DQN playing Acrobot-v1 from https://github.com/sgoodfriend/rl-algo-impls/tree/983cb75e43e51cf4ef57f177194ab9a4a1a8808b

48f24b9 about 1 year ago

No virus

4.61 kB

	import os
	from abc import ABC, abstractmethod
	from copy import deepcopy
	from typing import Dict, Optional, Type, TypeVar, Union

	import numpy as np
	import torch
	import torch.nn as nn
	from stable_baselines3.common.vec_env import unwrap_vec_normalize
	from stable_baselines3.common.vec_env.vec_normalize import VecNormalize

	from rl_algo_impls.wrappers.normalize import NormalizeObservation, NormalizeReward
	from rl_algo_impls.wrappers.vectorable_wrapper import VecEnv, VecEnvObs, find_wrapper

	ACTIVATION: Dict[str, Type[nn.Module]] = {
	"tanh": nn.Tanh,
	"relu": nn.ReLU,
	}

	VEC_NORMALIZE_FILENAME = "vecnormalize.pkl"
	MODEL_FILENAME = "model.pth"
	NORMALIZE_OBSERVATION_FILENAME = "norm_obs.npz"
	NORMALIZE_REWARD_FILENAME = "norm_reward.npz"

	PolicySelf = TypeVar("PolicySelf", bound="Policy")


	class Policy(nn.Module, ABC):
	@abstractmethod
	def __init__(self, env: VecEnv, **kwargs) -> None:
	super().__init__()
	self.env = env
	self.vec_normalize = unwrap_vec_normalize(env)
	self.norm_observation = find_wrapper(env, NormalizeObservation)
	self.norm_reward = find_wrapper(env, NormalizeReward)
	self.device = None

	def to(
	self: PolicySelf,
	device: Optional[torch.device] = None,
	dtype: Optional[Union[torch.dtype, str]] = None,
	non_blocking: bool = False,
	) -> PolicySelf:
	super().to(device, dtype, non_blocking)
	self.device = device
	return self

	@abstractmethod
	def act(
	self,
	obs: VecEnvObs,
	deterministic: bool = True,
	action_masks: Optional[np.ndarray] = None,
	) -> np.ndarray:
	...

	def save(self, path: str) -> None:
	os.makedirs(path, exist_ok=True)

	if self.vec_normalize:
	self.vec_normalize.save(os.path.join(path, VEC_NORMALIZE_FILENAME))
	if self.norm_observation:
	self.norm_observation.save(
	os.path.join(path, NORMALIZE_OBSERVATION_FILENAME)
	)
	if self.norm_reward:
	self.norm_reward.save(os.path.join(path, NORMALIZE_REWARD_FILENAME))
	torch.save(
	self.state_dict(),
	os.path.join(path, MODEL_FILENAME),
	)

	def load(self, path: str) -> None:
	# VecNormalize load occurs in env.py
	self.load_state_dict(
	torch.load(os.path.join(path, MODEL_FILENAME), map_location=self.device)
	)
	if self.norm_observation:
	self.norm_observation.load(
	os.path.join(path, NORMALIZE_OBSERVATION_FILENAME)
	)
	if self.norm_reward:
	self.norm_reward.load(os.path.join(path, NORMALIZE_REWARD_FILENAME))

	def load_from(self: PolicySelf, policy: PolicySelf) -> PolicySelf:
	self.load_state_dict(policy.state_dict())
	if self.norm_observation:
	assert policy.norm_observation
	self.norm_observation.load_from(policy.norm_observation)
	if self.norm_reward:
	assert policy.norm_reward
	self.norm_reward.load_from(policy.norm_reward)
	return self

	def reset_noise(self) -> None:
	pass

	def _as_tensor(self, obs: VecEnvObs) -> torch.Tensor:
	assert isinstance(obs, np.ndarray)
	o = torch.as_tensor(obs)
	if self.device is not None:
	o = o.to(self.device)
	return o

	def num_trainable_parameters(self) -> int:
	return sum(p.numel() for p in self.parameters() if p.requires_grad)

	def num_parameters(self) -> int:
	return sum(p.numel() for p in self.parameters())

	def sync_normalization(self, destination_env) -> None:
	current = destination_env
	while current != current.unwrapped:
	if isinstance(current, VecNormalize):
	assert self.vec_normalize
	current.ret_rms = deepcopy(self.vec_normalize.ret_rms)
	if hasattr(self.vec_normalize, "obs_rms"):
	current.obs_rms = deepcopy(self.vec_normalize.obs_rms)
	elif isinstance(current, NormalizeObservation):
	assert self.norm_observation
	current.rms = deepcopy(self.norm_observation.rms)
	elif isinstance(current, NormalizeReward):
	assert self.norm_reward
	current.rms = deepcopy(self.norm_reward.rms)
	current = getattr(current, "venv", getattr(current, "env", current))
	if not current:
	raise AttributeError(
	f"{type(current)} doesn't include env or venv attribute"
	)