class SpaceHogs(pyglet.window.Window):
def __init__(self):
super(SpaceHogs, self).__init__(caption='Space Hogs', width=settings.WINDOW_WIDTH, height=settings.WINDOW_HEIGHT)
pyglet.resource.path.append('data')
pyglet.resource.reindex()
self.batch = pyglet.graphics.Batch()
self.player = Player(batch=self.batch)
self.push_handlers(self.player)
pyglet.clock.schedule_interval(self.update, float(1)/60)
def run(self):
pyglet.app.run()
def update(self, dt):
self.player.update(dt)
for bullet in BULLETS[:]:
bullet.update(dt)
def on_draw(self):
self.clear()
self.batch.draw()
def __init__(self, view):
self.clock = pg.time.Clock()
self.view = view
glEnable(GL_DEPTH_TEST)
self.ADDENEMY = pg.USEREVENT + 1 # pylint: disable=no-member
pg.time.set_timer(self.ADDENEMY, randint(500, 750))
self.NEWTORNADO = pg.USEREVENT + 2 # pylint: disable=no-member
pg.time.set_timer(self.NEWTORNADO, randint(5000, 20000))
self.enemies = []
self.splats = []
self.splats_collect = []
self.bullets = []
self.tornados = []
self.all_sprites = []
self.player = Player()
self.splat_count = [0]
self.background = Background(desert_road_png)
self.loot_button = Hud_Button(treasure_png, (-.85, -.8))
self.loot = ui.Window('Loot', self.splat_count, self.view, self.player)
self.loot.paint_select[0].active = True
self.loot.paint_select[0].owned = True
self.isRunning = True
def new(self):
# initialize all variables and do all the setup for a new game
self.all_sprites = pg.sprite.Group()
self.walls = pg.sprite.Group()
self.player = Player(self, 10, 10)
for x in range(10,20):
Wall(self,x,5)
def __init__(self):
pg.init() # initialize pygame module
pg.font.init()
print(
"Tic-tac-toe Mini-max algorithm project @ weronikaolejniczak.github.com \n"
)
self.font = pg.font.Font("resources/fonts/{}".format(settings.FONT),
50)
self.WIDTH = settings.WIDTH
self.HEIGHT = settings.HEIGHT
self.size = (self.WIDTH, self.HEIGHT)
self.TILEMAP = [[0 for x in range(3)] for y in range(3)]
self.screen = pg.display.set_mode(
self.size) # create an instance of the pygame.Surface class
pg.display.set_icon(favicon)
pg.display.set_caption("Tic-tac-toe") # set the caption of our window
self.clock = pg.time.Clock() # create an instance of Clock class
self.FPS = settings.FPS
self.start_time = 0
self.end_time = 0
self.all_sprites = pg.sprite.Group()
self.playing = True
self.dt = 0
self.turn = "AI"
self.human = Player(self, "human")
self.AI = Player(self, "AI")
self.is_human_turn = False
self.winner = ""
self.start = None
self.end = None
self.orientation = ""
def start_game(self):
self.all_sprites = pygame.sprite.Group()
self.fruits = pygame.sprite.Group()
self.player = Player(self, 10, 10)
self.fruit = Fruit(self)
self.score = 0
self.run()
def new(self):
"""Start a new game.
"""
# keeping track of missions
self.vaccines_collected = 0
self.enemies_killed = 0
self.n_bullets = 20 # initial number of bullets for the player
self.failed = False
# used for checking if player completed game
self.platforms_crossed = 0
# initialize sprite groups
self.all_sprites = pygame.sprite.LayeredUpdates()
self.platforms = pygame.sprite.Group()
self.powerups = pygame.sprite.Group()
self.enemies = pygame.sprite.Group()
self.viruses = pygame.sprite.Group()
self.bullets = pygame.sprite.Group()
self.clouds = pygame.sprite.Group()
# load bg image
self.bg_image = BackGround(self)
if self.level > 1: # needed for scrolling background
self.bg_image_2 = BackGround(self)
self.bg_image_2.rect.left = self.bg_image.rect.right
# create new instance of player
self.player = Player(self)
# timer for spawning enemies
self.slime_timer = 0
self.bat_timer = 0
# creating base
self.bases = []
base = Base(self, 0)
self.bases.append(base)
while base.rect.right < s.WIDTH:
base = Base(self, base.rect.right)
self.bases.append(base)
# creating starting platforms
for plat in s.PLATFORM_START_LIST:
Platform(self, *plat)
# create clouds/other images
if self.level == 1:
for i in range(5):
c = Cloud(self)
c.rect.x -= random.randrange(200, 400, 50)
# load music
pygame.mixer.music.load(os.path.join(self.sound_dir, "background.ogg"))
self.run()
def __init__(self):
pygame.init()
pygame.display.set_caption(GAME_TITLE)
self.screen = pygame.display.set_mode([WIDTH, HEIGHT])
self.clock = pygame.time.Clock()
self.playing = False
self.load_data()
self.player = Player(self, self.map.player_entry_point)
def load_data(self):
self.all_sprites = pygame.sprite.Group()
self.walls = pygame.sprite.Group()
self.map = Map()
self.map.load_from_file('map.txt')
self.map.create_sprites_from_map_data(self)
self.player = Player(self, self.map.player_entry_point)
def create_sprites(self):
self.entities = pygame.sprite.Group()
self.bg = pygame.image.load(self.bg_path).convert()
self.bg = pygame.transform.smoothscale(self.bg, self.MAP_SIZE)
self.bg_rect = self.bg.get_rect()
self.player = Player(self)
self.entities.add(self.player)
def init_round():
events.players.append(Player('p1', 400, 100, 10))
events.players.append(Player('p2', 430, 300, 10))
events.p1_group.add(events.players[0])
events.p2_group.add(events.players[1])
all_sprites.add(events.players)
events.running = True
events.bars.append(HPBar(200, 886))
events.bars.append(HPBar(570, 886))
all_sprites.add(events.bars)
def new(self):
self.all_sprites = pg.sprite.Group()
self.platforms = pg.sprite.Group()
self.player = Player(self)
self.all_sprites.add(self.player)
for plat in PLATFORM_LIST:
p = Platform(*plat)
self.all_sprites.add(p)
self.platforms.add(p)
self.run()
def new(self):
# Initialisieren und/oder Zurücksetzen
self.all_sprites = pg.sprite.Group()
self.blocks = pg.sprite.Group()
self.player = Player(w)
self.all_sprites.add(self.player)
for block in s.BLOCKS_LIST:
b = Block(*block)
self.all_sprites.add(b)
self.blocks.add(b)
self.run()
class GameScene:
def __init__(self):
self.player1 = Player(color=(255, 255, 255), x=random.randint(0, cfg.board_size), y=random.randint(0, cfg.board_size))
self.player2 = Player(color=(0, 0, 0), x=random.randint(0, cfg.board_size), y=random.randint(0, cfg.board_size))
self.tiles = {}
for x, y in itertools.product(range(0, cfg.board_size), range(0, cfg.board_size)):
self.tiles[x, y] = Tile(x=x, y=y, color=random.choice(cfg.themes))
self.keyboard_inputs = {
K_ESCAPE: (pygame.quit,),
K_UP: (self.player1.move, 0, -1),
K_DOWN: (self.player1.move, 0, 1),
K_LEFT: (self.player1.move, -1, 0),
K_RIGHT: (self.player1.move, 1, 0),
K_RSHIFT: (self.player1.bomb, self.tiles, self.player2),
K_w: (self.player2.move, 0, -1),
K_s: (self.player2.move, 0, 1),
K_a: (self.player2.move, -1, 0),
K_d: (self.player2.move, 1, 0),
K_LSHIFT: (self.player2.bomb, self.tiles, self.player1),
}
def draw(self, screen):
# Draw the player to the screen
screen.fill((0, 200, 0))
for tile in self.tiles.values():
tile.draw(screen)
self.player1.draw(screen)
self.player2.draw(screen)
pygame.display.flip()
def run(self, screen):
while True:
# for loop through the event queue
for event in pygame.event.get():
if event.type == KEYDOWN:
try:
action, *args = self.keyboard_inputs[event.key]
action(*args)
except KeyError:
pass
elif event.type == QUIT:
pygame.quit()
for num, player in enumerate([self.player1, self.player2]):
if player.check_if_won():
return
self.draw(screen)
def __init__(self, title, splat_count, view, player): self.clock = pg.time.Clock() self.view = view self.splat_count = splat_count self.background = Ui_Color((21 / 256, 26 / 256, 27 / 256, 1)) self.background.translate(0, 0, .9) self.title_bar = Ui_Color((.25, .25, .25, 1)) self.title_bar.scale(1, 1 / 15, 1) self.title_bar.translate(0, 1 - self.title_bar.box.uy, 0) self.title_text = Text(title, 'center') self.title_text.scale(1, .1, 1) self.title_text.scale(.66, .66, 1) self.title_text.translate(0, 1 - self.title_text.box.uy, -.1) self.close_button = Close_Button() self.paint_select = [] for args in [ (-.95, .78, 1, 0, 0, 1), # red (-.95, .64, 0, .449, 0, 1), # green (-.85, .78, .7245, .7245, .7245, 1), # silver (-.85, .64, .977, .977, 0, 1), # yellow (-.85, .50, 1, 0.078125, 0.703125, 1) # pink ]: self.paint_select.append(Color_Button(args[:2], args[2:])) for args in [ (-.95, .50, blue_squares_png), (-.95, .36, red_gloop_png), (-.85, .36, pink_bubbles_png), (-.95, .22, depot_png), (-.85, .22, fractal_png) ]: self.paint_select.append(Texture_Button(*args)) self.splat_icon = objloader.Obj(square_obj, object_vs, object_fs, splat_png) self.splat_icon.generate() self.splat_icon.set_texture(1) self.splat_icon.scale(.04, .06, 1) self.splat_icon.translate(-.9, -.9, 0) self.splats_number = Splats_Number(str(splat_count[0])) self.player = player self.car = Player() self.car.generate() self.car.scale(5, 3, 5) self.car.rotate(pi / 3, 1, 0, 0)
def __init__(self, game, x, y):
pg.sprite.Sprite.__init__(self)
Player.__init__(self, game, x, y)
self.path = []
self.game = game
self.skill = 1
self.directions = [[-1, 0], [1, 0], [0, -1], [0, 1]]
self.random_direction = random.choice(self.directions)
self.last_direction = [2, 2]
self.max_steps = int(SCREEN_WIDTH / 2)
self.steps_to_take = random.randint(TILESIZE, self.max_steps)
self.steps_taken = 0
self.current_state = self.explore
def setup(self):
"""Get game ready to play"""
self.player_list = arcade.SpriteList()
self.coin_list = arcade.SpriteList()
self.bomb_list = arcade.SpriteList()
# Set up the player
self.player_sprite = Player(
PLAYER_SPRITE_IMAGE,
SPRITE_SCALING_PLAYER,
)
self.player_sprite.center_x = 50
self.player_sprite.center_y = 50
self.player_list.append(self.player_sprite)
# Create the coins
for i in range(COIN_COUNT):
coin = LeftMovingCoin(COIN_SPRITE_IMAGE, COIN_SPRITE_SCALING)
# position of each coin
coin.center_x = random.randrange(SCREEN_WIDTH)
coin.center_y = random.randrange(SCREEN_HEIGHT)
# add coin to coin list
self.coin_list.append(coin)
# Create the bombs
for i in range(BOMB_COUNT):
bomb = Bomb(BOMB_SPRITE_IMAGE, BOMB_SPRITE_SCALING)
# position of each bomb
bomb.center_x = random.randrange(SCREEN_WIDTH)
bomb.center_y = random.randrange(SCREEN_HEIGHT)
# add bomb to bomb list
self.bomb_list.append(bomb)
def __init__(self):
# Init Display
self.screen = pg.display.set_mode(
[params.screen_width, params.screen_height], params.screen_mode)
# Init Font
self.font = pg.font.SysFont('Calibri', 25, True, False)
# Init Sprite Lists
self.block_list = pg.sprite.Group()
self.bullet_list = pg.sprite.Group()
self.all_sprites_list = pg.sprite.Group()
self.ball_list = pg.sprite.Group()
# Add Blocks and ball
self.level = 0
self.energy = params.energy
self.energy_max = params.energy_max
self.energy_reg = params.energy_reg
self.shoot_speed = params.shoot_speed
self.reset(50)
# Add Player
self.player = Player()
self.all_sprites_list.add(self.player)
self.player.rect.y = params.screen_height - self.player.height - 5
def create_player(self):
self.tests = []
try:
self.debug("Creating party..")
# spawn player
self.player = Player(self, self.name)
self.player.block_id = "player"
self.entities.add( self.player )
# choose ally bots
bot_options = ["crystal","nathan","jack"]
bot_options.remove(self.name.lower())
# spawn bots
self.bots = []
for bot_name in bot_options:
self.debug("Creating bot: "+bot_name)
if bot_name == "crystal": bot = CrystalBot(self, bot_name)
elif bot_name == "jack": bot = JackBot(self, bot_name)
else: bot = NathanBot(self, bot_name)
bot.rect.x = self.player.rect.x + 50
bot.rect.y = self.player.rect.y - 50
self.bots.append( bot )
self.entities.add( bot )
except Exception as e:
self.debug("Party Creation Error: " + str(e))
def spawn_all_sprites(self):
"""
Create all sprites (player and enemy) based on their initial number
"""
self.player = Player.spawn(self)
for _ in range(self.enemies_initial_number):
Enemy.spawn(self)
logging.debug('All enemies spawned')
class Game:
def __init__(self):
pygame.init()
pygame.display.set_caption(GAME_TITLE)
self.screen = pygame.display.set_mode([WIDTH, HEIGHT])
self.clock = pygame.time.Clock()
self.playing = False
self.load_data()
self.start_game()
def load_data(self):
self.all_sprites = pygame.sprite.Group()
self.walls = pygame.sprite.Group()
self.map = Map()
self.map.load_from_file('map.txt')
self.map.create_sprites_from_map_data(self)
self.player = Player(self, self.map.player_entry_point)
def start_game(self):
self.run()
def run(self):
self.playing = True
while self.playing:
self.dt = self.clock.tick(FPS) / 1000
self.events()
self.update()
self.draw()
def events(self):
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
quit()
def update(self):
self.player.update()
def draw(self):
self.screen.fill(BLACK)
self.all_sprites.draw(self.screen)
pygame.display.flip()
def create_sprites(self):
self.entities = pygame.sprite.Group()
self.bg = pygame.image.load(self.bg_path).convert()
self.bg = pygame.transform.smoothscale(self.bg, self.MAP_SIZE)
self.bg_rect = self.bg.get_rect()
self.player = Player(self)
self.entities.add( self.player )
def __init__(self):
pygame.init()
self.screen = pygame.display.set_mode([WIDTH,HEIGHT])
pygame.display.set_caption(TITLE)
self.clock = pygame.time.Clock()
self.all_sprites = pygame.sprite.Group()
for _ in range(32):
Player(self, 10, 10)
def __init__(self):
pygame.init()
#SCREEN
self.screen = pygame.display.set_mode([WIDTH, HEIGHT])
pygame.display.set_caption("Snakipy")
self.clock = pygame.time.Clock()
self.all_sprites = pygame.sprite.Group()
self.fruits = pygame.sprite.Group()
self.player = Player(self, 10, 10)
self.fruit = Fruit(self)
self.large_font = pygame.font.SysFont("chicken_pie", 80)
self.small_font = pygame.font.SysFont("chicken_pie", 32)
self.score = 0
self.font = pygame.font.SysFont("chicken_pie", 24)
def __init__(self, width, height):
self.width = width
self.height = height
self.buffer_width = 200
self.player = Player(x=width // 2, y=height // 2)
self.bg_batch = pyglet.graphics.Batch()
self.fg_batch = pyglet.graphics.Batch()
self.random_pool = RandomPool(batch=self.bg_batch)
pyglet.resource.path = ['.', 'data']
pyglet.resource.reindex()
self._sprites = []
self._scenery = []
self._blockers = []
self._bullets = []
self._labels = []
self._npcs = []
self._collections = [
self._sprites, self._scenery, self._blockers, self._bullets,
self._labels, self._npcs
]
def new(self):
# start a new game
self.all_sprites = pg.sprite.Group()
self.field_sprites = pg.sprite.Group()
self.all_bullets = pg.sprite.Group()
self.all_villain = pg.sprite.Group()
self.platforms = pg.sprite.Group()
self.player = Player()
self.villain = Villain()
self.field = Field(500, 500, 50, 50)
self.all_sprites.add(self.player, self.villain)
self.field_sprites.add(self.field)
def __init__(self):
self.player1 = Player(color=(255, 255, 255), x=random.randint(0, cfg.board_size), y=random.randint(0, cfg.board_size))
self.player2 = Player(color=(0, 0, 0), x=random.randint(0, cfg.board_size), y=random.randint(0, cfg.board_size))
self.tiles = {}
for x, y in itertools.product(range(0, cfg.board_size), range(0, cfg.board_size)):
self.tiles[x, y] = Tile(x=x, y=y, color=random.choice(cfg.themes))
self.keyboard_inputs = {
K_ESCAPE: (pygame.quit,),
K_UP: (self.player1.move, 0, -1),
K_DOWN: (self.player1.move, 0, 1),
K_LEFT: (self.player1.move, -1, 0),
K_RIGHT: (self.player1.move, 1, 0),
K_RSHIFT: (self.player1.bomb, self.tiles, self.player2),
K_w: (self.player2.move, 0, -1),
K_s: (self.player2.move, 0, 1),
K_a: (self.player2.move, -1, 0),
K_d: (self.player2.move, 1, 0),
K_LSHIFT: (self.player2.bomb, self.tiles, self.player1),
}
def __init__(self, sw: int, sh: int):
self.player = Player(0, 0, "./images/person1.png",
"./images/person2.png")
self.setMainSprite(self.player)
self.loadFromFile()
self.rooms["loft"].addSprite(self.mainSprite)
self.rooms["loft"].addController(KeyboardController(self.player))
self.sw = sw
self.sh = sh
def __init__(self):
super(SpaceHogs, self).__init__(caption='Space Hogs', width=settings.WINDOW_WIDTH, height=settings.WINDOW_HEIGHT)
pyglet.resource.path.append('data')
pyglet.resource.reindex()
self.batch = pyglet.graphics.Batch()
self.player = Player(batch=self.batch)
self.push_handlers(self.player)
pyglet.clock.schedule_interval(self.update, float(1)/60)
def start(self):
self.mobs = pygame.sprite.Group()
self.walls = pygame.sprite.Group()
self.current_map = Map()
self.current_map.load_map_from_file("map.txt")
self.current_map.create_sprites_from_data(self)
self.player = Player(
self,
self.current_map.entry_point.x,
self.current_map.entry_point.y
)
self.run()
def new(self):
# Initialisieren und/oder Zurücksetzen
self.all_sprites = pg.sprite.Group()
self.blocks = pg.sprite.Group()
self.player = Player()
self.all_sprites.add(self.player)
self.block1 = Block(0, s.HEIGHT - 64, s.WIDTH, 32)
self.all_sprites.add(self.block1)
self.blocks.add(self.block1)
self.block2 = Block(s.WIDTH/2 - 64, s.HEIGHT - 192, 128, 32)
self.all_sprites.add(self.block2)
self.blocks.add(self.block2)
self.run()
def __init__(self, level, character):
self.effects = Effects()
self.score = 1
self.all_sprites = pygame.sprite.Group()
self.platforms = pygame.sprite.Group()
self.baddies = pygame.sprite.Group()
self.powerups = pygame.sprite.Group()
self.player = Player(character)
self.all_sprites.add(self.player)
for platform in level:
plat = Platform(platform[0], platform[1], platform[2], platform[3])
self.all_sprites.add(plat)
self.platforms.add(plat)
def new(self, level):
# start a new game
if level == 5:
self.playing = False
g.show_go_screen()
self.score = 0
self.all_sprites = pg.sprite.LayeredUpdates()
self.platforms = pg.sprite.Group()
self.powerups = pg.sprite.Group()
self.mobs = pg.sprite.Group()
self.clouds = pg.sprite.Group()
self.portal = pg.sprite.Group()
self.shortcut = pg.sprite.Group()
self.player = Player(self)
pg.mixer.music.load(path.join(self.snd_dir, 'gameplay.mp3'))
pg.mixer.music.set_volume(.3)
pg.mixer.music.play(loops=-1)
if level == 1:
for plat in PLATFORM_LIST_1:
Platform(self, *plat)
if level == 2:
for plat in PLATFORM_LIST_2:
Platform(self, *plat)
if level == 3:
for plat in PLATFORM_LIST_3:
Platform(self, *plat)
Portal(self)
Shortcut(self)
self.mob_timer = 0
for i in range(8):
c = Cloud(self)
c.rect.y += 500
self.run(level)
def new(self):
# initialize all variables and do all the setup for a new game
self.draw_debug = False
self.paused = False
self.night = True
# Sprite groups
self.all_sprites = pg.sprite.LayeredUpdates()
self.obstacles = pg.sprite.Group()
self.mobs = pg.sprite.Group()
self.bullets = pg.sprite.Group()
self.items = pg.sprite.Group()
# Map
self.map = TiledMap(path.join(self.map_folder, '01.tmx'))
self.map_img = self.map.make_map()
self.map_rect = self.map_img.get_rect()
# Map Objects
for tile_object in self.map.tmxdata.objects:
# For spawning in center of tiled object
obj_center = vec(tile_object.x + tile_object.width / 2,
tile_object.y + tile_object.height / 2)
if tile_object.name == 'player':
self.player = Player(self, obj_center.x, obj_center.y)
if tile_object.name == 'zombie':
Mob(self, obj_center.x, obj_center.y)
if tile_object.name == 'wall':
Obstacle(self, tile_object.x, tile_object.y, tile_object.width,
tile_object.height)
if tile_object.name in ['health', 'shotgun']:
Item(self, obj_center, tile_object.name)
# Camera object
self.camera = Camera(self.map.width, self.map.height)
# Start a new level sound
self.effects_sounds['level_start'].play()
def new(self):
# initialize all variables and do all the setup for a new game
self.all_sprites = pg.sprite.Group()
self.walls = pg.sprite.Group()
for row, tiles in enumerate(self.map_data):
for col, tile in enumerate(tiles):
if tile == '1':
colour = BLACK
Wall(self, col, row, colour)
elif tile == '2':
colour = YELLOW
Path(self, col, row, colour)
elif tile == '3':
colour = PINK
Path(self, col, row, colour)
elif tile == '4':
colour = GREEN
Path(self, col, row, colour)
elif tile == '5':
colour = BROWN
Path(self, col, row, colour)
elif tile == '6':
colour = VIOLET
Path(self, col, row, colour)
elif tile == '7':
colour = ORANGE
Path(self, col, row, colour)
elif tile == '8':
colour = BLUE
Path(self, col, row, colour)
elif tile == '9':
colour = LIGHTGREY
Path(self, col, row, colour)
# elif tile == '.':
# colour = WHITE
# Path(self, col, row, colour)
elif tile == 'P':
self.player = Player(self, col, row)
def __init__(self, width, height):
self.width = width
self.height = height
self.buffer_width = 200
self.player = Player(x = width // 2, y = height // 2)
self.bg_batch = pyglet.graphics.Batch()
self.fg_batch = pyglet.graphics.Batch()
self.random_pool = RandomPool(batch = self.bg_batch)
pyglet.resource.path = ['.', 'data']
pyglet.resource.reindex()
self._sprites = []
self._scenery = []
self._blockers = []
self._bullets = []
self._labels = []
self._npcs = []
self._collections = [self._sprites, self._scenery, self._blockers,
self._bullets, self._labels, self._npcs]
def main():
# Initialize
pygame.init()
map = Map(selectedmap)
player = Player(map.start_position)
particles = pygame.sprite.Group([])
goombas = pygame.sprite.Group(map.enemies)
all_sprites = pygame.sprite.Group(map.enemies + [player])
screen_cols, screen_rows = screen_width / BLOCK_SIZE, screen_height / BLOCK_SIZE
screen = pygame.display.set_mode((screen_width, screen_height))
pygame.display.set_caption('Platformer '+VERSION)
clock = pygame.time.Clock()
font = pygame.font.SysFont(None, 30)
invopen = 0 # True if the inventory is open, false if not.
dragging = 0 # True if dragging an item, false if not.
# Event loop
right_down, left_down = False, False
while 1:
for event in pygame.event.get():
if invopen == 0: # If inventory isn't opened do this:
if event.type == QUIT or event.type == KEYDOWN and event.key == K_ESCAPE: # Quit the game
return
elif event.type == KEYDOWN: # Handle pushed keys
if event.key in (K_LEFT, K_a):
left_down = True
player.move_left()
elif event.key in (K_RIGHT, K_d):
right_down = True
player.move_right()
elif event.key in (K_SPACE, K_w):
player.jump()
elif event.key == K_i:
invopen = 1
elif event.type == KEYUP: # Handle released keys
if event.key in (K_LEFT, K_a):
player.move_right() if right_down else player.stop_x()
left_down = False
elif event.key in (K_RIGHT, K_d):
player.move_left() if left_down else player.stop_x()
right_down = False
elif event.type == MOUSEBUTTONDOWN: # Handle mouse clicks
pos = pygame.mouse.get_pos()
bullet = player.shoot((pos[0] + screen_x, pos[1] + screen_y))
particles.add(bullet)
all_sprites.add(bullet)
elif invopen== 1: # If inventory is open do this:
if dragging == 0:
if event.type == QUIT:
return
elif event.type == KEYDOWN:
if event.key == K_ESCAPE or event.key == K_i:
invopen = 0
elif event.type == MOUSEBUTTONDOWN:
pos = pygame.mouse.get_pos()
if pos[0] in range(invframe.right-30, invframe.right) and pos[1] in range(invframe.top, invframe.top+30):
invopen = 0
for slot in range(50):
if pos[0] in range(SLOTCORD[slot][0], SLOTCORD[slot][0]+20) and pos[1] in range(SLOTCORD[slot][1], SLOTCORD[slot][1]+20):
#Drag the item if the selected slot is not empty
if inventory.content[slot][0] != 0:
dragItem = slot
dragging = 1
elif dragging:
if event.type == KEYDOWN:
if event.key == K_ESCAPE or event.key == K_i:
dragging = 0
# Drop the item in previous slot
elif event.type == MOUSEBUTTONDOWN:
pos = pygame.mouse.get_pos()
for slot in range(50):
# Test if there is a slot where the player clicked
if pos[0] in range(SLOTCORD[slot][0], SLOTCORD[slot][0]+20) and pos[1] in range(SLOTCORD[slot][1], SLOTCORD[slot][1]+20):
dragging = 0
inventory.content[slot], inventory.content[dragItem] = inventory.content[dragItem], inventory.content[slot]
else:
dragging = 0
# Return item to previous slot
'''
TODO: Add an inventory so we don't have to disable this entirely.
Add or remove land blocks from the selected square
pos = pygame.mouse.get_pos()
x, y = int(pos[0] + screen_x) / BLOCK_SIZE, int(pos[1] + screen_y) / BLOCK_SIZE
tile = map.grid[y][x]
if event.button == 1 and tile.color == LAND:
map.walls.remove(tile.rect)
tile.color = SKY
elif event.button == 3 and tile.color == SKY:
map.walls.append(tile)
tile.color = LAND
'''
elapsed_time = clock.tick()
# If player's healty drops beyond 0, end the game
if player.health <= 0:
# Player is death
pygame.quit()
print "[-] You have died!"
sys.exit()
# If all enemies were killed, quit game and display win message
if len(goombas) == 0:
# Player has won
pygame.quit()
print "[+] You have won!"
sys.exit()
# Update all creatures. O(v*N), N: number of sprites, v: size of sprite
for sprite in all_sprites:
sprite.update(elapsed_time, map)
# O(N^2)
collided_enemies = pygame.sprite.spritecollide(player, goombas, True)
for enemy in collided_enemies:
player.damage(10/Player.DEFENSE)
# Display damage and health message
if DEBUG:
print "[-] 10 Damage recieved from "+str(enemy)
print "[*] Player has now "+str(player.health)+" life points"
# O(N^2)
shot_enemies = pygame.sprite.groupcollide(goombas, particles, True, True) # KILL EM ALL
# Position screen
screen_x, screen_y = max(player.rect.x - 250, 0), max(player.rect.y - 250, 0)
screen_x = min(screen_x, map.width - screen_width)
screen_y = min(screen_y, map.height - screen_height)
# Draw the visible map
grid_x, grid_y = int(screen_x) / BLOCK_SIZE, int(screen_y) / BLOCK_SIZE
for row in map.grid[grid_y : grid_y + screen_rows + 1]:
for square in row[grid_x : grid_x + screen_cols + 1]:
# Select the correct block and blit it to the screen
screen.blit(BLOCKGRAPHICS[square.type], square.rect.move(-screen_x, -screen_y))
# Draw health bar
pygame.draw.rect(screen, (250, 0, 0), pygame.Rect(screen_width - 100, 5, player.health, 20), 0)
# Draw sprites (Creatures, bullets, etc)
for sprites in all_sprites:
screen.blit(SPRITEGRAPHICS[sprites.type], sprites.rect.move(-screen_x, -screen_y))
# Draw the inventory if necessary
if invopen:
invframe = pygame.Rect(200, 200, 330, 400)
invframe.center = screen_width/2, screen_height/2
innerframe = pygame.Rect(200, 200, 310, 160)
innerframe.bottomleft = invframe.left+10, invframe.bottom-10
left = innerframe.left+10
top = innerframe.top+10
objectframe = pygame.Rect(0, 0, 20, 20)
pygame.draw.rect(screen, (44, 44, 44), invframe)
pygame.draw.rect(screen, (88, 88, 88), innerframe)
objectframe = pygame.Rect(0, 0, 20, 20)
for raw in range(5):
for slot in range(10):
objectframe.topleft = left, top
pygame.draw.rect(screen, (100, 100, 100), objectframe)
# object[1] is the itemID, OBJIMG is a dictonary of loaded images
object = inventory.content[slot+(10*(raw-5))]
screen.blit(OBJIMG[str(object[0])], objectframe)
left += 30
left = innerframe.left+10
top += 30
statsrect = pygame.Rect(200, 200, 200, 200)
statsrect.top, statsrect.right = invframe.top+10, invframe.right-10
pygame.draw.rect(screen, (22, 22, 22), statsrect)
statsx, statsy = statsrect.left+10, statsrect.top+10
stats = font.render('Max. HP: '+str(Player.MAXHEALTH), True, (250, 250, 250), (22, 22, 22))
screen.blit(stats, (statsx, statsy))
statsy += 25
stats = font.render('Attack: '+str(Player.ATTACK), True, (250, 250, 250), (22, 22, 22))
screen.blit(stats, (statsx, statsy))
statsy += 25
stats = font.render('Defense: '+str(Player.DEFENSE), True, (250, 250, 250), (22, 22, 22))
screen.blit(stats, (statsx, statsy))
statsy += 25
stats = font.render('Speed: '+str(Player.SPEED), True, (250, 250, 250), (22, 22, 22))
screen.blit(stats, (statsx, statsy))
if dragging:
pos = pygame.mouse.get_pos()
objectframe.topleft = pos[0] , pos[1]
dobject = inventory.content[dragItem]
screen.blit(OBJIMG[str(dobject[0])], objectframe)
# Draw FPS if necessary
if DEBUG:
text = font.render('FPS: ' + str(1000 / elapsed_time), True, (0, 0, 0), (250, 250, 250))
screen.blit(text, text.get_rect())
# Update the screen
pygame.display.update()
class Game:
WIDTH = 720
HEIGHT = WIDTH / 12 * 9 #16:9 Aspect ratio
SIZE = (WIDTH, HEIGHT)
MAP_WIDTH = 1920
MAP_HEIGHT = 1080
MAP_SIZE = (MAP_WIDTH, MAP_HEIGHT)
FPS = 60
TIME_LIMIT = 60
GAME_OVER = False
HAS_WON = False
HAS_LAST = False
BALL_ADD = 3
BALL_SPAWN = 10
def __init__(self):
self.running = True
self.lasted = 0
self.last_num = None
pygame.init()
self.screen = pygame.display.set_mode(self.SIZE)
pygame.display.set_caption("Can You Live?")
self.clock = pygame.time.Clock()
self.camera = camera.Camera(self.SIZE, self.MAP_SIZE)
self.create_resources()
self.create_sprites()
self.create_text()
""" Creation Functions """
# cache resources once to not re-use
def create_resources(self):
# set image paths
self.bg_path = os.path.join("images","background.jpg")
self.dragon_path = os.path.join("images","dragon_red.png")
self.fire_path = os.path.join("images","fire.png")
# transparent color for sprite sheets
ckey = colors.BLACK
# create dragon frames from sprite sheet
ss = spritesheet( self.dragon_path )
self.dragon_frames = []
self.dragon_frames.append(ss.image_at((0, 160, 280, 240),colorkey=ckey))
self.dragon_frames.append(ss.image_at((280, 160, 280, 240),colorkey=ckey))
self.dragon_frames.append(ss.image_at((590, 140, 280, 260),colorkey=ckey))
self.dragon_frames.append(ss.image_at((880, 180, 280, 240),colorkey=ckey))
self.dragon_frames.append(ss.image_at((1160, 180, 280, 240),colorkey=ckey))
self.dragon_frames.append(ss.image_at((1440, 180, 280, 240),colorkey=ckey))
self.dragon_frames.append(ss.image_at((1760, 180, 280, 240),colorkey=ckey))
self.dragon_frames.append(ss.image_at((2050, 180, 280, 240),colorkey=ckey))
self.dragon_frames_flipped = self.generate_flipped_frames(self.dragon_frames)
# create fire frames from sprite sheet
ss = spritesheet( self.fire_path )
self.fire_frames = []
self.fire_frames.append(ss.image_at((130, 0, 75, 45),colorkey=ckey))
self.fire_frames.append(ss.image_at((130, 45, 75, 45),colorkey=ckey))
self.fire_frames.append(ss.image_at((130, 90, 75, 45),colorkey=ckey))
self.fire_frames.append(ss.image_at((130, 130, 75, 45),colorkey=ckey))
self.fire_frames_flipped = self.generate_flipped_frames(self.fire_frames)
# create sprites for game
def create_sprites(self):
self.entities = pygame.sprite.Group()
self.bg = pygame.image.load(self.bg_path).convert()
self.bg = pygame.transform.smoothscale(self.bg, self.MAP_SIZE)
self.bg_rect = self.bg.get_rect()
self.player = Player(self)
self.entities.add( self.player )
# Render text only once
def create_text(self):
self.time_font = pygame.font.Font(None, 30)
self.gameover_font = pygame.font.Font(None, 120)
self.last_font = pygame.font.Font(None, 90)
# generate rendered numbers so don't have to re-render
self.numbers = {}
for x in range(self.TIME_LIMIT + 1):
self.numbers[str(x)] = self.time_font.render(str(x), 1, colors._BLACK)
# generate cached text
self.over_text = self.gameover_font.render("Game Over!", 1, colors._BLACK)
self.win_text = self.gameover_font.render("You Win!", 1, colors._BLACK)
self.won_bg, self.lost_bg = pygame.Surface(self.SIZE), pygame.Surface(self.SIZE)
self.won_bg.fill((10, 185, 13))
self.lost_bg.fill((155, 0, 0))
# generate animation flipped frames
def generate_flipped_frames(self, frames):
return [pygame.transform.flip(frame, True, False) for frame in frames]
# generate random fireball
def gen_rand_fireball(self, damage=None):
coords = [0, 0]
coords[0] = random.randint( self.WIDTH/2 ,self.MAP_WIDTH)
coords[1] = random.randint(0 ,self.MAP_HEIGHT)
self.spawn_fireball( coords, damage)
# add more fireballs
def add_fireballs(self):
print "adding {} fireballs".format(self.BALL_ADD)
for x in range( self.BALL_ADD ):
self.gen_rand_fireball()
self.BALL_ADD += int(self.BALL_ADD/3)
# create a new fireball
def spawn_fireball(self, coords, damage=None):
fireball = FireBall(self)
fireball.set_pos(coords)
self.entities.add( fireball )
# kill a fireball object
def kill_ball(self, fireball):
self.entities.remove( fireball )
fireball.kill()
del fireball
# check fireball collisions and deal damage
def check_collisions(self):
fireballs = [e for e in self.entities.sprites() if e.block_id != "player"]
fire_rects = [e.rect for e in fireballs]
collision = self.player.rect.collidelist( fire_rects )
if collision > -1:
fireball = fireballs[ collision ]
self.player.HP -= fireball.damage
self.kill_ball( fireball )
# clear left over memory because game is over :)
def clear_all(self):
for e in self.entities.sprites():
self.kill_ball( e )
del self.bg
del self.bg_rect
del self.entities
del self.camera
del self.player
del self.numbers
del self.time_font
""" Drawing Functions """
# Lose screen
def draw_game_over(self):
if not self.HAS_LAST:
self.last_text = self.last_font.render("Lasted {} secs".format(self.lasted), 1, colors._BLACK)
self.HAS_LAST = True
self.screen.blit(self.lost_bg, (0,0))
self.screen.blit(self.over_text, (self.WIDTH/2-240, self.HEIGHT/2-120))
self.screen.blit(self.last_text, (self.WIDTH/2-240, self.HEIGHT/2))
# Win screen
def draw_win(self):
self.screen.blit(self.won_bg, (0,0))
self.screen.blit(self.win_text, (self.WIDTH/2-180, self.HEIGHT/2-120))
# Health Bar
def draw_health(self):
# calculate color
if self.player.HP > 60:
color = colors.H_GREEN
elif self.player.HP > 30:
color = colors.H_YELLOW
else:
color = colors.H_RED
# calculate bar size
bar_width = 200.0
percent_left = (self.player.HP * bar_width) / (self.player.MAX_HP*1.0)
percent_lost = ((self.player.MAX_HP-self.player.HP) * bar_width) / (self.player.MAX_HP*1.0)
# draw remaining health
pygame.draw.rect(self.screen, color, (5, 5, percent_left, 20))
# draw lost health
pygame.draw.rect(self.screen, colors.BLACK,
(5+percent_left, 5, percent_lost, 20))
""" Game Functions """
def run(self):
start = time.time() # start timer
while self.running:
# handle events
for event in pygame.event.get():
if event.type == pygame.QUIT:
self.running = False
break
if not self.GAME_OVER: self.player.update_stop(event)
if not self.GAME_OVER:
# update objects and screen
self.camera.update(self.player)
self.entities.update()
self.check_collisions()
# draw images
self.screen.fill(colors.BLACK)
self.screen.blit(self.bg, self.camera.apply(self.bg_rect))
for e in self.entities.sprites():
if e.block_id != "player":
self.screen.blit(e.image, self.camera.apply(e.rect))
self.screen.blit(self.player.image, self.camera.apply(self.player.rect))
self.draw_health()
# spawn fireballs
if self.last_num != self.lasted:
self.last_num = self.lasted
if self.lasted % self.BALL_SPAWN == 0:
self.add_fireballs()
# keep constant amount of fireballs on screen
sprite_num = len(self.entities.sprites())
if sprite_num < self.BALL_ADD:
to_add = self.BALL_ADD - sprite_num
for x in range(to_add):
self.gen_rand_fireball()
# calculate & draw time
elapsed = round(time.time() - start, 1)
self.lasted = int(elapsed)
if self.lasted >= self.TIME_LIMIT:
self.GAME_OVER = True
self.HAS_WON = True
self.clear_all()
if not self.GAME_OVER:
self.screen.blit( self.numbers[str(self.lasted)], (self.WIDTH-80, 10))
# handle game over
if not self.GAME_OVER:
if self.player.HP <= 0:
self.GAME_OVER = True
self.clear_all()
else:
if self.HAS_WON:
self.draw_win()
else:
self.draw_game_over()
# update pygame
self.clock.tick( self.FPS )
pygame.display.flip()
self.exit()
def exit(self):
pygame.quit()
sys.exit()
def game_state(mapSize, aiSpeed, aiDifficulty):
global maze
global endpoint
global startpoint
global score
# Set an FPS limit so PyGame doesn't destroy the CPU and create a singularity
FPS = 60
clock = pygame.time.Clock()
# Start with no score
score = 0
# Running flag
running = True
# Setup the PyGame window
pygame.init()
screen = pygame.display.set_mode((32*mapSize, 32*mapSize))
pygame.display.set_caption('aMAZE - The best game ever')
# Generate an initial set of conditions
new_round(screen, mapSize, aiDifficulty)
# Setup the User and the AI
user = Player(startpoint[0], startpoint[1] , (0,255,0), 4)
enemy = Player(startpoint[0], startpoint[1], (255,0,0), aiSpeed)
enemy.setNodes(aiPath)
# Load the maze
maze_spr = pygame.image.load("maze.png")
# Update the console with score information
update_console()
# main game loop
while running:
# Python Window events
for event in pygame.event.get():
if event.type == QUIT:
pygame.quit()
sys.exit()
# Update keystates
keys = pygame.key.get_pressed()
# Update the users position
if ( keys[K_LEFT] or keys[K_RIGHT] or \
keys[K_UP] or keys[K_DOWN] ) and user.isMoving() == False:
# Get the users location in the graph and its neighbors
node = user.getNode()
neighbors = maze.graph()[user.getNode()]
dx = 0
dy = 0
# Determine what node the user will end up on
if keys[K_LEFT]:
dx = -1
elif keys[K_RIGHT]:
dx = 1
elif keys[K_UP]:
dy = -1
elif keys[K_DOWN]:
dy = 1
nextNode = (node[0]+dx, node[1]+dy)
# Determine if this is an acceptable node
if nextNode in neighbors:
user.setNodes([nextNode])
# Move the user and the AI
user.move()
enemy.move()
# Render the scene
screen.blit(maze_spr,(0,0))
pygame.draw.rect(screen, (0, 255, 255), (endpoint[0]*32+8,endpoint[1]*32+8,16,16), 0)
# Render the user and the AI
enemy.render(screen)
user.render(screen)
# Flip the display buffer
pygame.display.update()
# Check to see if the user beat the AI to the end
if user.atNode(endpoint) and not enemy.atNode(endpoint):
# Don't increment the Difficulty if its maxed out or a special
# Variant
if aiDifficulty in [101, -1, -2]:
pass
else:
# Up the difficulty
aiDifficulty += 1
# Increase the users score depending on the difficulty
score += int(aiDifficulty/100)*aiSpeed + mapSize/4
# Update the console with this new score
update_console(score)
# Generate a new set of conditions
new_round(screen, mapSize, aiDifficulty)
# Move the User and player back to the start and update the
# AI path
user.jump(startpoint)
enemy.clearPath()
enemy.setNodes(aiPath)
enemy.jump(startpoint)
# Update the maze
maze_spr = pygame.image.load("maze.png")
# Check to see if the AI Beat the user to the end
elif enemy.atNode(endpoint) and not user.atNode(endpoint):
# Quit the game and run the gameover State
pygame.quit()
os.system("clear")
running = False
aMAZE.game_over(score)
# Limit the framerate
clock.tick(FPS)
# Quit the application if the user presses q
if keys[K_q]:
pygame.quit()
os.system("clear")
running = False
aMAZE.game_over(score)
return '0'
def runGame():
"""Initialize new game."""
pygame.display.set_caption('Escape from Wikipedia - Loading')
fpsclock = pygame.time.Clock()
camx = 0
camy = 0
section = 0
player = Player(PLAYER_START)
loading = Word("LOADING", (camx - 205, camy - 55),
attr=BOLD, size=2, color=PURPLE)
rabbyt.clear(WHITE)
loading.render() # Loading screen
pygame.display.flip()
# Short, simple page
#page = Page("http://en.wikipedia.org/wiki/Solariellidae")
# Longest page in Wikipedia
#page = Page("http://en.wikipedia.org/wiki/Character_mask")
# Random page
page = Page("http://en.wikipedia.org/wiki/Special:Random")
pygame.display.set_caption('Escape from... ' + page.title)
# xkcd
#page = Page("http://en.wikipedia.org/wiki/Xkcd")
#print len(page.words)
# Main loop
while True:
for event in pygame.event.get():
if event.type == QUIT:
terminate()
elif event.type == KEYDOWN:
if event.key in QUIT_KEYS:
terminate()
elif event.key in RESTART_KEYS:
glutils.scroll(-camx, -camy) # Reset glMatrix
return
elif event.key in LEFT_KEYS:
player.goingleft = True
player.goingright = False
player.image.tex_shape = (1, 1, 0, 0)
elif event.key in RIGHT_KEYS:
player.goingright = True
player.goingleft = False
player.image.tex_shape = (0, 1, 1, 0)
elif event.key in UP_KEYS:
player.jump()
elif event.key in DOWN_KEYS and player.plat is not None:
# Enter hyperlink
if not player.plat.hyperlink == "":
pygame.display.set_caption(
'Escape from Wikipedia - Loading')
loading = Word("LOADING", (camx - 205, camy - 55),
attr=BOLD, size=2, color=PURPLE)
rabbyt.clear(WHITE)
loading.render() # Display load screen
pygame.display.flip()
page = Page(player.plat.hyperlink)
pygame.display.set_caption(page.title)
pygame.display.set_caption('Escape from... '
+ page.title)
#print len(page.words)
player.reset(page)
elif event.type == KEYUP:
if event.key in LEFT_KEYS:
player.goingleft = False
elif event.key in RIGHT_KEYS:
player.goingright = False
elif event.key in UP_KEYS and player.velocity[1] > 0:
player.velocity[1] *= 0.5 # Control jump height
# Update position
player.update()
# Check for player-platform collisions
collisions = rabbyt.collisions.aabb_collide_single(player,
page.visible_words)
# Player forced out of platforms by most direct route, more or less;
for plat in collisions:
if (player.right / 3 + 2 * player.left / 3 < plat.left
and player.velocity[0] > 0):
player.right = plat.left - 1
elif (player.left / 3 + 2 * player.right / 3 > plat.right
and player.velocity[0] < 0):
player.left = plat.right + 1
# More sensitive about the top, to compensate for high fall veloc
elif player.top > plat.top and player.velocity[1] < 0:
player.bottom = plat.top + 1
player.plat = plat
player.velocity[1] = 0 # Stop falling
player.jumps = 0 # Reset jumps
if plat.hyperlink != "":
player.hl_landed(TIMEOUT)
elif (2 * player.top / 3 + player.bottom / 3 < plat.bottom
and player.velocity[1] > 0):
player.top = plat.bottom - 1
player.velocity[1] = 0 # Jump stops
prev_section = section
prev_y = camy
# adjust camera if beyond the "camera slack"
if camx - player.x > CAMERASLACK:
glutils.scroll(player.x + CAMERASLACK - camx, 0)
camx = player.x + CAMERASLACK
elif player.x - camx > CAMERASLACK:
glutils.scroll(player.x - CAMERASLACK - camx, 0)
camx = player.x - CAMERASLACK
if camy - player.y > CAMERASLACK:
glutils.scroll(0, player.y + CAMERASLACK - camy)
camy = player.y + CAMERASLACK
elif player.y - camy > CAMERASLACK:
glutils.scroll(0, player.y - CAMERASLACK - camy)
camy = player.y - CAMERASLACK
# Keep track of viewing section
section += int(prev_y / WINHEIGHT) - int(camy / WINHEIGHT)
if not section == prev_section:
if section > len(page.sections) + 1:
glutils.scroll(-camx, -camy) # Reset glMatrix
return
page.visible_words = page.words[
page.sections[min(len(page.sections) - 1, max(0, section - 1))]:
page.sections[max(0, min(len(page.sections) - 1, section + 1))]]
# Slow to FPS
fpsclock.tick(FPS)
# Need to tell Rabbyt what time it is every frame
rabbyt.set_time(pygame.time.get_ticks() / TIME_FACTOR)
# Draw screen
rabbyt.clear(WHITE)
rabbyt.render_unsorted(page.visible_words)
rabbyt.render_unsorted(page.lines)
player.render()
pygame.display.flip()
class Scene(object):
def __init__(self, width, height):
self.width = width
self.height = height
self.buffer_width = 200
self.player = Player(x = width // 2, y = height // 2)
self.bg_batch = pyglet.graphics.Batch()
self.fg_batch = pyglet.graphics.Batch()
self.random_pool = RandomPool(batch = self.bg_batch)
pyglet.resource.path = ['.', 'data']
pyglet.resource.reindex()
self._sprites = []
self._scenery = []
self._blockers = []
self._bullets = []
self._labels = []
self._npcs = []
self._collections = [self._sprites, self._scenery, self._blockers,
self._bullets, self._labels, self._npcs]
def add_sprite(self, sprite):
self._sprites.append(sprite)
sprite.batch = self.bg_batch
try:
if sprite.sprite_type == "bullet":
self._bullets.append(sprite)
sprite.batch = self.fg_batch
elif sprite.sprite_type == "blocker":
self._blockers.append(sprite)
elif sprite.sprite_type == "npc":
self._npcs.append(sprite)
elif sprite.sprite_type == "text":
self._labels.append(sprite)
else: # scenery
self._scenery.append(sprite)
except:
self._scenery.append(sprite)
def remove_sprite(self, sprite):
for collection in self._collections:
if sprite in collection:
collection.remove(sprite)
try:
sprite.delete()
except AttributeError as e:
print "Warning:", e
def action(self, action):
state, action = action.split()
self.player.action(state, action)
if state == "+" and action == "blink":
self.Bullet()
def draw(self):
self.bg_batch.draw()
self.player.draw()
self.fg_batch.draw()
def update(self, dt):
self.player.update(dt)
bw = self.buffer_width
dx = self.player.vx * dt
dy = self.player.vy * dt
for sprite in self._sprites:
sprite.x -= dx
sprite.y -= dy
for sprite in self._sprites:
if (sprite.x < - bw or sprite.y < - bw or
sprite.x > self.width + bw or sprite.y > self.height + bw):
if sprite in self._scenery or sprite in self._bullets:
self.remove_sprite(sprite)
else: # wrap
if sprite.x < -bw:
sprite.x += self.width + 2 * bw
sprite.y += bw
if sprite.x > self.width + bw:
sprite.x -= self.width + 2 * bw
sprite.y -= bw
if sprite.y < -bw:
sprite.y += self.height + 2 * bw
sprite.x += bw
if sprite.y > self.height + bw:
sprite.y -= self.height + 2 * bw
sprite.x -= bw
for bullet in self._bullets:
bullet.update(dt)
#if collision(bullet, self.player):
#self.remove_sprite(bullet)
#self.game_over()
for npc in self._npcs:
if collision(npc, bullet):
self.remove_sprite(npc)
self.remove_sprite(bullet)
npc.on_death()
for npc in self._npcs:
npc.update(self.get_state(), dt)
if collision(npc, self.player):
self.game_over()
for text in self._labels:
if collision(self.player, text):
text.on_select()
def get_state(self):
return {"player": (self.player.x, self.player.y),
"bullets": ((b.x, b.y) for b in self._bullets)}
def random_event(self, dt):
for obj in next(self.random_pool):
(obj.x, obj.y) = self.random_offscreen_point()
obj.batch = self.bg_batch
self.add_sprite(obj)
def random_offscreen_point(self):
bw = self.buffer_width
side = random.randint(0,3)
if side == 0: # north
x = random.randint(0, self.width)
y = random.randint(self.height, self.height + bw)
elif side == 1: # east
x = random.randint(-bw, 0)
y = random.randint(0, self.height)
elif side == 2: # south
x = random.randint(0, self.width)
y = random.randint(-bw, 0)
else: # west
x = random.randint(self.width, self.width + bw)
y = random.randint(0, self.height)
return x, y
def random_onscreen_point(self):
x = random.randint(0, self.width)
y = random.randint(0, self.height)
return x, y
def random_point(self, on_screen = True):
if on_screen:
return self.random_onscreen_point()
else:
return self.random_offscreen_point()
def resize(self, width, height):
h = self.height
w = self.width
self.height = height
self.width = width
self.player.set_position(width // 2, height // 2)
dy = (self.height - h) // 2
dx = (self.width - w) // 2
for sprite in self._sprites:
sprite.x += dx
sprite.y += dy
def fade_text(self):
for text in self._labels:
text.color = (0, 0, 0, 128)
self._scenery.extend(self._labels)
self._labels = []
def Title(self, text, on_screen = True):
(x, y) = self.random_point(on_screen=on_screen)
self.add_sprite(Text(text, 34, (0, 0, 0, 255),
x=self.width * 0.5, y=self.height * 0.75,
batch=self.bg_batch))
def Narration(self, text, size=24, on_screen = False):
(x, y) = self.random_point(on_screen=on_screen)
self.add_sprite(Text(text, size, (0, 0, 0, 255),
x=x, y=y, batch=self.bg_batch))
def Choice(self, text, size=24, on_select = do_nothing, on_screen = False):
(x, y) = self.random_point(on_screen=on_screen)
t = Text(text, size, (0, 0, 255, 255),
x = x, y = y,
batch=self.bg_batch, on_select = None)
def on_select_wrapper():
t.color = (255, 0, 0, 255)
self.fade_text()
on_select()
t.on_select = on_select_wrapper
self.add_sprite(t)
def Troll(self, on_death = do_nothing):
(x, y) = self.random_point(on_screen=False)
self.add_sprite(Troll(x, y, on_death = on_death))
def Villager(self, on_death = do_nothing):
(x, y) = self.random_point(on_screen=False)
self.add_sprite(HaplessVillager(x, y, on_death = on_death))
def House(self):
(x, y) = self.random_point(on_screen=False)
img = pyglet.resource.image("house.png")
house = pyglet.sprite.Sprite(img, x=x, y=y)
house.sprite_type = "scenery"
self.add_sprite(house)
def fade_out(self):
pass
def Bullet(self):
x = self.player.x
y = self.player.y
vx = self.player.vx + self.player.last_vx * 0.5
vy = self.player.vy + self.player.last_vy * 0.5
self.add_sprite(Bullet(x, y, vx, vy))
def game_over(self):
self.Narration("And this is how it ends.", on_screen = True)
class Game:
WIDTH = 720
HEIGHT = WIDTH/12*9
SIZE = (WIDTH, HEIGHT)
MAP_WIDTH = 1980
MAP_HEIGHT = 1080
MAP_SIZE = (MAP_WIDTH, MAP_HEIGHT)
FPS = 60
LOG_FILE = "gamelog.log"
SAVE_FILE = "save.json"
HAS_MAP = False
HAS_HEALTH = True
MAX_SCALES = 100
def __init__(self):
self.create_logger()
try:
self.debug("Initializing pygame")
pygame.init()
except Exception as e:
self.debug("Init Error: "+str(e))
self.music = None
self.bg_vol = 0.4
self.name = None
self.entities = None
self.map_layer = None
self.collisions = []
self.transport_rects = {}
try:
self.shop = Shop(self)
self.manager = LevelManager(self)
self.rsc = resources.ResourceManager(self)
self.scenes = CutScenes(self)
except Exception as e:
self.debug("Manager Error: "+str(e))
def init(self, classname="Crystal"):
# Create window
os.environ['SDL_VIDEO_CENTERED'] = '1' # center screen
self.screen = pygame.display.set_mode(self.SIZE)
pygame.display.set_caption("Dragon TakeOver")
# Load levels
try:
self.debug("Loading levels...")
self.manager.load_all_levels()
except Exception as e:
self.debug("Level.All Error: " + str(e))
# Add icon
ico_path = os.path.join("resources","images","icon.png")
ico_surf = self.rsc.load_image(ico_path,(32,32),colors.WHITE)
pygame.display.set_icon(ico_surf)
# create camera, fps, and game var
self.clock = pygame.time.Clock()
self.running = True
self.game_dead = False
self.camera = Camera(self.SIZE, self.MAP_SIZE)
self.name = str(classname).lower()
# load game
try:
self.debug("loading resources")
font = pygame.font.Font(None, 48)
self.load_text = font.render("Loading...",1,colors.WHITE)
self.load_rect = self.load_text.get_rect()
self.load_rect.centerx = self.screen.get_rect().centerx
self.load_rect.centery = self.screen.get_rect().centery
self.IS_LOADING = True
load_thread = self.create_thread(self.loading_screen)
self.rsc.load_resources()
self.IS_LOADING = False
self.debug("waiting for loading thread to stop...")
load_thread.join()
self.debug("loading thread killed")
except Exception as e:
self.debug("Resource error: " + str(e))
try:
self.debug("loading shop resources")
self.shop.init()
except Exception as e:
self.debug("Shop.init Error: " + str(e))
self.create_sprites()
self.load_save()
### Load Game Save file
def load_save(self):
save_data = None
try:
self.debug("loading save data")
if os.path.exists(self.SAVE_FILE):
with open(self.SAVE_FILE, 'r') as f:
save_data = json.loads(f.read())
self.name = save_data['player']
self.scenes.reset_scenes()
self.create_player()
if os.path.exists(self.SAVE_FILE):
self.manager.load_level(save_data['level'])
self.load_player_info(save_data)
except Exception as e:
self.debug("Save data Error: " + str(e))
### Create/Overwrite Game save file
def write_save(self):
self.debug("writing save")
save = {}
save['level'] = self.manager.level
save['player'] = self.name
save['max_hp'] = self.player.MAX_HP
save['max_ap'] = self.player.MAX_AP
save['attack'] = self.player.attack
save['scales'] = self.player.scales
save['boss_scales']= self.player.boss_scales
save['party_hp'] = self.player.party_health
save['party_atk'] = self.player.party_attack
with open(self.SAVE_FILE, 'w') as f:
f.write(json.dumps(save, indent=4, sort_keys=True))
### Create Debug/Game log
def create_logger(self):
# delete existing log file
if os.path.exists(self.LOG_FILE):
os.remove(self.LOG_FILE)
# create logger
logging.basicConfig(filename=self.LOG_FILE, level=logging.DEBUG)
### Create game sprites
def create_sprites(self):
self.debug("creating sprites")
self.background = Block(self.MAP_SIZE)
self.background.block_id = "bg"
self.entities = pygame.sprite.Group()
self.entities.add( self.background )
def create_player(self):
self.tests = []
try:
self.debug("Creating party..")
# spawn player
self.player = Player(self, self.name)
self.player.block_id = "player"
self.entities.add( self.player )
# choose ally bots
bot_options = ["crystal","nathan","jack"]
bot_options.remove(self.name.lower())
# spawn bots
self.bots = []
for bot_name in bot_options:
self.debug("Creating bot: "+bot_name)
if bot_name == "crystal": bot = CrystalBot(self, bot_name)
elif bot_name == "jack": bot = JackBot(self, bot_name)
else: bot = NathanBot(self, bot_name)
bot.rect.x = self.player.rect.x + 50
bot.rect.y = self.player.rect.y - 50
self.bots.append( bot )
self.entities.add( bot )
except Exception as e:
self.debug("Party Creation Error: " + str(e))
### Load player info from save file
def load_player_info(self, info):
self.player.MAX_HP = info['max_hp']
self.player.MAX_AP = info['max_ap']
self.player.attack = info['attack']
self.player.scales = info['scales']
self.player.boss_scales = info['boss_scales']
self.player.party_attack = info['party_atk']
self.player.party_health = info['party_hp']
""" EVENT LOOP FUNCTIONS """
def draw(self):
for event in pygame.event.get():
if event.type == pygame.QUIT:
self.running = False
self.player.update_stop(event)
self.clock.tick(self.FPS)
self.screen.fill(colors.BLACK)
self.draw_sprites()
self.draw_player_info()
self.entities.update()
pygame.display.flip()
def draw_sprites(self, isScene=False):
self.camera.update(self.player)
for e in self.entities.sprites():
if e.block_id not in ["player","bot"]:
self.screen.blit(e.image, self.camera.apply(e.rect))
# prioritize drawing of player and bots
for bot in self.bots:
self.screen.blit(bot.image, self.camera.apply(bot.rect))
self.screen.blit(self.player.image, self.camera.apply(self.player.rect))
# do collision
for sprite in self.entities.sprites():
if sprite.block_id in ["player","bot"]:
if sprite.rect.collidelist(self.collisions) > -1:
sprite.move_back()
# check transport
if not isScene:
for name in self.transport_rects:
rect = self.transport_rects[name]
if self.player.rect.colliderect(rect):
print str(name)
if name == "void":
if self.player.boss_scales < 3:
self.player.rect.y -= 30
self.player.h_decel, self.player.v_decel = True, True
self.scenes.load_scene(3)
spawn = self.manager.levels["village"]["spawn"]
self.player.set_pos(spawn[0], spawn[1])
break
else:
self.manager.load_level(name)
break
else:
pass
for x in self.tests:
self.screen.blit(x[1], self.camera.apply(x[0]))
def draw_bars(self, sprite):
_mid = (sprite.MAX_HP*60/100)
_low = (sprite.MAX_HP*30/100)
bar_width = sprite.bar_width
# get length of health
percent_left = (sprite.HP * bar_width) / (sprite.MAX_HP * 1.0)
percent_lost = ((sprite.MAX_HP - sprite.HP) * bar_width) / (sprite.MAX_HP * 1.0)
# get length of ap
ap_left = (sprite.AP * bar_width) / (sprite.MAX_AP * 1.0)
ap_lost = ((sprite.MAX_AP - sprite.AP) * bar_width) / (sprite.MAX_AP * 1.0)
# calculate color
if sprite.HP > _mid:
color = colors.H_GREEN
elif sprite.HP > _low:
color = colors.H_YELLOW
else:
color = colors.H_RED
# draw player health
if sprite.block_id == "player":
bar_x, bar_y = 40, 10
bar_height = 15
# draw HP
left = (bar_x+3,bar_y+3, percent_left, bar_height)
lost = (bar_x+percent_left+3, bar_y+3, percent_lost, bar_height)
pygame.draw.rect(self.screen, color, left)
pygame.draw.rect(self.screen, (10, 10, 10), lost)
# draw ap
left = (bar_x + 3, bar_y + 30, ap_left, bar_height)
lost = (bar_x + ap_left+3, bar_y + 30, ap_lost, bar_height)
pygame.draw.rect(self.screen, colors.AP_COLOR, left)
pygame.draw.rect(self.screen, (10, 10, 10), lost)
# draw boss health
elif sprite.block_id == "boss":
pass
# draw mob health
else:
hp_rect = self.camera.apply(sprite.rect)
x, y = hp_rect.x, hp_rect.y
start_x = x + (sprite.WIDTH/2)
start_y = y - sprite.hp_evel
bar_height = 5
left = (start_x, start_y, percent_left, bar_height)
lost = (start_x+percent_left, start_y, percent_lost, bar_height)
pygame.draw.rect(self.screen, color, left)
pygame.draw.rect(self.screen, (10,10,10), lost)
def draw_player_info(self):
# draw face
face = self.player.face
self.screen.blit(face, (5,5))
# draw scales
scale_text = self.rsc.scale_nums[str(self.player.scales)]
boss_text = self.rsc.scale_nums[str(self.player.boss_scales)]
self.screen.blit(self.rsc.scale, (5, 65))
self.screen.blit(self.rsc.boss_scale, (105, 65))
self.screen.blit(scale_text, (35, 65))
self.screen.blit(boss_text, (135, 65))
# draw all entity health bars
for e in self.entities.sprites():
if e.IS_ALIVE:
self.draw_bars(e)
#### Other
def draw_loading(self):
self.clock.tick(self.FPS)
self.screen.fill(colors.BLACK)
self.screen.blit(self.load_text, self.load_rect)
pygame.display.flip()
def run(self):
while self.running:
self.draw()
self.exit()
def exit(self):
self.write_save()
pygame.quit()
sys.exit()
def loading_screen(self):
while self.IS_LOADING:
self.draw_loading()
def create_thread(self, func, *args):
t = threading.Thread(target=func, args=args)
t.daemon = True
t.start()
return t
def debug(self, text, debug=True):
_log = text
starter = "> "
if not isinstance(text, basestring): _log = repr(text)
if debug:
logging.debug(starter + _log)
else:
logging.info(starter + _log)
print _log
