Exemplo n.º 1
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def generate(busters_cnt, ghosts_cnt):
    list_busters_pos = [[1176, 2024], [2024, 1176], [14824, 6976],
                        [13976, 7824]]
    list_busters_types = [0, 0, 1, 1]
    list_ghosts_lives = [5, 15, 40]
    busters = {
        i: Entity(
            f"{i} {list_busters_pos[i][0]} {list_busters_pos[i][1]} {list_busters_types[i]} 5 0"
        )
        for i in range(busters_cnt * 2)
    }
    ghosts = {i: Entity(f"{i} 8000 4500 -1 5 0") for i in range(ghosts_cnt)}
    lives = list_ghosts_lives[round(random.uniform(0, 16000)) % 3]
    ghosts[0].state = lives
    for i in range(1, ghosts_cnt, 2):
        lives = list_ghosts_lives[round(random.uniform(0, 16000)) % 3]
        ghosts[i].state = lives
        ghosts[i + 1].state = lives
        x = round(random.uniform(0, 16000))
        ghosts[i].x = x
        ghosts[i + 1].x = 16000 - x
        y = round(random.uniform(0, 9000))
        ghosts[i].y = y
        ghosts[i + 1].y = 9000 - y
    return busters, ghosts
Exemplo n.º 2
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    def __init__(self, tier=1, speed=3, angle=0, pos=(0, 0)):
        # Tier determines the size, and how many times it breaks apart
        size = (tier * 15, tier * 15)
        Entity.__init__(self, size, pos)

        self.tier = tier

        self.velocity.from_polar((speed, angle))
        self.angle = angle
        self.position = Vector(pos)

        # The angle spread of the children when the asteroid breaks apart
        self.spread = 20

        first = (size[0] - 1) / 3
        second = first * 2
        third = first * 3
        octagon = [
            (first, 0),  # top 1
            (second, 0),  # top 2
            (third, first),  # right 1
            (third, second),  # right 2
            (second, third),  # bottom 1
            (first, third),  # bottom 2
            (0, second),  # left 1
            (0, first)  # left 2
        ]
        draw_polygon(self.image, COLOR.WHITE, octagon, 2)

        Asteroid.group.add(self)
Exemplo n.º 3
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    def __init__(self, pos=SCREEN_CENTER):
        Entity.__init__(self, (18, 18), pos)

        # Acceleration vector that will be rotated and added to velocity
        self.acceleration = Vector(0, -0.2)

        # controls how quickly the ship slows down
        self.slow_speed = 0.1

        # controls how quickly the ship rotates and slows its rotation
        self.rotate_increment = 0.5
        self.slow_rotation = self.rotate_increment / 2

        # 10 frame cooldown, start at 0
        self.fire_cooldown = 0

        # Group of all lasers for collision purposes
        self.lasers = SpriteGroup()

        # Draws an arrow facing in the direction of angle to serve as the ship
        size = self.image.get_size()
        arrow_points = [
            (0, size[1] - 1),  # bottom left
            ((size[0] - 1) / 2, 0),  # top middle
            (size[0] - 1, size[1] - 1)  # bottom right
        ]
        draw_lines(self.image, COLOR.WHITE, False, arrow_points, 2)
Exemplo n.º 4
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 def kill(self):
     if self.tier > 1:
         # Spawn two new asteroids of a tier lower
         speed = self.velocity.length()
         new_tier = self.tier - 1
         angle1 = self.angle - self.spread
         angle2 = self.angle + self.spread
         asteroid1 = Asteroid(new_tier, speed, angle1, self.position)
         asteroid2 = Asteroid(new_tier, speed, angle2, self.position)
     Asteroid.number_destroyed += 1
     Entity.kill(self)
Exemplo n.º 5
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    def __init__(self, pos=(0, 0), angle=0):
        Entity.__init__(self, (5, 2), pos)

        # 60 frames = 1 second
        self.lifetime = 60

        self.orig_img.fill(COLOR.WHITE)

        # angle 0 points right, so subtract 90 degrees
        angle = angle - 90
        self.velocity.from_polar((self.max_velocity, angle))
        self.rotate(angle)
Exemplo n.º 6
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    def update(self):
        keys = get_pressed()

        if keys[K_LEFT]:
            self.rotation_speed -= self.rotate_increment
        if keys[K_RIGHT]:
            self.rotation_speed += self.rotate_increment
        if keys[K_UP]:
            self.velocity += self.acceleration
        if keys[K_z]:
            self.fire()

        Entity.update(self)
Exemplo n.º 7
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 def __init__(self, *args):
     """Create a viewport entity that displays contents of a camera inside the world.
     Arguments are either (Camera, int, int) for a new camera or
     (Camera) for an existing one
     """
     Entity.__init__(self)
     if len(args) == 1:
         self.camera = args[0]
     elif len(args) == 3:
         scene = args[0]
         width = args[1]
         height = args[2]
         self.camera = Camera(scene, width, height)
     else:
         raise TypeError, "Viewport's constructor takes either 4 or 2 arguments, %i given" % len(args)+1
Exemplo n.º 8
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 def __init__(self, scr_w: int, scr_h: int) -> None:
     self.console = tcod.console_new(scr_w, scr_h)
     self.stage: Stage = Stage(scr_w, scr_h)
     self.entities: List[Entity] = []
     self.player: Entity = Entity()
     self.entities.append(self.player)
     self._construct()
Exemplo n.º 9
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    def __init__(self, entity: Optional[Entity] = None) -> None:
        if entity is None:
            self.entity: Entity = Entity()
        else:
            self.entity: Entity = entity

        self.entity.body = Body(self.entity, Pos(0, 0))
Exemplo n.º 10
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 def calc_rotation(self):
     """Calculates the next angle in the rotation"""
     # Slow the rotation
     if self.rotation_speed > 0:
         self.rotation_speed -= self.slow_rotation
     elif self.rotation_speed < 0:
         self.rotation_speed += self.slow_rotation
     return Entity.calc_rotation(self)
Exemplo n.º 11
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 def calc_position(self):
     # simulate friction to slow the ship
     friction = self.velocity.length() - self.slow_speed
     if friction <= 0:
         friction = 0
     try:
         self.velocity.scale_to_length(friction)
     except ValueError:
         # Fixes vector scaling issues
         self.velocity = Vector()
     return Entity.calc_position(self)
Exemplo n.º 12
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    def test_engine_file(self):
        blocks = []
        current_block = None
        file_name_new = '/home/miron/work/cg-CodeBusters/tests/game_v2_4.txt'

        block_starters = ['INIT:\n', 'INPUT:\n', 'OUTPUT:\n']
        block_stoppers = ['INIT:\n', 'INPUT:\n', 'OUTPUT:\n', '\n']

        with open(file_name_new, 'r') as f:
            lines = f.readlines()
        for line in lines:
            if line in block_stoppers and current_block is not None:
                current_block = None
            if line in block_starters:
                current_block = []
                blocks.append(current_block)
            if current_block is not None and line not in block_stoppers and line not in block_starters:
                current_block.append(line[:-1])

        busters_count, ghosts_count = map(int, blocks[0][:2])
        del blocks[0], blocks[2]
        steps1 = list(zip(blocks[0::4], blocks[1::4]))
        steps2 = list(zip(blocks[2::4], blocks[3::4]))
        busters, ghosts = {}, {}
        for step_ in zip(steps1, steps2):
            for j in range(2):
                for i in step_[j][0]:
                    id_, x, y, type_, state, value = i.split()
                    if type_ == '-1' and int(id_) not in ghosts:
                        ghosts[int(id_)] = Entity(i)
                    if type_ != '-1' and int(id_) not in busters:
                        busters[int(id_)] = Entity(i)
        g = Engine(busters_count, ghosts_count, busters, ghosts)

        for i in range(len(steps1)):
            a = g.get_info(0)
            b = g.get_info(1)
            self.assertEqual('\n'.join(steps1[i][0]), a[:-1])
            self.assertEqual('\n'.join(steps2[i][0]), b[:-1])
            if i < len(steps1) - 1:
                g.do(steps1[i][1], steps2[i][1])
Exemplo n.º 13
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    def init(self):
        self.text_font = pygame.font.Font('freesansbold.ttf', 13)
        self.text_font2 = pygame.font.Font('freesansbold.ttf', 20)

        self.ball = Ball(np.array([280, 454]), 10.0,
                         Material(THECOLORS['green']))

        wall_material = Material(THECOLORS['black'])
        wall_width = 5.0
        self.walls = [
            Wall(np.array([0, 0]), float(self.width), wall_width,
                 wall_material, "UpperWall"),
            Wall(np.array([0, 0]), wall_width, float(self.height),
                 wall_material, "LeftWall"),
            Wall(np.array([self.width - wall_width, 0]), wall_width,
                 float(self.height), wall_material, "RightWall"),
            Wall(np.array([self.width - 25.0, self.height - 35.0]), 10.0, 35.0,
                 wall_material, "Plunger"),
            Entity(ConvexPolygon(
                np.array([[self.width - 40, 0], [self.width, 0],
                          [self.width, 50], [self.width - 40, 20]]),
                Transform(np.array([self.width, self.height]))),
                   wall_material,
                   100,
                   name="TopRight"),
            Entity(ConvexPolygon(
                np.array([[5, self.height - 69], [5, self.height - 97],
                          [57.91117863822124, 434.5569177391425],
                          [46.08882136177876, 455.4430822608575]]),
                Transform(np.array([5, self.height - 69]))),
                   wall_material,
                   100,
                   name="LeftArm"),
            Entity(ConvexPolygon(
                np.array([[self.width - 40, self.height - 97],
                          [self.width - 40, self.height - 69],
                          [215.91117863822123, 455.4430822608575],
                          [204.08882136177877, 434.5569177391425]]),
                Transform(np.array([self.width - 40, self.height - 97]))),
                   wall_material,
                   100,
                   name="RightArm"),
        ]

        self.valve = Valve(
            Rectangle(5.0, self.height - 100.0,
                      Transform(np.array([self.width - 40, 100]))),
            Rectangle(5.0, float(self.height),
                      Transform(np.array([self.width - 40, 0]))),
            wall_material, "MiddleWall")

        bumper_material = Material(THECOLORS['red'], restitution=1.2)
        p = np.array([60, 100])
        p2 = np.array([200, 150])
        w = np.array([15, 0])
        h = np.array([0, 30])
        self.bumpers = [
            Bumper(ConvexPolygon(np.array([p - w, p + h, p + w, p - h]),
                                 Transform(p)),
                   material=bumper_material,
                   name="Bumper1",
                   points=20),
            Bumper(ConvexPolygon(np.array([p2 - w, p2 + h, p2 + w, p2 - h]),
                                 Transform(p)),
                   material=bumper_material,
                   name="Bumper2",
                   points=20),
            # Bumper(Circle(10.0, Transform(np.array(np.array([70, 320])))), material=bumper_material, name="Bumper3"),
            # Bumper(Circle(10.0, Transform(np.array(np.array([190, 320])))), material=bumper_material, name="Bumper4"),
            Bumper(Circle(20.0, Transform((p + p2) / 2 + 3 * h)),
                   material=bumper_material,
                   name="Bumper5",
                   points=5),
        ]

        flipper_material = Material(THECOLORS['red'], restitution=0.7)
        self.left_flipper = Flipper(np.array([52, self.height - 55]),
                                    np.array([102,
                                              self.height - 25]), -math.pi / 4,
                                    flipper_material, 'LeftFlipper')
        self.right_flipper = Flipper(
            np.array([self.width - 90, self.height - 55]),
            np.array([self.width - 140, self.height - 25]), math.pi / 4,
            flipper_material, 'RightFlipper')
Exemplo n.º 14
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 def get_local_boids(self, boid: Entity):
     return [
         other_boid for other_boid in self.boids
         if boid.distance_to(other_boid) < boid.local_radius
         and boid != other_boid
     ]
Exemplo n.º 15
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 def rotate(self, angle=0):
     self.acceleration.rotate_ip(self.rotation_speed)
     Entity.rotate(self, angle)
Exemplo n.º 16
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 def kill(self):
     self.lasers.empty()
     Entity.kill(self)
Exemplo n.º 17
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        current_block = []
        blocks.append(current_block)
    if current_block is not None and line not in block_stoppers and line not in block_starters:
        current_block.append(line[:-1])
busters_count, ghosts_count = map(int, blocks[0][:2])
player0, player1 = Game('\n'.join(blocks[0])), Game('\n'.join(blocks[3]))
del blocks[0], blocks[2]
steps1 = list(zip(blocks[0::4], blocks[1::4]))
steps2 = list(zip(blocks[2::4], blocks[3::4]))
busters, ghosts = {}, {}
for step_ in zip(steps1, steps2):
    for j in range(2):
        for i in step_[j][0]:
            id_, x, y, type_, state, value = i.split()
            if type_ == '-1' and int(id_) not in ghosts:
                ghosts[int(id_)] = Entity(i)
            if type_ != '-1' and int(id_) not in busters:
                busters[int(id_)] = Entity(i)

states = []

#busters_count = 2
#ghosts_count = 501
#busters, ghosts = generate(busters_count, ghosts_count)

#player0, player1 = Game(str(busters_count)+"\n"+str(ghosts_count)+"\n0"), Game(str(busters_count)+"\n"+str(ghosts_count)+"\n1")

engine = Engine(busters_count, ghosts_count, busters, ghosts)
player0.update(engine.get_info(0)[:-1])
player1.update(engine.get_info(1)[:-1])
mind = Mind(player0)
Exemplo n.º 18
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 def update(self):
     Entity.update(self)
     self.lifetime -= 1
     if self.lifetime <= 0:
         self.kill()
Exemplo n.º 19
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playertile = (0, 0)
playerposition = (0, 0)

pygame.init()
pygame.display.set_caption('~ R I K \' S   G A M E ~')
pygame.display.set_icon(pygame.image.load('icon.png'))
clock = pygame.time.Clock()

w = World(size=1024, tilesize=32)
s = Screen(800, 800)

gs = GraphicsSystem()
cs = ControlSystem()
ss = SpriteSystem()

p = Entity(w)
p.camera = Camera(0, 0, 800, 800, track=True, entitytotrack=p)
p.position = Position(0, 0, 32, 32, 2)
p.control = Control(pygame.K_UP, pygame.K_DOWN, pygame.K_LEFT, pygame.K_RIGHT)
p.state = State()

p.sprite = Sprite()
p.sprite.sprites['idle'] = [
    pygame.image.load('images/player/idle.png'),
    pygame.image.load('images/player/idle2.png'),
    pygame.image.load('images/player/idle3.png')
]
p.sprite.animate = True

running = True