdir(file_path) if self.buffered: self.results_file = "../../result_data/arcade/moving_shapes_buffered.csv" self.results_image = "../../result_data/arcade/moving_shapes_buffered.png" else: self.results_file = "../../result_data/arcade/moving_shapes_unbuffered.csv" self.results_image = "../../result_data/arcade/moving_shapes_unbuffered.png" self.performance_timing = PerformanceTiming( results_file=self.results_file, start_n=0, increment_n=20, end_time=60)
def __init__(self): """ Initializer """ # Call the parent class initializer super().__init__(SCREEN_WIDTH, SCREEN_HEIGHT, SCREEN_TITLE) arcade.cleanup_texture_cache() # Set the working directory (where we expect to find files) to the same # directory this .py file is in. You can leave this out of your own # code, but it is needed to easily run the examples using "python -m" # as mentioned at the top of this program. file_path = os.path.dirname(os.path.abspath(__file__)) os.chdir(file_path) # Variables that will hold sprite lists self.coin_list = None self.player_list = None self.player = None self.performance_timing = PerformanceTiming(results_file=RESULTS_FILE, start_n=0, increment_n=1000, end_time=60) arcade.set_background_color(arcade.color.AMAZON) # Open file to save timings self.results_file = open(RESULTS_FILE, "w") self.frame = 0
class MyGame: """ Our custom Window Class""" def __init__(self): """ Initializer """ # Set the working directory (where we expect to find files) to the same # directory this .py file is in. You can leave this out of your own # code, but it is needed to easily run the examples using "python -m" # as mentioned at the top of this program. file_path = os.path.dirname(os.path.abspath(__file__)) os.chdir(file_path) # Variables that will hold sprite lists self.shape_list = [] self.performance_timing = PerformanceTiming(results_file=RESULTS_FILE, start_n=0, increment_n=100, end_time=60) # Initialize Pygame pygame.init() pygame.display.set_caption(SCREEN_TITLE) # Set the height and width of the screen self.screen = pygame.display.set_mode([SCREEN_WIDTH, SCREEN_HEIGHT]) # This is a list of every sprite. All blocks and the player block as well. self.coin_list = pygame.sprite.Group() self.font = pygame.font.SysFont('Calibri', 25, True, False) def add_shapes(self, amount): for i in range(amount): x = random.randrange(0, SCREEN_WIDTH) y = random.randrange(0, SCREEN_HEIGHT) width = random.randrange(10, 30) height = random.randrange(10, 30) angle = random.randrange(0, 360) d_x = random.randrange(-3, 4) d_y = random.randrange(-3, 4) d_angle = random.randrange(-3, 4) red = random.randrange(256) green = random.randrange(256) blue = random.randrange(256) alpha = random.randrange(256) shape_type = random.randrange(2) # shape_type = 0 if shape_type == 0: shape = Rectangle(x, y, width, height, angle, d_x, d_y, d_angle, (red, green, blue, alpha)) elif shape_type == 1: shape = Ellipse(x, y, width, height, angle, d_x, d_y, d_angle, (red, green, blue, alpha)) # elif shape_type == 2: # shape = Line(x, y, width, height, angle, d_x, d_y, # d_angle, (red, green, blue, alpha)) self.shape_list.append(shape) def on_draw(self): """ Draw everything """ # Start timing how long this takes self.performance_timing.start_timer('draw') # Clear the screen self.screen.fill((0, 0, 0)) for shape in self.shape_list: shape.draw(self.screen) pygame.display.flip() # Stop timing how long this takes self.performance_timing.stop_timer('draw') def update(self, _delta_time): # Start update timer self.performance_timing.start_timer('update') for shape in self.shape_list: shape.move() # Stop timing the update self.performance_timing.stop_timer('update') # Figure out if we need more coins if self.performance_timing.target_n > len(self.shape_list): new_coin_amount = self.performance_timing.target_n - len( self.shape_list) self.add_shapes(new_coin_amount)
class MyGame: """ Our custom Window Class""" def __init__(self): """ Initializer """ # Set the working directory (where we expect to find files) to the same # directory this .py file is in. You can leave this out of your own # code, but it is needed to easily run the examples using "python -m" # as mentioned at the top of this program. file_path = os.path.dirname(os.path.abspath(__file__)) os.chdir(file_path) # Variables that will hold sprite lists self.coin_list = None self.performance_timing = PerformanceTiming(results_file=RESULTS_FILE, start_n=0, increment_n=1000, end_time=60) # Initialize Pygame pygame.init() # Set the height and width of the screen self.screen = pygame.display.set_mode([SCREEN_WIDTH, SCREEN_HEIGHT]) # This is a list of every sprite. All blocks and the player block as well. self.coin_list = pygame.sprite.Group() self.player_list = pygame.sprite.Group() # Create the player instance self.player = Player() self.player.rect.x = random.randrange(SPRITE_SIZE, SCREEN_WIDTH - SPRITE_SIZE) self.player.rect.y = random.randrange(SPRITE_SIZE, SCREEN_HEIGHT - SPRITE_SIZE) self.player.change_x = 3 self.player.change_y = 5 self.player_list.add(self.player) self.font = pygame.font.SysFont('Calibri', 25, True, False) def add_coins(self, amount): # Create the coins for i in range(amount): # Create the coin instance # Coin image from kenney.nl coin = Coin() # Position the coin coin.rect.x = random.randrange(SPRITE_SIZE, SCREEN_WIDTH - SPRITE_SIZE) coin.rect.y = random.randrange(SPRITE_SIZE, SCREEN_HEIGHT - SPRITE_SIZE) # Add the coin to the lists self.coin_list.add(coin) def on_draw(self): """ Draw everything """ # Start timing how long this takes self.performance_timing.start_timer('draw') # Clear the screen self.screen.fill((59, 122, 87)) # Draw all the spites self.coin_list.draw(self.screen) self.player_list.draw(self.screen) pygame.display.flip() # Stop timing how long this takes self.performance_timing.stop_timer('draw') def update(self, _delta_time): # Start update timer self.performance_timing.start_timer('update') # Start update timer self.player_list.update() if self.player.rect.x < 0 and self.player.change_x < 0: self.player.change_x *= -1 if self.player.rect.y < 0 and self.player.change_y < 0: self.player.change_y *= -1 if self.player.rect.x > SCREEN_WIDTH and self.player.change_x > 0: self.player.change_x *= -1 if self.player.rect.y > SCREEN_HEIGHT and self.player.change_y > 0: self.player.change_y *= -1 coin_hit_list = pygame.sprite.spritecollide(self.player, self.coin_list, False) for coin in coin_hit_list: coin.rect.x = random.randrange(SCREEN_WIDTH) coin.rect.y = random.randrange(SCREEN_HEIGHT) # Stop timing the update self.performance_timing.stop_timer('update') # Figure out if we need more coins if self.performance_timing.target_n > len(self.coin_list): new_coin_amount = self.performance_timing.target_n - len( self.coin_list) self.add_coins(new_coin_amount)
class MyGame(arcade.Window): """ Main application class. """ def __init__(self, buffered): super().__init__(SCREEN_WIDTH, SCREEN_HEIGHT, SCREEN_TITLE) self.shape_list = None self.buffered = buffered # Set the working directory (where we expect to find files) to the same # directory this .py file is in. You can leave this out of your own # code, but it is needed to easily run the examples using "python -m" # as mentioned at the top of this program. file_path = os.path.dirname(os.path.abspath(__file__)) os.chdir(file_path) if self.buffered: self.results_file = "../../result_data/arcade/moving_shapes_buffered.csv" self.results_image = "../../result_data/arcade/moving_shapes_buffered.png" else: self.results_file = "../../result_data/arcade/moving_shapes_unbuffered.csv" self.results_image = "../../result_data/arcade/moving_shapes_unbuffered.png" self.performance_timing = PerformanceTiming( results_file=self.results_file, start_n=0, increment_n=20, end_time=60) def setup(self): """ Set up the game and initialize the variables. """ self.shape_list = [] def add_shapes(self, amount): for i in range(amount): x = random.randrange(0, SCREEN_WIDTH) y = random.randrange(0, SCREEN_HEIGHT) width = random.randrange(10, 30) height = random.randrange(10, 30) angle = random.randrange(0, 360) d_x = random.randrange(-3, 4) d_y = random.randrange(-3, 4) d_angle = random.randrange(-3, 4) red = random.randrange(256) green = random.randrange(256) blue = random.randrange(256) alpha = random.randrange(256) shape_type = random.randrange(2) # shape_type = 2 if not self.buffered: if shape_type == 0: shape = Rectangle(x, y, width, height, angle, d_x, d_y, d_angle, (red, green, blue, alpha)) elif shape_type == 1: shape = Ellipse(x, y, width, height, angle, d_x, d_y, d_angle, (red, green, blue, alpha)) elif shape_type == 2: shape = Line(x, y, width, height, angle, d_x, d_y, d_angle, (red, green, blue, alpha)) else: if shape_type == 0: shape = RectangleBuffered(x, y, width, height, angle, d_x, d_y, d_angle, (red, green, blue, alpha)) elif shape_type == 1: shape = EllipseBuffered(x, y, width, height, angle, d_x, d_y, d_angle, (red, green, blue, alpha)) elif shape_type == 2: shape = LineBuffered(x, y, width, height, angle, d_x, d_y, d_angle, (red, green, blue, alpha)) self.shape_list.append(shape) def on_update(self, dt): """ Move everything """ # Start update timer self.performance_timing.start_timer('update') for shape in self.shape_list: shape.move() # Stop timing the update self.performance_timing.stop_timer('update') # Figure out if we need more coins if self.performance_timing.target_n > len(self.shape_list): new_coin_amount = self.performance_timing.target_n - len( self.shape_list) self.add_shapes(new_coin_amount) # End the program run if self.performance_timing.end_run(): # Save screenshot image = arcade.get_image() image.save(self.results_image, 'PNG') self.close() def on_draw(self): """ Render the screen. """ # Start timing how long this takes self.performance_timing.start_timer('draw') arcade.start_render() for shape in self.shape_list: shape.draw() # Stop timing how long this takes self.performance_timing.stop_timer('draw')
class MyGame(arcade.Window): """ Our custom Window Class""" def __init__(self): """ Initializer """ # Call the parent class initializer super().__init__(SCREEN_WIDTH, SCREEN_HEIGHT, SCREEN_TITLE) arcade.cleanup_texture_cache() # Set the working directory (where we expect to find files) to the same # directory this .py file is in. You can leave this out of your own # code, but it is needed to easily run the examples using "python -m" # as mentioned at the top of this program. file_path = os.path.dirname(os.path.abspath(__file__)) os.chdir(file_path) # Variables that will hold sprite lists self.coin_list = None self.sprite_count_list = [] self.performance_timing = PerformanceTiming(results_file=RESULTS_FILE, start_n=0, increment_n=1000, end_time=60) arcade.set_background_color(arcade.color.AMAZON) def add_coins(self, amount): # Create the coins for i in range(amount): # Create the coin instance # Coin image from kenney.nl coin = Coin("../resources/coinGold.png", SPRITE_SCALING_COIN) # Position the coin coin.center_x = random.randrange(SPRITE_SIZE, SCREEN_WIDTH - SPRITE_SIZE) coin.center_y = random.randrange(SPRITE_SIZE, SCREEN_HEIGHT - SPRITE_SIZE) coin.change_x = random.randrange(-3, 4) coin.change_y = random.randrange(-3, 4) # Add the coin to the lists self.coin_list.append(coin) def setup(self): """ Set up the game and initialize the variables. """ # Sprite lists self.coin_list = arcade.SpriteList(use_spatial_hash=False, is_static=True) def on_draw(self): """ Draw everything """ # Start timing how long this takes self.performance_timing.start_timer('draw') # Clear the screen arcade.start_render() # Draw all the sprites self.coin_list.draw() # Stop timing how long this takes self.performance_timing.stop_timer('draw') def update(self, delta_time): # Start update timer self.performance_timing.start_timer('update') # Stop timing the update self.performance_timing.stop_timer('update') # Figure out if we need more coins if self.performance_timing.target_n > len(self.coin_list): new_coin_amount = self.performance_timing.target_n - len( self.coin_list) self.add_coins(new_coin_amount) # End the program run if self.performance_timing.end_run(): # Save screenshot image = arcade.get_image() image.save(RESULTS_IMAGE, 'PNG') self.close()
class MyGameCollision(arcade.Window): """ Our custom Window Class""" def __init__(self): """ Initializer """ # Call the parent class initializer super().__init__(SCREEN_WIDTH, SCREEN_HEIGHT, SCREEN_TITLE) arcade.cleanup_texture_cache() # Set the working directory (where we expect to find files) to the same # directory this .py file is in. You can leave this out of your own # code, but it is needed to easily run the examples using "python -m" # as mentioned at the top of this program. file_path = os.path.dirname(os.path.abspath(__file__)) os.chdir(file_path) # Variables that will hold sprite lists self.coin_list = None self.player_list = None self.player = None self.performance_timing = PerformanceTiming(results_file=RESULTS_FILE, start_n=0, increment_n=1000, end_time=60) arcade.set_background_color(arcade.color.AMAZON) # Open file to save timings self.results_file = open(RESULTS_FILE, "w") self.frame = 0 def add_coins(self, amount): # Create the coins for i in range(amount): # Create the coin instance # Coin image from kenney.nl coin = arcade.Sprite(":resources:images/items/coinGold.png", SPRITE_SCALING_COIN) # Position the coin coin.center_x = random.randrange(SPRITE_SIZE, SCREEN_WIDTH - SPRITE_SIZE) coin.center_y = random.randrange(SPRITE_SIZE, SCREEN_HEIGHT - SPRITE_SIZE) # Add the coin to the lists self.coin_list.append(coin) def setup(self): """ Set up the game and initialize the variables. """ # Sprite lists self.coin_list = arcade.SpriteList(use_spatial_hash=USE_SPATIAL_HASHING) self.player_list = arcade.SpriteList() self.player = arcade.Sprite(":resources:images/animated_characters/female_person/femalePerson_idle.png", SPRITE_SCALING_PLAYER) self.player.center_x = random.randrange(SCREEN_WIDTH) self.player.center_y = random.randrange(SCREEN_HEIGHT) self.player.change_x = 3 self.player.change_y = 5 self.player_list.append(self.player) def on_draw(self): """ Draw everything """ # Start timing how long this takes self.performance_timing.start_timer('draw') arcade.start_render() self.coin_list.draw() self.player_list.draw() # Stop timing how long this takes self.performance_timing.stop_timer('draw') def update(self, delta_time): # Start update timer self.performance_timing.start_timer('update') self.player_list.update() if self.player.center_x < 0 and self.player.change_x < 0: self.player.change_x *= -1 if self.player.center_y < 0 and self.player.change_y < 0: self.player.change_y *= -1 if self.player.center_x > SCREEN_WIDTH and self.player.change_x > 0: self.player.change_x *= -1 if self.player.center_y > SCREEN_HEIGHT and self.player.change_y > 0: self.player.change_y *= -1 coin_hit_list = arcade.check_for_collision_with_list(self.player, self.coin_list) for coin in coin_hit_list: coin.center_x = random.randrange(SCREEN_WIDTH) coin.center_y = random.randrange(SCREEN_HEIGHT) # Stop timing the update self.performance_timing.stop_timer('update') # Figure out if we need more coins if self.performance_timing.target_n > len(self.coin_list): new_coin_amount = self.performance_timing.target_n - len(self.coin_list) self.add_coins(new_coin_amount) # End the program run if self.performance_timing.end_run(): # Save screenshot image = arcade.get_image() image.save(RESULTS_IMAGE, 'PNG') self.close() import pyglet pyglet.app.exit()