def run(agent: DDPG, steps: int, save_dir: str) -> float:
sim_distance_file = DataCSVSaver(os.path.join(save_dir, "distance.txt"), ("step", "distance"))
sim_somite_phase_diffs_file = DataCSVSaver(os.path.join(save_dir, "somite_phase_diffs.txt"), ["step"] + ["phi_{}".format(i) for i in range(config.oscillators)])
sim_gripper_phase_diffs_file = DataCSVSaver(os.path.join(save_dir, "gripper_phase_diffs.txt"), ["step"] + ["phi_{}".format(i) for i in range(config.grippers)])
sim_somite_phases_file = DataCSVSaver(os.path.join(save_dir, "somite_phases.txt"), ["step"] + ["phi_{}".format(i) for i in range(config.oscillators)])
sim_gripper_phases_file = DataCSVSaver(os.path.join(save_dir, "gripper_phases.txt"), ["step"] + ["phi_{}".format(i) for i in range(config.grippers)])
sim_somite_actions_file = DataCSVSaver(os.path.join(save_dir, "somite_actions.txt"), ["step"] + ["action_{}".format(i) for i in range(config.oscillators)])
sim_gripper_actions_file = DataCSVSaver(os.path.join(save_dir, "gripper_actions.txt"), ["step"] + ["action_{}".format(i) for i in range(config.grippers)])
sim_frictions_file = DataCSVSaver(os.path.join(save_dir, "frictions.txt"), ["step"] + ["friction_{}".format(i) for i in range(config.somites)])
sim_tension_file = DataCSVSaver(os.path.join(save_dir, "tensions.txt"), ["step"] + ["tension_{}".format(i) for i in range(config.somites - 2)])
caterpillar = Caterpillar(config.somites, config.oscillators_list, config.grippers_list, config.caterpillar_params)
locomotion_distance = utils.locomotion_distance_logger(caterpillar)
for step in range(steps):
obs, somite_phases, gripper_phases = observe(caterpillar)
actions = agent.act(obs)
feedbacks_somite, feedbacks_gripper = actions[:config.oscillators], actions[config.oscillators:]
caterpillar.step_with_feedbacks(config.params["time_delta"], tuple(feedbacks_somite), tuple(feedbacks_gripper))
frictions, tensions, _, _ = np.split(
obs, [config.somites, config.somites * 2 - 2, config.somites * 2 - 2 + config.oscillators])
sim_distance_file.append_data(step, locomotion_distance(caterpillar))
sim_somite_phase_diffs_file.append_data(step, *utils.phase_diffs(np.array(somite_phases)))
sim_gripper_phase_diffs_file.append_data(step, *utils.phase_diffs(np.array(gripper_phases)))
sim_somite_phases_file.append_data(step, *utils.mod2pi(np.array(somite_phases)))
sim_gripper_phases_file.append_data(step, *utils.mod2pi(np.array(gripper_phases)))
sim_frictions_file.append_data(step, *frictions)
sim_tension_file.append_data(step, *tensions)
sim_somite_actions_file.append_data(step, *feedbacks_somite)
sim_gripper_actions_file.append_data(step, *feedbacks_gripper)
caterpillar.save_simulation("{}/render.json".format(save_dir))
return locomotion_distance(caterpillar)
def run_simulation(sim_vals) -> float:
"""
Run caterpillar with a policy given in argument.
This function is for multiprocessing.
sim_vals: (
steps: int,
actor_module_name: str,
actor_params: [np.array(params_0), np.array(params_1), ...],
disable_list: list
)
"""
steps, actor_module_name, actor_params, disable_list = sim_vals
assert isinstance(steps, int)
# assert isinstance(actor_params, Iterable)
assert isinstance(disable_list, Iterable)
# Init actor
actor_module = import_module(actor_module_name)
actor = getattr(actor_module, config.COMMON_ACTOR_NAME)()
actor.set_params(actor_params)
# Init caterpillar
caterpillar = Caterpillar(config.somites, config.oscillators_list,
config.grippers_list, config.caterpillar_params)
locomotion_distance = utils.locomotion_distance_logger(caterpillar)
# Run steps
(accumulated_tension, ) = exec_steps(steps,
actor,
caterpillar,
disable_list=disable_list)
reward = locomotion_distance(caterpillar)
return reward
def run_caterpillar(actor,
save_dir: str,
steps: int,
disable_list=None,
broken_value=0):
if disable_list is None:
disable_list = []
caterpillar = Caterpillar(config.somites, config.oscillators_list,
config.caterpillar_params)
# Record during sampling
sim_distance_file = DataCSVSaver(os.path.join(save_dir, "distance.txt"),
("step", "distance"))
sim_phase_diffs_file = DataCSVSaver(
os.path.join(save_dir, "phase_diffs.txt"),
["step"] + ["phi_{}".format(i) for i in range(config.oscillators)])
sim_phases_file = DataCSVSaver(
os.path.join(save_dir, "phases.txt"),
["step"] + ["phi_{}".format(i) for i in range(config.oscillators)])
sim_actions_file = DataCSVSaver(
os.path.join(save_dir, "actions.txt"),
["step"] + ["action_{}".format(i) for i in range(config.oscillators)])
sim_frictions_file = DataCSVSaver(
os.path.join(save_dir, "frictions.txt"),
["step"] + ["friction_{}".format(i) for i in range(config.somites)])
sim_tension_file = DataCSVSaver(
os.path.join(save_dir, "tensions.txt"),
["step"] + ["tension_{}".format(i) for i in range(config.somites - 2)])
sim_angle_range_file = DataCSVSaver(
os.path.join(save_dir, "angle_ranges.txt"),
["step"] + ["phi_{}".format(i) for i in range(config.oscillators)])
locomotion_distance = utils.locomotion_distance_logger(
caterpillar) # closure to keep locomotion distance
for step in range(steps):
obv, action = observe_and_act(actor,
caterpillar,
disable_list=disable_list,
broken_value=broken_value)
feedbacks, angle_ranges = action[0], action[1]
caterpillar.set_oscillation_ranges(tuple(angle_ranges))
caterpillar.step_with_feedbacks(config.params["time_delta"],
tuple(feedbacks))
# Save data
phases, frictions, tensions = obv
sim_distance_file.append_data(step, locomotion_distance(caterpillar))
sim_phase_diffs_file.append_data(step, *utils.phase_diffs(phases))
sim_phases_file.append_data(step, *phases)
sim_frictions_file.append_data(step, *frictions)
sim_tension_file.append_data(step, *tensions)
sim_actions_file.append_data(step, *action[0])
sim_angle_range_file.append_data(step, *action[1])
caterpillar.save_simulation("{}/render.json".format(save_dir))
return locomotion_distance(caterpillar)
def run_earthworm(actor,
save_dir: str,
steps: int,
disable_list=None,
broken_value=0):
if disable_list is None:
disable_list = []
earthworm = Earthworm(config.somites, config.oscillators_list,
config.earthworm_params)
# Record during sampling
sim_distance_file = DataCSVSaver(os.path.join(save_dir, "distance.txt"),
("step", "distance"))
sim_somite_phase_diffs_file = DataCSVSaver(
os.path.join(save_dir, "somite_phase_diffs.txt"),
["step"] + ["phi_{}".format(i) for i in range(config.oscillators)])
sim_somite_phases_file = DataCSVSaver(
os.path.join(save_dir, "somite_phases.txt"),
["step"] + ["phi_{}".format(i) for i in range(config.oscillators)])
sim_somite_actions_file = DataCSVSaver(
os.path.join(save_dir, "somite_actions.txt"),
["step"] + ["action_{}".format(i) for i in range(config.oscillators)])
sim_frictions_file = DataCSVSaver(
os.path.join(save_dir, "frictions.txt"),
["step"] + ["friction_{}".format(i) for i in range(config.somites)])
sim_tension_file = DataCSVSaver(
os.path.join(save_dir, "tensions.txt"),
["step"] + ["tension_{}".format(i) for i in range(config.somites - 1)])
locomotion_distance = utils.locomotion_distance_logger(
earthworm) # closure to keep locomotion distance
for step in range(steps):
obv, action = observe_and_act(actor,
earthworm,
disable_list=disable_list,
broken_value=broken_value)
# for (oscillator_id, target_angle) in config.fixed_angles.items():
# earthworm.set_target_angle(oscillator_id, target_angle)
earthworm.step_with_feedbacks(config.params["time_delta"],
tuple(action))
# Save data
phases, frictions, tensions = obv
sim_distance_file.append_data(step, locomotion_distance(earthworm))
sim_somite_phase_diffs_file.append_data(
step, *utils.phase_diffs(phases[:config.oscillators]))
sim_somite_phases_file.append_data(
step, *utils.mod2pi(phases[:config.oscillators]))
sim_frictions_file.append_data(step, *frictions)
sim_tension_file.append_data(step, *tensions)
sim_somite_actions_file.append_data(step, *action)
earthworm.save_simulation("{}/render.json".format(save_dir))
return locomotion_distance(earthworm)
def test_current_params(actor: base_actor, log_dir: str, episode: int):
steps = input("How many steps for this sample?: ")
if steps == "":
utils.notice("default steps {}".format(
config.params["default_sample_steps"]))
steps = config.params["default_sample_steps"]
# Record during sampling
sim_distance_file = DataCSVSaver(
"{}/train_result_ep{}_distance.txt".format(log_dir, episode),
("step", "distance"))
sim_somite_phase_diffs_file = DataCSVSaver(
"{}/train_result_ep{}_somite_phase_diffs.txt".format(log_dir, episode),
["step"] + ["phi_{}".format(i) for i in range(config.oscillators)])
sim_somite_phases_file = DataCSVSaver(
"{}/train_result_ep{}_somite_phases.txt".format(log_dir, episode),
["step"] + ["phi_{}".format(i) for i in range(config.oscillators)])
sim_somite_actions_file = DataCSVSaver(
"{}/train_result_ep{}_somite_actions.txt".format(log_dir, episode),
["step"] + ["action_{}".format(i) for i in range(config.oscillators)])
sim_frictions_file = DataCSVSaver(
"{}/train_result_ep{}_frictions.txt".format(log_dir, episode),
["step"] + ["friction_{}".format(i) for i in range(config.somites)])
earthworm = new_earthworm()
locomotion_distance = utils.locomotion_distance_logger(earthworm)
for step in range(int(steps)):
try:
(phases, frictions, _), action = earthworm_runner.observe_and_act(
actor, earthworm, [])
# for (oscillator_id, target_angle) in config.fixed_angles.items():
# earthworm.set_target_angle(oscillator_id, target_angle)
earthworm.step_with_feedbacks(config.params["time_delta"],
tuple(action))
except KeyboardInterrupt as e:
print("exception occured during sample run,", e)
continue
else:
# Save data
sim_distance_file.append_data(step, locomotion_distance(earthworm))
sim_somite_phase_diffs_file.append_data(
step, *utils.phase_diffs(phases[:config.oscillators]))
sim_somite_phases_file.append_data(
step, *utils.mod2pi(phases[:config.oscillators]))
sim_somite_actions_file.append_data(step, *action)
sim_frictions_file.append_data(step, *frictions)
print("Moved distance:", locomotion_distance(earthworm))
earthworm.save_simulation("{}/train_result_ep{}.json".format(
log_dir, episode))
def test_current_params(actor: base_actor, log_dir: str, episode: int):
steps = input("How many steps for this sample?: ")
if steps == "":
utils.notice("default steps {}".format(
config.params["default_sample_steps"]))
steps = config.params["default_sample_steps"]
# Record during sampling
sim_distance_file = DataCSVSaver(
"{}/train_result_ep{}_distance.txt".format(log_dir, episode),
("step", "distance"))
sim_phase_diffs_file = DataCSVSaver(
"{}/train_result_ep{}_phase_diffs.txt".format(log_dir, episode),
["step"] + ["phi_{}".format(i) for i in range(config.oscillators)])
sim_actions_file = DataCSVSaver(
"{}/train_result_ep{}_actions.txt".format(log_dir, episode),
["step"] + ["action_{}".format(i) for i in range(config.oscillators)])
sim_frictions_file = DataCSVSaver(
"{}/train_result_ep{}_frictions.txt".format(log_dir, episode),
["step"] + ["friction_{}".format(i) for i in range(config.somites)])
caterpillar = new_caterpillar()
locomotion_distance = utils.locomotion_distance_logger(caterpillar)
for step in range(int(steps)):
try:
(phases, frictions,
_), action = caterpillar_runner.observe_and_act(
actor, caterpillar, [])
feedbacks, angle_ranges = action[0], action[1]
caterpillar.set_oscillation_ranges(tuple(angle_ranges))
caterpillar.step_with_feedbacks(config.params["time_delta"],
tuple(feedbacks))
except Exception as e:
print("exception occured during sample run,", e)
continue
else:
# Save data
sim_distance_file.append_data(step,
locomotion_distance(caterpillar))
sim_phase_diffs_file.append_data(step, *utils.phase_diffs(phases))
sim_actions_file.append_data(step, *action[0])
sim_frictions_file.append_data(step, *frictions)
print("Moved distance:", locomotion_distance(caterpillar))
caterpillar.save_simulation("{}/train_result_ep{}.json".format(
log_dir, episode))
def train_caterpillar(save_dir: utils.SaveDir, actor_module_name: str):
actor_module = import_module(actor_module_name)
actor_class = getattr(actor_module, config.COMMON_ACTOR_NAME)
actor = actor_class()
# Dump train parameters
config.print_config()
config.dump_config(save_dir.log_dir(), actor.dump_config())
pepg = PEPG(actor.params_num())
pepg.set_parameters(
np.fromiter(
itertools.chain.from_iterable(
[p.flatten().tolist() for p in actor.current_params()]),
np.float64))
distance_log = DataCSVSaver(
os.path.join(save_dir.log_dir(), "distance.txt"),
("episode", "distance"))
reward_log = DataCSVSaver(os.path.join(save_dir.log_dir(), "reward.txt"),
("episode", "reward"))
sigma_log = DataCSVSaver(os.path.join(save_dir.log_dir(), "sigma.txt"),
("episode", "average sigma"))
episode = 0
while episode < config.params["episodes"]:
current_mus = pepg.get_parameters()
epsilons = pepg.sample_epsilons(config.params["batch_size"])
params_sets = np.concatenate([
current_mus[:, np.newaxis] + epsilons,
current_mus[:, np.newaxis] - epsilons
],
axis=1).T
print("\nEpisode: {}".format(episode))
print(
"---------------------------------------------------------------------"
)
rewards = []
try:
with Pool(processes=config.exec_params["worker_processes"],
initializer=mute) as pool:
rewards = pool.map(
run_simulation,
[(config.params["steps"], actor_module_name, p_set, [])
for p_set in params_sets])
sample_num = epsilons.shape[1]
r_plus = np.array(rewards[:sample_num])
r_minus = np.array(rewards[sample_num:])
nan_samples = np.where(np.isnan(r_plus) + np.isnan(r_minus))[0]
# delete nan samples
epsilons = np.delete(epsilons, nan_samples, axis=1)
r_plus = np.delete(r_plus, nan_samples, axis=0)
r_minus = np.delete(r_minus, nan_samples, axis=0)
if epsilons.shape[1] > 0:
pepg.update_parameters(epsilons, r_plus, r_minus)
episode += 1
# Try parameters after this episode --------------------------------------
actor.set_params(pepg.get_parameters())
caterpillar = Caterpillar(config.somites,
config.oscillators_list,
config.caterpillar_params)
locomotion_distance = utils.locomotion_distance_logger(
caterpillar)
(accumulated_tension, ) = exec_steps(config.params["steps"],
actor,
caterpillar, [],
episode=episode - 1)
d = locomotion_distance(caterpillar)
# reward = d - accumulated_tension / config.params["tension_divisor"]
reward = d
# Save parameter performance
distance_log.append_data(episode, d)
sigma_log.append_data(episode, np.mean(pepg.get_sigmas()))
reward_log.append_data(episode, reward)
announce = " --- Distance: {} Reward: {}".format(d, reward)
print(announce)
else:
print("got nan position. update failed")
except KeyboardInterrupt:
command = input("\nSample? Finish? : ")
if command in ["sample", "Sample"]:
actor.set_params(pepg.get_parameters())
test_current_params(actor, save_dir.log_dir(), episode)
continue
if command in ["finish", "Finish"]:
print("Ending training ...")
break
actor.set_params(pepg.get_parameters())
actor.save(os.path.join(save_dir.model_dir(), 'actor_model.pickle'))
return actor
def train(save_dir_path: str):
agent = build_agent()
reset_dir(save_dir_path)
train_log_dir = os.path.join(save_dir_path, "train_log")
os.makedirs(train_log_dir, exist_ok=True)
config.dump_config(train_log_dir, {"RL method": "DDPG"})
distance_log = DataCSVSaver(os.path.join(train_log_dir, "distance.txt"), ("episode", "distance"))
ep = 0
while ep < config.params['episodes']:
try:
caterpillar = Caterpillar(config.somites, config.oscillators_list, config.grippers_list, config.caterpillar_params)
locomotion_distance = utils.locomotion_distance_logger(caterpillar)
obs, _, _ = observe(caterpillar)
position = 0 # current position
reward = 0
R = 0 # accumulated reward
t = 0
while t < STEPS:
actions = agent.act_and_train(obs, reward)
feedbacks_somite, feedbacks_gripper = actions[:config.oscillators], actions[config.oscillators:]
caterpillar.step_with_feedbacks(config.params["time_delta"], tuple(feedbacks_somite), tuple(feedbacks_gripper))
reward = locomotion_distance(caterpillar) - position
if np.isnan(reward):
print("got invalid reward, {}".format(reward))
continue
obs, _, _ = observe(caterpillar)
R += reward
position = position + reward
t += 1
print("epoch: {} R: {}".format(ep+1, R))
distance_log.append_data(ep+1, R)
agent.stop_episode_and_train(obs, reward)
except FloatingPointError as e:
print("episode {} --- got floating point error, {}. Skip".format(ep, e))
continue
except KeyboardInterrupt:
command = input("\nSample? Finish? : ")
if command in ["sample", "Sample"]:
steps = input("How many steps for this sample?: ")
if steps == "":
utils.notice("default steps {}".format(config.params["default_sample_steps"]))
steps = config.params["default_sample_steps"]
run_dir = os.path.join(train_log_dir, "train_result_ep{}".format(ep))
os.makedirs(run_dir, exist_ok=True)
distance = run(agent, int(steps), run_dir)
print("test run for {} steps, moved distance {}".format(int(steps), distance))
continue
if command in ["finish", "Finish"]:
print("Ending training ...")
break
else:
ep += 1
print('Finished. Saving to {}...'.format(save_dir_path))
agent.save(save_dir_path)
def run_caterpillar(actor,
save_dir: str,
steps: int,
disable_list=None,
broken_value=0):
if disable_list is None:
disable_list = []
caterpillar = Caterpillar(config.somites, config.oscillators_list,
config.grippers_list, config.caterpillar_params)
# Record during sampling
sim_distance_file = DataCSVSaver(os.path.join(save_dir, "distance.txt"),
("step", "distance"))
sim_somite_phase_diffs_file = DataCSVSaver(
os.path.join(save_dir, "somite_phase_diffs.txt"),
["step"] + ["phi_{}".format(i) for i in range(config.oscillators)])
sim_gripper_phase_diffs_file = DataCSVSaver(
os.path.join(save_dir, "gripper_phase_diffs.txt"),
["step"] + ["phi_{}".format(i) for i in range(config.grippers)])
sim_somite_phases_file = DataCSVSaver(
os.path.join(save_dir, "somite_phases.txt"),
["step"] + ["phi_{}".format(i) for i in range(config.oscillators)])
sim_gripper_phases_file = DataCSVSaver(
os.path.join(save_dir, "gripper_phases.txt"),
["step"] + ["phi_{}".format(i) for i in range(config.grippers)])
sim_somite_actions_file = DataCSVSaver(
os.path.join(save_dir, "somite_actions.txt"),
["step"] + ["action_{}".format(i) for i in range(config.oscillators)])
sim_gripper_actions_file = DataCSVSaver(
os.path.join(save_dir, "gripper_actions.txt"),
["step"] + ["action_{}".format(i) for i in range(config.grippers)])
sim_frictions_file = DataCSVSaver(
os.path.join(save_dir, "frictions.txt"),
["step"] + ["friction_{}".format(i) for i in range(config.somites)])
sim_tension_file = DataCSVSaver(
os.path.join(save_dir, "tensions.txt"),
["step"] + ["tension_{}".format(i) for i in range(config.somites - 2)])
sim_grip_thresholds_file = DataCSVSaver(
os.path.join(save_dir, "grip_thresholds.txt"),
["step"] + ["gripper_{}".format(i) for i in range(config.grippers)])
locomotion_distance = utils.locomotion_distance_logger(
caterpillar) # closure to keep locomotion distance
for step in range(steps):
obv, action = observe_and_act(actor,
caterpillar,
disable_list=disable_list,
broken_value=broken_value)
feedbacks, gripping_phase_thresholds = action[0], action[1]
for (oscillator_id, target_angle) in config.fixed_angles.items():
caterpillar.set_target_angle(oscillator_id, target_angle)
caterpillar.set_gripping_phase_thresholds(
tuple(gripping_phase_thresholds))
caterpillar.step_with_feedbacks(config.params["time_delta"],
tuple(feedbacks[:config.oscillators]),
tuple(feedbacks[config.oscillators:]))
# Save data
phases, frictions, tensions = obv
sim_distance_file.append_data(step, locomotion_distance(caterpillar))
sim_somite_phase_diffs_file.append_data(
step, *utils.phase_diffs(phases[:config.oscillators]))
sim_gripper_phase_diffs_file.append_data(
step, *utils.phase_diffs(phases[config.oscillators:]))
sim_somite_phases_file.append_data(
step, *utils.mod2pi(phases[:config.oscillators]))
sim_gripper_phases_file.append_data(
step, *utils.mod2pi(phases[config.oscillators:]))
sim_frictions_file.append_data(step, *frictions)
sim_tension_file.append_data(step, *tensions)
sim_somite_actions_file.append_data(step,
*feedbacks[:config.oscillators])
sim_gripper_actions_file.append_data(step,
*feedbacks[config.oscillators:])
sim_grip_thresholds_file.append_data(step, *gripping_phase_thresholds)
caterpillar.save_simulation("{}/render.json".format(save_dir))
return locomotion_distance(caterpillar)
