예제 #1
0
    def action_to_targ_pose(self, action):
        """ Converte action to PD controller target pose

      Inputs:
        action      np.array of float, action which DeepMimicSim can take in

      Outputs:
        pose        np.array of float, pose of character
    """
        assert (action.size == self.dof - 7)

        targ_pose = np.zeros(self.dof)
        targ_pose[3] = 1
        for i in range(1, self.num_joints):
            dof = self.joint_dof[i]
            p_off = self.pos_start[i]
            a_off = self.act_start[i]
            if dof == 1:  # revolute
                targ_pose[p_off] = action[a_off]
            elif dof == 4:  # spherical
                angle = action[a_off]
                axis = action[a_off + 1:a_off + 4]
                quata = Quaternion.fromAngleAxis(angle, axis)
                targ_pose[p_off:p_off + 4] = quata.wxyz()

        assert (np.isfinite(sum(targ_pose))), embed()  #(action, targ_pose)
        return targ_pose
예제 #2
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def change_dir(frames):
    # change direction to x+ axis, starting position at origin
    ori_pos = frames[0, 1:4].copy()
    ori_pos[1] = 0
    vel_dir = frames[-1, 1:4] - frames[0, 1:4]
    heading_theta = np.arctan2(-vel_dir[2], vel_dir[0])
    inv_rot = Quaternion.fromAngleAxis(-heading_theta, np.array([0, 1, 0]))
    for i in range(frames.shape[0]):
        frame = frames[i]
        frames[i, 1:4] = inv_rot.rotate(frame[1:4] - ori_pos)
        root_rot = Quaternion.fromWXYZ(frame[4:8])
        new_rot = inv_rot.mul(root_rot)
        frames[i, 4:8] = new_rot.pos_wxyz()

    return frames
예제 #3
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파일: wall.py 프로젝트: stjordanis/Jump
 def get_link_states(self):
     angle = self.__wallAngle / 180 * np.pi
     offset = np.array([np.cos(angle), 0, np.sin(angle)])
     l_bar_pos = np.array(
         self.__basePos) - offset * (3.0 - self.__vis_offset)
     l_bar_pos[1] = 0
     r_bar_pos = np.array(
         self.__basePos) + offset * (3.0 + self.__vis_offset)
     r_bar_pos[1] = 0
     t_bar_quat = Quaternion.fromXYZW(self.__baseOri).mul(
         Quaternion.fromAngleAxis(np.pi / 2, np.array([0, 0, 1])))
     t_bar_pos = np.array(self.__basePos) + offset * self.__vis_offset
     t_bar_pos[1] = self.height - 0.02
     return [
         l_bar_pos.tolist() + self.__baseOri,
         r_bar_pos.tolist() + self.__baseOri,
         t_bar_pos.tolist() + t_bar_quat.xyzw().tolist()
     ]