def get_descriptor(): """Creates an EnvironmentDescriptor.""" plane_size = FLAGS.n_history_frames if ( FLAGS.encode_actions == 0) else int(2 * FLAGS.n_history_frames) if not FLAGS.grayscale: plane_size *= 3 reward_range, value_range = RANGES reward_range = tuple(map(mzcore.inverse_contractive_mapping, reward_range)) value_range = tuple(map(mzcore.inverse_contractive_mapping, value_range)) observation_space = box.Box(low=0., high=1., shape=(FLAGS.screen_size, FLAGS.screen_size, plane_size), dtype=np.float32) return mzcore.EnvironmentDescriptor( observation_space=observation_space, action_space=gym.make( get_game_id(), full_action_space=(FLAGS.full_action_space == 1)).action_space, reward_range=reward_range, value_range=value_range, pretraining_space=gym.spaces.Tuple([ observation_space, observation_space, ]), )
def get_descriptor(): if FLAGS.env_compact: observation_space = gym.spaces.Box( -1, 1, (FLAGS.env_board_size, FLAGS.env_board_size, 1), np.float32) else: observation_space = gym.spaces.Box( 0, 1, (FLAGS.env_board_size, FLAGS.env_board_size, 3), np.float32) return mzcore.EnvironmentDescriptor( observation_space=observation_space, action_space=gym.spaces.Discrete(FLAGS.env_board_size**2), reward_range=mzcore.Range(-2., 1.), value_range=mzcore.Range(-2., 1.), )
def get_descriptor() -> mzcore.EnvironmentDescriptor: sequence_length = common_flags.BERT_SEQUENCE_LENGTH.value bert_config = configs.BertConfig.from_json_file( common_flags.BERT_CONFIG.value) grammar_config = grammar_lib.grammar_config_from_flags() max_len_type_vocab = max(map(len, bert_state_lib.TYPE_VOCABS.values())) tokenizer = bert_state_lib.get_tokenizer() grammar = grammar_lib.construct_grammar(grammar_config=grammar_config, vocab=list( tokenizer.get_vocab().keys())) observation_space = gym.spaces.Tuple([ gym.spaces.Box(0, bert_config.vocab_size, (sequence_length, ), np.int32), gym.spaces.Box(0, max_len_type_vocab, (sequence_length, len(bert_state_lib.TYPE_VOCABS)), np.int32), gym.spaces.Box(-np.inf, np.inf, (sequence_length, len(bert_state_lib.FLOAT_NAMES)), np.float32), gym.spaces.Box(0, len(grammar.productions()) + 1, (common_flags.N_ACTIONS_ENCODING.value, ), np.int32), # +1 for mask ]) max_episode_length = common_flags.MAX_NUM_ACTIONS.value # If you change rewards / add new rewards, make sure to update the bounds. min_possible_score, max_possible_score = { 'curiosity+dcg': (-1, 1), }.get(common_flags.REWARD.value, (-1, 1)) min_possible_cumulative_score, max_possible_cumulative_score = { 'curiosity+dcg': (-2, 2), }.get(common_flags.REWARD.value, (min_possible_score, max_possible_score)) logging.info('Max episode length: %d; Score range: [%.2f, %.2f]', max_episode_length, min_possible_score, max_possible_score) # Additional statistics that we want to track 'in' the learner learner_stats = ( ('ndcg_score', tf.float32), ('ndcg_score_improvement', tf.float32), ('em_at_1', tf.float32), ('em_at_1_improvement', tf.float32), (f'em_at_{int(common_flags.K.value)}', tf.float32), (f'em_at_{int(common_flags.K.value)}_improvement', tf.float32), (f'recall_at_{int(common_flags.K.value)}', tf.float32), (f'recall_at_{int(common_flags.K.value)}_improvement', tf.float32), ('recall_at_1', tf.float32), ('recall_at_1_improvement', tf.float32), ('documents_explored', tf.float32), ) return mzcore.EnvironmentDescriptor( observation_space=observation_space, action_space=gym.spaces.Discrete(len(grammar.productions())), reward_range=mzcore.Range(min_possible_score, max_possible_score), value_range=mzcore.Range(min_possible_cumulative_score, max_possible_cumulative_score), pretraining_space=gym.spaces.Tuple([ observation_space, gym.spaces.Box(0, len(grammar.productions()), (), np.int32), # action gym.spaces.Box(0., 1., (), np.float32), # reward gym.spaces.Box(0., 1., (), np.float32), # value gym.spaces.Box(0., 1., (), np.float32), # mask ] * common_flags.PRETRAINING_NUM_UNROLL_STEPS.value), extras={ 'bert_config': bert_config, 'sequence_length': sequence_length, 'float_names': bert_state_lib.FLOAT_NAMES, 'type_vocabs': bert_state_lib.TYPE_VOCABS, 'num_float_features': len(bert_state_lib.FLOAT_NAMES), 'type_vocab_sizes': [len(v) for v in bert_state_lib.TYPE_VOCABS.values()], 'grammar': grammar, 'max_episode_length': max_episode_length + 5, # we never want the agent to finish the episode 'learner_stats': learner_stats, # Only set this if `learner` does not specify an already pre-trained # checkpoint. 'bert_init_ckpt': common_flags.BERT_INIT_CKPT.value if learner_flags.INIT_CHECKPOINT.value is None else None, 'action_encoder_hidden_size': common_flags.ACTION_ENCODER_HIDDEN_SIZE.value, 'tokenizer': tokenizer, 'grammar_config': grammar_config, 'pretraining_num_unroll_steps': common_flags.PRETRAINING_NUM_UNROLL_STEPS.value, })