df3d7f582b
* Use `global_step` as the x-axis for wandb * Use Tensorboard SummaryWritter as core with `wandb.init(..., sync_tensorboard=True)` * Update all atari examples with wandb Co-authored-by: Jiayi Weng <trinkle23897@gmail.com>
261 lines
9.1 KiB
Python
261 lines
9.1 KiB
Python
import argparse
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import datetime
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import os
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import pprint
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import numpy as np
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import torch
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from atari_network import DQN
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from atari_wrapper import make_atari_env
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from torch.utils.tensorboard import SummaryWriter
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from tianshou.data import Collector, VectorReplayBuffer
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from tianshou.policy import DQNPolicy
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from tianshou.policy.modelbased.icm import ICMPolicy
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from tianshou.trainer import offpolicy_trainer
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from tianshou.utils import TensorboardLogger, WandbLogger
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from tianshou.utils.net.discrete import IntrinsicCuriosityModule
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def get_args():
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parser = argparse.ArgumentParser()
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parser.add_argument("--task", type=str, default="PongNoFrameskip-v4")
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parser.add_argument("--seed", type=int, default=0)
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parser.add_argument("--scale-obs", type=int, default=0)
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parser.add_argument("--eps-test", type=float, default=0.005)
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parser.add_argument("--eps-train", type=float, default=1.)
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parser.add_argument("--eps-train-final", type=float, default=0.05)
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parser.add_argument("--buffer-size", type=int, default=100000)
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parser.add_argument("--lr", type=float, default=0.0001)
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parser.add_argument("--gamma", type=float, default=0.99)
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parser.add_argument("--n-step", type=int, default=3)
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parser.add_argument("--target-update-freq", type=int, default=500)
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parser.add_argument("--epoch", type=int, default=100)
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parser.add_argument("--step-per-epoch", type=int, default=100000)
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parser.add_argument("--step-per-collect", type=int, default=10)
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parser.add_argument("--update-per-step", type=float, default=0.1)
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parser.add_argument("--batch-size", type=int, default=32)
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parser.add_argument("--training-num", type=int, default=10)
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parser.add_argument("--test-num", type=int, default=10)
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parser.add_argument("--logdir", type=str, default="log")
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parser.add_argument("--render", type=float, default=0.)
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parser.add_argument(
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"--device", type=str, default="cuda" if torch.cuda.is_available() else "cpu"
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)
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parser.add_argument("--frames-stack", type=int, default=4)
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parser.add_argument("--resume-path", type=str, default=None)
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parser.add_argument("--resume-id", type=str, default=None)
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parser.add_argument(
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"--logger",
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type=str,
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default="tensorboard",
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choices=["tensorboard", "wandb"],
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)
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parser.add_argument("--wandb-project", type=str, default="atari.benchmark")
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parser.add_argument(
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"--watch",
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default=False,
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action="store_true",
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help="watch the play of pre-trained policy only"
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)
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parser.add_argument("--save-buffer-name", type=str, default=None)
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parser.add_argument(
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"--icm-lr-scale",
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type=float,
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default=0.,
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help="use intrinsic curiosity module with this lr scale"
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)
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parser.add_argument(
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"--icm-reward-scale",
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type=float,
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default=0.01,
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help="scaling factor for intrinsic curiosity reward"
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)
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parser.add_argument(
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"--icm-forward-loss-weight",
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type=float,
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default=0.2,
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help="weight for the forward model loss in ICM"
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)
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return parser.parse_args()
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def test_dqn(args=get_args()):
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env, train_envs, test_envs = make_atari_env(
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args.task,
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args.seed,
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args.training_num,
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args.test_num,
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scale=args.scale_obs,
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frame_stack=args.frames_stack,
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)
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args.state_shape = env.observation_space.shape or env.observation_space.n
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args.action_shape = env.action_space.shape or env.action_space.n
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# should be N_FRAMES x H x W
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print("Observations shape:", args.state_shape)
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print("Actions shape:", args.action_shape)
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# seed
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np.random.seed(args.seed)
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torch.manual_seed(args.seed)
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# define model
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net = DQN(*args.state_shape, args.action_shape, args.device).to(args.device)
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optim = torch.optim.Adam(net.parameters(), lr=args.lr)
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# define policy
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policy = DQNPolicy(
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net,
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optim,
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args.gamma,
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args.n_step,
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target_update_freq=args.target_update_freq
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)
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if args.icm_lr_scale > 0:
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feature_net = DQN(
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*args.state_shape, args.action_shape, args.device, features_only=True
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)
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action_dim = np.prod(args.action_shape)
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feature_dim = feature_net.output_dim
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icm_net = IntrinsicCuriosityModule(
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feature_net.net,
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feature_dim,
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action_dim,
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hidden_sizes=[512],
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device=args.device
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)
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icm_optim = torch.optim.Adam(icm_net.parameters(), lr=args.lr)
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policy = ICMPolicy(
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policy, icm_net, icm_optim, args.icm_lr_scale, args.icm_reward_scale,
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args.icm_forward_loss_weight
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).to(args.device)
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# load a previous policy
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if args.resume_path:
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policy.load_state_dict(torch.load(args.resume_path, map_location=args.device))
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print("Loaded agent from: ", args.resume_path)
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# replay buffer: `save_last_obs` and `stack_num` can be removed together
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# when you have enough RAM
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buffer = VectorReplayBuffer(
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args.buffer_size,
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buffer_num=len(train_envs),
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ignore_obs_next=True,
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save_only_last_obs=True,
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stack_num=args.frames_stack
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)
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# collector
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train_collector = Collector(policy, train_envs, buffer, exploration_noise=True)
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test_collector = Collector(policy, test_envs, exploration_noise=True)
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# log
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now = datetime.datetime.now().strftime("%y%m%d-%H%M%S")
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args.algo_name = "dqn_icm" if args.icm_lr_scale > 0 else "dqn"
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log_name = os.path.join(args.task, args.algo_name, str(args.seed), now)
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log_path = os.path.join(args.logdir, log_name)
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# logger
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if args.logger == "wandb":
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logger = WandbLogger(
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save_interval=1,
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name=log_name.replace(os.path.sep, "__"),
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run_id=args.resume_id,
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config=args,
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project=args.wandb_project,
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)
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writer = SummaryWriter(log_path)
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writer.add_text("args", str(args))
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if args.logger == "tensorboard":
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logger = TensorboardLogger(writer)
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else: # wandb
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logger.load(writer)
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def save_fn(policy):
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torch.save(policy.state_dict(), os.path.join(log_path, "policy.pth"))
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def stop_fn(mean_rewards):
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if env.spec.reward_threshold:
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return mean_rewards >= env.spec.reward_threshold
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elif "Pong" in args.task:
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return mean_rewards >= 20
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else:
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return False
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def train_fn(epoch, env_step):
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# nature DQN setting, linear decay in the first 1M steps
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if env_step <= 1e6:
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eps = args.eps_train - env_step / 1e6 * \
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(args.eps_train - args.eps_train_final)
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else:
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eps = args.eps_train_final
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policy.set_eps(eps)
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if env_step % 1000 == 0:
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logger.write("train/env_step", env_step, {"train/eps": eps})
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def test_fn(epoch, env_step):
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policy.set_eps(args.eps_test)
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def save_checkpoint_fn(epoch, env_step, gradient_step):
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# see also: https://pytorch.org/tutorials/beginner/saving_loading_models.html
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ckpt_path = os.path.join(log_path, "checkpoint.pth")
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torch.save({"model": policy.state_dict()}, ckpt_path)
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return ckpt_path
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# watch agent's performance
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def watch():
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print("Setup test envs ...")
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policy.eval()
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policy.set_eps(args.eps_test)
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test_envs.seed(args.seed)
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if args.save_buffer_name:
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print(f"Generate buffer with size {args.buffer_size}")
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buffer = VectorReplayBuffer(
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args.buffer_size,
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buffer_num=len(test_envs),
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ignore_obs_next=True,
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save_only_last_obs=True,
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stack_num=args.frames_stack
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)
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collector = Collector(policy, test_envs, buffer, exploration_noise=True)
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result = collector.collect(n_step=args.buffer_size)
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print(f"Save buffer into {args.save_buffer_name}")
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# Unfortunately, pickle will cause oom with 1M buffer size
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buffer.save_hdf5(args.save_buffer_name)
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else:
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print("Testing agent ...")
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test_collector.reset()
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result = test_collector.collect(
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n_episode=args.test_num, render=args.render
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)
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rew = result["rews"].mean()
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print(f"Mean reward (over {result['n/ep']} episodes): {rew}")
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if args.watch:
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watch()
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exit(0)
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# test train_collector and start filling replay buffer
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train_collector.collect(n_step=args.batch_size * args.training_num)
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# trainer
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result = offpolicy_trainer(
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policy,
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train_collector,
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test_collector,
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args.epoch,
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args.step_per_epoch,
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args.step_per_collect,
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args.test_num,
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args.batch_size,
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train_fn=train_fn,
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test_fn=test_fn,
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stop_fn=stop_fn,
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save_fn=save_fn,
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logger=logger,
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update_per_step=args.update_per_step,
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test_in_train=False,
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resume_from_log=args.resume_id is not None,
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save_checkpoint_fn=save_checkpoint_fn,
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)
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pprint.pprint(result)
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watch()
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if __name__ == "__main__":
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test_dqn(get_args())
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