Source code for stable_baselines3.common.vec_env.stacked_observations

import warnings
from typing import Any, Dict, Generic, List, Mapping, Optional, Tuple, TypeVar, Union

import numpy as np
from gymnasium import spaces

from stable_baselines3.common.preprocessing import is_image_space, is_image_space_channels_first

TObs = TypeVar("TObs", np.ndarray, Dict[str, np.ndarray])

# Disable errors for pytype which doesn't play well with Generic[TypeVar]
# mypy check passes though
# pytype: disable=attribute-error
[docs]class StackedObservations(Generic[TObs]): """ Frame stacking wrapper for data. Dimension to stack over is either first (channels-first) or last (channels-last), which is detected automatically using ``common.preprocessing.is_image_space_channels_first`` if observation is an image space. :param num_envs: Number of environments :param n_stack: Number of frames to stack :param observation_space: Environment observation space :param channels_order: If "first", stack on first image dimension. If "last", stack on last dimension. If None, automatically detect channel to stack over in case of image observation or default to "last". For Dict space, channels_order can also be a dictionary. """ def __init__( self, num_envs: int, n_stack: int, observation_space: Union[spaces.Box, spaces.Dict], channels_order: Optional[Union[str, Mapping[str, Optional[str]]]] = None, ) -> None: self.n_stack = n_stack self.observation_space = observation_space if isinstance(observation_space, spaces.Dict): if not isinstance(channels_order, Mapping): channels_order = {key: channels_order for key in observation_space.spaces.keys()} self.sub_stacked_observations = { key: StackedObservations(num_envs, n_stack, subspace, channels_order[key]) # type: ignore[arg-type] for key, subspace in observation_space.spaces.items() } self.stacked_observation_space = spaces.Dict( {key: substack_obs.stacked_observation_space for key, substack_obs in self.sub_stacked_observations.items()} ) # type: Union[spaces.Dict, spaces.Box] # make mypy happy elif isinstance(observation_space, spaces.Box): if isinstance(channels_order, Mapping): raise TypeError("When the observation space is Box, channels_order can't be a dict.") self.channels_first, self.stack_dimension, self.stacked_shape, self.repeat_axis = self.compute_stacking( n_stack, observation_space, channels_order ) low = np.repeat(observation_space.low, n_stack, axis=self.repeat_axis) high = np.repeat(observation_space.high, n_stack, axis=self.repeat_axis) self.stacked_observation_space = spaces.Box( low=low, high=high, dtype=observation_space.dtype, # type: ignore[arg-type] ) self.stacked_obs = np.zeros((num_envs, *self.stacked_shape), dtype=observation_space.dtype) else: raise TypeError( f"StackedObservations only supports Box and Dict as observation spaces. {observation_space} was provided." )
[docs] @staticmethod def compute_stacking( n_stack: int, observation_space: spaces.Box, channels_order: Optional[str] = None ) -> Tuple[bool, int, Tuple[int, ...], int]: """ Calculates the parameters in order to stack observations :param n_stack: Number of observations to stack :param observation_space: Observation space :param channels_order: Order of the channels :return: Tuple of channels_first, stack_dimension, stackedobs, repeat_axis """ if channels_order is None: # Detect channel location automatically for images if is_image_space(observation_space): channels_first = is_image_space_channels_first(observation_space) else: # Default behavior for non-image space, stack on the last axis channels_first = False else: assert channels_order in { "last", "first", }, "`channels_order` must be one of following: 'last', 'first'" channels_first = channels_order == "first" # This includes the vec-env dimension (first) stack_dimension = 1 if channels_first else -1 repeat_axis = 0 if channels_first else -1 stacked_shape = list(observation_space.shape) stacked_shape[repeat_axis] *= n_stack return channels_first, stack_dimension, tuple(stacked_shape), repeat_axis
[docs] def reset(self, observation: TObs) -> TObs: """ Reset the stacked_obs, add the reset observation to the stack, and return the stack. :param observation: Reset observation :return: The stacked reset observation """ if isinstance(observation, dict): return { key: self.sub_stacked_observations[key].reset(obs) for key, obs in observation.items() } # pytype: disable=bad-return-type self.stacked_obs[...] = 0 if self.channels_first: self.stacked_obs[:, -observation.shape[self.stack_dimension] :, ...] = observation else: self.stacked_obs[..., -observation.shape[self.stack_dimension] :] = observation return self.stacked_obs # pytype: disable=bad-return-type
[docs] def update( self, observations: TObs, dones: np.ndarray, infos: List[Dict[str, Any]], ) -> Tuple[TObs, List[Dict[str, Any]]]: """ Add the observations to the stack and use the dones to update the infos. :param observations: Observations :param dones: Dones :param infos: Infos :return: Tuple of the stacked observations and the updated infos """ if isinstance(observations, dict): # From [{}, {terminal_obs: {key1: ..., key2: ...}}] # to {key1: [{}, {terminal_obs: ...}], key2: [{}, {terminal_obs: ...}]} sub_infos = { key: [ {"terminal_observation": info["terminal_observation"][key]} if "terminal_observation" in info else {} for info in infos ] for key in observations.keys() } stacked_obs = {} stacked_infos = {} for key, obs in observations.items(): stacked_obs[key], stacked_infos[key] = self.sub_stacked_observations[key].update(obs, dones, sub_infos[key]) # From {key1: [{}, {terminal_obs: ...}], key2: [{}, {terminal_obs: ...}]} # to [{}, {terminal_obs: {key1: ..., key2: ...}}] for key in stacked_infos.keys(): for env_idx in range(len(infos)): if "terminal_observation" in infos[env_idx]: infos[env_idx]["terminal_observation"][key] = stacked_infos[key][env_idx]["terminal_observation"] return stacked_obs, infos shift = -observations.shape[self.stack_dimension] self.stacked_obs = np.roll(self.stacked_obs, shift, axis=self.stack_dimension) for env_idx, done in enumerate(dones): if done: if "terminal_observation" in infos[env_idx]: old_terminal = infos[env_idx]["terminal_observation"] if self.channels_first: previous_stack = self.stacked_obs[env_idx, :shift, ...] else: previous_stack = self.stacked_obs[env_idx, ..., :shift] new_terminal = np.concatenate((previous_stack, old_terminal), axis=self.repeat_axis) infos[env_idx]["terminal_observation"] = new_terminal else: warnings.warn("VecFrameStack wrapping a VecEnv without terminal_observation info") self.stacked_obs[env_idx] = 0 if self.channels_first: self.stacked_obs[:, shift:, ...] = observations else: self.stacked_obs[..., shift:] = observations return self.stacked_obs, infos