ppo-MountainCar-v0 / shared /callbacks /eval_callback.py

PPO playing MountainCar-v0 from https://github.com/sgoodfriend/rl-algo-impls/tree/5598ebc4b03054f16eebe76792486ba7bcacfc5c

68e589c over 1 year ago

raw

history blame

No virus

6.52 kB

	import itertools
	import numpy as np
	import os

	from copy import deepcopy
	from stable_baselines3.common.vec_env.base_vec_env import VecEnv, VecEnvWrapper
	from stable_baselines3.common.vec_env.vec_normalize import VecNormalize
	from torch.utils.tensorboard.writer import SummaryWriter
	from typing import List, Optional, Union

	from shared.callbacks.callback import Callback
	from shared.policy.policy import Policy
	from shared.stats import Episode, EpisodeAccumulator, EpisodesStats
	from wrappers.vec_episode_recorder import VecEpisodeRecorder


	class EvaluateAccumulator(EpisodeAccumulator):
	def __init__(self, num_envs: int, goal_episodes: int, print_returns: bool = True):
	super().__init__(num_envs)
	self.completed_episodes_by_env_idx = [[] for _ in range(num_envs)]
	self.goal_episodes_per_env = int(np.ceil(goal_episodes / num_envs))
	self.print_returns = print_returns

	def on_done(self, ep_idx: int, episode: Episode) -> None:
	if (
	len(self.completed_episodes_by_env_idx[ep_idx])
	>= self.goal_episodes_per_env
	):
	return
	self.completed_episodes_by_env_idx[ep_idx].append(episode)
	if self.print_returns:
	print(
	f"Episode {len(self)} \| "
	f"Score {episode.score} \| "
	f"Length {episode.length}"
	)

	def __len__(self) -> int:
	return sum(len(ce) for ce in self.completed_episodes_by_env_idx)

	@property
	def episodes(self) -> List[Episode]:
	return list(itertools.chain(*self.completed_episodes_by_env_idx))

	def is_done(self) -> bool:
	return all(
	len(ce) == self.goal_episodes_per_env
	for ce in self.completed_episodes_by_env_idx
	)


	def evaluate(
	env: VecEnv,
	policy: Policy,
	n_episodes: int,
	render: bool = False,
	deterministic: bool = True,
	print_returns: bool = True,
	) -> EpisodesStats:
	policy.eval()
	episodes = EvaluateAccumulator(env.num_envs, n_episodes, print_returns)

	obs = env.reset()
	while not episodes.is_done():
	act = policy.act(obs, deterministic=deterministic)
	obs, rew, done, _ = env.step(act)
	episodes.step(rew, done)
	if render:
	env.render()
	stats = EpisodesStats(episodes.episodes)
	if print_returns:
	print(stats)
	return stats


	class EvalCallback(Callback):
	def __init__(
	self,
	policy: Policy,
	env: VecEnv,
	tb_writer: SummaryWriter,
	best_model_path: Optional[str] = None,
	step_freq: Union[int, float] = 50_000,
	n_episodes: int = 10,
	save_best: bool = True,
	deterministic: bool = True,
	record_best_videos: bool = True,
	video_env: Optional[VecEnv] = None,
	best_video_dir: Optional[str] = None,
	max_video_length: int = 3600,
	) -> None:
	super().__init__()
	self.policy = policy
	self.env = env
	self.tb_writer = tb_writer
	self.best_model_path = best_model_path
	self.step_freq = int(step_freq)
	self.n_episodes = n_episodes
	self.save_best = save_best
	self.deterministic = deterministic
	self.stats: List[EpisodesStats] = []
	self.best = None

	self.record_best_videos = record_best_videos
	assert video_env or not record_best_videos
	self.video_env = video_env
	assert best_video_dir or not record_best_videos
	self.best_video_dir = best_video_dir
	if best_video_dir:
	os.makedirs(best_video_dir, exist_ok=True)
	self.max_video_length = max_video_length
	self.best_video_base_path = None

	def on_step(self, timesteps_elapsed: int = 1) -> bool:
	super().on_step(timesteps_elapsed)
	if self.timesteps_elapsed // self.step_freq >= len(self.stats):
	sync_vec_normalize(self.policy.vec_normalize, self.env)
	self.evaluate()
	return True

	def evaluate(
	self, n_episodes: Optional[int] = None, print_returns: Optional[bool] = None
	) -> EpisodesStats:
	eval_stat = evaluate(
	self.env,
	self.policy,
	n_episodes or self.n_episodes,
	deterministic=self.deterministic,
	print_returns=print_returns or False,
	)
	self.policy.train(True)
	print(f"Eval Timesteps: {self.timesteps_elapsed} \| {eval_stat}")

	self.stats.append(eval_stat)

	if not self.best or eval_stat >= self.best:
	strictly_better = not self.best or eval_stat > self.best
	self.best = eval_stat
	if self.save_best:
	assert self.best_model_path
	self.policy.save(self.best_model_path)
	print("Saved best model")
	self.best.write_to_tensorboard(
	self.tb_writer, "best_eval", self.timesteps_elapsed
	)
	if strictly_better and self.record_best_videos:
	assert self.video_env and self.best_video_dir
	sync_vec_normalize(self.policy.vec_normalize, self.video_env)
	self.best_video_base_path = os.path.join(
	self.best_video_dir, str(self.timesteps_elapsed)
	)
	video_wrapped = VecEpisodeRecorder(
	self.video_env,
	self.best_video_base_path,
	max_video_length=self.max_video_length,
	)
	video_stats = evaluate(
	video_wrapped,
	self.policy,
	1,
	deterministic=self.deterministic,
	print_returns=False,
	)
	print(f"Saved best video: {video_stats}")

	eval_stat.write_to_tensorboard(self.tb_writer, "eval", self.timesteps_elapsed)

	return eval_stat


	def sync_vec_normalize(
	origin_vec_normalize: Optional[VecNormalize], destination_env: VecEnv
	) -> None:
	if origin_vec_normalize is not None:
	eval_env_wrapper = destination_env
	while isinstance(eval_env_wrapper, VecEnvWrapper):
	if isinstance(eval_env_wrapper, VecNormalize):
	if hasattr(origin_vec_normalize, "obs_rms"):
	eval_env_wrapper.obs_rms = deepcopy(origin_vec_normalize.obs_rms)
	eval_env_wrapper.ret_rms = deepcopy(origin_vec_normalize.ret_rms)
	eval_env_wrapper = eval_env_wrapper.venv