ppo-procgen-bigfish-easy / shared /policy /on_policy.py

PPO playing procgen-bigfish-easy from https://github.com/sgoodfriend/rl-algo-impls/tree/21ee1ab96a186676e5ed2f8c3185902f7c7bca7a

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	import gym
	import numpy as np
	import torch

	from abc import abstractmethod
	from gym.spaces import Box, Discrete, Space
	from stable_baselines3.common.vec_env.base_vec_env import VecEnv, VecEnvObs
	from typing import NamedTuple, Optional, Sequence, Tuple, TypeVar

	from shared.module.feature_extractor import FeatureExtractor
	from shared.policy.actor import PiForward, StateDependentNoiseActorHead, actor_head
	from shared.policy.critic import CriticHead
	from shared.policy.policy import ACTIVATION, Policy


	class Step(NamedTuple):
	a: np.ndarray
	v: np.ndarray
	logp_a: np.ndarray
	clamped_a: np.ndarray


	class ACForward(NamedTuple):
	logp_a: torch.Tensor
	entropy: torch.Tensor
	v: torch.Tensor


	FEAT_EXT_FILE_NAME = "feat_ext.pt"
	V_FEAT_EXT_FILE_NAME = "v_feat_ext.pt"
	PI_FILE_NAME = "pi.pt"
	V_FILE_NAME = "v.pt"
	ActorCriticSelf = TypeVar("ActorCriticSelf", bound="ActorCritic")


	def clamp_actions(
	actions: np.ndarray, action_space: gym.Space, squash_output: bool
	) -> np.ndarray:
	if isinstance(action_space, Box):
	low, high = action_space.low, action_space.high # type: ignore
	if squash_output:
	# Squashed output is already between -1 and 1. Rescale if the actual
	# output needs to something other than -1 and 1
	return low + 0.5 * (actions + 1) * (high - low)
	else:
	return np.clip(actions, low, high)
	return actions


	def default_hidden_sizes(obs_space: Space) -> Sequence[int]:
	if isinstance(obs_space, Box):
	if len(obs_space.shape) == 3:
	# By default feature extractor to output has no hidden layers
	return []
	elif len(obs_space.shape) == 1:
	return [64, 64]
	else:
	raise ValueError(f"Unsupported observation space: {obs_space}")
	elif isinstance(obs_space, Discrete):
	return [64]
	else:
	raise ValueError(f"Unsupported observation space: {obs_space}")


	class OnPolicy(Policy):
	@abstractmethod
	def value(self, obs: VecEnvObs) -> np.ndarray:
	...

	@abstractmethod
	def step(self, obs: VecEnvObs) -> Step:
	...


	class ActorCritic(OnPolicy):
	def __init__(
	self,
	env: VecEnv,
	pi_hidden_sizes: Sequence[int],
	v_hidden_sizes: Sequence[int],
	init_layers_orthogonal: bool = True,
	activation_fn: str = "tanh",
	log_std_init: float = -0.5,
	use_sde: bool = False,
	full_std: bool = True,
	squash_output: bool = False,
	share_features_extractor: bool = True,
	cnn_feature_dim: int = 512,
	cnn_style: str = "nature",
	cnn_layers_init_orthogonal: Optional[bool] = None,
	**kwargs,
	) -> None:
	super().__init__(env, **kwargs)
	activation = ACTIVATION[activation_fn]
	observation_space = env.observation_space
	self.action_space = env.action_space
	self.squash_output = squash_output
	self.share_features_extractor = share_features_extractor
	self._feature_extractor = FeatureExtractor(
	observation_space,
	activation,
	init_layers_orthogonal=init_layers_orthogonal,
	cnn_feature_dim=cnn_feature_dim,
	cnn_style=cnn_style,
	cnn_layers_init_orthogonal=cnn_layers_init_orthogonal,
	)
	self._pi = actor_head(
	self.action_space,
	(self._feature_extractor.out_dim,) + tuple(pi_hidden_sizes),
	init_layers_orthogonal,
	activation,
	log_std_init=log_std_init,
	use_sde=use_sde,
	full_std=full_std,
	squash_output=squash_output,
	)

	if not share_features_extractor:
	self._v_feature_extractor = FeatureExtractor(
	observation_space,
	activation,
	init_layers_orthogonal=init_layers_orthogonal,
	cnn_feature_dim=cnn_feature_dim,
	cnn_style=cnn_style,
	cnn_layers_init_orthogonal=cnn_layers_init_orthogonal,
	)
	v_hidden_sizes = (self._v_feature_extractor.out_dim,) + tuple(
	v_hidden_sizes
	)
	else:
	self._v_feature_extractor = None
	v_hidden_sizes = (self._feature_extractor.out_dim,) + tuple(v_hidden_sizes)
	self._v = CriticHead(
	hidden_sizes=v_hidden_sizes,
	activation=activation,
	init_layers_orthogonal=init_layers_orthogonal,
	)

	def _pi_forward(
	self, obs: torch.Tensor, action: Optional[torch.Tensor] = None
	) -> Tuple[PiForward, torch.Tensor]:
	p_fe = self._feature_extractor(obs)
	pi_forward = self._pi(p_fe, action)

	return pi_forward, p_fe

	def _v_forward(self, obs: torch.Tensor, p_fc: torch.Tensor) -> torch.Tensor:
	v_fe = self._v_feature_extractor(obs) if self._v_feature_extractor else p_fc
	return self._v(v_fe)

	def forward(self, obs: torch.Tensor, action: torch.Tensor) -> ACForward:
	(_, logp_a, entropy), p_fc = self._pi_forward(obs, action)
	v = self._v_forward(obs, p_fc)

	assert logp_a is not None
	assert entropy is not None
	return ACForward(logp_a, entropy, v)

	def value(self, obs: VecEnvObs) -> np.ndarray:
	o = self._as_tensor(obs)
	with torch.no_grad():
	fe = (
	self._v_feature_extractor(o)
	if self._v_feature_extractor
	else self._feature_extractor(o)
	)
	v = self._v(fe)
	return v.cpu().numpy()

	def step(self, obs: VecEnvObs) -> Step:
	o = self._as_tensor(obs)
	with torch.no_grad():
	(pi, _, _), p_fc = self._pi_forward(o)
	a = pi.sample()
	logp_a = pi.log_prob(a)

	v = self._v_forward(o, p_fc)

	a_np = a.cpu().numpy()
	clamped_a_np = clamp_actions(a_np, self.action_space, self.squash_output)
	return Step(a_np, v.cpu().numpy(), logp_a.cpu().numpy(), clamped_a_np)

	def act(self, obs: np.ndarray, deterministic: bool = True) -> np.ndarray:
	if not deterministic:
	return self.step(obs).clamped_a
	else:
	o = self._as_tensor(obs)
	with torch.no_grad():
	(pi, _, _), _ = self._pi_forward(o)
	a = pi.mode
	return clamp_actions(a.cpu().numpy(), self.action_space, self.squash_output)

	def load(self, path: str) -> None:
	super().load(path)
	self.reset_noise()

	def reset_noise(self, batch_size: Optional[int] = None) -> None:
	if isinstance(self._pi, StateDependentNoiseActorHead):
	self._pi.sample_weights(
	batch_size=batch_size if batch_size else self.env.num_envs
	)