152 lines
6.0 KiB
Python
152 lines
6.0 KiB
Python
import torch
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import numpy as np
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from copy import deepcopy
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import torch.nn.functional as F
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from typing import Dict, Tuple, Union, Optional
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from tianshou.policy import DDPGPolicy
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from tianshou.policy.dist import DiagGaussian
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from tianshou.data import Batch, to_torch_as, ReplayBuffer
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class SACPolicy(DDPGPolicy):
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"""Implementation of Soft Actor-Critic. arXiv:1812.05905
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:param torch.nn.Module actor: the actor network following the rules in
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:class:`~tianshou.policy.BasePolicy`. (s -> logits)
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:param torch.optim.Optimizer actor_optim: the optimizer for actor network.
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:param torch.nn.Module critic1: the first critic network. (s, a -> Q(s,
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a))
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:param torch.optim.Optimizer critic1_optim: the optimizer for the first
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critic network.
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:param torch.nn.Module critic2: the second critic network. (s, a -> Q(s,
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a))
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:param torch.optim.Optimizer critic2_optim: the optimizer for the second
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critic network.
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:param float tau: param for soft update of the target network, defaults to
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0.005.
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:param float gamma: discount factor, in [0, 1], defaults to 0.99.
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:param float exploration_noise: the noise intensity, add to the action,
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defaults to 0.1.
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:param float alpha: entropy regularization coefficient, default to 0.2.
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:param action_range: the action range (minimum, maximum).
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:type action_range: (float, float)
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:param bool reward_normalization: normalize the reward to Normal(0, 1),
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defaults to ``False``.
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:param bool ignore_done: ignore the done flag while training the policy,
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defaults to ``False``.
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.. seealso::
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Please refer to :class:`~tianshou.policy.BasePolicy` for more detailed
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explanation.
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"""
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def __init__(self,
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actor: torch.nn.Module,
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actor_optim: torch.optim.Optimizer,
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critic1: torch.nn.Module,
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critic1_optim: torch.optim.Optimizer,
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critic2: torch.nn.Module,
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critic2_optim: torch.optim.Optimizer,
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tau: float = 0.005,
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gamma: float = 0.99,
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alpha: float = 0.2,
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action_range: Optional[Tuple[float, float]] = None,
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reward_normalization: bool = False,
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ignore_done: bool = False,
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estimation_step: int = 1,
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**kwargs) -> None:
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super().__init__(None, None, None, None, tau, gamma, 0,
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action_range, reward_normalization, ignore_done,
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estimation_step, **kwargs)
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self.actor, self.actor_optim = actor, actor_optim
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self.critic1, self.critic1_old = critic1, deepcopy(critic1)
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self.critic1_old.eval()
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self.critic1_optim = critic1_optim
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self.critic2, self.critic2_old = critic2, deepcopy(critic2)
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self.critic2_old.eval()
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self.critic2_optim = critic2_optim
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self._alpha = alpha
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self.__eps = np.finfo(np.float32).eps.item()
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def train(self) -> None:
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self.training = True
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self.actor.train()
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self.critic1.train()
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self.critic2.train()
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def eval(self) -> None:
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self.training = False
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self.actor.eval()
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self.critic1.eval()
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self.critic2.eval()
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def sync_weight(self) -> None:
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for o, n in zip(
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self.critic1_old.parameters(), self.critic1.parameters()):
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o.data.copy_(o.data * (1 - self._tau) + n.data * self._tau)
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for o, n in zip(
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self.critic2_old.parameters(), self.critic2.parameters()):
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o.data.copy_(o.data * (1 - self._tau) + n.data * self._tau)
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def forward(self, batch: Batch,
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state: Optional[Union[dict, Batch, np.ndarray]] = None,
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input: str = 'obs', **kwargs) -> Batch:
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obs = getattr(batch, input)
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logits, h = self.actor(obs, state=state, info=batch.info)
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assert isinstance(logits, tuple)
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dist = DiagGaussian(*logits)
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x = dist.rsample()
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y = torch.tanh(x)
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act = y * self._action_scale + self._action_bias
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log_prob = dist.log_prob(x) - torch.log(
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self._action_scale * (1 - y.pow(2)) + self.__eps)
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act = act.clamp(self._range[0], self._range[1])
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return Batch(
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logits=logits, act=act, state=h, dist=dist, log_prob=log_prob)
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def _target_q(self, buffer: ReplayBuffer,
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indice: np.ndarray) -> torch.Tensor:
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batch = buffer[indice] # batch.obs: s_{t+n}
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with torch.no_grad():
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obs_next_result = self(batch, input='obs_next')
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a_ = obs_next_result.act
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batch.act = to_torch_as(batch.act, a_)
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target_q = torch.min(
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self.critic1_old(batch.obs_next, a_),
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self.critic2_old(batch.obs_next, a_),
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) - self._alpha * obs_next_result.log_prob
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return target_q
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def learn(self, batch: Batch, **kwargs) -> Dict[str, float]:
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# critic 1
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current_q1 = self.critic1(batch.obs, batch.act)
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target_q = to_torch_as(batch.returns, current_q1)[:, None]
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critic1_loss = F.mse_loss(current_q1, target_q)
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self.critic1_optim.zero_grad()
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critic1_loss.backward()
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self.critic1_optim.step()
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# critic 2
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current_q2 = self.critic2(batch.obs, batch.act)
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critic2_loss = F.mse_loss(current_q2, target_q)
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self.critic2_optim.zero_grad()
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critic2_loss.backward()
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self.critic2_optim.step()
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# actor
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obs_result = self(batch)
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a = obs_result.act
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current_q1a = self.critic1(batch.obs, a)
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current_q2a = self.critic2(batch.obs, a)
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actor_loss = (self._alpha * obs_result.log_prob - torch.min(
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current_q1a, current_q2a)).mean()
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self.actor_optim.zero_grad()
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actor_loss.backward()
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self.actor_optim.step()
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self.sync_weight()
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return {
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'loss/actor': actor_loss.item(),
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'loss/critic1': critic1_loss.item(),
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'loss/critic2': critic2_loss.item(),
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}
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