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launch_experiment.py
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launch_experiment.py
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"""
Launcher for experiments with PEARL
"""
import os
import pathlib
import numpy as np
import click
import json
import torch
from rlkit.envs import ENVS
from rlkit.envs.wrappers import NormalizedBoxEnv
from rlkit.torch.sac.policies import TanhGaussianPolicy
from rlkit.torch.networks import FlattenMlp, MlpEncoder, RecurrentEncoder
from rlkit.torch.sac.sac import PEARLSoftActorCritic
from rlkit.torch.sac.agent import PEARLAgent
from rlkit.launchers.launcher_util import setup_logger
import rlkit.torch.pytorch_util as ptu
from configs.default import default_config
def experiment(variant):
# create multi-task environment and sample tasks
env = NormalizedBoxEnv(ENVS[variant['env_name']](**variant['env_params']))
tasks = env.get_all_task_idx()
obs_dim = int(np.prod(env.observation_space.shape))
action_dim = int(np.prod(env.action_space.shape))
reward_dim = 1
# instantiate networks
latent_dim = variant['latent_size']
context_encoder_input_dim = 2 * obs_dim + action_dim + reward_dim if variant['algo_params']['use_next_obs_in_context'] else obs_dim + action_dim + reward_dim
context_encoder_output_dim = latent_dim * 2 if variant['algo_params']['use_information_bottleneck'] else latent_dim
net_size = variant['net_size']
recurrent = variant['algo_params']['recurrent']
encoder_model = RecurrentEncoder if recurrent else MlpEncoder
context_encoder = encoder_model(
hidden_sizes=[200, 200, 200],
input_size=context_encoder_input_dim,
output_size=context_encoder_output_dim,
)
qf1 = FlattenMlp(
hidden_sizes=[net_size, net_size, net_size],
input_size=obs_dim + action_dim + latent_dim,
output_size=1,
)
qf2 = FlattenMlp(
hidden_sizes=[net_size, net_size, net_size],
input_size=obs_dim + action_dim + latent_dim,
output_size=1,
)
vf = FlattenMlp(
hidden_sizes=[net_size, net_size, net_size],
input_size=obs_dim + latent_dim,
output_size=1,
)
policy = TanhGaussianPolicy(
hidden_sizes=[net_size, net_size, net_size],
obs_dim=obs_dim + latent_dim,
latent_dim=latent_dim,
action_dim=action_dim,
)
agent = PEARLAgent(
latent_dim,
context_encoder,
policy,
**variant['algo_params']
)
algorithm = PEARLSoftActorCritic(
env=env,
train_tasks=list(tasks[:variant['n_train_tasks']]),
eval_tasks=list(tasks[-variant['n_eval_tasks']:]),
nets=[agent, qf1, qf2, vf],
latent_dim=latent_dim,
**variant['algo_params']
)
# optionally load pre-trained weights
if variant['path_to_weights'] is not None:
path = variant['path_to_weights']
context_encoder.load_state_dict(torch.load(os.path.join(path, 'context_encoder.pth')))
qf1.load_state_dict(torch.load(os.path.join(path, 'qf1.pth')))
qf2.load_state_dict(torch.load(os.path.join(path, 'qf2.pth')))
vf.load_state_dict(torch.load(os.path.join(path, 'vf.pth')))
# TODO hacky, revisit after model refactor
algorithm.networks[-2].load_state_dict(torch.load(os.path.join(path, 'target_vf.pth')))
policy.load_state_dict(torch.load(os.path.join(path, 'policy.pth')))
# optional GPU mode
ptu.set_gpu_mode(variant['util_params']['use_gpu'], variant['util_params']['gpu_id'])
if ptu.gpu_enabled():
algorithm.to()
# debugging triggers a lot of printing and logs to a debug directory
DEBUG = variant['util_params']['debug']
os.environ['DEBUG'] = str(int(DEBUG))
# create logging directory
# TODO support Docker
exp_id = 'debug' if DEBUG else None
experiment_log_dir = setup_logger(variant['env_name'], variant=variant, exp_id=exp_id, base_log_dir=variant['util_params']['base_log_dir'])
# optionally save eval trajectories as pkl files
if variant['algo_params']['dump_eval_paths']:
pickle_dir = experiment_log_dir + '/eval_trajectories'
pathlib.Path(pickle_dir).mkdir(parents=True, exist_ok=True)
# run the algorithm
algorithm.train()
def deep_update_dict(fr, to):
''' update dict of dicts with new values '''
# assume dicts have same keys
for k, v in fr.items():
if type(v) is dict:
deep_update_dict(v, to[k])
else:
to[k] = v
return to
@click.command()
@click.argument('config', default=None)
@click.option('--gpu', default=0)
@click.option('--docker', is_flag=True, default=False)
@click.option('--debug', is_flag=True, default=False)
def main(config, gpu, docker, debug):
variant = default_config
if config:
with open(os.path.join(config)) as f:
exp_params = json.load(f)
variant = deep_update_dict(exp_params, variant)
variant['util_params']['gpu_id'] = gpu
experiment(variant)
if __name__ == "__main__":
main()