import gym
from typing import Optional, Dict

import ray
from ray.rllib.agents.ppo.ppo_torch_policy import ValueNetworkMixin
from ray.rllib.evaluation.episode import Episode
from ray.rllib.evaluation.postprocessing import compute_gae_for_sample_batch, \
    Postprocessing
from ray.rllib.models.action_dist import ActionDistribution
from ray.rllib.models.modelv2 import ModelV2
from ray.rllib.policy.policy import Policy
from ray.rllib.policy.policy_template import build_policy_class
from ray.rllib.policy.sample_batch import SampleBatch
from ray.rllib.policy.torch_policy import LearningRateSchedule, \
    EntropyCoeffSchedule
from ray.rllib.utils.deprecation import Deprecated
from ray.rllib.utils.framework import try_import_torch
from ray.rllib.utils.torch_ops import apply_grad_clipping, sequence_mask
from ray.rllib.utils.typing import TrainerConfigDict, TensorType, \
    PolicyID, LocalOptimizer

torch, nn = try_import_torch()


@Deprecated(
    old="rllib.agents.a3c.a3c_torch_policy.add_advantages",
    new="rllib.evaluation.postprocessing.compute_gae_for_sample_batch",
    error=False)
def add_advantages(
        policy: Policy,
        sample_batch: SampleBatch,
        other_agent_batches: Optional[Dict[PolicyID, SampleBatch]] = None,
        episode: Optional[Episode] = None) -> SampleBatch:

    return compute_gae_for_sample_batch(policy, sample_batch,
                                        other_agent_batches, episode)


def actor_critic_loss(policy: Policy, model: ModelV2,
                      dist_class: ActionDistribution,
                      train_batch: SampleBatch) -> TensorType:
    logits, _ = model(train_batch)
    values = model.value_function()

    if policy.is_recurrent():
        B = len(train_batch[SampleBatch.SEQ_LENS])
        max_seq_len = logits.shape[0] // B
        mask_orig = sequence_mask(train_batch[SampleBatch.SEQ_LENS],
                                  max_seq_len)
        valid_mask = torch.reshape(mask_orig, [-1])
    else:
        valid_mask = torch.ones_like(values, dtype=torch.bool)

    dist = dist_class(logits, model)
    log_probs = dist.logp(train_batch[SampleBatch.ACTIONS]).reshape(-1)
    pi_err = -torch.sum(
        torch.masked_select(log_probs * train_batch[Postprocessing.ADVANTAGES],
                            valid_mask))

    # Compute a value function loss.
    if policy.config["use_critic"]:
        value_err = 0.5 * torch.sum(
            torch.pow(
                torch.masked_select(
                    values.reshape(-1) -
                    train_batch[Postprocessing.VALUE_TARGETS], valid_mask),
                2.0))
    # Ignore the value function.
    else:
        value_err = 0.0

    entropy = torch.sum(torch.masked_select(dist.entropy(), valid_mask))

    total_loss = (pi_err + value_err * policy.config["vf_loss_coeff"] -
                  entropy * policy.entropy_coeff)

    # Store values for stats function in model (tower), such that for
    # multi-GPU, we do not override them during the parallel loss phase.
    model.tower_stats["entropy"] = entropy
    model.tower_stats["pi_err"] = pi_err
    model.tower_stats["value_err"] = value_err

    return total_loss


def stats(policy: Policy, train_batch: SampleBatch) -> Dict[str, TensorType]:

    return {
        "cur_lr": policy.cur_lr,
        "entropy_coeff": policy.entropy_coeff,
        "policy_entropy": torch.mean(
            torch.stack(policy.get_tower_stats("entropy"))),
        "policy_loss": torch.mean(
            torch.stack(policy.get_tower_stats("pi_err"))),
        "vf_loss": torch.mean(
            torch.stack(policy.get_tower_stats("value_err"))),
    }


def model_value_predictions(
        policy: Policy, input_dict: Dict[str, TensorType], state_batches,
        model: ModelV2,
        action_dist: ActionDistribution) -> Dict[str, TensorType]:
    return {SampleBatch.VF_PREDS: model.value_function()}


def torch_optimizer(policy: Policy,
                    config: TrainerConfigDict) -> LocalOptimizer:
    return torch.optim.Adam(policy.model.parameters(), lr=config["lr"])


def setup_mixins(policy: Policy, obs_space: gym.spaces.Space,
                 action_space: gym.spaces.Space,
                 config: TrainerConfigDict) -> None:
    """Call all mixin classes' constructors before PPOPolicy initialization.

    Args:
        policy (Policy): The Policy object.
        obs_space (gym.spaces.Space): The Policy's observation space.
        action_space (gym.spaces.Space): The Policy's action space.
        config (TrainerConfigDict): The Policy's config.
    """
    EntropyCoeffSchedule.__init__(policy, config["entropy_coeff"],
                                  config["entropy_coeff_schedule"])
    LearningRateSchedule.__init__(policy, config["lr"], config["lr_schedule"])
    ValueNetworkMixin.__init__(policy, obs_space, action_space, config)


A3CTorchPolicy = build_policy_class(
    name="A3CTorchPolicy",
    framework="torch",
    get_default_config=lambda: ray.rllib.agents.a3c.a3c.DEFAULT_CONFIG,
    loss_fn=actor_critic_loss,
    stats_fn=stats,
    postprocess_fn=compute_gae_for_sample_batch,
    extra_action_out_fn=model_value_predictions,
    extra_grad_process_fn=apply_grad_clipping,
    optimizer_fn=torch_optimizer,
    before_loss_init=setup_mixins,
    mixins=[ValueNetworkMixin, LearningRateSchedule, EntropyCoeffSchedule],
)