import atexit import logging import json import numpy as np import os import six import sys import threading import weakref from gym import error, version from gym.monitoring import stats_recorder, video_recorder from gym.utils import atomic_write, closer logger = logging.getLogger(__name__) FILE_PREFIX = 'openaigym' MANIFEST_PREFIX = FILE_PREFIX + '.manifest' def detect_training_manifests(training_dir): return [os.path.join(training_dir, f) for f in os.listdir(training_dir) if f.startswith(MANIFEST_PREFIX + '.')] def detect_monitor_files(training_dir): return [os.path.join(training_dir, f) for f in os.listdir(training_dir) if f.startswith(FILE_PREFIX + '.')] def clear_monitor_files(training_dir): files = detect_monitor_files(training_dir) if len(files) == 0: return logger.info('Clearing %d monitor files from previous run (because force=True was provided)', len(files)) for file in files: os.unlink(file) def capped_cubic_video_schedule(episode_id): if episode_id < 1000: return int(round(episode_id ** (1. / 3))) ** 3 == episode_id else: return episode_id % 1000 == 0 monitor_closer = closer.Closer() # This method gets used for a sanity check in scoreboard/api.py. It's # not intended for use outside of the gym codebase. def _open_monitors(): return list(monitor_closer.closeables.values()) class Monitor(object): """A configurable monitor for your training runs. Every env has an attached monitor, which you can access as 'env.monitor'. Simple usage is just to call 'monitor.start(dir)' to begin monitoring and 'monitor.close()' when training is complete. This will record stats and will periodically record a video. For finer-grained control over how often videos are collected, use the video_callable argument, e.g. 'monitor.start(video_callable=lambda count: count % 100 == 0)' to record every 100 episodes. ('count' is how many episodes have completed) Depending on the environment, video can slow down execution. You can also use 'monitor.configure(video_callable=lambda count: False)' to disable video. Monitor supports multiple threads and multiple processes writing to the same directory of training data. The data will later be joined by scoreboard.upload_training_data and on the server. Args: env (gym.Env): The environment instance to monitor. Attributes: id (Optional[str]): The ID of the monitored environment """ def __init__(self, env): self.env = env self.videos = [] self.stats_recorder = None self.video_recorder = None self.enabled = False self.episode_id = 0 self._monitor_id = None def start(self, directory, video_callable=None, force=False, resume=False): """Start monitoring. Args: directory (str): A per-training run directory where to record stats. video_callable (Optional[function]): function that takes in the index of the episode and outputs a boolean, indicating whether we should record a video on this episode. The default (for video_callable is None) is to take perfect cubes. force (bool): Clear out existing training data from this directory (by deleting every file prefixed with "openaigym."). resume (bool): Retain the training data already in this directory, which will be merged with our new data """ if self.env.spec is None: logger.warn("Trying to monitor an environment which has no 'spec' set. This usually means you did not create it via 'gym.make', and is recommended only for advanced users.") if not os.path.exists(directory): logger.info('Creating monitor directory %s', directory) os.makedirs(directory) if video_callable is None: video_callable = capped_cubic_video_schedule elif not callable(video_callable): raise error.Error('You must provide a function, None, or False for video_callable, not {}: {}'.format(type(video_callable), video_callable)) # Check on whether we need to clear anything if force: clear_monitor_files(directory) elif not resume: training_manifests = detect_training_manifests(directory) if len(training_manifests) > 0: raise error.Error('''Trying to write to monitor directory {} with existing monitor files: {}. You should use a unique directory for each training run, or use 'force=True' to automatically clear previous monitor files.'''.format(directory, ', '.join(training_manifests[:5]))) self.enabled = True self.directory = os.path.abspath(directory) # We use the 'openai-gym' prefix to determine if a file is # ours self.file_prefix = FILE_PREFIX self.file_infix = '{}.{}'.format(self._monitor_id, os.getpid()) self.stats_recorder = stats_recorder.StatsRecorder(directory, '{}.episode_batch.{}'.format(self.file_prefix, self.file_infix)) self.configure(video_callable=video_callable) if not os.path.exists(directory): os.mkdir(directory) self._monitor_id = monitor_closer.register(self) def flush(self): """Flush all relevant monitor information to disk.""" self.stats_recorder.flush() # Give it a very distiguished name, since we need to pick it # up from the filesystem later. path = os.path.join(self.directory, '{}.manifest.{}.manifest.json'.format(self.file_prefix, self.file_infix)) logger.debug('Writing training manifest file to %s', path) with atomic_write.atomic_write(path) as f: # We need to write relative paths here since people may # move the training_dir around. It would be cleaner to # already have the basenames rather than basename'ing # manually, but this works for now. json.dump({ 'stats': os.path.basename(self.stats_recorder.path), 'videos': [(os.path.basename(v), os.path.basename(m)) for v, m in self.videos], 'env_info': self._env_info(), }, f) def close(self): """Flush all monitor data to disk and close any open rending windows.""" if not self.enabled: return self.stats_recorder.close() self.flush() if self.video_recorder is not None: self._close_video_recorder() # Note we'll close the env's rendering window even if we did # not open it. There isn't a particular great way to know if # we did, since some environments will have a window pop up # during video recording. try: self.env.render(close=True) except Exception as e: if self.env.spec: key = self.env.spec.id else: key = self.env # We don't want to avoid writing the manifest simply # because we couldn't close the renderer. logger.error('Could not close renderer for %s: %s', key, e) # Remove the env's pointer to this monitor del self.env._monitor # Stop tracking this for autoclose monitor_closer.unregister(self._monitor_id) self.enabled = False logger.info('''Finished writing results. You can upload them to the scoreboard via gym.upload(%r)''', self.directory) def configure(self, video_callable=None): """Reconfigure the monitor. video_callable (function): Whether to record video to upload to the scoreboard. """ if video_callable is not None: self.video_callable = video_callable def _before_step(self, action): if not self.enabled: return self.stats_recorder.before_step(action) def _after_step(self, observation, reward, done, info): if not self.enabled: return done # Add 1 since about to take another step if self.env.spec and self.stats_recorder.steps+1 >= self.env.spec.timestep_limit: logger.info('Ending episode %i because it reached the timestep limit of %i.', self.episode_id, self.env.spec.timestep_limit) done = True # Record stats self.stats_recorder.after_step(observation, reward, done, info) # Record video self.video_recorder.capture_frame() return done def _before_reset(self): if not self.enabled: return self.stats_recorder.before_reset() def _after_reset(self, observation): if not self.enabled: return # Reset the stat count self.stats_recorder.after_reset(observation) # Close any existing video recorder if self.video_recorder: self._close_video_recorder() # Start recording the next video. # # TODO: calculate a more correct 'episode_id' upon merge self.video_recorder = video_recorder.VideoRecorder( env=self.env, base_path=os.path.join(self.directory, '{}.video.{}.video{:06}'.format(self.file_prefix, self.file_infix, self.episode_id)), metadata={'episode_id': self.episode_id}, enabled=self._video_enabled(), ) self.video_recorder.capture_frame() # Bump *after* all reset activity has finished self.episode_id += 1 self.flush() def _close_video_recorder(self): self.video_recorder.close() if self.video_recorder.functional: self.videos.append((self.video_recorder.path, self.video_recorder.metadata_path)) def _video_enabled(self): return self.video_callable(self.episode_id) def _env_info(self): if self.env.spec: return { 'env_id': self.env.spec.id, 'gym_version': version.VERSION, } else: return {} def __del__(self): # Make sure we've closed up shop when garbage collecting self.close() def load_results(training_dir): if not os.path.exists(training_dir): return manifests = detect_training_manifests(training_dir) if not manifests: return logger.debug('Uploading data from manifest %s', ', '.join(manifests)) # Load up stats + video files stats_files = [] videos = [] env_infos = [] for manifest in manifests: with open(manifest) as f: contents = json.load(f) # Make these paths absolute again stats_files.append(os.path.join(training_dir, contents['stats'])) videos += [(os.path.join(training_dir, v), os.path.join(training_dir, m)) for v, m in contents['videos']] env_infos.append(contents['env_info']) env_info = collapse_env_infos(env_infos, training_dir) timestamps, episode_lengths, episode_rewards, initial_reset_timestamp = merge_stats_files(stats_files) return { 'manifests': manifests, 'env_info': env_info, 'timestamps': timestamps, 'episode_lengths': episode_lengths, 'episode_rewards': episode_rewards, 'initial_reset_timestamp': initial_reset_timestamp, 'videos': videos, } def merge_stats_files(stats_files): timestamps = [] episode_lengths = [] episode_rewards = [] initial_reset_timestamps = [] for path in stats_files: with open(path) as f: content = json.load(f) timestamps += content['timestamps'] episode_lengths += content['episode_lengths'] episode_rewards += content['episode_rewards'] initial_reset_timestamps.append(content['initial_reset_timestamp']) idxs = np.argsort(timestamps) timestamps = np.array(timestamps)[idxs].tolist() episode_lengths = np.array(episode_lengths)[idxs].tolist() episode_rewards = np.array(episode_rewards)[idxs].tolist() initial_reset_timestamp = min(initial_reset_timestamps) return timestamps, episode_lengths, episode_rewards, initial_reset_timestamp def collapse_env_infos(env_infos, training_dir): assert len(env_infos) > 0 first = env_infos[0] for other in env_infos[1:]: if first != other: raise error.Error('Found two unequal env_infos: {} and {}. This usually indicates that your training directory {} has commingled results from multiple runs.'.format(first, other, training_dir)) for key in ['env_id', 'gym_version']: if key not in first: raise error.Error("env_info {} from training directory {} is missing expected key {}. This is unexpected and likely indicates a bug in gym.".format(first, training_dir, key)) return first