"""
Helpers for dealing with vectorized environments.
"""

from typing import Any

import numpy as np
from gymnasium import spaces

from stable_baselines3.common.preprocessing import check_for_nested_spaces
from stable_baselines3.common.vec_env.base_vec_env import VecEnvObs


def dict_to_obs(obs_space: spaces.Space, obs_dict: dict[Any, np.ndarray]) -> VecEnvObs:
    """
    Convert an internal representation raw_obs into the appropriate type
    specified by space.

    :param obs_space: an observation space.
    :param obs_dict: a dict of numpy arrays.
    :return: returns an observation of the same type as space.
        If space is Dict, function is identity; if space is Tuple, converts dict to Tuple;
        otherwise, space is unstructured and returns the value raw_obs[None].
    """
    if isinstance(obs_space, spaces.Dict):
        return obs_dict
    elif isinstance(obs_space, spaces.Tuple):
        assert len(obs_dict) == len(obs_space.spaces), "size of observation does not match size of observation space"
        return tuple(obs_dict[i] for i in range(len(obs_space.spaces)))
    else:
        assert set(obs_dict.keys()) == {None}, "multiple observation keys for unstructured observation space"
        return obs_dict[None]


def obs_space_info(obs_space: spaces.Space) -> tuple[list[str], dict[Any, tuple[int, ...]], dict[Any, np.dtype]]:
    """
    Get dict-structured information about a gym.Space.

    Dict spaces are represented directly by their dict of subspaces.
    Tuple spaces are converted into a dict with keys indexing into the tuple.
    Unstructured spaces are represented by {None: obs_space}.

    :param obs_space: an observation space
    :return: A tuple (keys, shapes, dtypes):
        keys: a list of dict keys.
        shapes: a dict mapping keys to shapes.
        dtypes: a dict mapping keys to dtypes.
    """
    check_for_nested_spaces(obs_space)
    if isinstance(obs_space, spaces.Dict):
        assert isinstance(obs_space.spaces, dict), "Dict space must have ordered subspaces"
        subspaces = obs_space.spaces
    elif isinstance(obs_space, spaces.Tuple):
        subspaces = {i: space for i, space in enumerate(obs_space.spaces)}  # type: ignore[assignment,misc]
    else:
        assert not hasattr(obs_space, "spaces"), f"Unsupported structured space '{type(obs_space)}'"
        subspaces = {None: obs_space}  # type: ignore[assignment,dict-item]
    keys = []
    shapes = {}
    dtypes = {}
    for key, box in subspaces.items():
        keys.append(key)
        shapes[key] = box.shape
        dtypes[key] = box.dtype
    return keys, shapes, dtypes  # type: ignore[return-value]