import logging import numpy as np from mlagents.trainers.bc.models import BehavioralCloningModel from mlagents.trainers.policy import Policy logger = logging.getLogger("mlagents.trainers") class BCPolicy(Policy): def __init__(self, seed, brain, trainer_parameters, sess): """ :param seed: Random seed. :param brain: Assigned Brain object. :param trainer_parameters: Defined training parameters. :param sess: TensorFlow session. """ super().__init__(seed, brain, trainer_parameters, sess) self.model = BehavioralCloningModel( h_size=int(trainer_parameters['hidden_units']), lr=float(trainer_parameters['learning_rate']), n_layers=int(trainer_parameters['num_layers']), m_size=self.m_size, normalize=False, use_recurrent=trainer_parameters['use_recurrent'], brain=brain, scope=self.variable_scope, seed=seed) self.inference_dict = {'action': self.model.sample_action} self.update_dict = {'policy_loss': self.model.loss, 'update_batch': self.model.update} if self.use_recurrent: self.inference_dict['memory_out'] = self.model.memory_out self.evaluate_rate = 1.0 self.update_rate = 0.5 def evaluate(self, brain_info): """ Evaluates policy for the agent experiences provided. :param brain_info: BrainInfo input to network. :return: Results of evaluation. """ feed_dict = {self.model.dropout_rate: self.evaluate_rate, self.model.sequence_length: 1} feed_dict = self._fill_eval_dict(feed_dict, brain_info) if self.use_recurrent: if brain_info.memories.shape[1] == 0: brain_info.memories = self.make_empty_memory(len(brain_info.agents)) feed_dict[self.model.memory_in] = brain_info.memories run_out = self._execute_model(feed_dict, self.inference_dict) return run_out def update(self, mini_batch, num_sequences): """ Performs update on model. :param mini_batch: Batch of experiences. :param num_sequences: Number of sequences to process. :return: Results of update. """ feed_dict = {self.model.dropout_rate: self.update_rate, self.model.batch_size: num_sequences, self.model.sequence_length: self.sequence_length} if self.use_continuous_act: feed_dict[self.model.true_action] = mini_batch['actions']. \ reshape([-1, self.brain.vector_action_space_size[0]]) else: feed_dict[self.model.true_action] = mini_batch['actions'].reshape( [-1, len(self.brain.vector_action_space_size)]) feed_dict[self.model.action_masks] = np.ones( (num_sequences, sum(self.brain.vector_action_space_size))) if self.use_vec_obs: apparent_obs_size = self.brain.vector_observation_space_size * \ self.brain.num_stacked_vector_observations feed_dict[self.model.vector_in] = mini_batch['vector_obs'] \ .reshape([-1,apparent_obs_size]) for i, _ in enumerate(self.model.visual_in): visual_obs = mini_batch['visual_obs%d' % i] feed_dict[self.model.visual_in[i]] = visual_obs if self.use_recurrent: feed_dict[self.model.memory_in] = np.zeros([num_sequences, self.m_size]) run_out = self._execute_model(feed_dict, self.update_dict) return run_out