def get_viewer(self):
if self.viewer is None:
self.viewer = MjViewer()
self.viewer.start()
self.viewer.set_model(self.model)
return self.viewer
def get_viewer(self):
if self.viewer is None:
self.viewer = MjViewer(init_width=50, init_height=50)
self.viewer.start()
self.viewer.set_model(self.model)
#self.viewer.cam.elevation = -42.59999990463257
return self.viewer
class ReacherTwoEnv(MujocoEnv, Serializable):
FILE = 'reacher.xml'
def __init__(self, *args, **kwargs):
super(ReacherTwoEnv, self).__init__(*args, **kwargs)
Serializable.quick_init(self, locals())
def step(self, a):
vec = self.get_body_com("fingertip") - self.get_body_com("target")
reward_dist = -np.linalg.norm(vec)
reward_ctrl = 0 #- np.square(a).sum()
#reward_close = 0.01*math.log(-reward_dist)
reward = reward_dist + reward_ctrl #+ reward_close
self.forward_dynamics(a)
next_obs = self.get_current_obs()
return Step(next_obs, reward, False)
#done = False
#return ob, reward, done, dict(reward_dist=reward_dist, reward_ctrl=reward_ctrl)
def viewer_setup(self):
self.viewer.cam.trackbodyid = 0
def get_viewer(self):
if self.viewer is None:
self.viewer = MjViewer(init_width=25, init_height=25)
self.viewer.start()
self.viewer.set_model(self.model)
return self.viewer
def reset_mujoco(self, init_state=None):
qpos = np.random.uniform(low=-0.1, high=0.1,
size=self.model.nq) + self.init_qpos.flat
#while True:
# self.goal = np.random.uniform(low=-.2, high=.2, size=2)
# if np.linalg.norm(self.goal) < 2: break
self.goal = np.array([0.1, 0.1])
qpos[-2:] = self.goal
qvel = self.init_qvel.flat + np.random.uniform(
low=-.005, high=.005, size=self.model.nv)
qvel[-2:] = 0
self.model.data.qpos = qpos
self.model.data.qvel = qvel
self.model.data.qacc = self.init_qacc
self.model.data.ctrl = self.init_ctrl
return self.get_current_obs()
def get_current_obs(self):
theta = self.model.data.qpos.flat[:2]
return np.concatenate([
np.cos(theta),
np.sin(theta), self.model.data.qpos.flat[2:],
self.model.data.qvel.flat[:2],
self.get_body_com("fingertip") - self.get_body_com("target")
])
reset_trial = reset_mujoco # shortcut for compatibility.
def get_viewer(self, config=None):
if self.viewer is None:
self.viewer = MjViewer()
self.viewer.start()
self.viewer.set_model(self.model)
if config is not None:
self.viewer.set_window_pose(config["xpos"], config["ypos"])
self.viewer.set_window_size(config["width"], config["height"])
self.viewer.set_window_title(config["title"])
return self.viewer
class BlockEnv(MujocoEnv, Serializable):
global FILE
def __init__(self, *args, **kwargs):
FILE = './block_stack_{}.xml'.format(num_blocks)
# FILE = './block_stack_2.xml'
super(BlockEnv, self).__init__(*args, **kwargs, file_path=FILE)
Serializable.quick_init(self, locals())
def reset(self, init_state=None):
"""
:param init_state: (2, 2) positions for the first and the second block.
:return: set geom_xpos
"""
if init_state is None:
init_state = (np.random.rand(num_blocks, 2) * loc) - (loc / 2)
init_pos = np.zeros((num_blocks * 3))
init_pos[:2] = init_state[0] - self.model.body_pos[1, :2]
init_pos[3:5] = init_state[1] - self.model.body_pos[2, :2]
full_state = np.concatenate([
init_pos,
self.init_qvel.squeeze(),
self.init_qacc.squeeze(),
self.init_ctrl.squeeze()
])
obs = super(BlockEnv, self).reset(init_state=full_state)
return obs
def get_current_obs(self):
return self.model.data.geom_xpos
def viewer_setup(self, config=None):
viewer = self.get_viewer()
viewer.cam.trackbodyid = 0
viewer.cam.distance = 2.75
viewer.cam.elevation = -60
def step(self, action):
done = False
reward = 0
self.forward_dynamics(action)
next_obs = self.get_current_obs()
return Step(next_obs, reward, done)
def step_only(self, action):
next_state = self.get_current_obs()[1:, :2] + action.reshape(2, 2)
return self.reset(init_state=next_state)
def get_viewer(self):
if self.viewer is None:
self.viewer = MjViewer(visible=False)
self.viewer.start()
self.viewer.set_model(self.model)
return self.viewer
class InvertedPendulumTwoEnv(MujocoEnv, Serializable):
FILE = 'inverted_pend_two.xml'
def __init__(self, *args, **kwargs):
super(InvertedPendulumTwoEnv, self).__init__(*args, **kwargs)
Serializable.quick_init(self, locals())
def step(self, a):
reward = 1.0
self.forward_dynamics(a)
ob = self.get_current_obs()
notdone = np.isfinite(ob).all() and (np.abs(ob[1]) <= .2)
#done = not notdone
done = False
if not notdone:
reward = 0
return Step(ob, reward, done)
def get_viewer(self):
if self.viewer is None:
self.viewer = MjViewer(init_width=50, init_height=50)
self.viewer.start()
self.viewer.set_model(self.model)
#self.viewer.cam.elevation = -42.59999990463257
return self.viewer
def reset_mujoco(self, init_state=None):
qpos = self.init_qpos + np.random.uniform(
size=self.model.nq, low=-0.01, high=0.01)
qvel = self.init_qvel + np.random.uniform(
size=self.model.nv, low=-0.01, high=0.01)
self.model.data.qpos = qpos
self.model.data.qvel = qvel
self.model.data.qacc = self.init_qacc
self.model.data.ctrl = self.init_ctrl
return self.get_current_obs()
reset_trial = reset_mujoco
def get_current_obs(self):
return np.concatenate([self.model.data.qpos,
self.model.data.qvel]).ravel()
def viewer_setup(self):
v = self.viewer
v.cam.trackbodyid = 0
v.cam.distance = v.model.stat.extent
class HalfCheetahSimulator(BaseSimulator):
def __init__(self, **kwargs):
super(HalfCheetahSimulator, self).__init__(**kwargs)
self._imSz = 512
self._im = np.zeros((self._imSz, self._imSz, 3), dtype=np.uint8)
self.model = MjModel(
'../rlmaster/envs/mujoco_envs/xmls/half_cheetah.xml')
self.viewer = None
self._pos = {}
self._pos['torso'] = np.zeros((3, ))
self._range_min = -1
self._range_max = 1
self.body_comvel = 0
self.action = np.zeros((1, 2))
self.init_qpos = self.model.data.qpos
self.init_qvel = self.model.data.qvel
self.init_qacc = self.model.data.qacc
self.init_ctrl = self.model.data.ctrl
self.frame_skip = 1
@overrides
def step(self, ctrl, loop=False):
ctrl = np.clip(
ctrl,
*(np.array([-1, -1, -1, -1, -1, -1]), np.array([1, 1, 1, 1, 1,
1])))
self.model.data.ctrl = ctrl # + np.random.normal(size=ctrl.shape)
# print('gym', self.model.data.ctrl)
for i in range(self.frame_skip):
self.model.step()
self.model.forward()
ind = self.model.body_names.index('torso')
self._pos['torso'] = self.model.body_pos[ind]
self.body_comvel = self.model.body_comvels[ind]
self.action = ctrl
@overrides
def get_image(self):
data, width, height = self.viewer.get_image()
self._im = np.fromstring(data,
dtype='uint8').reshape(height, width,
3)[::-1, :, :]
# print(self._im)
return self._im.copy()
@overrides
def _setup_renderer(self):
self.viewer = MjViewer(visible=True,
init_width=self._imSz,
init_height=self._imSz)
self.viewer.start()
self.viewer.set_model(self.model)
@overrides
def render(self):
self.viewer.loop_once()
class MujocoEnv(Env):
FILE = None
@autoargs.arg('action_noise', type=float,
help='Noise added to the controls, which will be '
'proportional to the action bounds')
def __init__(self, action_noise=0.0, file_path=None, template_args=None):
# compile template
if file_path is None:
if self.__class__.FILE is None:
raise "Mujoco file not specified"
file_path = osp.join(MODEL_DIR, self.__class__.FILE)
if file_path.endswith(".mako"):
lookup = mako.lookup.TemplateLookup(directories=[MODEL_DIR])
with open(file_path) as template_file:
template = mako.template.Template(
template_file.read(), lookup=lookup)
content = template.render(
opts=template_args if template_args is not None else {},
)
tmp_f, file_path = tempfile.mkstemp(text=True)
with open(file_path, 'w') as f:
f.write(content)
self.model = MjModel(file_path)
os.close(tmp_f)
else:
self.model = MjModel(file_path)
self.data = self.model.data
self.viewer = None
self.init_qpos = self.model.data.qpos
self.init_qvel = self.model.data.qvel
self.init_qacc = self.model.data.qacc
self.init_ctrl = self.model.data.ctrl
self.qpos_dim = self.init_qpos.size
self.qvel_dim = self.init_qvel.size
self.ctrl_dim = self.init_ctrl.size
self.action_noise = action_noise
if "frame_skip" in self.model.numeric_names:
frame_skip_id = self.model.numeric_names.index("frame_skip")
addr = self.model.numeric_adr.flat[frame_skip_id]
self.frame_skip = int(self.model.numeric_data.flat[addr])
else:
self.frame_skip = 1
if "init_qpos" in self.model.numeric_names:
init_qpos_id = self.model.numeric_names.index("init_qpos")
addr = self.model.numeric_adr.flat[init_qpos_id]
size = self.model.numeric_size.flat[init_qpos_id]
init_qpos = self.model.numeric_data.flat[addr:addr + size]
self.init_qpos = init_qpos
self.dcom = None
self.current_com = None
self.reset()
super(MujocoEnv, self).__init__()
@property
@overrides
def action_space(self):
bounds = self.model.actuator_ctrlrange
lb = bounds[:, 0]
ub = bounds[:, 1]
return spaces.Box(lb, ub)
@property
@overrides
def observation_space(self):
shp = self.get_current_obs().shape
ub = BIG * np.ones(shp)
return spaces.Box(ub * -1, ub)
@property
def action_bounds(self):
return self.action_space.bounds
def reset_mujoco(self, init_state=None):
if init_state is None:
self.model.data.qpos = self.init_qpos + \
np.random.normal(size=self.init_qpos.shape) * 0.01
self.model.data.qvel = self.init_qvel + \
np.random.normal(size=self.init_qvel.shape) * 0.1
self.model.data.qacc = self.init_qacc
self.model.data.ctrl = self.init_ctrl
else:
start = 0
for datum_name in ["qpos", "qvel", "qacc", "ctrl"]:
datum = getattr(self.model.data, datum_name)
datum_dim = datum.shape[0]
datum = init_state[start: start + datum_dim]
setattr(self.model.data, datum_name, datum)
start += datum_dim
@overrides
def reset(self, init_state=None):
self.reset_mujoco(init_state)
self.model.forward()
self.current_com = self.model.data.com_subtree[0]
self.dcom = np.zeros_like(self.current_com)
return self.get_current_obs()
def get_current_obs(self):
return self._get_full_obs()
def _get_full_obs(self):
data = self.model.data
cdists = np.copy(self.model.geom_margin).flat
for c in self.model.data.contact:
cdists[c.geom2] = min(cdists[c.geom2], c.dist)
obs = np.concatenate([
data.qpos.flat,
data.qvel.flat,
# data.cdof.flat,
data.cinert.flat,
data.cvel.flat,
# data.cacc.flat,
data.qfrc_actuator.flat,
data.cfrc_ext.flat,
data.qfrc_constraint.flat,
cdists,
# data.qfrc_bias.flat,
# data.qfrc_passive.flat,
self.dcom.flat,
])
return obs
@property
def _state(self):
return np.concatenate([
self.model.data.qpos.flat,
self.model.data.qvel.flat
])
@property
def _full_state(self):
return np.concatenate([
self.model.data.qpos,
self.model.data.qvel,
self.model.data.qacc,
self.model.data.ctrl,
]).ravel()
def inject_action_noise(self, action):
# generate action noise
noise = self.action_noise * \
np.random.normal(size=action.shape)
# rescale the noise to make it proportional to the action bounds
lb, ub = self.action_bounds
noise = 0.5 * (ub - lb) * noise
return action + noise
def forward_dynamics(self, action):
self.model.data.ctrl = self.inject_action_noise(action)
for _ in range(self.frame_skip):
self.model.step()
self.model.forward()
new_com = self.model.data.com_subtree[0]
self.dcom = new_com - self.current_com
self.current_com = new_com
def get_viewer(self):
if self.viewer is None:
self.viewer = MjViewer()
self.viewer.start()
self.viewer.set_model(self.model)
return self.viewer
def render(self):
viewer = self.get_viewer()
viewer.loop_once()
def start_viewer(self):
viewer = self.get_viewer()
if not viewer.running:
viewer.start()
def stop_viewer(self):
if self.viewer:
self.viewer.finish()
def release(self):
# temporarily alleviate the issue (but still some leak)
from rllab.mujoco_py.mjlib import mjlib
mjlib.mj_deleteModel(self.model._wrapped)
mjlib.mj_deleteData(self.data._wrapped)
def get_body_xmat(self, body_name):
idx = self.model.body_names.index(body_name)
return self.model.data.xmat[idx].reshape((3, 3))
def get_body_com(self, body_name):
idx = self.model.body_names.index(body_name)
return self.model.data.com_subtree[idx]
def get_body_comvel(self, body_name):
idx = self.model.body_names.index(body_name)
return self.model.body_comvels[idx]
def print_stats(self):
super(MujocoEnv, self).print_stats()
print("qpos dim:\t%d" % len(self.model.data.qpos))
def action_from_key(self, key):
raise NotImplementedError
def get_viewer(self):
if self.viewer is None:
self.viewer = MjViewer(init_height=1000, init_width=1000)
self.viewer.start()
self.viewer.set_model(self.model)
return self.viewer
class SwimmerUnevenFloorEnv(MujocoEnv, Serializable):
"""
This SwimmerEnv differs from the one in rllab.envs.mujoco.swimmer_env in the additional initialization options
that fix the rewards and observation space.
The 'com' is added to the env_infos.
Also the get_ori() method is added for the Maze and Gather tasks.
"""
FILE = 'swimmer_hfield.xml'
ORI_IND = 2
@autoargs.arg('ctrl_cost_coeff',
type=float,
help='cost coefficient for controls')
def __init__(self,
ctrl_cost_coeff=1e-2,
ego_obs=False,
sparse_rew=False,
*args,
**kwargs):
self.ctrl_cost_coeff = ctrl_cost_coeff
self.ego_obs = ego_obs
self.sparse_rew = sparse_rew
super(SwimmerUnevenFloorEnv, self).__init__(*args, **kwargs)
Serializable.quick_init(self, locals())
def get_current_obs(self):
if self.ego_obs:
return np.concatenate([
self.model.data.qpos.flat[2:],
self.model.data.qvel.flat,
]).reshape(-1)
else:
return np.concatenate([
self.model.data.qpos.flat,
self.model.data.qvel.flat,
self.get_body_com("torso").flat,
]).reshape(-1)
def get_ori(self):
return self.model.data.qpos[self.__class__.ORI_IND]
def step(self, action):
self.forward_dynamics(action)
next_obs = self.get_current_obs()
lb, ub = self.action_bounds
scaling = (ub - lb) * 0.5
ctrl_cost = 0.5 * self.ctrl_cost_coeff * np.sum(
np.square(action / scaling))
forward_reward = np.linalg.norm(self.get_body_comvel(
"torso")) # swimmer has no problem of jumping reward
reward = forward_reward - ctrl_cost
done = False
if self.sparse_rew:
if abs(self.get_body_com("torso")[0]) > 100.0:
reward = 1.0
done = True
else:
reward = 0.
com = np.concatenate([self.get_body_com("torso").flat]).reshape(-1)
ori = self.get_ori()
return Step(next_obs, reward, done, com=com, ori=ori)
@overrides
def log_diagnostics(self, paths, prefix=''):
progs = [
np.linalg.norm(path["env_infos"]["com"][-1] -
path["env_infos"]["com"][0]) for path in paths
]
logger.record_tabular_misc_stat('Progress', progs)
self.plot_visitations(paths, visit_prefix=prefix)
@overrides
def get_viewer(self):
if self.viewer is None:
self.viewer = MjViewer(init_height=1000, init_width=1000)
self.viewer.start()
self.viewer.set_model(self.model)
return self.viewer
class MujocoEnv(Env):
FILE = None
@autoargs.arg('action_noise',
type=float,
help='Noise added to the controls, which will be '
'proportional to the action bounds')
def __init__(
self,
action_noise=0.0,
file_path=None,
template_args=None,
random_init_state=False,
):
#Haoran: even if random_init_state
# compile template
if file_path is None:
if self.__class__.FILE is None:
raise "Mujoco file not specified"
file_path = osp.join(MODEL_DIR, self.__class__.FILE)
if file_path.endswith(".mako"):
lookup = mako.lookup.TemplateLookup(directories=[MODEL_DIR])
with open(file_path) as template_file:
template = mako.template.Template(template_file.read(),
lookup=lookup)
content = template.render(
opts=template_args if template_args is not None else {}, )
tmp_f, file_path = tempfile.mkstemp(text=True)
with open(file_path, 'w') as f:
f.write(content)
self.model = MjModel(file_path)
os.close(tmp_f)
# os.remove(file_path)
# TODO
else:
self.model = MjModel(file_path)
self.data = self.model.data
self.viewer = None
self.init_qpos = self.model.data.qpos
self.init_qvel = self.model.data.qvel
self.init_qacc = self.model.data.qacc
self.init_ctrl = self.model.data.ctrl
self.init_damping = (self.model.dof_damping[:, 0]).copy()
self.init_armature = (self.model.dof_armature[:, 0]).copy()
self.init_frictionloss = (self.model.dof_frictionloss[:, 0]).copy()
self.qpos_dim = self.init_qpos.size
self.qvel_dim = self.init_qvel.size
self.ctrl_dim = self.init_ctrl.size
self.action_noise = action_noise
self.random_init_state = random_init_state
if "frame_skip" in self.model.numeric_names:
frame_skip_id = self.model.numeric_names.index("frame_skip")
addr = self.model.numeric_adr.flat[frame_skip_id]
self.frame_skip = int(self.model.numeric_data.flat[addr])
else:
self.frame_skip = 1
if "init_qpos" in self.model.numeric_names:
init_qpos_id = self.model.numeric_names.index("init_qpos")
addr = self.model.numeric_adr.flat[init_qpos_id]
size = self.model.numeric_size.flat[init_qpos_id]
init_qpos = self.model.numeric_data.flat[addr:addr + size]
self.init_qpos = init_qpos
self.dcom = None
self.current_com = None
self.reset()
super(MujocoEnv, self).__init__()
@property
@overrides
def action_space(self):
bounds = self.model.actuator_ctrlrange
lb = bounds[:, 0]
ub = bounds[:, 1]
return spaces.Box(lb, ub)
@property
@overrides
def observation_space(self):
shp = self.get_current_obs().shape
ub = BIG * np.ones(shp)
return spaces.Box(ub * -1, ub)
@property
def action_bounds(self):
return self.action_space.bounds
def reset_mujoco(self, init_state=None):
# init_state = (0.387, 1.137, -2.028, -1.744, 2.029, -0.873, 1.55, 0, 0)
if init_state is None:
if self.random_init_state:
self.model.data.qpos = self.init_qpos + \
np.random.normal(size=self.init_qpos.shape) * 0.01
self.model.data.qvel = self.init_qvel + \
np.random.normal(size=self.init_qvel.shape) * 0.1
else:
self.model.data.qpos = self.init_qpos
self.model.data.qvel = self.init_qvel
self.model.data.qacc = self.init_qacc
self.model.data.ctrl = self.init_ctrl
else:
start = 0
for datum_name in ["qpos", "qvel", "qacc", "ctrl"]:
datum = getattr(self.model.data, datum_name)
datum_dim = datum.shape[0]
datum = init_state[start:start + datum_dim]
if len(datum) == 0:
datum = getattr(self, 'init_' + datum_name)
setattr(self.model.data, datum_name, datum)
start += datum_dim
self.model.forward()
# print("inside mujoco reset: ", self.model.data.qpos, self.model.data.qvel, self.model.data.qacc, self.model.data.ctrl)
@overrides
def reset(self, init_state=None, *args, **kwargs):
self.reset_mujoco(init_state)
self.model.forward()
self.current_com = self.model.data.com_subtree[0]
self.dcom = np.zeros_like(self.current_com)
# print("outside mujoco reset: ", self.model.data.qpos, self.model.data.qvel, self.model.data.qacc, self.model.data.ctrl)
return self.get_current_obs()
def get_current_obs(self):
return self._get_full_obs()
def _get_full_obs(self):
data = self.model.data
cdists = np.copy(self.model.geom_margin).flat
for c in self.model.data.contact:
cdists[c.geom2] = min(cdists[c.geom2], c.dist)
obs = np.concatenate([
data.qpos.flat,
data.qvel.flat,
# data.cdof.flat,
data.cinert.flat,
data.cvel.flat,
# data.cacc.flat,
data.qfrc_actuator.flat,
data.cfrc_ext.flat,
data.qfrc_constraint.flat,
cdists,
# data.qfrc_bias.flat,
# data.qfrc_passive.flat,
self.dcom.flat,
])
return obs
@property
def _state(self):
return np.concatenate(
[self.model.data.qpos.flat, self.model.data.qvel.flat])
@property
def _full_state(self):
return np.concatenate([
self.model.data.qpos,
self.model.data.qvel,
self.model.data.qacc,
self.model.data.ctrl,
]).ravel()
def inject_action_noise(self, action):
# generate action noise
noise = self.action_noise * \
np.random.normal(size=action.shape)
# rescale the noise to make it proportional to the action bounds
lb, ub = self.action_bounds
noise = 0.5 * (ub - lb) * noise
return action + noise
def forward_dynamics(self, action):
self.model.data.ctrl = self.inject_action_noise(action)
for _ in range(self.frame_skip):
self.model.step()
self.model.forward()
new_com = self.model.data.com_subtree[0]
self.dcom = new_com - self.current_com
self.current_com = new_com
def get_viewer(self, config=None):
if self.viewer is None:
self.viewer = MjViewer()
self.viewer.start()
self.viewer.set_model(self.model)
if config is not None:
self.viewer.set_window_pose(config["xpos"], config["ypos"])
self.viewer.set_window_size(config["width"], config["height"])
self.viewer.set_window_title(config["title"])
return self.viewer
def setup_camera(self, cam_pos=None, viewer=None):
"""Setup camera
"""
if cam_pos is None:
cam_pos = self._params["cam_pos"]
if viewer is None:
viewer = self._viewer
viewer.cam.lookat[0] = cam_pos[0]
viewer.cam.lookat[1] = cam_pos[1]
viewer.cam.lookat[2] = cam_pos[2]
viewer.cam.distance = cam_pos[3]
viewer.cam.elevation = cam_pos[4]
viewer.cam.azimuth = cam_pos[5]
viewer.cam.trackbodyid = -1
def render(self, close=False, mode='human', config=None):
if mode == 'human':
viewer = self.get_viewer(config=config)
viewer.loop_once()
elif mode == 'rgb_array':
viewer = self.get_viewer(config=config)
viewer.loop_once()
# self.get_viewer(config=config).render()
data, width, height = self.get_viewer(config=config).get_image()
return np.fromstring(data,
dtype='uint8').reshape(height, width,
3)[::-1, :, :]
if close:
self.stop_viewer()
def start_viewer(self):
viewer = self.get_viewer()
if not viewer.running:
viewer.start()
def stop_viewer(self):
if self.viewer:
self.viewer.finish()
self.viewer = None
def release(self):
# temporarily alleviate the issue (but still some leak)
from rllab.mujoco_py.mjlib import mjlib
mjlib.mj_deleteModel(self.model._wrapped)
mjlib.mj_deleteData(self.data._wrapped)
def get_body_xmat(self, body_name):
idx = self.model.body_names.index(body_name)
return self.model.data.xmat[idx].reshape((3, 3))
def get_body_com(self, body_name):
idx = self.model.body_names.index(body_name)
return self.model.data.com_subtree[idx]
def get_body_comvel(self, body_name):
idx = self.model.body_names.index(body_name)
return self.model.body_comvels[idx]
def print_stats(self):
super(MujocoEnv, self).print_stats()
print("qpos dim:\t%d" % len(self.model.data.qpos))
def action_from_key(self, key):
raise NotImplementedError
def set_state_tmp(self, state, restore=True):
if restore:
prev_pos = self.model.data.qpos
prev_qvel = self.model.data.qvel
prev_ctrl = self.model.data.ctrl
prev_act = self.model.data.act
qpos, qvel = self.decode_state(state)
self.model.data.qpos = qpos
self.model.data.qvel = qvel
self.model.forward()
yield
if restore:
self.model.data.qpos = prev_pos
self.model.data.qvel = prev_qvel
self.model.data.ctrl = prev_ctrl
self.model.data.act = prev_act
self.model.forward()
def get_param_values(self):
return {}
def set_param_values(self, values):
pass
class PR2Env(MujocoEnv, Serializable):
FILE = 'pr2_legofree.xml'
def __init__(self, model='pr2.xml', *args, **kwargs):
self.goal = None
self.action_penalty = 0.5 * 1e-2
if model not in [None, 0]:
self.set_model(model)
super(PR2Env, self).__init__(*args, **kwargs)
Serializable.quick_init(self, locals())
def set_model(self, model):
self.__class__.FILE = model
def get_current_obs(self):
return np.concatenate([
self.model.data.qpos.flat[:-3],
self.model.data.qvel.
flat[:
-3], # Do not include the velocity of the target (should be 0).
self.get_vec_tip_to_goal(),
]).reshape(-1)
def get_tip_position(self):
return self.model.data.site_xpos[0]
def get_vec_tip_to_goal(self):
tip_position = self.get_tip_position()
goal_position = self.goal
vec_tip_to_goal = goal_position - tip_position
return vec_tip_to_goal
def step(self, action):
vec_tip_to_goal = self.get_vec_tip_to_goal()
self.forward_dynamics(action)
lb, ub = self.action_bounds
scaling = (ub - lb) * 0.5
reward_ctrl = -self.action_penalty * np.sum(np.square(
action / scaling))
distance_tip_to_goal = np.sum(np.square(vec_tip_to_goal))
reward_tip = -distance_tip_to_goal
reward = reward_tip + reward_ctrl # + reward_occlusion
done = False
self.time_step += 1
if self.max_path_length and self.time_step > self.max_path_length:
done = True
ob = self.get_current_obs()
return ob, float(reward), done, {}
def get_viewer(self):
if self.viewer is None:
self.viewer = MjViewer()
self.viewer.start()
self.viewer.set_model(self.model)
self.viewer.cam.camid = 0
return self.viewer
@overrides
def reset_mujoco(self, qpos=None, qvel=None):
qpos = self.init_qpos + np.random.normal(
size=self.init_qpos.shape) * 0.01
self.goal = np.random.uniform([0.4, 0.25, 0.6], [0.6, 0.75, 1.])
qpos[-3:, 0] = self.goal
qvel = self.init_qvel + np.random.normal(
size=self.init_qvel.shape) * 0.1
qvel[-3:, 0] = 0
self.model.data.qpos = qpos
self.model.data.qvel = qvel
self.model.data.qacc = self.init_qacc
self.model.data.ctrl = self.init_ctrl
class MujocoEnv(Env):
FILE = None
@autoargs.arg('action_noise', type=float,
help='Noise added to the controls, which will be '
'proportional to the action bounds')
def __init__(self, action_noise=0.0, file_path=None, template_args=None):
# compile template
if file_path is None:
if self.__class__.FILE is None:
raise "Mujoco file not specified"
file_path = osp.join(MODEL_DIR, self.__class__.FILE)
if file_path.endswith(".mako"):
lookup = mako.lookup.TemplateLookup(directories=[MODEL_DIR])
with open(file_path) as template_file:
template = mako.template.Template(
template_file.read(), lookup=lookup)
content = template.render(
opts=template_args if template_args is not None else {},
)
tmp_f, file_path = tempfile.mkstemp(text=True)
with open(file_path, 'w') as f:
f.write(content)
self.model = MjModel(file_path)
os.close(tmp_f)
else:
self.model = MjModel(file_path)
self.data = self.model.data
self.viewer = None
self.init_qpos = self.model.data.qpos
self.init_qvel = self.model.data.qvel
self.init_qacc = self.model.data.qacc
self.init_ctrl = self.model.data.ctrl
self.qpos_dim = self.init_qpos.size
self.qvel_dim = self.init_qvel.size
self.ctrl_dim = self.init_ctrl.size
self.action_noise = action_noise
if "frame_skip" in self.model.numeric_names:
frame_skip_id = self.model.numeric_names.index("frame_skip")
addr = self.model.numeric_adr.flat[frame_skip_id]
self.frame_skip = int(self.model.numeric_data.flat[addr])
else:
self.frame_skip = 1
if "init_qpos" in self.model.numeric_names:
init_qpos_id = self.model.numeric_names.index("init_qpos")
addr = self.model.numeric_adr.flat[init_qpos_id]
size = self.model.numeric_size.flat[init_qpos_id]
init_qpos = self.model.numeric_data.flat[addr:addr + size]
self.init_qpos = init_qpos
self.dcom = None
self.current_com = None
self.reset()
super(MujocoEnv, self).__init__()
@property
@overrides
def action_space(self):
bounds = self.model.actuator_ctrlrange
lb = bounds[:, 0]
ub = bounds[:, 1]
return spaces.Box(lb, ub)
@property
@overrides
def observation_space(self):
shp = self.get_current_obs().shape
ub = BIG * np.ones(shp)
return spaces.Box(ub * -1, ub)
@property
def action_bounds(self):
return self.action_space.bounds
def reset_mujoco(self):
self.model.data.qpos = self.init_qpos + \
np.random.normal(size=self.init_qpos.shape) * 0.01
self.model.data.qvel = self.init_qvel + \
np.random.normal(size=self.init_qvel.shape) * 0.1
self.model.data.qacc = self.init_qacc
self.model.data.ctrl = self.init_ctrl
@overrides
def reset(self):
self.reset_mujoco()
self.model.forward()
self.current_com = self.model.data.com_subtree[0]
self.dcom = np.zeros_like(self.current_com)
return self.get_current_obs()
def get_current_obs(self):
return self._get_full_obs()
def _get_full_obs(self):
data = self.model.data
cdists = np.copy(self.model.geom_margin).flat
for c in self.model.data.contact:
cdists[c.geom2] = min(cdists[c.geom2], c.dist)
obs = np.concatenate([
data.qpos.flat,
data.qvel.flat,
# data.cdof.flat,
data.cinert.flat,
data.cvel.flat,
# data.cacc.flat,
data.qfrc_actuator.flat,
data.cfrc_ext.flat,
data.qfrc_constraint.flat,
cdists,
# data.qfrc_bias.flat,
# data.qfrc_passive.flat,
self.dcom.flat,
])
return obs
@property
def _state(self):
return np.concatenate([
self.model.data.qpos.flat,
self.model.data.qvel.flat
])
def inject_action_noise(self, action):
# generate action noise
noise = self.action_noise * \
np.random.normal(size=action.shape)
# rescale the noise to make it proportional to the action bounds
lb, ub = self.action_bounds
noise = 0.5 * (ub - lb) * noise
return action + noise
def forward_dynamics(self, action):
self.model.data.ctrl = self.inject_action_noise(action)
for _ in range(self.frame_skip):
self.model.step()
self.model.forward()
new_com = self.model.data.com_subtree[0]
self.dcom = new_com - self.current_com
self.current_com = new_com
def get_viewer(self):
if self.viewer is None:
self.viewer = MjViewer()
self.viewer.start()
self.viewer.set_model(self.model)
return self.viewer
def render(self):
viewer = self.get_viewer()
viewer.loop_once()
def start_viewer(self):
viewer = self.get_viewer()
if not viewer.running:
viewer.start()
def stop_viewer(self):
if self.viewer:
self.viewer.finish()
def release(self):
# temporarily alleviate the issue (but still some leak)
from rllab.mujoco_py.mjlib import mjlib
mjlib.mj_deleteModel(self.model._wrapped)
mjlib.mj_deleteData(self.data._wrapped)
def get_body_xmat(self, body_name):
idx = self.model.body_names.index(body_name)
return self.model.data.xmat[idx].reshape((3, 3))
def get_body_com(self, body_name):
idx = self.model.body_names.index(body_name)
return self.model.data.com_subtree[idx]
def get_body_comvel(self, body_name):
idx = self.model.body_names.index(body_name)
return self.model.body_comvels[idx]
def print_stats(self):
super(MujocoEnv, self).print_stats()
print "qpos dim:\t%d" % len(self.model.data.qpos)
def action_from_key(self, key):
raise NotImplementedError
def get_viewer(self):
if self.viewer is None:
self.viewer = MjViewer()
self.viewer.start()
self.viewer.set_model(self.model)
return self.viewer
def _setup_renderer(self):
self.viewer = MjViewer(visible=True,
init_width=self._imSz,
init_height=self._imSz)
self.viewer.start()
self.viewer.set_model(self.model)
