コード例 #1
0
def renderScreen():
    global posX,posY,boardArr, boardArrHeight, DISPLAYSURF

    PINK = (255,0,128)
    PURPLE = (147,112,219)
    BLUE = (135,216,250)
    WHITE = (255,255,255)
    color = WHITE
    DISPLAYSURF.fill((255,255,255))
    for i in xrange(0,boardArrHeight):
	for j in xrange(0,10):
	    tileType = boardArr[i][j]
	    #print "tile type is ", tileType
	    if tileType == 1 or tileType == "1":
		print "PINK"
		color = PINK
	    elif tileType == 2:
		print "PURPLE"
		color = PURPLE
	    elif tileType == 3:
		print "BLUE"
		color = BLUE
	    elif tileType == 4 or tileType == 5:
		color = (0,0,0)
	    else:
		color = WHITE
	    startPos = 300-posY*50
	    if startPos+i*50 > 1000:
		break
	    pygame.draw.rect(DISPLAYSURF,color,pygame.Rect(j*50,startPos+i*50,50,50),0)
	    pygame.draw.rect(DISPLAYSURF,WHITE,pygame.Rect(j*50,startPos+i*50,50,50),5)
	    #print "<3<3"
    renderScoreAndStomach()
    renderCharacter()
    pygame.display.flip()
コード例 #2
0
 def draw_edge(self):
     """Draw edge around the arena."""
     self.edges = []
     for rect in [ (0,0,self.x,5), (0,self.y-5,self.x,5), (0,0,5,self.y), (self.x-5,0,5,self.y-5) ]:
         edge_rect = pygame.Rect(rect)
         self.edges.append(pygame.draw.rect(self.screen, (43,50,58), edge_rect, 0))
         self.update_rect.append(edge_rect)
コード例 #3
0
 def __init__(self, matrix, x, y, identity, speed, mode):
     self.matrix = matrix
     self.identity = identity
     self.mode = mode
     self.x, self.y = x, y
     self.speed = speed
     self.DIR = { 'U':(0,-1), 'D':(0,1), 'L':(-1,0), 'R':(1,0) }
     self.DEG = { 'U':0, 'D':180, 'L':90, 'R':-90 }
     if self.identity == 'Serpent1':
         self.direction = 'R'
     else:
         self.direction = 'L'
     self.new_direction = None
     self.step, self.growing, self.rate = 0, 0, 0
     self.segments = pygame.sprite.RenderUpdates()
     self.segment_spares = []
     self.serpent_body = {}
     self.grow(self.x, self.y, self.DIR[self.direction])
     self.serpent_body[0].image = self.serpent_body[0].images[self.identity+'_head'][self.direction]
     self.scan_rect = pygame.sprite.Sprite()
     self.scan_rect.rect = pygame.Rect(0,0,10,10)
     self.scan_detect = False
     self.pause = 20
     self.active = True
     self.alive = True
コード例 #4
0
 def bounded_cam_func(self, player_rect):
     left, top, pw, ph = player_rect
     _, _, w, h = self.camframe
     l = -left + w // 2 - pw // 2
     l = min(l, 0)
     l = max(l, w - WIDTH * TILES)
     t = -top + h // 2 - ph // 2
     t = min(t, 0)
     t = max(t, h - HEIGHT * TILES)
     return pygame.Rect(l, t, w, h)
コード例 #5
0
ファイル: game.py プロジェクト: Spenca/eduhacks2017 
 def draw_statusbar(self, display):
     pygame.draw.rect(display, pygame.Color(191, 87, 0),
                      pygame.Rect(0, 0, SCREEN_WIDTH, TEXT_HEIGHT + 5))
     surface = self.font.render(
         "Time: " + str("%.1f" % self.player.t) + " seconds | " + "θ: " +
         "%.1f" % (self.player.rotation * 180 / math.pi) + "° | " + "Vx: " +
         "%.1f" % self.player.vx + "c | " + "Vy: " +
         "%.1f" % self.player.vy + "c | " + "γ: " +
         ("%.3f" % self.player.get_gamma()), True, (144, 238, 144))
     self.display.blit(surface, (0, 0))
コード例 #6
0
    def init_display(self):
        # percent of width that middle rect should fill
        c_scale = .4
        # percent of width that remaining two rects should fill
        r_scale = 1 - c_scale * 2

        self.rects['left'] = pygame.Rect(0, self.pad,
                                         self.rect.width * c_scale - self.pad,
                                         self.rect.height - self.pad * 2)
        self.rects['middle'] = pygame.Rect(
            self.rect.width * c_scale + self.pad, self.pad,
            self.rect.width * r_scale - self.pad * 2,
            self.rect.height - self.pad * 2)
        self.rects['right'] = pygame.Rect(
            self.rect.width - self.rect.width * c_scale + self.pad, self.pad,
            self.rect.width * c_scale - self.pad,
            self.rect.height - self.pad * 2)
        self.blits['score_title'] = (OSD_FONT.render("Score:", True,
                                                     (255, 255, 255)),
                                     (self.rects['left'].x + self.text_pad,
                                      self.rects['left'].y + self.text_pad / 2,
                                      self.rects['left'].width,
                                      self.rects['left'].height))
        self.blits['score'] = (OSD_FONT.render("0", True, (255, 255, 255)),
                               (self.rects['left'].x + self.text_pad,
                                self.rects['left'].y +
                                self.rects['left'].height / 2,
                                self.rects['left'].width,
                                self.rects['left'].height))
        self.blits['level_title'] = (OSD_FONT.render(
            "Level:", True,
            (255, 255, 255)), (self.rects['right'].x + self.text_pad,
                               self.rects['right'].y + self.text_pad / 2,
                               self.rects['right'].width,
                               self.rects['right'].height))
        self.blits['level'] = (OSD_FONT.render("0", True, (255, 255, 255)),
                               (self.rects['right'].x + self.text_pad,
                                self.rects['right'].y +
                                self.rects['right'].height / 2,
                                self.rects['right'].width,
                                self.rects['right'].height))
コード例 #7
0
def attach_buttons():
    global buttons
    buttons = []
    buttons.append(
        Button(
            screen,
            pygame.Rect(SCREEN_WIDTH - BUTTON_SIZE + 1, BUTTON_SIZE,
                        BUTTON_SIZE, BUTTON_SIZE), 5, 'pause',
            [GameState_PAUSED, GameState_PLAYING], pause_toggle))
    buttons.append(
        Button(
            screen,
            pygame.Rect(SCREEN_WIDTH - BUTTON_SIZE + 1, 0, BUTTON_SIZE,
                        BUTTON_SIZE), 5, 'restart',
            [GameState_PAUSED, GameState_GAMEOVER, GameState_PLAYING], restart,
            0))
    buttons.append(
        Button(
            screen,
            pygame.Rect(SCREEN_WIDTH - BUTTON_SIZE + 1,
                        SCREEN_HEIGHT - BUTTON_SIZE * 5, BUTTON_SIZE,
                        BUTTON_SIZE), 5, 'left', [GameState_PLAYING],
            getattr(grid, 'move_block_left')))
    buttons.append(
        Button(
            screen,
            pygame.Rect(SCREEN_WIDTH - BUTTON_SIZE + 1,
                        SCREEN_HEIGHT - BUTTON_SIZE * 4, BUTTON_SIZE,
                        BUTTON_SIZE), 5, 'right', [GameState_PLAYING],
            getattr(grid, 'move_block_right')))
    buttons.append(
        Button(
            screen,
            pygame.Rect(SCREEN_WIDTH - BUTTON_SIZE + 1,
                        SCREEN_HEIGHT - BUTTON_SIZE * 3, BUTTON_SIZE,
                        BUTTON_SIZE), 5, 'rotate', [GameState_PLAYING],
            getattr(grid, 'rotate_block')))
    buttons.append(
        Button(
            screen,
            pygame.Rect(SCREEN_WIDTH - BUTTON_SIZE + 1,
                        SCREEN_HEIGHT - BUTTON_SIZE * 2, BUTTON_SIZE,
                        BUTTON_SIZE), 5, 'down', [GameState_PLAYING],
            getattr(grid, 'move_block_down')))
    buttons.append(
        Button(
            screen,
            pygame.Rect(SCREEN_WIDTH - BUTTON_SIZE + 1,
                        SCREEN_HEIGHT - BUTTON_SIZE, BUTTON_SIZE, BUTTON_SIZE),
            5, 'bottom', [GameState_PLAYING],
            getattr(grid, 'move_block_to_bottom')))
コード例 #8
0
 def draw_rect(self, x, y, color):
     """ fills specific coordinate with color """
     box = pygame.Rect((y * UNIT_SIZE, x * UNIT_SIZE, UNIT_SIZE, UNIT_SIZE))
     pygame.draw.rect(self.screen, color, box, 0)
     self.update_rect.append(box)
コード例 #9
0
def run():
    # Pull in global variables so that run function remains paramaterless
    global DEBUG
    global game_state
    global text_display_counter
    global down_held
    global grid
    global osd
    deltaTime = clock.tick(FPS)

    # main event loop (mostly for keyboard)
    for event in pygame.event.get():
        # Debug functions
        if DEBUG > 0:
            # Debug level incrementer / decrementer - numpad + and -
            if event.type == pygame.KEYDOWN and event.key == pygame.K_PAGEUP:
                DEBUG = min(DEBUG + 1, 10)
                print("Debug level = {}".format(DEBUG))
            if event.type == pygame.KEYDOWN and event.key == pygame.K_PAGEDOWN:
                DEBUG = max(1, DEBUG - 1)
                print("Debug level = {}".format(DEBUG))
            # Respawn a new block
            if event.type == pygame.KEYDOWN and event.key == pygame.K_1:
                grid._create_block()
            # Respawn the grid with custom array
            if event.type == pygame.KEYDOWN and event.key == pygame.K_2:
                grid.grid = [[0 for x in range(BLOCK_WIDTH)]
                             for y in range(BLOCK_HEIGHT)]
            # Print grid array to console
            if event.type == pygame.KEYDOWN and event.key == pygame.K_3:
                grid.print_grid()
            # Print block array to console
            if event.type == pygame.KEYDOWN and event.key == pygame.K_4:
                grid.current_block.print_block()
            # Increase level
            if event.type == pygame.KEYDOWN and event.key == pygame.K_5:
                grid.level = min(grid.level + 1, 100)
                grid._set_tick()
                print("Level = {}".format(grid.level))
            # Decrease level
            if event.type == pygame.KEYDOWN and event.key == pygame.K_6:
                grid.level = max(0, grid.level + 1)
                grid._set_tick()
                print("Level = {}".format(grid.level))
            # Increase lines
            if event.type == pygame.KEYDOWN and event.key == pygame.K_7:
                grid.lines += 1
                grid._check_levelup()
                print("Lines = {}".format(grid.lines))
                print("Tick = {}".format(grid.tick))

        # reset down_held so that we recheck
        down_held = False

        if event.type == pygame.QUIT:
            pygame.quit()
            exit()
        # restart game
        if event.type == pygame.KEYUP and event.key == pygame.K_r:
            restart()

        if game_state == GameState_PLAYING or game_state == GameState_PAUSED:
            if event.type == pygame.KEYUP and event.key == pygame.K_p:
                pause_toggle()

        if event.type == pygame.MOUSEBUTTONDOWN and event.button == 1:
            for button in buttons:
                button.start_click_event(game_state, *pygame.mouse.get_pos())

        if game_state == GameState_PLAYING:
            # rotate block +90deg
            if event.type == pygame.KEYDOWN and event.key == pygame.K_x:
                grid.rotate_block()
            # rotate block +270deg (-90deg)
            if event.type == pygame.KEYDOWN and event.key == pygame.K_z:
                grid.rotate_block(True)
            # move block as far down as it will go
            if event.type == pygame.KEYDOWN and event.key == pygame.K_SPACE:
                grid.move_block_to_bottom()
            # move block right
            if event.type == pygame.KEYDOWN and event.key == pygame.K_RIGHT:
                grid.move_block_right()
            # move block left
            if event.type == pygame.KEYDOWN and event.key == pygame.K_LEFT:
                grid.move_block_left()
            # track if the down key is being held
            if event.type == pygame.KEYDOWN and event.key == pygame.K_DOWN:
                down_held = True

    if game_state == GameState_PLAYING:
        # perform additional updates to block if we want to go down faster
        if down_held:
            grid.update_block(
                DEBUG, deltaTime * max(.5, SPEED_MULTIPLIER - grid.level))
        # transition to game over state if grid flags a game over
        if grid.state == grid.GridState_GAMEOVER:
            game_state = GameState_GAMEOVER

        # update grid and osd
        grid.update(DEBUG, deltaTime)
        osd.update_values(grid.score, grid.level, grid.next_block)

    # display pause / restart state blinking text
    elif game_state == GameState_PAUSED or game_state == GameState_GAMEOVER:
        renders = []

        # blink text color on and off every 600 ms
        text_display_counter += deltaTime
        if text_display_counter >= 600:
            if text_display_counter >= 1200:
                text_display_counter = 0
            text_color = PAUSE_COLOR
        else:
            text_color = (255, 255, 255)

        # generate appropriate text elements for state
        if game_state == GameState_PAUSED:
            text = ["Pause", "Press P to play"]
        elif game_state == GameState_GAMEOVER:
            text = ["Game Over", "Press R to restart"]

        # render each text item
        for i in range(len(text)):
            if i == 0:
                renders.append(PAUSED_FONT.render(text[i], True, text_color))
            else:
                renders.append(
                    PAUSED_SUB_FONT.render(text[i], True, text_color))
        # get max width of rect
        max_width = max(r.get_width() for r in renders)
        # get sum of all renders heights for a max height, round up to the nearest BLOCK_SIZE
        max_height = -(-sum(r.get_height()
                            for r in renders) // BLOCK_SIZE) * BLOCK_SIZE
        # calculate a centered rectangle based on max_width and max_height
        render_rect = pygame.Rect(
            ((SCREEN_WIDTH - OSD_WIDTH) / 2 - max_width / 2) - max_width / 40,
            8 * BLOCK_SIZE + OSD_HEIGHT, max_width + max_width / 20,
            max_height)
        # draw rect and outline
        pygame.draw.rect(screen, PAUSE_COLOR, render_rect)
        pygame.draw.rect(screen, GRID_COLOR, render_rect, 2)
        # blit each text item to an appropriate offset in the center of grid
        for i in range(len(renders)):
            # center and space the renders out in render_rect evenly
            pos = ((SCREEN_WIDTH - OSD_WIDTH) / 2 - renders[i].get_width() / 2,
                   8 * BLOCK_SIZE + OSD_HEIGHT +
                   render_rect.height / len(renders) * i)
            screen.blit(renders[i], pos)

    # always draw osd and buttons
    osd.draw(DEBUG)
    for button in buttons:
        button.draw(DEBUG, game_state, deltaTime)

    pygame.display.flip()
コード例 #10
0
else:
    import pygame

# setup pygame instance
pygame.display.init()
screen = pygame.display.set_mode((SCREEN_WIDTH, SCREEN_HEIGHT))
pygame.display.set_caption(CAPTION)
clock = pygame.time.Clock()

# js compiler does not like enums, setting varaibles instead for state tracking.
GameState_PAUSED = 0
GameState_GAMEOVER = 1
GameState_PLAYING = 2

grid = None
osd = OSD(screen, pygame.Rect(0, 0, SCREEN_WIDTH - OSD_WIDTH, OSD_HEIGHT), 2,
          3, 6)
buttons = []


# functionised pause for button calls
def pause_toggle():
    global game_state
    global text_display_counter
    text_display_counter = 0
    game_state = GameState_PLAYING if game_state != GameState_PLAYING else GameState_PAUSED


# functionised restart for button calls
def restart():
    global grid
コード例 #11
0
 def __init__(self):
     self.camframe = pygame.Rect(0, 0, VIEWPORT_SIZE[0], VIEWPORT_SIZE[1])