示例#1
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文件: objects.py 项目: WWPOL/CV-Pong
 def update(self, stage):
     self.velocity.add(self.acceleration)
     self.position.add(self.velocity)
     if (((self.position.z + self.radius) > stage.paddle0.z - 25
          and (self.velocity.z > 0))):
         if (self.position.x > stage.paddle0.x - stage.paddle0.WIDTH / 2 and
                 self.position.x < stage.paddle0.x + stage.paddle0.WIDTH / 2
                 and self.position.y >
                 stage.paddle0.y - stage.paddle0.HEIGHT / 2
                 and self.position.x <
                 stage.paddle0.y + stage.paddle0.HEIGHT / 2):
             self.velocity.z *= -1.1
             if math.fabs(stage.paddle0.vx) > 10:
                 self.acceleration.x = -1 * stage.paddle0.vx / 35
             if math.fabs(stage.paddle0.vy) > 10:
                 self.acceleration.y = stage.paddle0.vy / 35
         else:
             self.velocity = Vector(0, 0, 50)
             self.position = Vector(0, 0, -1000)
     if (self.position.z - self.radius) < stage.paddle1.z + 20 and (
             self.velocity.z < 0):
         self.velocity.z *= -1.1
         self.acceleration = Vector(0, 0, 0)
     if (((self.position.x - self.radius) < -640 and self.velocity.x < 0) or
         (self.position.x + self.radius) > 640 and self.velocity.x > 0):
         self.velocity.x *= -1
     if (((self.position.y - self.radius) < -360 and self.velocity.y < 0) or
         (self.position.y + self.radius) > 360 and self.velocity.y > 0):
         self.velocity.y *= -1
示例#2
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文件: player.py 项目: Sponja-/Isaac
def fire(self, delta_time):
    if not self.can_shoot:
        return

    player_v = self.body.velocity / 300
    if self.pressed_keys["up"]:
        velocity = Vector(0, -1) + (player_v.x, 0)
    elif self.pressed_keys["down"]:
        velocity = Vector(0, 1) + (player_v.x, 0)
    elif self.pressed_keys["left"]:
        velocity = Vector(-1, 0) + (0, player_v.y)
    elif self.pressed_keys["right"]:
        velocity = Vector(1, 0) + (0, player_v.y)
    else:
        return

    velocity.normalize()
    velocity *= self.shot_speed

    tear = PlayerTear(position=self.body.collider.center(),
                      velocity=velocity,
                      range=self.range,
                      damage=self.shot_damage)
    self.game.add(tear)
    self.can_shoot = False

    def reset_shoot():
        self.can_shoot = True

    self.game.add_timer(self.tears / 10, reset_shoot)

    self.on_fire.dispatch(self, tear)
示例#3
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文件: rooms.py 项目: Sponja-/Isaac
class Door(Barrier):
    positions = [
        Vector(ROOM_WIDTH * TILE_SIZE / 2,
               ROOM_HEIGHT * TILE_SIZE + WALL_SIZE / 2),
        Vector(ROOM_WIDTH * TILE_SIZE / 2, -WALL_SIZE / 2),
        Vector(ROOM_WIDTH * TILE_SIZE + WALL_SIZE / 2,
               ROOM_HEIGHT * TILE_SIZE / 2),
        Vector(-WALL_SIZE / 2, ROOM_HEIGHT * TILE_SIZE / 2)
    ]
    size = (2 * TILE_SIZE, WALL_SIZE + 5)

    def __init__(self, direction):
        position = Door.positions[direction]
        size = Door.size if direction in (DOWN, UP) else Door.size[::-1]

        self.body = RigidBody(collider=RectCollider,
                              position=position,
                              size=size,
                              mass=0)

        self.sprite = RectSprite(colors.WHITE, size)

        self.layer = layers.OBSTACLES

        self.direction = direction

        self.enabled = True

        self.on_collide += enter_door
        self.on_mount += door_mount
示例#4
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 def _loop(self):
     particle = Particle(Vector(WIDTH / 2, 0, 0), Vector(0, 0, 0),
                         Vector(0, 10e-4, 0), 0.99, 10)
     self.clock.tick()
     while True:
         tick = self.clock.tick()
         particle.integrate(tick)
         self._draw(particle)
示例#5
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    def create_given_vector(self, x_var, y_var, value):
        vector = None

        if x_var == "angle":
            if y_var != "horizontal_component":
                vector = Vector(x=16, theta=math.radians(value))
            else:
                vector = Vector(y=16, theta=math.radians(value))

        return vector
示例#6
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    def get_unitless_state_vectors(self):
        ec = 0.1  # need to use non-zero eccentricity
        i = math.radians(self.i)
        o0 = math.radians(self.o)
        w0 = math.radians(self.w)

        eca = ec / 2.0
        diff = 1000.0
        eps = 0.000001
        e1 = 0.0

        while diff > eps:
            e1 = eca - (eca - ec * math.sin(eca)) / (1 - ec * math.cos(eca))
            diff = math.fabs(e1 - eca)
            eca = e1

        ceca = math.cos(eca)
        seca = math.sin(eca)
        e1 = math.sqrt(math.fabs(1.0 - ec * ec))
        xw = ceca - ec
        yw = e1 * seca

        edot = 1.0 / (1.0 - ec * ceca)
        xdw = -edot * seca
        ydw = e1 * edot * ceca

        Cw = math.cos(w0)
        Sw = math.sin(w0)
        co = math.cos(o0)
        so = math.sin(o0)
        ci = math.cos(i)
        si = math.sin(i)
        swci = Sw * ci
        cwci = Cw * ci
        pX = Cw * co - so * swci
        pY = Cw * so + co * swci
        pZ = Sw * si
        qx = -Sw * co - so * cwci
        qy = -Sw * so + co * cwci
        qz = Cw * si
        x = xw * pX + yw * qx
        y = xw * pY + yw * qy
        z = xw * pZ + yw * qz
        xd = xdw * pX + ydw * qx
        yd = xdw * pY + ydw * qy
        zd = xdw * pZ + ydw * qz

        return (Vector(x, y, z), Vector(xd, yd, zd))
示例#7
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    def __init__(self, ship, config):
        self.ship = ship

        self.model = "ball"
        self.hp = 1
        self.mass = 1000
        self.radius = 1
        self.position = Vector()
        self.orientation = Vector(1, 0, 0)
        self.energy = 0.0
        self.idle = True

        self.__dict__.update(config)
        self.orientation = Vector(*self.orientation)
        self.position = Vector(*self.position)
        print(self.hp)
示例#8
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def main():
    car = Body(17500 / G, (30.5, 30.5))
    driver = Body(850 / G, (31.5, 31))
    fuel = Body(993 / G, (28, 30.5))

    total_mass = sum([car.mass, driver.mass, fuel.mass])
    total_weight = sum([car.weight, driver.weight, fuel.weight])
    print('총 질량 (무게):\t{:.1f} kg ({:.1f} N)'.format(total_mass, total_weight))

    center_gravity = sum(
        [car.first_moment, driver.first_moment, fuel.first_moment], Vector())
    center_gravity /= total_mass
    print('질량 중심 (x, y):\t{}'.format(center_gravity))

    model = {}
    model['car'] = RectCylinder(car, 1.80, 4.70)
    model['driver'] = RectCylinder(driver, 0.5, 0.9)
    model['fuel'] = RectCylinder(fuel, 0.9, 0.5)

    total_moment_inertia = Decimal(0)
    for name, model in model.items():
        mass_element_inertia = model.moment_inertia(center_gravity)
        total_moment_inertia += mass_element_inertia
        print('\t{}: {:.1f} '.format(name, mass_element_inertia))

    print('관성 모멘트:\t{:.2f}'.format(total_moment_inertia))
示例#9
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    def isContact(self, position):
        xx = self.coords[0]
        yy = self.coords[1]
        zz = self.coords[2]

        projectile = Vector(*position)

        xin = True if xx[0] <= projectile.x <= xx[1] else False
        yin = True if yy[0] <= projectile.y <= yy[1] else False
        zin = True if zz[0] <= projectile.z <= zz[1] else False

        return xin and yin and zin
示例#10
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def main():
    elements = [Body(1, (1, 2, 3)), Body(2, (2, -3, 4))]

    for point_mass in elements:
        print(point_mass)
        print('weight: {}'.format(point_mass.weight))

    total_mass = Decimal(0)
    for point_mass in elements:
        total_mass += point_mass.mass

    first_moment = sum([body.first_moment for body in elements], Vector())
    combined_center = first_moment / total_mass
    print('Combined Center of Gravity: {}'.format(combined_center))
示例#11
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    def solve(self, question, element):
        if self.given_object == "vector":
            vectors_data = self.find_given_values(question)

            vectors = []

            for _, values in vectors_data.iteritems():
                vectors.append(Vector(dict=values))

            if self.requested_value == "angle":
                return "%d degrees" % int(round(math.degrees(vectors[0].theta)))
            elif self.requested_value == "r":
                return "%d units" % int(round(vectors[0].r))
            elif self.requested_value == "x":
                return "%d units" % int(round(vectors[0].x))
            elif self.requested_value == "y":
                return "%d units" % int(round(vectors[0].y))
示例#12
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文件: tears.py 项目: Sponja-/Isaac
    def __init__(self, *, position, velocity, range, damage, **kwargs):
        radius = kwargs.get("radius", damage_to_radius(damage))

        self.body = KinematicBody(collider=CircleCollider,
                                  radius=radius,
                                  position=position,
                                  velocity=velocity,
                                  disable_collide=True)

        self.sprite = CircleSprite(colors.BLUE, radius)

        self.layer = layers.PLAYER_TEARS

        self.speed = kwargs.get("speed", Vector(*velocity).magnitude())
        self.remaining_range = range

        self.damage = damage

        self.on_update += check_range
        self.on_collide += kill_on_obstacle
        self.on_collide += damage_enemies
示例#13
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文件: rooms.py 项目: Sponja-/Isaac
    def populate(self, neighbors):
        template = choice(templates[self.type])
        if "neighbors" in template and not all(
                available or not actual for available, actual in zip(
                    template["neighbors"], neighbors)):
            return False

        for obj in template["objects"]:
            self.objects.append(types[obj["type"]](
                position=Vector(*obj["position"]) * TILE_SIZE +
                (TILE_SIZE / 2, TILE_SIZE / 2),
                **obj.get("params", {})))

        self.door_directions = []
        for direction in MapGenerator.directions:
            self.objects.append(Wall(direction))
            if neighbors[direction]:
                self.door_directions.append(direction)
                self.objects.append(Door(direction))

        return True
示例#14
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文件: player.py 项目: Sponja-/Isaac
def move(self, delta_time):
    movement_axes = 0
    move_force = Vector(0, 0)

    if self.pressed_keys['w']:
        movement_axes += 1
        move_force += (0, -self.speed)
    elif self.pressed_keys['s']:
        movement_axes += 1
        move_force += (0, self.speed)
    if self.pressed_keys['a']:
        movement_axes += 1
        move_force += (-self.speed, 0)
    elif self.pressed_keys['d']:
        movement_axes += 1
        move_force += (self.speed, 0)

    if movement_axes == 2:
        move_force /= SQRT_2

    if movement_axes:
        self.body.add_force(move_force)
        self.on_move.dispatch(self, delta_time)
示例#15
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文件: objects.py 项目: WWPOL/CV-Pong
 def __init__(self):
     self.paddle0 = Paddle(0)
     self.paddle1 = Paddle(1)
     self.ball = Ball(Vector(0, 0, -1000), Vector(-2, 1, 35),
                      Vector(0, 0, 0), 50)
示例#16
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 def test_neg(self, vectors):
     v1, *_ = vectors
     assert -v1 == Vector(-1,-2,-3)
示例#17
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 def test_pow(self, vectors):
     v, *_ = vectors
     assert v**2 == Vector(v.x**2, v.y**2, v.z**2)
     assert (-v)**2 == Vector(v.x**2, v.y**2, v.z**2)
示例#18
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 def test_add(self, vectors):
     v1, v2 = vectors
     assert v1 + v2 == Vector(3, 5, 7)
示例#19
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 def __init__(self, v0, angle, position):
     self.v0 = v0
     self.angle = Angle(*angle)
     self.position = Vector(*position)
示例#20
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 def __init__(self, ship, config):
     self.throttle = 0.0
     self.thrustVector = Vector()
     super().__init__(ship, config)
示例#21
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 def vectors(self):
     v1 = Vector(1,2,3)
     v2 = Vector(2,3,4)
     return v1, v2
示例#22
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 def test_mul(self, vectors):
     v1, v2 = vectors
     assert v1 * v2 == Vector(2,6,12)
     assert v1 * 2 == Vector(2,4,6)
     assert 2 * v1 == Vector(2,4,6)
示例#23
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 def teset_sub(self, vectors):
     v1, v2 = vectors
     assert v1 - v1 == Vector()
示例#24
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文件: game.py 项目: Sponja-/Isaac
 def room_center(self):
     return Vector(self.width / 2, self.height / 2)
示例#25
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 def test_div(self, vectors):
     v, *_ = vectors
     assert Vector(2,4,6) / 2 == v
     with pytest.raises(TypeError):
         2 / Vector(2,4,6)
示例#26
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 def test_mul(self):
     v1 = Vector(3, 4, 5)
     self.assertEqual(Vector(6, 8, 10), v1 * 2)
示例#27
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 def __init__(self, name, frm, to, *, color):
     self._frm = Vector(*frm)
     self._to = Vector(*to)
     self._color = color
     super().__init__(name, position=None, image=self.get_image())
示例#28
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 def __init__(self, measurement, position):
     self.measurement = Measurement(*measurement)
     self.position = Vector(*position)
     self._get_coordinates()
示例#29
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 def test_sub(self):
     v1 = Vector(3, 3, 3)
     v2 = Vector(1, 1, 1)
     self.assertEqual(Vector(2, 2, 2), v1 - v2)
示例#30
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文件: rooms.py 项目: Sponja-/Isaac
            while not populated:
                populated = room.populate(self.get_surrounding(room.position))

    def generate_map(self, amount, deadends):
        self.add_rooms(amount - deadends)
        self.add_deadends(deadends)
        self.populate_rooms()


if __name__ == "__main__":
    mg = MapGenerator()
    mg.generate_map(20, 5)

    img = np.full((25, 25, 3), 0)

    for r in mg.rooms:
        index = (r.position[1] + 13, r.position[0] + 13)
        if type(r) is Room:
            img[index] = (255, 255, 255)
        if type(r) is DeadendRoom:
            img[index] = (255, 255, 0)

    plt.imshow(img)
    plt.show()

player_room_positions = [
    Door.positions[direction] +
    Vector(*MapGenerator.neighbor_offsets[mirror[direction]]) *
    int(TILE_SIZE * 1.5) for direction in MapGenerator.directions
]