Exemplo n.º 1
1
    def backup_attack_loop(self):
        g = self.g
        self.image = self.orginalImage.subsurface((160, 0, 32, 32))

        speed = self.walktimer
        self.walktimer += 1
        if self.walktimer > 6:
            self.walktimer = 6


        self.timer += 1
        timergate = self.timer % 100
        if timergate >= 80:
            if timergate == 80:
                self.face_the_player()
            if timergate == 85:
                Shot(g, self.direction, (self.rect.x + 16, self.rect.y + 8), 'shot8', 'enemy')
            self.walking = 0
        else:
            self.walking = 1
        if timergate % 100 == 0:
            self.face_the_player()

        dx = self.rect.x - g.player.rect.x
        if dx <40 and dx > -40:
            if self.dy == 10.0:
                self.dy = -10.0

        if self.walking:
            self.rect.x += (1 - (self.direction * 2)) * speed
            framen = self.timer / 2  % 3
            self.image = self.orginalImage.subsurface((32 + framen * 32, 0, 32, 32))
        else:
            self.walktimer = 0

        self.dy += .5
        if self.dy > 10.0:
            self.dy = 10.0
        self.rect.y += self.dy

        if self.rect.x < 416:
            self.direction = 0

        
        self.image = pygame.transform.flip(self.image, self.direction, 0)
        # hitting the bullets and player
        s = Rect(self.rect)
        if s.colliderect (g.player.rect):
            g.player.touch(self)
        for b in g.bullets:
            if b.owner == 'player':
                drect = (b.rect.x + 30, b.rect.y )
                if s.collidepoint(drect):
                    b.destroy()
                    self.health -= b.get_damage()
                    e = Effect(self.g, 'health', (self.rect.x, self.rect.y))
                    e.healthchange = -b.get_damage()
                    self.image = g.make_image_white(self.image)
Exemplo n.º 2
0
	def __init__(self, pos=None, size=None, value=5, pic=None):
		""" Generates a new instance of this class.

		Generates a new instance of this class and sets the fields.
		If no picture is given a the rectangle determined by position and size will be filled.

		Args:
			pos: The position of the collectable.
			size: The size of the collectable.
			value: The value of the collectable.
			pic: The picture to display the collectable.
		"""
		if pos is None:
			pos = [0, 0]
		if size is None:
			size = [0, 0]
		self._pos = pos
		self._value = value
		if pic is None:
			self._pic = Surface(size)
			pygame.draw.rect(self._pic, (0, 255, 0), Rect((0, 0), size))
			self._collision_rect = Rect(pos, size())
		else:
			self._pic = pic
			self._collision_rect = Rect(pos, pic.get_size())
Exemplo n.º 3
0
 def _get_slide_rect(self):
     slide_rect = Rect((0, 0), (self._length, self._height))
     try:
         slide_rect.center = self.get_fus_center()
     except AttributeError:
         slide_rect.center = self.get_ghost_center()
     return slide_rect
Exemplo n.º 4
0
class Select(Sprite):
    def __init__(self):
        Sprite.__init__(self)
        self.image = pygame.image.load('images/selector.png').convert()
        self.image.set_colorkey(PUCE, RLEACCEL)
        self.rect=Rect(10, 10, 30, 30)
        self.index = 0

    def setX(self, x):
        newpos = (self.rect.topleft[0] + x)
        if (newpos > 0) and (newpos < COLUMNS * 40 + 10):
            self.rect.move_ip(x,0)
            if x > 0:
                self.index += 1
            else:
                self.index -= 1

    def setY(self, y):
        newpos = (self.rect.topleft[1] + y)
        if (newpos > 0) and (newpos < ROWS * 40 + 10):
            self.rect.move_ip(0, y)
            if y > 0:
                self.index += COLUMNS
            else:
                self.index -= COLUMNS
    def reload(self, fileName, x, y, z, rotate, scale):
        filePath = _rootDir + '/' + fileName
        import game.gameWindow as gameWindow
        scene = gameWindow.getScene()

        prevRect = copy(self.rect)

        if self.fileName is None or self.fileName != fileName or rotate != 0 or scale != 1:
            self.fileName = fileName
            self.image = pygame.image.load(filePath).convert_alpha(scene)
            self.rect = self.image.get_rect()
        self.rect.x = x
        self.rect.y = y
        if rotate != 0 or scale != 1:
            self.image = pygame.transform.rotozoom(self.image, rotate, scale)
            transformedRect = self.image.get_rect()
            transformedRect.center = self.rect.center
            self.rect = transformedRect

        if prevRect is not None:

            rectToUpdate = Rect(prevRect.x - 1, prevRect.y - 1, prevRect.width + 2, prevRect.height + 2)
            r2 = Rect(self.rect.x - 1, self.rect.y - 1, self.rect.width + 2, self.rect.height + 2)
            rectToUpdate.union_ip(r2)
            addRectToUpdate(rectToUpdate)
        else:
            rectToUpdate = Rect(self.rect.x - 1, self.rect.y - 1, self.rect.width + 2, self.rect.height + 2)
            addRectToUpdate(rectToUpdate)

        if self.z is not None:
            self.remove()
        _spritesList[z].add(self)
        self.z = z
Exemplo n.º 6
0
Arquivo: mob.py Projeto: MacLeek/mh
    def render(self):
        self.check()
        if self.disabled: return

        pos = self.rect.center

        t = self.mod["eyeType"]

        color0 = (255,255,255)
        color1 = (0,0,0)

        radius = (self.mod["eyeSkill"] + 2) * 3

        color = skinColor(self.mod)

        # we have to determine how big the eye will be before drawing
        size = (radius * 2, radius * 2)
        rect = Rect((0,0), size)

        image = Surface(size)
        image.fill(self.colorkey)
        image.set_colorkey(self.colorkey)

        # locking the surface makes multiple drawing operations quicker
        image.lock()

        # draw the border of the eye
        if radius < 10:
            steps = 16
        else:
            steps = 8

        for t in range(0,360,steps):
            t = radians(t)
            new_color = Color(color.r, color.g, color.b)
            h, s, v, a = new_color.hsva
            v = int(sin(t) * 50) + 50
            if v < 0: v = 0 - v
            new_color.hsva = (h, s, v, a)
            x = int(rect.centerx + cos(t) * (radius - 4))
            y = int(rect.centery + sin(t) * (radius - 4))
            draw.circle(image, new_color, (x, y), 3)

        # draw the white and pupil
        draw.circle(image, color0, rect.center, radius - 3)
        draw.circle(image, color1, rect.center, (radius - 3) / 3)

        image.unlock()

        rect.center = pos

        self.rect = rect
        self.image = image
Exemplo n.º 7
0
    def update_image(self):
        """Updates image"""
        area = Rect(self.row * self.frame_width,
                    self._col * self.frame_height,
                    0, 0)
        area.x = self.row * self.frame_width
        area.y = self._col * self.frame_height
        area.width = area.x + self.frame_width
        area.height = area.y + self.frame_height

        self.image.fill(Animation.colorkey)
        self.image.blit(self.surface, (0, 0), area)

        self.valid = True
Exemplo n.º 8
0
 def attend_to_surroundings(self):
     """ arrange the areas of awareness and attack
     depending on the orientation as a number on
     the octoclock.
        0
      7   1
     6     2
      5   3
        4
     """
     centre_of_attention = octoclock_direction(self.orientation, self.rect)
     self.rect_of_awareness = Rect(0, 0, *self.area_of_awareness)
     self.rect_of_awareness.center = centre_of_attention
     self.rect_of_attack = Rect(0, 0, *self.area_of_attack)
     self.attend_to_attack_area(centre_of_attention)
Exemplo n.º 9
0
 def __init__(self, x, y, kind, resourcemgr):
     super(Button, self).__init__(x, y, kind, resourcemgr)
     set_button_stats(self)
     self.rect = Rect(x, y, self.w, self.h)
     self.was_hit = False
     self.set_areas()
     self.area = self.areas[MOUSE_POS.OUT]
Exemplo n.º 10
0
 def get_clip(self):
     """ get_clip() -> Rect
     get the current clipping area of the Surface
     """
     self.check_surface()
     c_rect = self._c_surface.clip_rect
     return Rect._from4(c_rect.x, c_rect.y, c_rect.w, c_rect.h)
Exemplo n.º 11
0
    def __init__(self, screen_res, level_rect, x_speed=15, y_speed=15,
                 left_threshold=10, right_threshold=75, up_threshold=10,
                 down_threshold=75):
        """

        :param screen_res: A tuple of int. (w, h)
        :param level_rect: A rectangle that covers all of the level
        :param x_speed: The horizontal speed of the camera
        :param y_speed: The vertical speed of the camera
        :param left_threshold:
            The percentage of screen to reach in order for the camera to scroll
            left
        :param right_threshold:
            The percentage of screen to reach in order for the camera to scroll
            right
        :param up_threshold:
            The percentage of screen to reach in order for the camera to scroll
            up
        :param down_threshold:
            The percentage of screen to reach in order for the camera to scroll
            down
        """
        self.level_rect = level_rect
        self.horizontal_speed = x_speed
        self.vertical_speed = y_speed
        self.screen_res = screen_res
        self.rect = Rect((0, 0), screen_res)

        self.x_bound = self.level_rect.width - self.rect.width
        self.y_bound = self.level_rect.height - self.rect.height

        self.right_threshold = self.rect.width * right_threshold / 100
        self.left_threshold = self.rect.width * left_threshold / 100
        self.up_threshold = self.rect.height * up_threshold / 100
        self.down_threshold = self.rect.height * down_threshold / 100
Exemplo n.º 12
0
 def get_rect(self, **kwargs):
     r = Rect._from4(0, 0, self._w, self._h)
     if kwargs:
         for attr, value in kwargs.items():
             # Logic copied form pygame/surface.c - blame them
             setattr(r, attr, value)
     return r
Exemplo n.º 13
0
 def __init__(self, img_name, rect, game):
     self.game = game
     self.image = pygame.image.load(img_name).convert_alpha()
     self.rect = Rect(rect.centerx, rect.y, 40, 40)
     self.x = choice([-5, 5])
     self.y = choice([-5, 5])
     super().__init__()
Exemplo n.º 14
0
class Asteroid(Sprite):
    def __init__(self, img_name, width, height, game):
        super().__init__()
        self.image = pygame.image.load(img_name).convert_alpha()
        self.rect = Rect(randrange(game.width - width), -100, width, height)
        self.y_speed = randrange(15, 25)
        self.game = game

    def update(self, *args):
        x_move = 0
        y_move = self.y_speed

        self.rect = self.rect.move(x_move, y_move)
        if self.rect.top > self.game.height:
            super().kill()

    def kill(self):
        self.game.elements['exploding_asteroids'].add(AnimatedAsteroid(join('gfx', 'asteroid_exploded.png'),
                                                                       self.rect,
                                                                       4,
                                                                       self.game))
        if self.game.newPU:
            self.game.elements['power-ups'].add(PowerUp(join('gfx', 'PowerUp.png'), self.rect, self.game))
            self.game.newPU = False
        super().kill()
Exemplo n.º 15
0
 def __init__(self, parent):
     self.parent = parent
     self.rect = pygame.Rect(0, 0, 0, 0)
     self.rect_rel = pygame.Rect(0, 0, 0, 0)
     
     self.move_offset_x = 0
     self.move_offset_y = 0
     
     self.input_xy = OrderedDict()
     self.output_xy = OrderedDict()
     
     self.inputs = OrderedDict()
     self.outputs = []
     
     self.output_cache = {}
     self.input_cache = {}
     self.res = {}
     
     self.name = "cell"    
     self.fcs = "cell"    
     
     self.drawable = False
     self.border = Rect(0,0,0,0)
     
     self.need_redraw = False
     self.need_body_update = False
     self.zoom = False
Exemplo n.º 16
0
    def fill(self, color, rect=None, special_flags=0):
        """ fill(color, rect=None, special_flags=0) -> Rect
        fill Surface with a solid color
        """
        self.check_opengl()

        c_color = create_color(color, self._format)
        sdlrect = ffi.new('SDL_Rect*')
        if rect is not None:
            sdlrect.x, sdlrect.y, sdlrect.w, sdlrect.h = rect_vals_from_obj(rect)
        else:
            sdlrect.w = self._w
            sdlrect.h = self._h

        if self.crop_to_surface(sdlrect):
            if special_flags:
                res = sdl.surface_fill_blend(self._c_surface, sdlrect,
                                             c_color, special_flags)
            else:
                with locked(self._c_surface):
                    # TODO: prep/unprep
                    res = sdl.SDL_FillRect(self._c_surface, sdlrect, c_color)

            if res == -1:
                raise SDLError.from_sdl_error()

        return Rect._from4(sdlrect.x, sdlrect.y, sdlrect.w, sdlrect.h)
Exemplo n.º 17
0
    def __init__(self, location, *groups):
        super().__init__(*groups)

        self.rect = Rect(location, self.image.get_size())
        self.vertical_velocity = self.default_vertical_velocity = 200
        self.rightward_velocity = 100
        self.vertical_velocity_decay = 40
        self.jump_velocity = -300
Exemplo n.º 18
0
def getEndGameSplash(winnerName=None, winnerColor=None):
    """If winningName and winnerColor are both None,
       display a tie game screen.
    """

    screen = Display.get_surface()
    splashGroup = SpriteGroup()
    if winnerName != None and winnerColor != None:
        # Create winning bomberman image
        fatalityRect = Rect((0, 0, 500, 500))
        fatalityRect.centerx = screen.get_rect().centerx
        fatalityRect.centery = screen.get_rect().centery
        fatalityAnimation = WorldlessWidget(Surface((500, 500)), fatalityRect)
        fatalImage = pygame.image.load("images/fatality.png").convert()
        fatalImage.set_colorkey(LAVENDER)
        bmanColor = Surface((fatalImage.get_width(), fatalImage.get_height()))
        bmanColor.fill(winnerColor)
        bmanColor.blit(fatalImage, bmanColor.get_rect())
        winnerFrames = createFrames(bmanColor)
        fatalityAnimation.startAnimation(winnerFrames, 0, 12)
        splashGroup.add(fatalityAnimation)

        # Create text for winning player
        winnerText = TextBar(winnerName + " Wins!", (0, 0, 200, 50), 50)
        imgWidth = winnerText.image.get_width()
        winnerText.rect.left = (screen.get_size()[X] - imgWidth) / 2
        splashGroup.add(winnerText)
    else:
        tieText = TextBar("TIE GAME!", (0, 20, 250, 50), 35)
        imgWidth = tieText.image.get_width()
        tieText.rect.left = (screen.get_size()[X] - imgWidth) / 2
        splashGroup.add(tieText)

    escMessage = TextBar("Press Escape to exit.", (0, 60, 250, 50), 25)
    imgWidth = escMessage.image.get_width()
    escMessage.rect.left = (screen.get_size()[X] - imgWidth) / 2
    splashGroup.add(escMessage)

    pressKeyText = TextBar(
        "Press a key or button when ready. Next round will start when everyone is ready.", (0, 90, 250, 50), 25
    )
    imgWidth = pressKeyText.image.get_width()
    pressKeyText.rect.left = (screen.get_size()[X] - imgWidth) / 2
    splashGroup.add(pressKeyText)

    return splashGroup
Exemplo n.º 19
0
    def draw_board(self):

        image_indexes = {
            None: 0,
            O: 1,
            X: 2
        }

        for row in range(3):
            for col in range(3):

                board_index = row * 3 + col

                # Cell rectangle
                cell = Rect(TILE_WIDTH * col, TILE_HEIGHT * row, TILE_WIDTH, TILE_HEIGHT)

                # Check if mouse is over a cell
                mouse_over = self.mouse_pos is not None and cell.collidepoint(self.mouse_pos)

                # Winner movement
                if self.game.winner and board_index in self.game.winner_movement:
                    fill_index = image_indexes[self.game.board[board_index]]
                    state_index = 3
                    self.screen.blit(self.tileset[fill_index][state_index], cell)

                # Mouse interaction
                elif mouse_over and self.is_human_turn():
                    if self.game.board[board_index] == None:
                        fill_index = image_indexes[self.game.turn]
                        state_index = 1
                    else:
                        fill_index = image_indexes[self.game.board[board_index]]
                        state_index = 2
                    self.screen.blit(self.tileset[fill_index][state_index], cell)

                # Normal rendering
                else:
                    fill_index = image_indexes[self.game.board[board_index]]
                    if self.game.winner == False: # Draw
                        state_index = 2
                    else:
                        state_index = 0
                    self.screen.blit(self.tileset[fill_index][state_index], cell)

        pygame.display.flip()
Exemplo n.º 20
0
    def __init__(self, img_name, width, height, game):
        super().__init__()

        self.image = pygame.image.load(img_name).convert_alpha()
        self.rect = Rect(454, 516, width, height)
        self.exploded = False
        self.game = game
        self.cannon_cooldown = 15
        self.poweruptime = 0
    def selectatmouse(self):
        # User has touched the screen - is it inside the textbox, or inside a key rect?
        self.unselectall()
        pos = pygame.mouse.get_pos()
#        print 'touch {}'.format(pos)
        if self.input.rect.collidepoint(pos):
#            print 'input {}'.format(pos)
            self.input.setcursor(pos)
        else:
            for key in self.keys:
                keyrect = Rect(key.x, key.y, key.w, key.h)
                if keyrect.collidepoint(pos):
                    key.selected = True
                    key.dirty = True
                    self.paintkeys()
                    return

        self.paintkeys()        
Exemplo n.º 22
0
 def calc_border(self):
     self.border = Rect(self.rect)
         
     for c in self.inputs:
         if self.inputs[c] is not False:
             in_obj, in_pin = self.inputs[c]
             if not isinstance(in_obj, Invisible):
                 x, y = in_obj.output_xy[in_pin]
                 self.border = self.border.union(Rect(x, y, 0, 0))        
Exemplo n.º 23
0
 def __init__(self, x, y, sheet, kind, mgr):
     super(Tile, self).__init__(x, y, kind)
     self.mgr = mgr
     self.resourcemgr = mgr.resourcemgr
     self.sheet = sheet
     set_tile_stats(self)
     self.rect = Rect(x, y, self.tile_width, self.tile_height)
     self.area = self.mgr.areas[self.kind]
     self.flags = FLAGS.TILE
Exemplo n.º 24
0
class LaserSprite(Sprite):
    def __init__(self, img_name, rect):
        self.image = pygame.image.load(img_name).convert_alpha()
        self.rect = Rect(rect.centerx, rect.y, 2, 9)
        super().__init__()

    def update(self):
        self.rect = self.rect.move(0, -10)
        if self.rect.bottom < 0:
            self.kill()
Exemplo n.º 25
0
 def set_extent(self, extent):
     """
     the camera caches some values related to the extent, so it becomes
     nessessary to call this instead of setting the extent directly.
     """
     self.extent = Rect(extent)
     self.half_width = self.extent.width / 2
     self.half_height = self.extent.height / 2
     self.width  = self.extent.width
     self.height = self.extent.height
    def reload(self, x, y, w, h, z, width, colorName):
        if self.x is not None:
            rectToUpdate = Rect(self.x - self.w / 2 - 1, self.y - self.h / 2 - 1, self.w + 2, self.h + 2)
            r2 = Rect(x - w / 2 - 1, y - h / 2 - 1, w + 2, h + 2)
            rectToUpdate.union_ip(r2)
            addRectToUpdate(rectToUpdate)
        else:
            rectToUpdate = Rect(x - w / 2 - 1, y - h / 2 - 1, w + 2, h + 2)
            addRectToUpdate(rectToUpdate)

        self.x = x
        self.y = y
        self.w = w
        self.h = h
        self.width = width
        self.colorName = colorName
        if self.z is not None:
            self.remove()
        _ovalsList[z].append(self)
        self.z = z
Exemplo n.º 27
0
 def nearest_edge(self, x, y):
     """ The nearest lot boundary on which a fence might be erected """
     lot = self.nearest_lot(x, y)
     if not lot:
         return None
     proximities = [(y - lot.top,"north"),
                    (lot.bottom-y,"south"),
                    (lot.right-x,"east"),
                    (x-lot.left,"west")]
     proximities.sort()
     closest = proximities[0]
     dist,side = closest
     if dist > EDGE_TOLERANCE:
         return None
     horizontal = (side=="north" or side=="south")
     vertical = (side=="east" or side=="west")
     if horizontal:
         rect = Rect(lot.left, lot.top - FENCE_MARGIN_NORTH, lot.width, 2*FENCE_MARGIN_NORTH)
         if side == "south":
             rect.move_ip(0, LOT_DEPTH)
         if not WATER_RECT.colliderect(rect):
             return rect
     elif vertical:
         rect = Rect(lot.left - FENCE_MARGIN_WEST, lot.top, 2*FENCE_MARGIN_WEST, lot.height)
         if side == "east":
             rect.move_ip(LOT_WIDTH, 0)
         if not WATER_RECT.colliderect(rect):
             return rect
Exemplo n.º 28
0
    def check_input_line_collision(self, pos):
        for p in self.inputs:
            if self.inputs[p]:
                obj, pin = self.inputs[p]
                if isinstance(obj, Invisible):
                    continue

                start = self.input_xy[p]
                end = obj.output_xy[pin]
                #basic rect TODO
                offset = self.parent.canvas.style["d_line_col"]
                
                x = min((start[0], end[0])) - offset
                y = min((start[1], end[1])) - offset
                w = abs(start[0] - end[0]) + offset * 2
                h = abs(start[1] - end[1]) + offset * 2
                
                basic = Rect(x, y, w, h)
                
                if basic.collidepoint(pos):
                
                    dx = end[0] - start[0]
                    dy = end[1] - start[1]
                    
                    if dx == 0 and dy == 0:
                        return False
                    
                    if abs(dx) < abs(dy):
                        k = float(dx) / float(dy)
                        x = start[0] + k * (pos[1] - start[1])
                
                        if abs(x - pos[0]) < offset:
                            return self, p, obj, pin                      
                    else:
                        k = float(dy) / float(dx)
                        y = start[1] + k * (pos[0] - start[0])
                        
                        if abs(y - pos[1]) < offset:
                            return self, p, obj, pin
        return False 
Exemplo n.º 29
0
class PhysicsComponent(object):
    def __init__(self, hitbox_size):
        self._hitbox = Rect((0, 0), hitbox_size)

    def _move(self, dx, dy, rect, wall_rects):
        """Moves each axis separately, checking for wall collisions twice.

        Returns:
            True iff a collision (in either axis) occurred.
        """
        collided_x = collided_y = False
        if dx != 0:
            collided_x = self._move_single_axis(dx, 0, rect, wall_rects)
        if dy != 0:
            collided_y = self._move_single_axis(0, dy, rect, wall_rects)
        return collided_x or collided_y

    def _move_single_axis(self, dx, dy, rect, wall_rects):
        """Moves the rect in a single axis, checking for collisions.

        Returns:
            True iff a collision with some wall rectangle occurred.
        """
        rect.move_ip(dx, dy)
        self._hitbox.midbottom = rect.midbottom

        indices = self._hitbox.collidelistall(wall_rects)
        collided = bool(indices)
        if collided:
            other_rects = (wall_rects[i] for i in indices)
            if dx > 0:
                self._hitbox.right = min(r.left for r in other_rects)
            if dx < 0:
                self._hitbox.left = max(r.right for r in other_rects)
            if dy > 0:
                self._hitbox.bottom = min(r.top for r in other_rects)
            if dy < 0:
                self._hitbox.top = max(r.bottom for r in other_rects)

        rect.midbottom = self._hitbox.midbottom

        return collided

    def update(self, sprite, world):
        """Updates the sprite's position."""
        (dx, dy) = sprite.velocity
        wall_rects = [w.rect for w in world.wall_tiles]

        # Stop moving if there was a collision.
        if self._move(dx, dy, sprite.rect, wall_rects):
            sprite.velocity = (0, 0)
            sprite.input_comp.next_pos = None
Exemplo n.º 30
0
class Player(Animated):
    """
    An instance is compatible with the level manager. Note that if
    :func:`rapidpg.levelmgr.collision.Level.update` is not used, a player
    instance doesn't have to be passed to the level manager
    """
    def __init__(self, surfs, interval):
        """
        :param surfs: A list of surfaces for animation
        :param interval: The interval between animation updates
        """
        super(Player, self).__init__({"right": Animation(surfs, interval)},
                                     lambda: "right", "right")
        self.jump_frames_left = 0
        self.jumping = False
        self.in_air = False
        self.up_speed = 20
        self.down_speed = 0
        self.dir = 'right'
        self.surfs = surfs
        self.rect = Rect(0, 0, 0, 0)
        if surfs:
            self.rect = surfs[0].get_rect()
        self.animation_interval = interval
        self.speed = 7

    def move(self, x, y):
        """
        Alias for ``plr.rect.move_ip``
        """
        self.rect.move_ip(x, y)

    def start_jump(self):
        """
        This method is used by the level manager to start the jump
        """
        if not self.jumping:
            self.jumping = True
            self.in_air = True
Exemplo n.º 31
0
    def __init__(self, x, y, width, height, color, texture):

        pygame.sprite.Sprite.__init__(self)
        self.image1 = pygame.Surface((width, height))
        self.image1.fill(color)
        for i in range(0, int(width / texture.get_rect().right + 1), 1):
            self.image1.blit(
                texture,
                Rect(i * texture.get_rect().right, 0,
                     texture.get_rect().width,
                     texture.get_rect().height))
        self.image = self.image1
        self.rect = self.image.get_rect()
        self.rect.x = x
        self.rect.y = y
        self.color = color
Exemplo n.º 32
0
class GameObject:
    def __init__(self, x, y, w, h, speed=(0, 0)):
        self.bounds = Rect(x, y, w, h)
        self.speed = speed

    @property
    def center(self):
        return self.bounds.center

    def move(self, dx, dy):
        self.bounds = self.bounds.move(dx, dy)

    def update(self):
        if self.speed == (0, 0):
            return
        self.move(*self.speed)
Exemplo n.º 33
0
 def design(self, drag=True):
     selected = pyzzle.dragRect(color=(255, 0,
                                       255)) if drag else Rect(0, 0, 0, 0)
     if selected.width > 10 and selected.height > 10:
         #add custom hotspot
         hotspotname = pyzzle.promptText(
             "Enter hotspot name: ",
             self.parent.id + self.id if self.id else '')
         if hotspotname and hotspotname not in Hotspot.rows:
             cursorfile = pyzzle.promptText("Enter cursor file: ",
                                            Hotspot.cursorDefault)
             if cursorfile:
                 hotspot = Hotspot(parent=self.parent,
                                   link=None,
                                   cursor=cursorfile,
                                   id=hotspotname)
                 hotspot.onTransition = standard.transition
                 hotspot.rectRel = RelativeRect(selected, self.parent.rect)
                 print hotspot.rect
                 self.parent.add(hotspot)
                 hotspot.design(drag=False)
     elif pygame.key.get_mods() & KMOD_CTRL:
         #delete/clear hotspot
         if self._template:
             self._link = None
         else:
             self.kill()
     else:
         #edit hotspot
         slidename = pyzzle.promptText('Enter slide name:')
         if slidename:
             slide = None
             if slidename in pyzzle.Slide:
                 slide = pyzzle.Slide[slidename]
             else:
                 slidefile = pyzzle.promptText('Enter slide file:',
                                               slidename + '.jpg')
                 if slidefile:
                     slide = pyzzle.Slide(slidename, slidefile,
                                          self.parent.stage)
                     slide._refs = {}
                     for ref in 'forward', 'up', 'down', 'right', 'left':
                         slide._refs[ref] = None
                     slide._loadRefs()
             if slide:
                 self._link = slide
                 self.click()
Exemplo n.º 34
0
def menu(screen,
         options,
         xy=(1000, 1000),
         top_left=(0, 0),
         text_color=WHITE,
         font=None,
         select_color=BLUE,
         loop_func=select_loop):
    """
    Generic selection menu

    TODO make more generic

    TODO make selected separate from highlighted, allowing user to hover over
    other elements and view descriptions for them and preserve their selection.

    TODO use txt_to_img to create the img instead of duplicating
    """
    # Font
    font = font or pygame.font.Font(None, 24)
    # Create a blank surface to draw the menu on
    menu_img = pygame.surface.Surface(xy)
    # Create imgs for each option provided
    if hasattr(options, 'keys'):
        option_keys = options.keys()
    else:
        option_keys = options
    imgs = [font.render(x, False, text_color) for x in options]
    # TODO Find the optimal location to start writing the menu
    cursor_start = (10, 10)
    img_positions = []  # Empty list to hold rects of the imgs
    x, y = cursor_start
    # Get img positions and blit options onto menu
    for i in imgs:
        select_box = Rect(x - 4 + top_left[0], y - 4 + top_left[1], 100, 20)
        img_positions.append(select_box)
        menu_img.blit(i, (x, y))
        y += 20

    selectable = Selectable(menu_img, img_positions, top_left, text_color,
                            select_color)

    res = select_loop(screen, selectable)
    if res is None:
        # If player hit escape, return None
        return None
    return option_keys[res]
Exemplo n.º 35
0
    def _get_subsurface(self, ratio_rect: Tuple[Tuple[float, float],
                                                Tuple[float, float]]):
        rect_surf = self.surf.get_rect()

        rect_sub_surf = Rect((0, 0), (0, 0))
        rect_sub_surf.x = int(ratio_rect[0][0] * rect_surf.w)
        rect_sub_surf.w = int(ratio_rect[1][0] * rect_surf.w)
        rect_sub_surf.y = int(ratio_rect[0][1] * rect_surf.h)
        rect_sub_surf.h = int(ratio_rect[1][1] * rect_surf.h)

        return self.surf.subsurface(rect_sub_surf)
Exemplo n.º 36
0
    def quadtree_render(self, screen: pygame.Surface, quadtree: Quadtree):
        w = quadtree.width() * self.engine.global_scale

        rand = np.random.RandomState(int(quadtree.position[0] + quadtree.position[1] * TERRAIN_WIDTH) + TERRAIN_WIDTH * TERRAIN_WIDTH)
        color = (rand.randint(0, 256), rand.randint(0, 256), rand.randint(0, 256))

        rect = Rect(self.get_world_position(quadtree.position) - np.ones(2) * w / 2, (w, w))
        pygame.draw.rect(screen, color, rect, 2)

        # for object in quadtree.objects:
        #     pygame.draw.polygon(screen, color, [self.get_world_position(p) for p in object])

        if not quadtree.is_leaf:
            for child in quadtree.childs:
                gPos=self.get_world_position(child.position)
                if 0 <= gPos[0]+w/2 and gPos[0]-w/2 <= SCREEN_WIDTH and 0 <= gPos[1]+w/2 and gPos[0]-w/2 <= SCREEN_HEIGHT and w > 100:
                    self.quadtree_render(screen, child)
Exemplo n.º 37
0
    def __init__(self):
        Microgame.__init__(self)
        self.rect = Rect(0, 0, locals.WIDTH, locals.HEIGHT)
        speed = BALL_SPEED_BASE
        widthqrt = self.rect.width / 4
        heightqrt = self.rect.height / 4

        self.ball = Ball(self, 150, randint(heightqrt, heightqrt * 3),  \
            randint(speed, speed + BALL_SPEED_RANGE),                   \
            choice([speed, -speed]))
        self.lbat = Bat(100, randint(heightqrt, heightqrt * 3),         \
                        self.rect, self.ball, True)
        self.rbat = Bat(self.rect.width - 150,                          \
                        randint(heightqrt, heightqrt * 3),              \
                        self.rect, self.ball)
        self.sprites = Group((self.ball, self.lbat, self.rbat))
        self.timeSinceWin = 0
Exemplo n.º 38
0
    def draw_turn(self, state):

        self._display_surf.fill((0, 0, 0))
        PLAYER_SPACING = 20
        PLAYER_W = 1200
        PLAYER_H = 400
        num_players = len(state.hands)
        for i in range(num_players):
            #self.draw_centered_text()
            y = i * (PLAYER_SPACING + PLAYER_H)
            hand_pos = self.draw_Player(
                self._display_surf.subsurface(Rect(0, y, 1200, PLAYER_H)),
                state, i)
            if i == 0:
                for pos, _ in hand_pos:
                    pos.y += y
                self.hand_pos = hand_pos
Exemplo n.º 39
0
def init():
    screen = pygame.display.set_mode((SW,SH),HWSURFACE)
    layer_group = pygame.sprite.LayeredDirty()
    bg_group = pygame.sprite.RenderUpdates()
    sprite_group = pygame.sprite.RenderUpdates()
    map_obj = newvid.TileMap(layer_group, bg_group)
    tiles = [[newvid.Tile(pygame.Surface((16,16)),
                        newvid.Pos(16,16),
                        newvid.Pos(1,1),
                        {},
                        newvid.Pos(x,y),
                        layer_group, bg_group)
                        for x in xrange(20)] for y in xrange(15)]
    for tile_row in tiles:
        for tile in tile_row:
            c = Color(1,2,3)
            c.hsva = (int(random() * 255),30,70, 70); c
            tile.image.fill(c)
    map_obj.sprites = tiles
    map_obj.tile_size = newvid.Pos(16,16)
    map_obj.size = newvid.Pos(20, 15)
    map_obj.surface = pygame.surface.Surface((SW, SH))
    map_obj.set_bg()

    sprite_col = newvid.SpriteCollection(layer_group, sprite_group, sprite_file=None)

    sprite = AnimatedSprite(
                        pygame.Surface((16,16)),
                        newvid.Pos(16,16),
                        newvid.Pos(1,1),
                        {},
                        newvid.Pos(19, 14),
                        layer_group,
                        sprite_group)
    sprite.image.fill(Color(255,0,0))
    sprite_col.sprites = [sprite]

    g = newvid.NewVid(screen=screen, layer_group=layer_group,
                      map_obj=map_obj, sprite_col=sprite_col,
                      bg_group=bg_group)
    sprite.vid = g
    g.view = screen.get_rect()
    g.old_view = Rect(g.view)


    return g
Exemplo n.º 40
0
    def go(self, display):

        super().go(display)

        shade = Surface(
            (self._w, self._h * self._cooldown_left // self._cooldown_timer))
        shade.set_alpha(63)
        shade.fill(constants.BLACK)
        y_pos = self._y + (self._h *
                           (self._cooldown_timer - self._cooldown_left) //
                           self._cooldown_timer)
        display.blit(shade, (self._x, y_pos))

        pygame.draw.rect(display, constants.BLACK,
                         Rect(self._x, self._y, self._w, self._h), 2)

        self._cooldown_left = max(0, self._cooldown_left - 1)
Exemplo n.º 41
0
    def __init__(self):
        pygame.init()
        scale = 0.8
        size = (int(960 * scale), int(510 * scale))
        self.screen = pygame.display.set_mode(size, pygame.HWSURFACE)
        self.screen_rect = Rect(0, 0, size[0], size[1])
        self.clock = pygame.time.Clock()
        self.tick_clock = pygame.time.Clock()

        self.asset_manager = AssetManager()
        self.inputs = InputController()

        self.game = Game(self.asset_manager, self.screen_rect)
        self.draw_thread = thread.start_new_thread(self.draw_loop,
                                                   ("draw", 60))

        pygame.mouse.set_visible(False)
Exemplo n.º 42
0
 def _entity_action_text(self, entity_action_text: EntityActionText):
     entity_center_pos = entity_action_text.entity.get_center_position()
     text = entity_action_text.text
     detail_lines = []
     for detail_entry in entity_action_text.details:
         detail_lines += split_text_into_lines(detail_entry, 30)
     if detail_lines:
         line_length = max(max([len(line) for line in detail_lines]), len(text))
     else:
         line_length = len(text)
     rect_width = line_length * 8
     rect_height = 16 + len(detail_lines) * 16
     rect_pos = (entity_center_pos[0] - rect_width // 2, entity_center_pos[1] - 60)
     self.world_render.rect_transparent(Rect(rect_pos[0], rect_pos[1], rect_width, rect_height), 150, (0, 0, 0))
     self.world_render.text(self.font_npc_action, text, (rect_pos[0] + 4, rect_pos[1]))
     for i, detail_line in enumerate(detail_lines):
         self.world_render.text(self.font_npc_action, detail_line, (rect_pos[0] + 4, rect_pos[1] + (i + 1) * 16))
Exemplo n.º 43
0
def create_player(area: Rect, arguments: PlayerArguments,
                  right_side: bool) -> Player:
    width = (arguments["width"] if "width" in arguments else 10)
    height = (arguments["height"] if "height" in arguments else 100)
    if right_side:
        left = area.right - width
    else:
        left = area.left
    top = area.centery

    player_rect = Rect(left, top, width, height)
    if arguments["ai"]:
        left_player = AiPlayer(player_rect, area, arguments["name"],
                               right_side)
    else:
        left_player = Player(player_rect, area, arguments["name"])
    return left_player
Exemplo n.º 44
0
def draw_window(window, base):
    base.draw(window)

    if PREVIOUS is not None:
        rect = Rect(PREVIOUS.x_min, PREVIOUS.y_min, PARTITION - 1, PARTITION -1)
        pygame.draw.rect(window, (0, 0, 190), rect, 4)
        if PREVIOUS.Piece.potentialSquares is not None:
            for tile in PREVIOUS.Piece.potentialSquares:
                id = getTile(tile)
                pygame.draw.circle(window, DFASJD , (int(id.x_min + PARTITION/2), int(id.y_min + PARTITION/2)), int(PARTITION/6))


    if base.showCoordinates:
        base.draw_coordinates(window)

    if base.showAxes:
        base.draw_coordinate_axes(window)
Exemplo n.º 45
0
    def get_render_info(
        self,
        transform: Tuple,
        buffer_to_render: BufferToRender,
        buffer_to_draw: DrawingBuffer = None,
    ):
        new_transform = (
            transform[0] + self.collision.x,
            transform[1] + self.collision.y,
            1,
            1,
        )
        result = list()
        buffer_to_draw.add(
            DrawInformation(
                transform=transform,
                draw_rect=self.collision,
                fill_color=self.back_color,
            ))

        timer_text = Text(
            Rect(CELL_SIZE * 12, CELL_SIZE * 2, CELL_SIZE * 4, CELL_SIZE),
            (CELL_SIZE, CELL_SIZE),
            "Осталось {} сек.".format(str(buffer_to_render.session_timer)),
        )

        for text_render_info in timer_text.get_render_info(
                new_transform, buffer_to_render):
            buffer_to_draw.add(text_render_info)

        for text_render_info in self.my_field_text_marker.get_render_info(
                new_transform, buffer_to_render):
            buffer_to_draw.add(text_render_info)

        for text_render_info in self.bot_field_text_marker.get_render_info(
                new_transform, buffer_to_render):
            buffer_to_draw.add(text_render_info)

        self.player_field_element.get_render_info(new_transform,
                                                  buffer_to_render,
                                                  buffer_to_draw, False)

        self.bot_field_element.get_render_info(new_transform, buffer_to_render,
                                               buffer_to_draw, True)

        return result
Exemplo n.º 46
0
    def __init__(self, window_surface: Surface, pos: tuple = None, frame_color: tuple = None,
                 fill_color: tuple = None):
        self.window_surface = window_surface
        self.rect = Rect(0, 0, 100, 50)  # Стандартные размер и положение рамки

        if pos is not None:
            self.set_pos(pos[0], pos[1], pos[2], pos[3])

        if frame_color is not None:
            self.frame_color = frame_color
        else:
            self.frame_color = None  # Стандартный цвет обводки

        if fill_color is not None:
            self.fill_color = fill_color
        else:
            self.fill_color = None  # Стандартный цвет заливки
Exemplo n.º 47
0
class GameObject(object):
    def __init__(self, x, y, w, h, speed=(0, 0)):
        self.bounds = Rect(x, y, w, h)
        self.speed = speed

    @property
    def left(self):
        return self.bounds.left

    @property
    def right(self):
        return self.bounds.right

    @property
    def top(self):
        return self.bounds.top

    @property
    def bottom(self):
        return self.bounds.bottom

    @property
    def center(self):
        return self.bounds.center

    @property
    def centerx(self):
        return self.bounds.centerx

    @property
    def centery(self):
        return self.bounds.centery

    def draw(self, surface):
        pass

    def move(self, dx, dy):
        self.bounds = self.bounds.move(dx, dy)

    def update(self):
        '''
        if self.speed == [0, 0]:
            return   
        '''
        self.move(*self.speed)
Exemplo n.º 48
0
    def apply_middle_effect(self, game_state: GameState, buffed_entity: WorldEntity, buffed_npc: NonPlayerCharacter,
                            time_passed: Millis) -> Optional[bool]:

        self.time_since_start += time_passed

        charger_center_pos = buffed_entity.get_center_position()

        if self.graphics_timer.update_and_check_if_ready(time_passed):
            visual_circle = VisualCircle((250, 250, 250), charger_center_pos, 15, 25, Millis(120), 2, None)
            game_state.visual_effects.append(visual_circle)

        rect_w = 32
        # NOTE: We assume that this ability is used by this specific hero
        hero_entity_size = HEROES[HeroId.WARRIOR].entity_size
        impact_pos = translate_in_direction(
            charger_center_pos, buffed_entity.direction, rect_w / 2 + hero_entity_size[0] / 2)

        impact_rect = Rect(int(impact_pos[0] - rect_w / 2), int(impact_pos[1] - rect_w / 2), rect_w, rect_w)
        affected_enemies = game_state.get_enemy_intersecting_rect(impact_rect)
        for enemy in affected_enemies:
            visual_impact_pos = get_middle_point(charger_center_pos, enemy.world_entity.get_center_position())
            damage = MIN_DMG
            # Talent: Apply damage bonus even if using charge in melee range
            has_melee_upgrade = game_state.player_state.has_upgrade(HeroUpgradeId.ABILITY_CHARGE_MELEE)
            damage_increased = self.time_since_start > float(CHARGE_DURATION) * 0.3 or has_melee_upgrade
            if damage_increased:
                # TODO Stun target as a bonus here
                damage = MAX_DMG
            deal_player_damage_to_enemy(game_state, enemy, damage, DamageType.PHYSICAL,
                                        visual_emphasis=damage_increased)
            game_state.visual_effects.append(
                VisualRect((250, 170, 0), visual_impact_pos, 45, 25, IMPACT_STUN_DURATION, 2, None))
            game_state.visual_effects.append(
                VisualRect((150, 0, 0), visual_impact_pos, 35, 20, IMPACT_STUN_DURATION, 2, None))
            game_state.player_state.gain_buff_effect(get_buff_effect(BUFF_TYPE_STUNNED), IMPACT_STUN_DURATION)
            enemy.gain_buff_effect(get_buff_effect(BUFF_TYPE_STUNNED), IMPACT_STUN_DURATION)
            game_state.camera_shake = CameraShake(Millis(50), Millis(150), 12)
            play_sound(SoundId.ABILITY_CHARGE_HIT)
            has_stomp_cooldown_upgrade = game_state.player_state.has_upgrade(
                HeroUpgradeId.ABILITY_CHARGE_RESET_STOMP_COOLDOWN)
            if has_stomp_cooldown_upgrade:
                game_state.player_state.set_ability_cooldown_to_zero(AbilityType.STOMP)
            # The buff should end upon impact
            return True
        return False
Exemplo n.º 49
0
class GameObject:
    def __init__(self, x, y, w, h):
        self.bound = Rect(x, y, w, h)

    @property
    def left(self):
        return self.bound.left

    @property
    def right(self):
        return self.bound.right

    @property
    def top(self):
        return self.bound.top

    @property
    def bottom(self):
        return self.bound.bottom

    @property
    def width(self):
        return self.bound.width

    @property
    def height(self):
        return self.bound.height

    @property
    def center(self):
        return self.bound.center

    @property
    def centerx(self):
        return self.bound.centerx

    @property
    def centery(self):
        return self.bound.centery

    def move(self, dx, dy):
        self.bound = self.bound.move(dx, dy)

    def draw(self, surface):
        pass
Exemplo n.º 50
0
    def __init__(self, id, width, height, x, y, image=None):
        """Give the element an id, size, position and image

        All elements have to give the id, size, and position but the image is optional"""
        pygame.sprite.Sprite.__init__(self)
        self.width = width
        self.height = height
        self.x = x
        self.y = y
        self.id = id
        if image is not None:
            self.image = pygame.transform.scale(image,
                                                (int(width), int(height)))
        else:
            self.image = None
        self.isAnimation = False
        self.animationController = None
        self.rect = Rect(x, y, width, height)
Exemplo n.º 51
0
 def draw_art(self):
     """Method to draw the mouse click art"""
     if globals.mouse_left_pressed:
         x, y = gf.get_mouse_position()
         collide_with_button = False
         for button in self._buttons_to_draw:
             collide_with_button = button.get_rect().collidepoint(x, y)  #Check if the drawing will collide with the buttons
             if collide_with_button:
                 break
         if not collide_with_button and not self._guess_button_pressed:
             self.__colored_pixels.add((x, y))
     for pixel in self.__colored_pixels:
         pygame.draw.rect(self.get_screen(), 
                          self.get_settings().pen_color, 
                          Rect(pixel[0], 
                               pixel[1], 
                               self.get_settings().pen_size, 
                               self.get_settings().pen_size))
Exemplo n.º 52
0
def random_pos_rect(size: Union[Rect, Tuple[int, int]],
                    excluded_rects: List[Rect]) -> Rect:
    """
    Generates random position within the screen. Excludes points that would be out of screen and possibly colliding
    objects, which can be passed though a list.
    :param size: rect or tuple with object's width and height
    :param excluded_rects: list of positions that will be excluded from the possible rectangles
    :return: rect with a random position within the screen, with the same dimensions
    """
    size_is_rect = isinstance(size, Rect)
    rect = size if size_is_rect else Rect(0, 0, size[0], size[1])
    max_width = Screen.WIDTH - rect.w
    max_height = Screen.HEIGHT - rect.h
    rects_without_collision = [
        rect for rect in possible_rects(max_width, max_height)
        if not rect.collidelist(excluded_rects) >= 0
    ]
    return choice(rects_without_collision)
Exemplo n.º 53
0
    def render(self):
        """
        Renders the textblock to the default surface using the current properties of this object
        :rtype : RectType
        """

        self.left = self.pos[0]
        self.top = self.pos[1]

        effective_text = self.get_effective_text()

        if self.font is not None and effective_text is not None:
            color = self.get_foreground()
            self.rect = render_text(self.display, self.font, effective_text, self.pos[0], self.pos[1], color)
        else:
            self.rect = Rect(self.left, self.top, 0, 0)

        return self.set_dimensions_from_rect(self.rect)
Exemplo n.º 54
0
class GameObject:
    def __init__(self, x, y, w, h, speed=(0, 0)):
        self.x = x
        self.y = y
        self.bounds = Rect(x, y, w, h)
        self.speed = speed

    def draw(self, surface):  #отрисовать
        pass

    def move(self, dx, dy):  #
        self.bounds = self.bounds.move(dx, dy)

    def update(self):  #обновить координаты
        if self.speed == [0, 0]:
            return

        self.move(*self.speed)
Exemplo n.º 55
0
    def load_image(rect=None, flags=None) -> PygameSDL2Tile:
        if rect:
            assert parent_rect.contains(rect)
        else:
            rect = parent_rect

        angle, flipx, flipy = handle_flags(flags)
        rect = Rect(*rect)
        size = rect.size
        return PygameSDL2Tile(
            texture=texture,
            srcrect=rect,
            size=size,
            angle=angle,
            center=None,
            flipx=flipx,
            flipy=flipy,
        )
Exemplo n.º 56
0
    def create_particle(self):

        random.seed(random.randint(-9999999999, 9999999999))

        img_path = random.choice(self.__class__.IMG_ADDRESSES)
        type = GraphicsFactory.get_template(img_path)

        x = random.randint(50, self.width - 50)
        y = random.randint(50, self.height - 50)
        canvas = Rect(x, y, *type.size())

        speed = []

        for _ in range(2):
            abs_speed = random.randint(1, 9)
            speed.append(random.choice([-abs_speed, abs_speed]))

        self.particles.add(Graphics(type, canvas, *speed))
Exemplo n.º 57
0
 def _rect_for_index(self, index: int) -> Rect:
     assert 0 <= index < len(self._elements)
     # The rect is shifted to match the container position and scaled
     # to match its weight and the layout orientation.
     weight = self._cumulative_weights[index]
     prev_weight = 0 if index == 0 else self._cumulative_weights[index - 1]
     container = self._container
     x = container.x
     y = container.y
     w = container.width
     h = container.height
     if self._direction == _LayoutDirections.HORIZONTAL:
         x += (prev_weight / self._total_weight) * container.width
         w = (weight - prev_weight) * container.width / self._total_weight
     else:
         y += (prev_weight / self._total_weight) * container.height
         h = (weight - prev_weight) * container.height / self._total_weight
     return Rect(x, y, w, h)
Exemplo n.º 58
0
    def __init__(self, _id, x, y, tileLoader: TileLoader, tileSize, speed):
        Sprite.__init__(self)
        self._id = _id
        self.rect = Rect(x, y, tileSize.x, tileSize.y)
        self.image = None
        self.pos = Vector2(x, y)
        self.target = self.pos
        self.speed = speed

        self.tileSize = tileSize

        self.movingTo = False

        self.brain = FSM()

        self.currentState = ""

        self.movingCreatures: pygame.sprite.Group = None
Exemplo n.º 59
0
    def get_bounding_rects(self):
        """get_bounding_rects() -> Rects

           Returns a list of bounding rects of regions of set pixels."""
        num_bounding_boxes = ffi.new('int[1]')
        regions = ffi.new('SDL_Rect**')
        r = sdl.internal_get_bounding_rects(self._mask, num_bounding_boxes,
                                            regions)
        # internal_get_bounding_rects returns -2 on memory errors, 0 otherwise
        if r == -2:
            raise MemoryError("Not enough memory to get bounding rects.")
        rects = []
        # The C code creates an array indexed from 1.
        # This turns out to be surprisingly hard to figure out.
        for i in range(1, num_bounding_boxes[0] + 1):
            region = regions[0][i]
            rects.append(Rect((region.x, region.y, region.w, region.h)))
        return rects
Exemplo n.º 60
0
 def spawnMenu(self, gridPos, screenPos, actions):
     if not self.menuSpawned:
         self.menuPosition = gridPos
         self.buttonContainer.position = screenPos
         self.buttonContainer.buttons.clear()
         x = 10
         y = 10
         for action in actions:
             self.buttonContainer.addButton(Button(Rect(x, y, 80, 20), (255, 0, 0), action.getName(), lambda: self.taskList.enqueueTask(action.getTask())))
             y += 30
         self.menuSpawned = True
     else:
         if (self.buttonContainer.position.x + self.buttonContainer.size.x > screenPos.x > self.buttonContainer.position.x and
                 self.buttonContainer.position.y + self.buttonContainer.size.y > screenPos.y > self.buttonContainer.position.y):
             if self.buttonContainer.getButtonPressed(screenPos):
                 self.menuSpawned = False
         else:
             self.menuSpawned = False