Ejemplo n.º 1
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    def __init__(self, config, position, debug_label=None):
        """
        :param config: values from game_config.py
        :param position: (int, int). the x and y coordinates

        big: boolean. true if actor currently enlarged, false if actor currently small
        dirty: boolean. true if they need to be redrawn, false if not.
        owner: Actor. if actor is a projectile, owner will be set to the actor that shoots the projectile
        size: size of actor on the screen at the near plane.
        scale_x: double. the ratio between the player size and the texture size (for x)
        scale_y: double. the ratio between the player size and the texture size (for y)
        coord: Vector3. game coordinates of actor
        velocity: Vector3. Starts out at 0, 0, 0
        cshape: the collision shape
        """
        texture_name = '/'.join(
            ['assets', 'textures', config['type'], config['texture']])
        self.big = False
        self.dirty = True
        self.owner = None
        self.debug_label = debug_label
        super().__init__(texture_name)
        self.size = config["size"]
        rect = self.get_rect()
        self.scale_x = self.size[0] / rect.width
        self.scale_y = self.size[1] / rect.height
        self.coord = Vector3(*position)
        self.velocity = Vector3()
        self.do(PhysicsAction())
        self.cshape = CircleShape(Vector2(*self.coord.xy), self.size[0] / 2)
Ejemplo n.º 2
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    def shoot(self, key_down):
        if key_down:
            x, y = self.actor.coord.xy
            rock = Actor(item_types["rock"], (x, y, self.actor.size[1] * 0.6))
            rock.velocity = Vector3(y=Player.SHOOT_SPEED)
            rock.owner = self.actor

            game_layer = self.actor.parent
            game_layer.add(rock)
            game_layer.projectiles.append(rock)
Ejemplo n.º 3
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 def __init__(self, config, position, debug_label=None):
     """
     :param config: values from game_config.py
     :param position: (int, int). the x and y coordinates
     """
     texture_name = '/'.join(
         ['assets', 'textures', config['type'], config['texture']])
     self.big = False
     self.dirty = True
     self.owner = None
     self.debug_label = debug_label
     super().__init__(texture_name)
     self.size = config["size"]
     rect = self.get_rect()
     self.scale_x = self.size[0] / rect.width
     self.scale_y = self.size[1] / rect.height
     self.coord = Vector3(*position)
     self.velocity = Vector3()
     self.do(PhysicsAction())
     self.cshape = CircleShape(Vector2(*self.coord.xy), self.size[0] / 2)
Ejemplo n.º 4
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    def step(self, dt):
        """
        runs one frame for each actor of the game
        :param dt: delta time: the difference in time between previous frame and next frame
        """

        # if not moving, or not changed
        if not (self.target.velocity or self.target.dirty):
            return

        # reset dirty to false
        self.target.dirty = False

        # adding the change in location based on velocity
        self.target.coord = self.target.velocity * dt + self.target.coord
        x, y, z = self.target.coord.xyz

        # check to see if target goes off screen and, if so, set appropriate coords
        if self.target.velocity:
            if x > config.screen_size[0]:
                x = config.screen_size[0]
            if x < 0:
                x = 0
            if y > FAR_PLANE:
                y = FAR_PLANE
            if y < NEAR_PLANE:
                y = NEAR_PLANE

            self.target.coord = Vector3(x, y, z)

        # distance is the percentage of distance between the near and far planes
        distance = (y - NEAR_PLANE) / FAR_PLANE

        # calculates the scale of the actor
        self.target.scale = NEAR_SCALE - (distance * (NEAR_SCALE - FAR_SCALE))

        # right now this is for debugging
        # todo create effect for when actor is hit
        if self.target.big:
            self.target.scale *= 2

        # used to calculate the location on the x axis
        screen_width_diff = SCREEN_NEAR_WIDTH - SCREEN_FAR_WIDTH

        # used to calculate the location on the y axis
        screen_y_diff = SCREEN_FAR_Y - SCREEN_NEAR_Y

        # used to calculate where they should appear on the x axis
        x_percent = x / SCREEN_NEAR_WIDTH

        # width of the game field at the distance you are at
        width_at_distance = SCREEN_NEAR_WIDTH - distance * screen_width_diff

        # offset for x based on the distance on y
        distance_offset = (SCREEN_NEAR_WIDTH - width_at_distance) / 2

        # calculates the x value for position.
        x = width_at_distance * x_percent + distance_offset

        # TODO: apparent y distance travelled needs to decrease as distance increases
        # calculates the y value for position.
        y = (distance * screen_y_diff) + SCREEN_NEAR_Y

        # get the rect to get where the actor's feet are
        rect = self.target.get_rect()

        rect.midbottom = x, y + z * self.target.scale

        # set up debug
        if self.target.debug_label is not None:
            self.target.debug_label.element.text = '{0},{1}'.format(x, y)

        # position is position of rect on screen.
        self.target.position = rect.center

        # sorting actors along the y axis. if y value is higher, actor should appear behind
        if self.target.velocity.y != 0:
            self.target.parent.remove(self.target)
            # inverse y coordinate to make it smaller for sorting.
            self.target.parent.add(self.target, -self.target.coord.y)

        self.target.cshape = CircleShape(Vector2(*self.target.coord.xy),
                                         self.target.size[0] / 2)
Ejemplo n.º 5
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 def move_backward(self, moving):
     self.actor.velocity = self.actor.velocity - Vector3(
         y=Player.SPEED * (1 if moving else -1))
Ejemplo n.º 6
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 def move_right(self, moving):
     self.actor.velocity = self.actor.velocity + Vector3(
         Player.SPEED * (1 if moving else -1))