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209 行
7.7 KiB
209 行
7.7 KiB
import logging
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import numpy as np
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import tensorflow as tf
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from mlagents.trainers import UnityException
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from mlagents.trainers.models import LearningModel
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from tensorflow.python.tools import freeze_graph
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logger = logging.getLogger("mlagents.trainers")
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class UnityPolicyException(UnityException):
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"""
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Related to errors with the Trainer.
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"""
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pass
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class Policy(object):
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"""
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Contains a learning model, and the necessary
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functions to interact with it to perform evaluate and updating.
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"""
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possible_output_nodes = ['action', 'value_estimate',
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'action_probs', 'recurrent_out', 'memory_size',
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'version_number', 'is_continuous_control',
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'action_output_shape']
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def __init__(self, seed, brain, trainer_parameters):
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"""
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Initialized the policy.
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:param seed: Random seed to use for TensorFlow.
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:param brain: The corresponding Brain for this policy.
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:param trainer_parameters: The trainer parameters.
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"""
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self.m_size = None
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self.model = None
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self.inference_dict = {}
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self.update_dict = {}
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self.sequence_length = 1
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self.seed = seed
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self.brain = brain
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self.use_recurrent = trainer_parameters["use_recurrent"]
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self.use_continuous_act = (brain.vector_action_space_type == "continuous")
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self.model_path = trainer_parameters["model_path"]
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self.keep_checkpoints = trainer_parameters.get("keep_checkpoints", 5)
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self.graph = tf.Graph()
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config = tf.ConfigProto()
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config.gpu_options.allow_growth = True
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self.sess = tf.Session(config=config, graph=self.graph)
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self.saver = None
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if self.use_recurrent:
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self.m_size = trainer_parameters["memory_size"]
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self.sequence_length = trainer_parameters["sequence_length"]
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if self.m_size == 0:
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raise UnityPolicyException("The memory size for brain {0} is 0 even "
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"though the trainer uses recurrent."
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.format(brain.brain_name))
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elif self.m_size % 4 != 0:
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raise UnityPolicyException("The memory size for brain {0} is {1} "
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"but it must be divisible by 4."
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.format(brain.brain_name, self.m_size))
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def _initialize_graph(self):
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with self.graph.as_default():
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self.saver = tf.train.Saver(max_to_keep=self.keep_checkpoints)
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init = tf.global_variables_initializer()
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self.sess.run(init)
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def _load_graph(self):
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with self.graph.as_default():
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self.saver = tf.train.Saver(max_to_keep=self.keep_checkpoints)
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logger.info('Loading Model for brain {}'.format(self.brain.brain_name))
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ckpt = tf.train.get_checkpoint_state(self.model_path)
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if ckpt is None:
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logger.info('The model {0} could not be found. Make '
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'sure you specified the right '
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'--run-id'
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.format(self.model_path))
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self.saver.restore(self.sess, ckpt.model_checkpoint_path)
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def evaluate(self, brain_info):
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"""
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Evaluates policy for the agent experiences provided.
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:param brain_info: BrainInfo input to network.
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:return: Output from policy based on self.inference_dict.
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"""
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raise UnityPolicyException("The evaluate function was not implemented.")
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def update(self, mini_batch, num_sequences):
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"""
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Performs update of the policy.
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:param num_sequences: Number of experience trajectories in batch.
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:param mini_batch: Batch of experiences.
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:return: Results of update.
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"""
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raise UnityPolicyException("The update function was not implemented.")
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def _execute_model(self, feed_dict, out_dict):
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"""
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Executes model.
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:param feed_dict: Input dictionary mapping nodes to input data.
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:param out_dict: Output dictionary mapping names to nodes.
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:return: Dictionary mapping names to input data.
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"""
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network_out = self.sess.run(list(out_dict.values()), feed_dict=feed_dict)
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run_out = dict(zip(list(out_dict.keys()), network_out))
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return run_out
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def _fill_eval_dict(self, feed_dict, brain_info):
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for i, _ in enumerate(brain_info.visual_observations):
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feed_dict[self.model.visual_in[i]] = brain_info.visual_observations[i]
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if self.use_vec_obs:
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feed_dict[self.model.vector_in] = brain_info.vector_observations
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if not self.use_continuous_act:
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feed_dict[self.model.action_masks] = brain_info.action_masks
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return feed_dict
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def make_empty_memory(self, num_agents):
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"""
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Creates empty memory for use with RNNs
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:param num_agents: Number of agents.
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:return: Numpy array of zeros.
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"""
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return np.zeros((num_agents, self.m_size))
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def get_current_step(self):
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"""
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Gets current model step.
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:return: current model step.
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"""
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step = self.sess.run(self.model.global_step)
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return step
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def increment_step(self):
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"""
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Increments model step.
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"""
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self.sess.run(self.model.increment_step)
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def get_inference_vars(self):
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"""
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:return:list of inference var names
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"""
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return list(self.inference_dict.keys())
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def get_update_vars(self):
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"""
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:return:list of update var names
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"""
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return list(self.update_dict.keys())
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def save_model(self, steps):
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"""
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Saves the model
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:param steps: The number of steps the model was trained for
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:return:
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"""
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with self.graph.as_default():
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last_checkpoint = self.model_path + '/model-' + str(steps) + '.cptk'
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self.saver.save(self.sess, last_checkpoint)
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tf.train.write_graph(self.graph, self.model_path,
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'raw_graph_def.pb', as_text=False)
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def export_model(self):
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"""
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Exports latest saved model to .tf format for Unity embedding.
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"""
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with self.graph.as_default():
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target_nodes = ','.join(self._process_graph())
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ckpt = tf.train.get_checkpoint_state(self.model_path)
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freeze_graph.freeze_graph(
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input_graph=self.model_path + '/raw_graph_def.pb',
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input_binary=True,
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input_checkpoint=ckpt.model_checkpoint_path,
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output_node_names=target_nodes,
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output_graph=(self.model_path + '.bytes'),
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clear_devices=True, initializer_nodes='', input_saver='',
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restore_op_name='save/restore_all',
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filename_tensor_name='save/Const:0')
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def _process_graph(self):
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"""
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Gets the list of the output nodes present in the graph for inference
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:return: list of node names
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"""
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all_nodes = [x.name for x in self.graph.as_graph_def().node]
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nodes = [x for x in all_nodes if x in self.possible_output_nodes]
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logger.info('List of nodes to export for brain :' + self.brain.brain_name)
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for n in nodes:
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logger.info('\t' + n)
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return nodes
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@property
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def vis_obs_size(self):
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return self.model.vis_obs_size
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@property
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def vec_obs_size(self):
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return self.model.vec_obs_size
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@property
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def use_vis_obs(self):
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return self.model.vis_obs_size > 0
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@property
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def use_vec_obs(self):
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return self.model.vec_obs_size > 0
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