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346 行
13 KiB
346 行
13 KiB
import itertools
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import numpy as np
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from typing import Any, Dict, List, Tuple, Union
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import gym
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from gym import error, spaces
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from mlagents_envs.base_env import ActionTuple, BaseEnv
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from mlagents_envs.base_env import DecisionSteps, TerminalSteps
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from mlagents_envs import logging_util
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class UnityGymException(error.Error):
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"""
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Any error related to the gym wrapper of ml-agents.
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"""
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pass
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logger = logging_util.get_logger(__name__)
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logging_util.set_log_level(logging_util.INFO)
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GymStepResult = Tuple[np.ndarray, float, bool, Dict]
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class UnityToGymWrapper(gym.Env):
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"""
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Provides Gym wrapper for Unity Learning Environments.
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"""
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def __init__(
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self,
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unity_env: BaseEnv,
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uint8_visual: bool = False,
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flatten_branched: bool = False,
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allow_multiple_obs: bool = False,
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):
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"""
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Environment initialization
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:param unity_env: The Unity BaseEnv to be wrapped in the gym. Will be closed when the UnityToGymWrapper closes.
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:param uint8_visual: Return visual observations as uint8 (0-255) matrices instead of float (0.0-1.0).
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:param flatten_branched: If True, turn branched discrete action spaces into a Discrete space rather than
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MultiDiscrete.
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:param allow_multiple_obs: If True, return a list of np.ndarrays as observations with the first elements
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containing the visual observations and the last element containing the array of vector observations.
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If False, returns a single np.ndarray containing either only a single visual observation or the array of
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vector observations.
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"""
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self._env = unity_env
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# Take a single step so that the brain information will be sent over
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if not self._env.behavior_specs:
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self._env.step()
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self.visual_obs = None
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# Save the step result from the last time all Agents requested decisions.
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self._previous_decision_step: DecisionSteps = None
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self._flattener = None
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# Hidden flag used by Atari environments to determine if the game is over
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self.game_over = False
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self._allow_multiple_obs = allow_multiple_obs
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# Check brain configuration
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if len(self._env.behavior_specs) != 1:
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raise UnityGymException(
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"There can only be one behavior in a UnityEnvironment "
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"if it is wrapped in a gym."
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)
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self.name = list(self._env.behavior_specs.keys())[0]
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self.group_spec = self._env.behavior_specs[self.name]
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if self._get_n_vis_obs() == 0 and self._get_vec_obs_size() == 0:
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raise UnityGymException(
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"There are no observations provided by the environment."
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)
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if not self._get_n_vis_obs() >= 1 and uint8_visual:
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logger.warning(
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"uint8_visual was set to true, but visual observations are not in use. "
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"This setting will not have any effect."
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)
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else:
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self.uint8_visual = uint8_visual
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if (
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self._get_n_vis_obs() + self._get_vec_obs_size() >= 2
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and not self._allow_multiple_obs
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):
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logger.warning(
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"The environment contains multiple observations. "
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"You must define allow_multiple_obs=True to receive them all. "
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"Otherwise, only the first visual observation (or vector observation if"
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"there are no visual observations) will be provided in the observation."
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)
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# Check for number of agents in scene.
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self._env.reset()
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decision_steps, _ = self._env.get_steps(self.name)
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self._check_agents(len(decision_steps))
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self._previous_decision_step = decision_steps
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# Set action spaces
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if self.group_spec.action_spec.is_discrete():
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self.action_size = self.group_spec.action_spec.discrete_size
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branches = self.group_spec.action_spec.discrete_branches
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if self.group_spec.action_spec.discrete_size == 1:
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self._action_space = spaces.Discrete(branches[0])
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else:
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if flatten_branched:
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self._flattener = ActionFlattener(branches)
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self._action_space = self._flattener.action_space
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else:
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self._action_space = spaces.MultiDiscrete(branches)
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elif self.group_spec.action_spec.is_continuous():
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if flatten_branched:
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logger.warning(
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"The environment has a non-discrete action space. It will "
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"not be flattened."
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)
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self.action_size = self.group_spec.action_spec.continuous_size
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high = np.array([1] * self.group_spec.action_spec.continuous_size)
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self._action_space = spaces.Box(-high, high, dtype=np.float32)
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else:
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raise UnityGymException(
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"The gym wrapper does not provide explicit support for both discrete "
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"and continuous actions."
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)
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# Set observations space
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list_spaces: List[gym.Space] = []
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shapes = self._get_vis_obs_shape()
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for shape in shapes:
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if uint8_visual:
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list_spaces.append(spaces.Box(0, 255, dtype=np.uint8, shape=shape))
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else:
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list_spaces.append(spaces.Box(0, 1, dtype=np.float32, shape=shape))
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if self._get_vec_obs_size() > 0:
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# vector observation is last
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high = np.array([np.inf] * self._get_vec_obs_size())
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list_spaces.append(spaces.Box(-high, high, dtype=np.float32))
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if self._allow_multiple_obs:
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self._observation_space = spaces.Tuple(list_spaces)
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else:
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self._observation_space = list_spaces[0] # only return the first one
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def reset(self) -> Union[List[np.ndarray], np.ndarray]:
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"""Resets the state of the environment and returns an initial observation.
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Returns: observation (object/list): the initial observation of the
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space.
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"""
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self._env.reset()
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decision_step, _ = self._env.get_steps(self.name)
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n_agents = len(decision_step)
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self._check_agents(n_agents)
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self.game_over = False
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res: GymStepResult = self._single_step(decision_step)
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return res[0]
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def step(self, action: List[Any]) -> GymStepResult:
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"""Run one timestep of the environment's dynamics. When end of
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episode is reached, you are responsible for calling `reset()`
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to reset this environment's state.
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Accepts an action and returns a tuple (observation, reward, done, info).
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Args:
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action (object/list): an action provided by the environment
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Returns:
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observation (object/list): agent's observation of the current environment
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reward (float/list) : amount of reward returned after previous action
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done (boolean/list): whether the episode has ended.
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info (dict): contains auxiliary diagnostic information.
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"""
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if self._flattener is not None:
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# Translate action into list
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action = self._flattener.lookup_action(action)
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action = np.array(action).reshape((1, self.action_size))
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action_tuple = ActionTuple()
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if self.group_spec.action_spec.is_continuous():
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action_tuple.add_continuous(action)
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else:
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action_tuple.add_discrete(action)
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self._env.set_actions(self.name, action_tuple)
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self._env.step()
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decision_step, terminal_step = self._env.get_steps(self.name)
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self._check_agents(max(len(decision_step), len(terminal_step)))
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if len(terminal_step) != 0:
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# The agent is done
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self.game_over = True
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return self._single_step(terminal_step)
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else:
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return self._single_step(decision_step)
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def _single_step(self, info: Union[DecisionSteps, TerminalSteps]) -> GymStepResult:
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if self._allow_multiple_obs:
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visual_obs = self._get_vis_obs_list(info)
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visual_obs_list = []
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for obs in visual_obs:
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visual_obs_list.append(self._preprocess_single(obs[0]))
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default_observation = visual_obs_list
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if self._get_vec_obs_size() >= 1:
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default_observation.append(self._get_vector_obs(info)[0, :])
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else:
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if self._get_n_vis_obs() >= 1:
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visual_obs = self._get_vis_obs_list(info)
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default_observation = self._preprocess_single(visual_obs[0][0])
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else:
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default_observation = self._get_vector_obs(info)[0, :]
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if self._get_n_vis_obs() >= 1:
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visual_obs = self._get_vis_obs_list(info)
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self.visual_obs = self._preprocess_single(visual_obs[0][0])
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done = isinstance(info, TerminalSteps)
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return (default_observation, info.reward[0], done, {"step": info})
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def _preprocess_single(self, single_visual_obs: np.ndarray) -> np.ndarray:
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if self.uint8_visual:
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return (255.0 * single_visual_obs).astype(np.uint8)
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else:
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return single_visual_obs
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def _get_n_vis_obs(self) -> int:
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result = 0
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for obs_spec in self.group_spec.observation_specs:
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if len(obs_spec.shape) == 3:
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result += 1
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return result
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def _get_vis_obs_shape(self) -> List[Tuple]:
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result: List[Tuple] = []
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for obs_spec in self.group_spec.observation_specs:
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if len(obs_spec.shape) == 3:
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result.append(obs_spec.shape)
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return result
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def _get_vis_obs_list(
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self, step_result: Union[DecisionSteps, TerminalSteps]
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) -> List[np.ndarray]:
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result: List[np.ndarray] = []
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for obs in step_result.obs:
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if len(obs.shape) == 4:
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result.append(obs)
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return result
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def _get_vector_obs(
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self, step_result: Union[DecisionSteps, TerminalSteps]
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) -> np.ndarray:
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result: List[np.ndarray] = []
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for obs in step_result.obs:
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if len(obs.shape) == 2:
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result.append(obs)
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return np.concatenate(result, axis=1)
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def _get_vec_obs_size(self) -> int:
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result = 0
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for obs_spec in self.group_spec.observation_specs:
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if len(obs_spec.shape) == 1:
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result += obs_spec.shape[0]
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return result
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def render(self, mode="rgb_array"):
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return self.visual_obs
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def close(self) -> None:
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"""Override _close in your subclass to perform any necessary cleanup.
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Environments will automatically close() themselves when
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garbage collected or when the program exits.
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"""
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self._env.close()
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def seed(self, seed: Any = None) -> None:
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"""Sets the seed for this env's random number generator(s).
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Currently not implemented.
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"""
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logger.warning("Could not seed environment %s", self.name)
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return
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@staticmethod
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def _check_agents(n_agents: int) -> None:
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if n_agents > 1:
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raise UnityGymException(
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f"There can only be one Agent in the environment but {n_agents} were detected."
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)
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@property
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def metadata(self):
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return {"render.modes": ["rgb_array"]}
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@property
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def reward_range(self) -> Tuple[float, float]:
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return -float("inf"), float("inf")
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@property
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def action_space(self):
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return self._action_space
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@property
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def observation_space(self):
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return self._observation_space
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class ActionFlattener:
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"""
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Flattens branched discrete action spaces into single-branch discrete action spaces.
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"""
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def __init__(self, branched_action_space):
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"""
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Initialize the flattener.
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:param branched_action_space: A List containing the sizes of each branch of the action
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space, e.g. [2,3,3] for three branches with size 2, 3, and 3 respectively.
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"""
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self._action_shape = branched_action_space
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self.action_lookup = self._create_lookup(self._action_shape)
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self.action_space = spaces.Discrete(len(self.action_lookup))
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@classmethod
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def _create_lookup(self, branched_action_space):
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"""
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Creates a Dict that maps discrete actions (scalars) to branched actions (lists).
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Each key in the Dict maps to one unique set of branched actions, and each value
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contains the List of branched actions.
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"""
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possible_vals = [range(_num) for _num in branched_action_space]
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all_actions = [list(_action) for _action in itertools.product(*possible_vals)]
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# Dict should be faster than List for large action spaces
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action_lookup = {
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_scalar: _action for (_scalar, _action) in enumerate(all_actions)
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}
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return action_lookup
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def lookup_action(self, action):
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"""
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Convert a scalar discrete action into a unique set of branched actions.
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:param: action: A scalar value representing one of the discrete actions.
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:return: The List containing the branched actions.
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"""
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return self.action_lookup[action]
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