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from abc import abstractmethod
from typing import NamedTuple, Optional, Sequence, Tuple, TypeVar

import gym
import numpy as np
import torch
from gym.spaces import Box, Space

from rl_algo_impls.shared.policy.actor_critic_network import (
    ConnectedTrioActorCriticNetwork,
    SeparateActorCriticNetwork,
    UNetActorCriticNetwork,
)
from rl_algo_impls.shared.policy.policy import Policy
from rl_algo_impls.wrappers.vectorable_wrapper import (
    VecEnv,
    VecEnvObs,
    single_action_space,
    single_observation_space,
)


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


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

    @abstractmethod
    def step(self, obs: VecEnvObs, action_masks: Optional[np.ndarray] = None) -> Step:
        ...

    @property
    @abstractmethod
    def action_shape(self) -> Tuple[int, ...]:
        ...


class ActorCritic(OnPolicy):
    def __init__(
        self,
        env: VecEnv,
        pi_hidden_sizes: Optional[Sequence[int]] = None,
        v_hidden_sizes: Optional[Sequence[int]] = None,
        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_flatten_dim: int = 512,
        cnn_style: str = "nature",
        cnn_layers_init_orthogonal: Optional[bool] = None,
        impala_channels: Sequence[int] = (16, 32, 32),
        actor_head_style: str = "single",
        **kwargs,
    ) -> None:
        super().__init__(env, **kwargs)

        observation_space = single_observation_space(env)
        action_space = single_action_space(env)
        action_plane_space = getattr(env, "action_plane_space", None)

        self.action_space = action_space
        self.squash_output = squash_output

        if actor_head_style == "unet":
            self.network = UNetActorCriticNetwork(
                observation_space,
                action_space,
                action_plane_space,
                v_hidden_sizes=v_hidden_sizes,
                init_layers_orthogonal=init_layers_orthogonal,
                activation_fn=activation_fn,
                cnn_layers_init_orthogonal=cnn_layers_init_orthogonal,
            )
        elif share_features_extractor:
            self.network = ConnectedTrioActorCriticNetwork(
                observation_space,
                action_space,
                pi_hidden_sizes=pi_hidden_sizes,
                v_hidden_sizes=v_hidden_sizes,
                init_layers_orthogonal=init_layers_orthogonal,
                activation_fn=activation_fn,
                log_std_init=log_std_init,
                use_sde=use_sde,
                full_std=full_std,
                squash_output=squash_output,
                cnn_flatten_dim=cnn_flatten_dim,
                cnn_style=cnn_style,
                cnn_layers_init_orthogonal=cnn_layers_init_orthogonal,
                impala_channels=impala_channels,
                actor_head_style=actor_head_style,
                action_plane_space=action_plane_space,
            )
        else:
            self.network = SeparateActorCriticNetwork(
                observation_space,
                action_space,
                pi_hidden_sizes=pi_hidden_sizes,
                v_hidden_sizes=v_hidden_sizes,
                init_layers_orthogonal=init_layers_orthogonal,
                activation_fn=activation_fn,
                log_std_init=log_std_init,
                use_sde=use_sde,
                full_std=full_std,
                squash_output=squash_output,
                cnn_flatten_dim=cnn_flatten_dim,
                cnn_style=cnn_style,
                cnn_layers_init_orthogonal=cnn_layers_init_orthogonal,
                impala_channels=impala_channels,
                actor_head_style=actor_head_style,
                action_plane_space=action_plane_space,
            )

    def forward(
        self,
        obs: torch.Tensor,
        action: torch.Tensor,
        action_masks: Optional[torch.Tensor] = None,
    ) -> ACForward:
        (_, logp_a, entropy), v = self.network(obs, action, action_masks=action_masks)

        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():
            v = self.network.value(o)
        return v.cpu().numpy()

    def step(self, obs: VecEnvObs, action_masks: Optional[np.ndarray] = None) -> Step:
        o = self._as_tensor(obs)
        a_masks = self._as_tensor(action_masks) if action_masks is not None else None
        with torch.no_grad():
            (pi, _, _), v = self.network.distribution_and_value(o, action_masks=a_masks)
            a = pi.sample()
            logp_a = pi.log_prob(a)

        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,
        action_masks: Optional[np.ndarray] = None,
    ) -> np.ndarray:
        if not deterministic:
            return self.step(obs, action_masks=action_masks).clamped_a
        else:
            o = self._as_tensor(obs)
            a_masks = (
                self._as_tensor(action_masks) if action_masks is not None else None
            )
            with torch.no_grad():
                (pi, _, _), _ = self.network.distribution_and_value(
                    o, action_masks=a_masks
                )
                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 load_from(self: ActorCriticSelf, policy: ActorCriticSelf) -> ActorCriticSelf:
        super().load_from(policy)
        self.reset_noise()
        return self

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

    @property
    def action_shape(self) -> Tuple[int, ...]:
        return self.network.action_shape