Пример #1
0
    def get_position(self, relative_to=None) -> List[float]:
        """Gets the position of this object.

        :param relative_to: Indicates relative to which reference frame we want
            the position. Specify None to retrieve the absolute position, or an
            Object relative to whose reference frame we want the position.
        :return: A list containing the x, y, z position of the object.
        """
        relto = -1 if relative_to is None else relative_to.get_handle()
        return sim.simGetObjectPosition(self._handle, relto)
Пример #2
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    def get_position(self, relative_to=None) -> np.ndarray:
        """Gets the position of this object.

        :param relative_to: Indicates relative to which reference frame we want
            the position. Specify None to retrieve the absolute position, or an
            Object relative to whose reference frame we want the position.
        :return: An array containing the x, y, z position of the object.
        """
        relto = -1 if relative_to is None else relative_to.get_handle()
        position = sim.simGetObjectPosition(self._handle, relto)
        return np.array(position, dtype=np.float64)
Пример #3
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    def get_dense_reward(self):
        state, points = sim.simCheckProximitySensor(self._initial_objs_in_scene[5][0]._handle,
                                                    self.robot.arm.get_tip().get_handle())
        points_1 = sim.simGetObjectPosition(self._initial_objs_in_scene[5][0]._handle,
                                            self.robot.arm.get_tip().get_handle())

        reward = - np.sqrt(points_1[0] ** 2 + points_1[1] ** 2 + points_1[2] ** 2)
        if state == 1:
            reward = 1.

        return reward
Пример #4
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    def rotate(self, rotation: List[float]) -> None:
        """Rotates a transformation matrix.

        :param rotation: The x, y, z rotation to perform (in radians).
        """
        m = sim.simGetObjectMatrix(self._handle, -1)
        x_axis = [m[0], m[4], m[8]]
        y_axis = [m[1], m[5], m[9]]
        z_axis = [m[2], m[6], m[10]]
        axis_pos = sim.simGetObjectPosition(self._handle, -1)
        m = sim.simRotateAroundAxis(m, z_axis, axis_pos, rotation[2])
        m = sim.simRotateAroundAxis(m, y_axis, axis_pos, rotation[1])
        m = sim.simRotateAroundAxis(m, x_axis, axis_pos, rotation[0])
        sim.simSetObjectMatrix(self._handle, -1, m)