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main.py
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import copy
import glob
import os
import time
from collections import deque
import gym
import numpy as np
import torch
import torch.nn as nn
import torch.nn.functional as F
import torch.optim as optim
from a2c_ppo_acktr import algo, utils
from a2c_ppo_acktr.algo import gail
from a2c_ppo_acktr.arguments import get_args
from a2c_ppo_acktr.envs import make_vec_envs
from a2c_ppo_acktr.model import Policy
from a2c_ppo_acktr.storage import RolloutStorage
from evaluation import evaluate
def main():
args = get_args()
torch.manual_seed(args.seed)
torch.cuda.manual_seed_all(args.seed)
if args.cuda and torch.cuda.is_available() and args.cuda_deterministic:
torch.backends.cudnn.benchmark = False
torch.backends.cudnn.deterministic = True
log_dir = os.path.expanduser(args.log_dir)
eval_log_dir = log_dir + "_eval"
utils.cleanup_log_dir(log_dir)
utils.cleanup_log_dir(eval_log_dir)
torch.set_num_threads(1)
device = torch.device("cuda:0" if args.cuda else "cpu")
envs = make_vec_envs(args.env_name, args.seed, args.num_processes,
args.gamma, args.log_dir, device, False)
actor_critic = Policy(
envs.observation_space.shape,
envs.action_space,
base_kwargs={'recurrent': args.recurrent_policy})
actor_critic.to(device)
if args.algo == 'a2c':
agent = algo.A2C_ACKTR(
actor_critic,
args.value_loss_coef,
args.entropy_coef,
lr=args.lr,
eps=args.eps,
alpha=args.alpha,
max_grad_norm=args.max_grad_norm)
elif args.algo == 'ppo':
agent = algo.PPO(
actor_critic,
args.clip_param,
args.ppo_epoch,
args.num_mini_batch,
args.value_loss_coef,
args.entropy_coef,
lr=args.lr,
eps=args.eps,
max_grad_norm=args.max_grad_norm)
elif args.algo == 'acktr':
agent = algo.A2C_ACKTR(
actor_critic, args.value_loss_coef, args.entropy_coef, acktr=True)
if args.gail:
assert len(envs.observation_space.shape) == 1
discr = gail.Discriminator(
envs.observation_space.shape[0] + envs.action_space.shape[0], 100,
device)
file_name = os.path.join(
args.gail_experts_dir, "trajs_{}.pt".format(
args.env_name.split('-')[0].lower()))
expert_dataset = gail.ExpertDataset(
file_name, num_trajectories=4, subsample_frequency=20)
drop_last = len(expert_dataset) > args.gail_batch_size
gail_train_loader = torch.utils.data.DataLoader(
dataset=expert_dataset,
batch_size=args.gail_batch_size,
shuffle=True,
drop_last=drop_last)
rollouts = RolloutStorage(args.num_steps, args.num_processes,
envs.observation_space.shape, envs.action_space,
actor_critic.recurrent_hidden_state_size)
obs = envs.reset()
rollouts.obs[0].copy_(obs)
rollouts.to(device)
episode_rewards = deque(maxlen=10)
start = time.time()
num_updates = int(
args.num_env_steps) // args.num_steps // args.num_processes
for j in range(num_updates):
if args.use_linear_lr_decay:
# decrease learning rate linearly
utils.update_linear_schedule(
agent.optimizer, j, num_updates,
agent.optimizer.lr if args.algo == "acktr" else args.lr)
for step in range(args.num_steps):
# Sample actions
with torch.no_grad():
value, action, action_log_prob, recurrent_hidden_states = actor_critic.act(
rollouts.obs[step], rollouts.recurrent_hidden_states[step],
rollouts.masks[step])
# Obser reward and next obs
obs, reward, done, infos = envs.step(action)
for info in infos:
if 'episode' in info.keys():
episode_rewards.append(info['episode']['r'])
# If done then clean the history of observations.
masks = torch.FloatTensor(
[[0.0] if done_ else [1.0] for done_ in done])
bad_masks = torch.FloatTensor(
[[0.0] if 'bad_transition' in info.keys() else [1.0]
for info in infos])
rollouts.insert(obs, recurrent_hidden_states, action,
action_log_prob, value, reward, masks, bad_masks)
with torch.no_grad():
next_value = actor_critic.get_value(
rollouts.obs[-1], rollouts.recurrent_hidden_states[-1],
rollouts.masks[-1]).detach()
if args.gail:
if j >= 10:
envs.venv.eval()
gail_epoch = args.gail_epoch
if j < 10:
gail_epoch = 100 # Warm up
for _ in range(gail_epoch):
discr.update(gail_train_loader, rollouts,
utils.get_vec_normalize(envs)._obfilt)
for step in range(args.num_steps):
rollouts.rewards[step] = discr.predict_reward(
rollouts.obs[step], rollouts.actions[step], args.gamma,
rollouts.masks[step])
rollouts.compute_returns(next_value, args.use_gae, args.gamma,
args.gae_lambda, args.use_proper_time_limits)
value_loss, action_loss, dist_entropy = agent.update(rollouts)
rollouts.after_update()
# save for every interval-th episode or for the last epoch
if (j % args.save_interval == 0
or j == num_updates - 1) and args.save_dir != "":
save_path = os.path.join(args.save_dir, args.algo)
try:
os.makedirs(save_path)
except OSError:
pass
torch.save([
actor_critic,
getattr(utils.get_vec_normalize(envs), 'ob_rms', None)
], os.path.join(save_path, args.env_name + ".pt"))
if j % args.log_interval == 0 and len(episode_rewards) > 1:
total_num_steps = (j + 1) * args.num_processes * args.num_steps
end = time.time()
print(
"Updates {}, num timesteps {}, FPS {} \n Last {} training episodes: mean/median reward {:.1f}/{:.1f}, min/max reward {:.1f}/{:.1f}\n"
.format(j, total_num_steps,
int(total_num_steps / (end - start)),
len(episode_rewards), np.mean(episode_rewards),
np.median(episode_rewards), np.min(episode_rewards),
np.max(episode_rewards), dist_entropy, value_loss,
action_loss))
if (args.eval_interval is not None and len(episode_rewards) > 1
and j % args.eval_interval == 0):
ob_rms = utils.get_vec_normalize(envs).ob_rms
evaluate(actor_critic, ob_rms, args.env_name, args.seed,
args.num_processes, eval_log_dir, device)
if __name__ == "__main__":
main()