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535 行
21 KiB
535 行
21 KiB
from typing import Any, Dict, List, Optional, Tuple
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import abc
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import os
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import numpy as np
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from distutils.version import LooseVersion
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from mlagents.tf_utils import tf
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from mlagents import tf_utils
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from mlagents_envs.exception import UnityException
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from mlagents_envs.logging_util import get_logger
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from mlagents.trainers.policy import Policy
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from mlagents.trainers.action_info import ActionInfo
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from mlagents.trainers.trajectory import SplitObservations
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from mlagents.trainers.brain_conversion_utils import get_global_agent_id
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from mlagents_envs.base_env import DecisionSteps
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from mlagents.trainers.models import ModelUtils
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from mlagents.trainers.settings import TrainerSettings, NetworkSettings
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from mlagents.trainers.brain import BrainParameters
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from mlagents.trainers import __version__
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logger = get_logger(__name__)
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# This is the version number of the inputs and outputs of the model, and
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# determines compatibility with inference in Barracuda.
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MODEL_FORMAT_VERSION = 2
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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 TFPolicy(Policy):
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"""
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Contains a learning model, and the necessary
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functions to save/load models and create the input placeholders.
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"""
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def __init__(
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self,
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seed: int,
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brain: BrainParameters,
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trainer_settings: TrainerSettings,
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model_path: str,
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load: bool = False,
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):
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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_settings: The trainer parameters.
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:param model_path: Where to load/save the model.
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:param load: If True, load model from model_path. Otherwise, create new model.
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"""
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self.m_size = 0
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self.trainer_settings = trainer_settings
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self.network_settings: NetworkSettings = trainer_settings.network_settings
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# for ghost trainer save/load snapshots
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self.assign_phs: List[tf.Tensor] = []
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self.assign_ops: List[tf.Operation] = []
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self.inference_dict: Dict[str, tf.Tensor] = {}
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self.update_dict: Dict[str, tf.Tensor] = {}
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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.act_size = brain.vector_action_space_size
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self.vec_obs_size = brain.vector_observation_space_size
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self.vis_obs_size = brain.number_visual_observations
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self.use_recurrent = self.network_settings.memory is not None
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self.memory_dict: Dict[str, np.ndarray] = {}
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self.num_branches = len(self.brain.vector_action_space_size)
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self.previous_action_dict: Dict[str, np.array] = {}
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self.normalize = self.network_settings.normalize
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self.use_continuous_act = brain.vector_action_space_type == "continuous"
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if self.use_continuous_act:
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self.num_branches = self.brain.vector_action_space_size[0]
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self.model_path = model_path
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self.initialize_path = self.trainer_settings.init_path
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self.keep_checkpoints = self.trainer_settings.keep_checkpoints
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self.graph = tf.Graph()
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self.sess = tf.Session(
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config=tf_utils.generate_session_config(), graph=self.graph
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)
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self.saver: Optional[tf.Operation] = None
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self.seed = seed
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if self.network_settings.memory is not None:
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self.m_size = self.network_settings.memory.memory_size
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self.sequence_length = self.network_settings.memory.sequence_length
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self._initialize_tensorflow_references()
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self.load = load
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@abc.abstractmethod
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def get_trainable_variables(self) -> List[tf.Variable]:
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"""
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Returns a List of the trainable variables in this policy. if create_tf_graph hasn't been called,
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returns empty list.
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"""
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pass
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@abc.abstractmethod
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def create_tf_graph(self):
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"""
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Builds the tensorflow graph needed for this policy.
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"""
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pass
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@staticmethod
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def _convert_version_string(version_string: str) -> Tuple[int, ...]:
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"""
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Converts the version string into a Tuple of ints (major_ver, minor_ver, patch_ver).
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:param version_string: The semantic-versioned version string (X.Y.Z).
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:return: A Tuple containing (major_ver, minor_ver, patch_ver).
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"""
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ver = LooseVersion(version_string)
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return tuple(map(int, ver.version[0:3]))
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def _check_model_version(self, version: str) -> None:
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"""
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Checks whether the model being loaded was created with the same version of
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ML-Agents, and throw a warning if not so.
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"""
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if self.version_tensors is not None:
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loaded_ver = tuple(
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num.eval(session=self.sess) for num in self.version_tensors
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)
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if loaded_ver != TFPolicy._convert_version_string(version):
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logger.warning(
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f"The model checkpoint you are loading from was saved with ML-Agents version "
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f"{loaded_ver[0]}.{loaded_ver[1]}.{loaded_ver[2]} but your current ML-Agents"
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f"version is {version}. Model may not behave properly."
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)
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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, model_path: str, reset_global_steps: bool = False) -> None:
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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(f"Loading model from {model_path}.")
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ckpt = tf.train.get_checkpoint_state(model_path)
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if ckpt is None:
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raise UnityPolicyException(
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"The model {0} could not be loaded. Make "
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"sure you specified the right "
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"--run-id and that the previous run you are loading from had the same "
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"behavior names.".format(model_path)
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)
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try:
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self.saver.restore(self.sess, ckpt.model_checkpoint_path)
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except tf.errors.NotFoundError:
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raise UnityPolicyException(
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"The model {0} was found but could not be loaded. Make "
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"sure the model is from the same version of ML-Agents, has the same behavior parameters, "
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"and is using the same trainer configuration as the current run.".format(
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model_path
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)
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)
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self._check_model_version(__version__)
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if reset_global_steps:
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self._set_step(0)
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logger.info(
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"Starting training from step 0 and saving to {}.".format(
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self.model_path
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)
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)
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else:
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logger.info(
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"Resuming training from step {}.".format(self.get_current_step())
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)
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def initialize_or_load(self):
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# If there is an initialize path, load from that. Else, load from the set model path.
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# If load is set to True, don't reset steps to 0. Else, do. This allows a user to,
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# e.g., resume from an initialize path.
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reset_steps = not self.load
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if self.initialize_path is not None:
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self._load_graph(self.initialize_path, reset_global_steps=reset_steps)
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elif self.load:
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self._load_graph(self.model_path, reset_global_steps=reset_steps)
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else:
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self._initialize_graph()
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def get_weights(self):
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with self.graph.as_default():
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_vars = tf.get_collection(tf.GraphKeys.GLOBAL_VARIABLES)
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values = [v.eval(session=self.sess) for v in _vars]
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return values
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def init_load_weights(self):
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with self.graph.as_default():
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_vars = tf.get_collection(tf.GraphKeys.GLOBAL_VARIABLES)
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values = [v.eval(session=self.sess) for v in _vars]
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for var, value in zip(_vars, values):
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assign_ph = tf.placeholder(var.dtype, shape=value.shape)
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self.assign_phs.append(assign_ph)
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self.assign_ops.append(tf.assign(var, assign_ph))
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def load_weights(self, values):
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if len(self.assign_ops) == 0:
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logger.warning(
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"Calling load_weights in tf_policy but assign_ops is empty. Did you forget to call init_load_weights?"
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)
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with self.graph.as_default():
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feed_dict = {}
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for assign_ph, value in zip(self.assign_phs, values):
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feed_dict[assign_ph] = value
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self.sess.run(self.assign_ops, feed_dict=feed_dict)
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def evaluate(
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self, decision_requests: DecisionSteps, global_agent_ids: List[str]
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) -> Dict[str, Any]:
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"""
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Evaluates policy for the agent experiences provided.
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:param decision_requests: DecisionSteps 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 get_action(
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self, decision_requests: DecisionSteps, worker_id: int = 0
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) -> ActionInfo:
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"""
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Decides actions given observations information, and takes them in environment.
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:param decision_requests: A dictionary of brain names and DecisionSteps from environment.
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:param worker_id: In parallel environment training, the unique id of the environment worker that
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the DecisionSteps came from. Used to construct a globally unique id for each agent.
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:return: an ActionInfo containing action, memories, values and an object
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to be passed to add experiences
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"""
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if len(decision_requests) == 0:
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return ActionInfo.empty()
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global_agent_ids = [
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get_global_agent_id(worker_id, int(agent_id))
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for agent_id in decision_requests.agent_id
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] # For 1-D array, the iterator order is correct.
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run_out = self.evaluate( # pylint: disable=assignment-from-no-return
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decision_requests, global_agent_ids
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)
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self.save_memories(global_agent_ids, run_out.get("memory_out"))
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return ActionInfo(
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action=run_out.get("action"),
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value=run_out.get("value"),
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outputs=run_out,
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agent_ids=decision_requests.agent_id,
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)
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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, batched_step_result):
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vec_vis_obs = SplitObservations.from_observations(batched_step_result.obs)
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for i, _ in enumerate(vec_vis_obs.visual_observations):
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feed_dict[self.visual_in[i]] = vec_vis_obs.visual_observations[i]
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if self.use_vec_obs:
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feed_dict[self.vector_in] = vec_vis_obs.vector_observations
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if not self.use_continuous_act:
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mask = np.ones(
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(len(batched_step_result), np.sum(self.brain.vector_action_space_size)),
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dtype=np.float32,
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)
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if batched_step_result.action_mask is not None:
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mask = 1 - np.concatenate(batched_step_result.action_mask, axis=1)
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feed_dict[self.action_masks] = mask
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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), dtype=np.float32)
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def save_memories(
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self, agent_ids: List[str], memory_matrix: Optional[np.ndarray]
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) -> None:
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if memory_matrix is None:
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return
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for index, agent_id in enumerate(agent_ids):
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self.memory_dict[agent_id] = memory_matrix[index, :]
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def retrieve_memories(self, agent_ids: List[str]) -> np.ndarray:
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memory_matrix = np.zeros((len(agent_ids), self.m_size), dtype=np.float32)
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for index, agent_id in enumerate(agent_ids):
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if agent_id in self.memory_dict:
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memory_matrix[index, :] = self.memory_dict[agent_id]
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return memory_matrix
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def remove_memories(self, agent_ids):
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for agent_id in agent_ids:
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if agent_id in self.memory_dict:
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self.memory_dict.pop(agent_id)
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def make_empty_previous_action(self, num_agents):
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"""
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Creates empty previous action for use with RNNs and discrete control
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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.num_branches), dtype=np.int)
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def save_previous_action(
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self, agent_ids: List[str], action_matrix: Optional[np.ndarray]
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) -> None:
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if action_matrix is None:
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return
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for index, agent_id in enumerate(agent_ids):
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self.previous_action_dict[agent_id] = action_matrix[index, :]
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def retrieve_previous_action(self, agent_ids: List[str]) -> np.ndarray:
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action_matrix = np.zeros((len(agent_ids), self.num_branches), dtype=np.int)
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for index, agent_id in enumerate(agent_ids):
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if agent_id in self.previous_action_dict:
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action_matrix[index, :] = self.previous_action_dict[agent_id]
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return action_matrix
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def remove_previous_action(self, agent_ids):
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for agent_id in agent_ids:
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if agent_id in self.previous_action_dict:
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self.previous_action_dict.pop(agent_id)
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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.global_step)
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return step
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def _set_step(self, step: int) -> int:
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"""
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Sets current model step to step without creating additional ops.
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:param step: Step to set the current model step to.
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:return: The step the model was set to.
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"""
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current_step = self.get_current_step()
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# Increment a positive or negative number of steps.
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return self.increment_step(step - current_step)
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def increment_step(self, n_steps):
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"""
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Increments model step.
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"""
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out_dict = {
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"global_step": self.global_step,
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"increment_step": self.increment_step_op,
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}
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feed_dict = {self.steps_to_increment: n_steps}
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return self.sess.run(out_dict, feed_dict=feed_dict)["global_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 = os.path.join(self.model_path, f"model-{steps}.ckpt")
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self.saver.save(self.sess, last_checkpoint)
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tf.train.write_graph(
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self.graph, self.model_path, "raw_graph_def.pb", as_text=False
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)
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def update_normalization(self, vector_obs: np.ndarray) -> None:
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"""
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If this policy normalizes vector observations, this will update the norm values in the graph.
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:param vector_obs: The vector observations to add to the running estimate of the distribution.
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"""
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if self.use_vec_obs and self.normalize:
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self.sess.run(
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self.update_normalization_op, feed_dict={self.vector_in: vector_obs}
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)
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@property
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def use_vis_obs(self):
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return self.vis_obs_size > 0
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@property
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def use_vec_obs(self):
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return self.vec_obs_size > 0
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def _initialize_tensorflow_references(self):
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self.value_heads: Dict[str, tf.Tensor] = {}
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self.normalization_steps: Optional[tf.Variable] = None
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self.running_mean: Optional[tf.Variable] = None
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self.running_variance: Optional[tf.Variable] = None
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self.update_normalization_op: Optional[tf.Operation] = None
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self.value: Optional[tf.Tensor] = None
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self.all_log_probs: tf.Tensor = None
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self.total_log_probs: Optional[tf.Tensor] = None
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self.entropy: Optional[tf.Tensor] = None
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self.output_pre: Optional[tf.Tensor] = None
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self.output: Optional[tf.Tensor] = None
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self.selected_actions: tf.Tensor = None
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self.action_masks: Optional[tf.Tensor] = None
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self.prev_action: Optional[tf.Tensor] = None
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self.memory_in: Optional[tf.Tensor] = None
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self.memory_out: Optional[tf.Tensor] = None
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self.version_tensors: Optional[Tuple[tf.Tensor, tf.Tensor, tf.Tensor]] = None
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def create_input_placeholders(self):
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with self.graph.as_default():
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(
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self.global_step,
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self.increment_step_op,
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self.steps_to_increment,
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) = ModelUtils.create_global_steps()
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self.visual_in = ModelUtils.create_visual_input_placeholders(
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self.brain.camera_resolutions
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)
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self.vector_in = ModelUtils.create_vector_input(self.vec_obs_size)
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if self.normalize:
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normalization_tensors = ModelUtils.create_normalizer(self.vector_in)
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self.update_normalization_op = normalization_tensors.update_op
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self.normalization_steps = normalization_tensors.steps
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self.running_mean = normalization_tensors.running_mean
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self.running_variance = normalization_tensors.running_variance
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self.processed_vector_in = ModelUtils.normalize_vector_obs(
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self.vector_in,
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self.running_mean,
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self.running_variance,
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self.normalization_steps,
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)
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else:
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self.processed_vector_in = self.vector_in
|
|
self.update_normalization_op = None
|
|
|
|
self.batch_size_ph = tf.placeholder(
|
|
shape=None, dtype=tf.int32, name="batch_size"
|
|
)
|
|
self.sequence_length_ph = tf.placeholder(
|
|
shape=None, dtype=tf.int32, name="sequence_length"
|
|
)
|
|
self.mask_input = tf.placeholder(
|
|
shape=[None], dtype=tf.float32, name="masks"
|
|
)
|
|
# Only needed for PPO, but needed for BC module
|
|
self.epsilon = tf.placeholder(
|
|
shape=[None, self.act_size[0]], dtype=tf.float32, name="epsilon"
|
|
)
|
|
self.mask = tf.cast(self.mask_input, tf.int32)
|
|
|
|
tf.Variable(
|
|
int(self.brain.vector_action_space_type == "continuous"),
|
|
name="is_continuous_control",
|
|
trainable=False,
|
|
dtype=tf.int32,
|
|
)
|
|
int_version = TFPolicy._convert_version_string(__version__)
|
|
major_ver_t = tf.Variable(
|
|
int_version[0],
|
|
name="trainer_major_version",
|
|
trainable=False,
|
|
dtype=tf.int32,
|
|
)
|
|
minor_ver_t = tf.Variable(
|
|
int_version[1],
|
|
name="trainer_minor_version",
|
|
trainable=False,
|
|
dtype=tf.int32,
|
|
)
|
|
patch_ver_t = tf.Variable(
|
|
int_version[2],
|
|
name="trainer_patch_version",
|
|
trainable=False,
|
|
dtype=tf.int32,
|
|
)
|
|
self.version_tensors = (major_ver_t, minor_ver_t, patch_ver_t)
|
|
tf.Variable(
|
|
MODEL_FORMAT_VERSION,
|
|
name="version_number",
|
|
trainable=False,
|
|
dtype=tf.int32,
|
|
)
|
|
tf.Variable(
|
|
self.m_size, name="memory_size", trainable=False, dtype=tf.int32
|
|
)
|
|
if self.brain.vector_action_space_type == "continuous":
|
|
tf.Variable(
|
|
self.act_size[0],
|
|
name="action_output_shape",
|
|
trainable=False,
|
|
dtype=tf.int32,
|
|
)
|
|
else:
|
|
tf.Variable(
|
|
sum(self.act_size),
|
|
name="action_output_shape",
|
|
trainable=False,
|
|
dtype=tf.int32,
|
|
)
|