def _get_obs(self):
robot_qpos, robot_qvel = robot_get_obs(self.sim)
achieved_goal = self._get_achieved_goal().ravel()
observation = np.concatenate([robot_qpos, robot_qvel, achieved_goal])
return {
'observation': observation.copy(),
'achieved_goal': achieved_goal.copy(),
'desired_goal': self.goal.copy(),
}
def _get_obs(self):
robot_qpos, robot_qvel = robot_get_obs(self.sim)
object_qvel = self.sim.data.get_joint_qvel('object:joint')
achieved_goal = self._get_achieved_goal().ravel(
) # this contains the object position + rotation
observation = np.concatenate(
[robot_qpos, robot_qvel, object_qvel, achieved_goal])
return {
'observation': observation.copy(),
'achieved_goal': achieved_goal.copy(),
'desired_goal': self.goal.ravel().copy(),
}
def _get_obs(self):
# positions
grip_pos = self.sim.data.get_site_xpos('robot0:grip')
dt = self.sim.nsubsteps * self.sim.model.opt.timestep
grip_velp = self.sim.data.get_site_xvelp('robot0:grip') * dt
robot_qpos, robot_qvel = utils.robot_get_obs(self.sim)
if self.has_object:
object_pos = self.sim.data.get_site_xpos('object0')
# rotations
object_rot = rotations.mat2euler(
self.sim.data.get_site_xmat('object0'))
# velocities
object_velp = self.sim.data.get_site_xvelp('object0') * dt
object_velr = self.sim.data.get_site_xvelr('object0') * dt
# gripper state
object_rel_pos = object_pos - grip_pos
object_velp -= grip_velp
else:
object_pos = object_rot = object_velp = object_velr = object_rel_pos = np.zeros(
0)
gripper_state = robot_qpos[-2:]
gripper_vel = robot_qvel[
-2:] * dt # change to a scalar if the gripper is made symmetric
if not self.has_object:
achieved_goal = grip_pos.copy()
else:
achieved_goal = np.squeeze(object_pos.copy())
obs = np.concatenate([
grip_pos,
object_pos.ravel(),
object_rel_pos.ravel(),
gripper_state,
object_rot.ravel(),
object_velp.ravel(),
object_velr.ravel(),
grip_velp,
gripper_vel,
])
return {
'observation': obs.copy(),
'achieved_goal': achieved_goal.copy(),
'desired_goal': self.goal.copy(),
}
def _get_obs(self):
obj_grp = self.max_n_objects if self.ai_object else 0
grip_pos = self.sim.data.get_site_xpos('robot0:grip')
dt = self.sim.nsubsteps * self.sim.model.opt.timestep
grip_velp = self.sim.data.get_site_xvelp('robot0:grip') * dt
robot_qpos, robot_qvel = utils.robot_get_obs(self.sim)
gripper_state = robot_qpos[-2:]
gripper_vel = robot_qvel[
-2:] * dt # change to a scalar if the gripper is made symmetric
obs_all = []
object_pos, object_rot, object_velp, object_velr, object_rel_pos = [], [], [], [], []
for i_object in range(obj_grp, obj_grp + self.n_objects):
# observations for the robot
object_pos.append(
self.sim.data.get_site_xpos('object' + str(i_object)))
# rotations
object_rot.append(
rotations.mat2euler(
self.sim.data.get_site_xmat('object' + str(i_object))))
# velocities
object_velp.append(
self.sim.data.get_site_xvelp('object' + str(i_object)) * dt -
grip_velp)
object_velr.append(
self.sim.data.get_site_xvelr('object' + str(i_object)) * dt)
# gripper state
object_rel_pos.append(
self.sim.data.get_site_xpos('object' + str(i_object)) -
grip_pos)
object_pos = np.asarray(object_pos)
object_rot = np.asarray(object_rot)
object_velp = np.asarray(object_velp)
object_velr = np.asarray(object_velr)
object_rel_pos = np.asarray(object_rel_pos)
obs = np.concatenate([
grip_pos,
object_pos.ravel(),
object_rel_pos.ravel(), gripper_state,
object_rot.ravel(),
object_velp.ravel(),
object_velr.ravel(), grip_velp, gripper_vel
])
if self.observe_obj_grp:
obs = np.concatenate([obs, np.asarray([obj_grp])])
obs_all.append(obs.copy())
target_pos = self.goal.copy().reshape(self.n_objects, -1)
target_rel_pos, target_velp = [], []
for i_object in range(obj_grp, obj_grp + self.n_objects):
# observations for the object
# object state wrt target
target_rel_pos.append(target_pos[i_object % self.max_n_objects] -
self.sim.data.get_site_xpos('object' +
str(i_object)))
target_velp.append(
0 -
self.sim.data.get_site_xvelp('object' + str(i_object)) * dt)
target_rel_pos = np.asarray(target_rel_pos)
target_velp = np.asarray(target_velp)
obs = np.concatenate([
np.zeros_like(grip_pos),
object_pos.ravel(),
target_rel_pos.ravel(),
np.zeros_like(gripper_state),
object_rot.ravel(),
target_velp.ravel(),
object_velr.ravel(),
np.zeros_like(grip_velp),
np.zeros_like(gripper_vel)
])
if self.observe_obj_grp:
obs = np.concatenate([obs, np.asarray([self.max_n_objects])])
obs_all.append(obs.copy())
obs = np.asarray(obs_all)
achieved_goal = object_pos.copy().ravel()
return {
'observation': obs.copy(),
'achieved_goal': achieved_goal.copy(),
'desired_goal': self.goal.copy(),
}