import gym import numpy as np from unityagents import UnityEnvironment from gym import error, spaces, logger class UnityGymException(error.Error): """ Any error related to the gym wrapper of ml-agents. """ pass class UnityEnv(gym.Env): """ Provides Gym wrapper for Unity Learning Environments. Multi-agent environments use lists for object types, as done here: https://github.com/openai/multiagent-particle-envs """ def __init__(self, environment_filename: str, worker_id=0, use_visual=False, multiagent=False): """ Environment initialization :param environment_filename: The UnityEnvironment path or file to be wrapped in the gym. :param worker_id: Worker number for environment. :param use_visual: Whether to use visual observation or vector observation. :param multiagent: Whether to run in multi-agent mode (lists of obs, reward, done). """ self._env = UnityEnvironment(environment_filename, worker_id) self.name = self._env.academy_name self.visual_obs = None self._current_state = None self._n_agents = None self._multiagent = multiagent # Check brain configuration if len(self._env.brains) != 1: raise UnityGymException( "There can only be one brain in a UnityEnvironment " "if it is wrapped in a gym.") self.brain_name = self._env.external_brain_names[0] brain = self._env.brains[self.brain_name] if use_visual and brain.number_visual_observations == 0: raise UnityGymException("`use_visual` was set to True, however there are no" " visual observations as part of this environment.") self.use_visual = brain.number_visual_observations == 1 and use_visual if brain.num_stacked_vector_observations != 1: raise UnityGymException( "There can only be one stacked vector observation in a UnityEnvironment " "if it is wrapped in a gym.") # Check for number of agents in scene. initial_info = self._env.reset()[self.brain_name] self._check_agents(len(initial_info.agents)) # Set observation and action spaces if brain.vector_action_space_type == "discrete": if len(brain.vector_action_space_size) == 1: self._action_space = spaces.Discrete(brain.vector_action_space_size[0]) else: self._action_space = spaces.MultiDiscrete(brain.vector_action_space_size) else: high = np.array([1] * brain.vector_action_space_size[0]) self._action_space = spaces.Box(-high, high, dtype=np.float32) high = np.array([np.inf] * brain.vector_observation_space_size) self.action_meanings = brain.vector_action_descriptions if self.use_visual: if brain.camera_resolutions[0]["blackAndWhite"]: depth = 1 else: depth = 3 self._observation_space = spaces.Box(0, 1, dtype=np.float32, shape=(brain.camera_resolutions[0]["height"], brain.camera_resolutions[0]["width"], depth)) else: self._observation_space = spaces.Box(-high, high, dtype=np.float32) def reset(self): """Resets the state of the environment and returns an initial observation. In the case of multi-agent environments, this is a list. Returns: observation (object/list): the initial observation of the space. """ info = self._env.reset()[self.brain_name] n_agents = len(info.agents) self._check_agents(n_agents) if not self._multiagent: obs, reward, done, info = self._single_step(info) else: obs, reward, done, info = self._multi_step(info) return obs def step(self, action): """Run one timestep of the environment's dynamics. When end of episode is reached, you are responsible for calling `reset()` to reset this environment's state. Accepts an action and returns a tuple (observation, reward, done, info). In the case of multi-agent environments, these are lists. Args: action (object/list): an action provided by the environment Returns: observation (object/list): agent's observation of the current environment reward (float/list) : amount of reward returned after previous action done (boolean/list): whether the episode has ended. info (dict): contains auxiliary diagnostic information, including BrainInfo. """ # Use random actions for all other agents in environment. if self._multiagent: if not isinstance(action, list): raise UnityGymException("The environment was expecting `action` to be a list.") if len(action) != self._n_agents: raise UnityGymException("The environment was expecting a list of {} actions.".format(self._n_agents)) else: action = np.array(action) info = self._env.step(action)[self.brain_name] n_agents = len(info.agents) self._check_agents(n_agents) self._current_state = info if not self._multiagent: obs, reward, done, info = self._single_step(info) else: obs, reward, done, info = self._multi_step(info) return obs, reward, done, info def _single_step(self, info): if self.use_visual: self.visual_obs = info.visual_observations[0][0, :, :, :] default_observation = self.visual_obs else: default_observation = info.vector_observations[0, :] return default_observation, info.rewards[0], info.local_done[0], {"text_observation": info.text_observations[0], "brain_info": info} def _multi_step(self, info): if self.use_visual: self.visual_obs = info.visual_observations default_observation = self.visual_obs else: default_observation = info.vector_observations return list(default_observation), info.rewards, info.local_done, {"text_observation": info.text_observations, "brain_info": info} def render(self, mode='rgb_array'): return self.visual_obs def close(self): """Override _close in your subclass to perform any necessary cleanup. Environments will automatically close() themselves when garbage collected or when the program exits. """ self._env.close() def get_action_meanings(self): return self.action_meanings def seed(self, seed=None): """Sets the seed for this env's random number generator(s). Currently not implemented. """ logger.warn("Could not seed environment %s", self.name) return def _check_agents(self, n_agents): if not self._multiagent and n_agents > 1: raise UnityGymException("The environment was launched as a single-agent environment, however" "there is more than one agent in the scene.") elif self._multiagent and n_agents <= 1: raise UnityGymException("The environment was launched as a mutli-agent environment, however" "there is only one agent in the scene.") if self._n_agents is None: self._n_agents = n_agents logger.info("{} agents within environment.".format(n_agents)) elif self._n_agents != n_agents: raise UnityGymException("The number of agents in the environment has changed since " "initialization. This is not supported.") @property def metadata(self): return {'render.modes': ['rgb_array']} @property def reward_range(self): return -float('inf'), float('inf') @property def spec(self): return None @property def action_space(self): return self._action_space @property def observation_space(self): return self._observation_space @property def number_agents(self): return self._n_agents