def initObj(self):
# 设置大小,用于背景图片的缩放
self.gameNet = GameNet(self)
self.gameNet.connectToServer()
self.menu = Menu((self.width, self.height), self)
self.rules = Rules(self.width, self.height)
self.setLevel = SetLevel(self.width, self.height)
self.matching = Matching((self.width, self.height), self)
self.game = Game(self)
# finish 界面的大小和游戏界面一样
self.finish = Finish((self.game.width, self.game.height))
def __init__(self):
pygame.init()
self.settings = Settings()
self.screen = pygame.display.set_mode(
(self.settings.screen_width, self.settings.screen_height))
pygame.display.set_caption("Alien Invasion")
# Make the Obstacles & Finish
self.obstacles = pygame.sprite.Group()
self._create_set_of_obstacles()
self.finish = Finish(self)
self.ship = Ship(self)
def display_page(pathname):
if pathname == '/app.py':
return Game()
elif pathname == '/finish.py':
return Finish()
else:
return Home()
def load_level(level):
walls = []
players = []
monsters = []
finishes = []
#Parse the level string above. W = wall, F = exit, P = player, M = monster
x = y = 0
for row in levels[level]:
for col in row:
if col == 'W':
walls.append(Wall((x, y)))
if col == 'P':
players.append(Player((x, y)))
if col == 'M':
monsters.append(Monster((x, y)))
if col == 'F':
finishes.append(Finish((x, y)))
x += 32
y += 32
x = 0
return walls, players, monsters, finishes
def main():
ms = 'k'
while True:
pygame.init()
maze = maze_generation()
screen = pygame.display.set_mode(DISPLAY)
pygame.display.set_caption('Maze game')
bg = Surface(DISPLAY)
bg.fill(Color(BACKGROUND_COLOR))
screen.blit(bg, (0, 0))
hero = NPC(maze[1][0] * 10, maze[1][1] * 10)
finish = Finish(maze[2][0] * 10, maze[2][1] * 10)
entites = pygame.sprite.Group()
platforms = []
entites.add(hero)
entites.add(finish)
level = maze[0]
clock = pygame.time.Clock()
x = y = 0
for row in level:
for col in row:
if col == 0:
pf = Platform(x, y)
entites.add(pf)
platforms.append(pf)
x += PLATFORM_WIDTH
y += PLATFORM_HEIGHT
x = 0
stepc = 0
while True:
for i in pygame.event.get():
if i.type == KEYDOWN and i.key == K_LEFT:
stepc += 1
hero.rect.x -= 10
for p in platforms:
if sprite.collide_rect(hero, p):
hero.rect.left = p.rect.right
if i.type == KEYDOWN and i.key == K_RIGHT:
stepc += 1
hero.rect.x += 10
for p in platforms:
if sprite.collide_rect(hero, p):
hero.rect.right = p.rect.left
if i.type == KEYDOWN and i.key == K_UP:
stepc += 1
hero.rect.y -= 10
for p in platforms:
if sprite.collide_rect(hero, p):
hero.rect.top = p.rect.bottom
if i.type == KEYDOWN and i.key == K_DOWN:
hero.rect.y += 10
stepc += 1
for p in platforms:
if sprite.collide_rect(hero, p):
hero.rect.bottom = p.rect.top
if i.type == QUIT:
pygame.quit()
exit()
pygame.display.update()
screen.blit(bg, (0, 0))
entites.draw(screen)
clock.tick(60)
ms = finish.collaid(hero, stepc)
if ms == 'kek':
break
pygame.display.update()
class AlienInvasion(object):
def __init__(self):
pygame.init()
self.settings = Settings()
self.screen = pygame.display.set_mode(
(self.settings.screen_width, self.settings.screen_height))
pygame.display.set_caption("Alien Invasion")
# Make the Obstacles & Finish
self.obstacles = pygame.sprite.Group()
self._create_set_of_obstacles()
self.finish = Finish(self)
self.ship = Ship(self)
def runGame(self):
while True:
self._check_events()
self.ship.update()
self._update_screen()
def _check_events(self):
"""Responds to keyboard and mouse events"""
# funkcja get() zwraca listę zdarzeń, które miały miejsce od czasu jej poprzedniego wywołania
for event in pygame.event.get():
if event.type == pygame.QUIT:
sys.exit()
elif event.type == pygame.KEYDOWN:
self._check_keydown_events(event)
elif event.type == pygame.KEYUP:
self._check_keyup_events(event)
elif event.type == pygame.MOUSEBUTTONDOWN:
mouse_pos = pygame.mouse.get_pos()
# self._check_play_button(mouse_pos) <===================
def _check_keydown_events(self, event):
"""Respond to keypresses"""
if event.key == pygame.K_UP:
self.ship.moving_up = True
elif event.key == pygame.K_RIGHT:
self.ship.moving_right = True
elif event.key == pygame.K_DOWN:
self.ship.moving_down = True
elif event.key == pygame.K_LEFT:
self.ship.moving_left = True
elif event.key == pygame.K_q:
sys.exit()
elif event.key == pygame.K_SPACE:
# self._fire_bullet() <===================
sys.exit()
def _check_keyup_events(self, event):
"""Respond to key releases"""
if event.key == pygame.K_UP:
self.ship.moving_up = False
elif event.key == pygame.K_RIGHT:
self.ship.moving_right = False
elif event.key == pygame.K_DOWN:
self.ship.moving_down = False
elif event.key == pygame.K_LEFT:
self.ship.moving_left = False
def _update_screen(self):
"""Update images on the screen and flip to the new screen"""
self.screen.fill(self.settings.bg_color)
self.ship.blitme()
self.finish.blitme()
"""
for bullet in self.bullets.sprites():
bullet.draw_bullet()
self.aliens.draw(self.screen)
"""
# Draw the score information.
# self.sb.show_score()
# Draw the play button if the game is inactive.
# if not self.stats.game_active:
# self.play_button.draw_button()
self.obstacles.draw(self.screen)
# Make the most recently drawn screen visible.
pygame.display.flip()
def _create_set_of_obstacles(self):
"""Create the set of obstacles"""
obstacle = Obstacle(self)
obstacle_width, obstacle_height = obstacle.rect.size
available_space_x = self.settings.screen_width - (2 * obstacle_width)
number_obstacles_x = available_space_x // (2 * obstacle_width)
# Create the full set of obstacles
for row_number in range(1, 4):
# Create the full row of obstacles
for obstacle_number in range(1, 4):
self._create_obstacle(obstacle_number, row_number)
def _create_obstacle(self, obstacle_number, row_number):
"""Create an obstacle and place it in the row"""
obstacle = Obstacle(self)
obstacle_width, obstacle_height = obstacle.rect.size
# There are supposed to be a set 3x3 of obstacles
# ... and we just hope that the screen is big enough ;)
obstacle.rect.centerx = self.settings.screen_width / 4 * obstacle_number
obstacle.rect.centery = self.settings.screen_height / 4 * row_number
self.obstacles.add(obstacle)
def game():
group = pygame.sprite.Group()
player_anim = Anime(group, (228, 288))
board = Board.load_map(None, name)
board.set_view(30, 30, 30)
lst = []
if sum(board.hero[0]):
player = Player(screen, player_anim, board, board.hero[0])
player_anim.resize(30)
if sum(board.hero[1]):
tverdolobiy = Tverdolobiy(group, board.hero[1], board, player)
tverdolobiy.resize(30)
lst.append(tverdolobiy)
if sum(board.hero[2]):
merzopakostniy = Merzopakostniy(group, board.hero[2], board, player)
merzopakostniy.resize(30)
if sum(board.hero[3]):
legushka = Legushka(group, board.hero[3], board, player)
legushka.resize(30)
lst.append(legushka)
running = True
c = 0
while running:
c += 1
for event in pygame.event.get():
if event.type == pygame.QUIT:
running = False
if event.type == pygame.MOUSEBUTTONDOWN:
board.get_click(event.pos)
if event.type == pygame.KEYDOWN:
if event.key in up:
player.set_dir('up')
if event.key in down:
player.set_dir('down')
if event.key in left:
player.set_dir('left')
if event.key in right:
player.set_dir('right')
if event.key == pygame.K_LEFT:
player.set_dir('left')
if event.key == pygame.K_RIGHT:
player.set_dir('right')
if event.key == pygame.K_UP:
player.set_dir('up')
if event.key == pygame.K_DOWN:
player.set_dir('down')
screen.fill((0, 0, 0))
board.render()
if not len(board.check_points):
board.check_points.add(None)
if not board.are_left():
board.reset()
player.move([])
player_anim.rect.x, player_anim.rect.y = player.x, player.y
if sum(board.hero[2]):
merzopakostniy.move()
if not c % 2:
if sum(board.hero[3]):
legushka.move()
if sum(board.hero[1]):
tverdolobiy.move()
group.draw(screen)
if c % 20 == 0:
player_anim.update()
if sum(board.hero[2]):
check = Check(player, merzopakostniy.num_bomb() + lst)
elif sum(board.hero[0]):
check = Check(player, lst)
if check.checkaed():
running = False
draw(str(len(board.check_points) - 1 + board.count))
pygame.display.flip()
Finish(group, str(len(board.check_points) - 1 + board.count))
class Main(object):
"""main loop of the game"""
def __init__(self):
pygame.init()
# 包括读取设置文件,设置游戏基本属性
self.initAttr()
# 传递所需的参数,实例化所包含的各个类
self.initObj()
self.initContext()
def initAttr(self):
self.width, self.height = WINDOW_WIDTH, WINDOW_HEIGHT
self.state = STATE.menu
self.running = True
self.level = SETLEVEL["DEFAULT_LEVEL"]
self.channelID = None
def initObj(self):
# 设置大小,用于背景图片的缩放
self.gameNet = GameNet(self)
self.gameNet.connectToServer()
self.menu = Menu((self.width, self.height), self)
self.rules = Rules(self.width, self.height)
self.setLevel = SetLevel(self.width, self.height)
self.matching = Matching((self.width, self.height), self)
self.game = Game(self)
# finish 界面的大小和游戏界面一样
self.finish = Finish((self.game.width, self.game.height))
# 绘制游戏主窗体
def initContext(self):
self.screen = pygame.display.set_mode((self.width, self.height), DOUBLEBUF)
pygame.display.set_caption("Boxes")
self.clock = pygame.time.Clock();
def linkSuccess(self):
print "link success"
print self.channelID
def enterMatching(self):
self.matching.getRooms()
def enemyComming(self, turn, gameID):
self.gameID = gameID
self.game.enemyComming(turn)
self.game.setHome()
def joinGame(self, level, gameID, turn):
self.game = Game(self)
self.game.gameID = gameID
self.state = STATE.game
self.game.setLevel(level)
self.game.enemyComming(turn)
self.game.setAway()
def enterMenu(self):
self.state = STATE.menu
# 进入游戏界面事件
def enterGame(self, level):
self.game.setLevel(level)
self.game.initContext()
self.state = STATE.game
def startedNewGame(self, level):
print "open room", level
self.gameNet.openRoom(level)
def leaveServer(self, gameID):
self.gameNet.leaveServer(self.gameID)
self.state = STATE.menu
def backToMenu(self):
self.initContext()
self.state = STATE.menu
def addScore(self):
self.game.addScore()
def enemyAddScore(self):
self.game.enemyAddScore()
def getRooms(self, matching, page, num):
self.gameNet.getRooms(matching, page, num)
def update(self):
self.clock.tick(60)
self.screen.fill(0)
self.gameNet.pump()
if STATE.exit == self.state:
exit()
elif STATE.setLevel == self.state:
var = self.setLevel.draw(self.screen)
if (var in STATE):
self.state = var
else:
self.startedNewGame(var)
self.enterGame(var)
elif STATE.game == self.state:
self.state = self.game.draw()
if (self.state != STATE.game):
self.initContext()
elif STATE.matching == self.state:
self.state = self.matching.draw(self.screen)
elif STATE.menu == self.state:
self.menu.draw(self.screen)
self.state = self.menu.clickListener()
elif STATE.rules == self.state:
self.rules.draw(self.screen)
self.state = self.rules.clickListener()
elif STATE.finish == self.state:
var = self.finish.draw(self.screen)
if (var != STATE.finish):
self.backToMenu()
for event in pygame.event.get():
if (event.type == pygame.QUIT):
if STATE.game == self.state:
self.gameNet.exitFlag = True
self.gameNet.leaveServer(self.game.gameID)
sleep(0.5)
pygame.quit()
exit()
else:
pygame.quit()
exit()
# exit()
# if (event.type == pygame.KEYDOWN):
# if (event.key == pygame.K_ESCAPE):
# exit()
# pygame.quit()
pygame.display.flip()
def winning(self):
self.finish.setWin(self.game.gameID)
self.enterFinish()
def lost(self):
self.finish.setLost(self.game.gameID)
self.enterFinish()
def drawGame(self):
self.finish.setDraw(self.game.gameID)
self.enterFinish()
def enterFinish(self):
self.state = STATE.finish
def run(self):
while self.running:
self.update()
def exit(self):
pygame.quit()
exit()
