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import copy |
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import time |
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from collections import namedtuple |
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from typing import Optional, Callable, Tuple |
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import numpy as np |
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import torch |
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from ding.envs import BaseEnvManager |
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from ding.torch_utils import to_ndarray, to_item, to_tensor |
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from ding.utils import build_logger, EasyTimer |
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from ding.utils import get_world_size, get_rank, broadcast_object_list |
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from ding.worker.collector.base_serial_evaluator import ISerialEvaluator, VectorEvalMonitor |
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from easydict import EasyDict |
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from lzero.mcts.buffer.game_segment import GameSegment |
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from lzero.mcts.utils import prepare_observation |
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class MuZeroEvaluator(ISerialEvaluator): |
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""" |
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Overview: |
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The Evaluator for MCTS+RL algorithms, including MuZero, EfficientZero, Sampled EfficientZero. |
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Interfaces: |
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__init__, reset, reset_policy, reset_env, close, should_eval, eval |
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Property: |
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env, policy |
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""" |
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@classmethod |
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def default_config(cls: type) -> EasyDict: |
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""" |
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Overview: |
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Get evaluator's default config. We merge evaluator's default config with other default configs\ |
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and user's config to get the final config. |
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Return: |
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cfg (:obj:`EasyDict`): evaluator's default config |
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""" |
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cfg = EasyDict(copy.deepcopy(cls.config)) |
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cfg.cfg_type = cls.__name__ + 'Dict' |
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return cfg |
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config = dict( |
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eval_freq=50, |
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) |
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def __init__( |
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self, |
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eval_freq: int = 1000, |
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n_evaluator_episode: int = 3, |
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stop_value: int = 1e6, |
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env: BaseEnvManager = None, |
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policy: namedtuple = None, |
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tb_logger: 'SummaryWriter' = None, |
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exp_name: Optional[str] = 'default_experiment', |
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instance_name: Optional[str] = 'evaluator', |
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policy_config: 'policy_config' = None, |
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) -> None: |
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""" |
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Overview: |
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Init method. Load config and use ``self._cfg`` setting to build common serial evaluator components, |
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e.g. logger helper, timer. |
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Arguments: |
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- eval_freq (:obj:`int`): evaluation frequency in terms of training steps. |
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- n_evaluator_episode (:obj:`int`): the number of episodes to eval in total. |
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- env (:obj:`BaseEnvManager`): the subclass of vectorized env_manager(BaseEnvManager) |
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- policy (:obj:`namedtuple`): the api namedtuple of collect_mode policy |
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- tb_logger (:obj:`SummaryWriter`): tensorboard handle |
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- exp_name (:obj:`str`): Experiment name, which is used to indicate output directory. |
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- instance_name (:obj:`Optional[str]`): Name of this instance. |
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- policy_config: Config of game. |
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""" |
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self._eval_freq = eval_freq |
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self._exp_name = exp_name |
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self._instance_name = instance_name |
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if get_rank() == 0: |
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if tb_logger is not None: |
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self._logger, _ = build_logger( |
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'./{}/log/{}'.format(self._exp_name, self._instance_name), self._instance_name, need_tb=False |
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) |
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self._tb_logger = tb_logger |
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else: |
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self._logger, self._tb_logger = build_logger( |
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'./{}/log/{}'.format(self._exp_name, self._instance_name), self._instance_name |
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) |
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else: |
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self._logger, self._tb_logger = None, None |
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self.reset(policy, env) |
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self._timer = EasyTimer() |
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self._default_n_episode = n_evaluator_episode |
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self._stop_value = stop_value |
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self.policy_config = policy_config |
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def reset_env(self, _env: Optional[BaseEnvManager] = None) -> None: |
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""" |
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Overview: |
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Reset evaluator's environment. In some case, we need evaluator use the same policy in different \ |
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environments. We can use reset_env to reset the environment. |
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If _env is None, reset the old environment. |
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If _env is not None, replace the old environment in the evaluator with the \ |
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new passed in environment and launch. |
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Arguments: |
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- env (:obj:`Optional[BaseEnvManager]`): instance of the subclass of vectorized \ |
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env_manager(BaseEnvManager) |
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""" |
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if _env is not None: |
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self._env = _env |
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self._env.launch() |
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self._env_num = self._env.env_num |
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else: |
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self._env.reset() |
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def reset_policy(self, _policy: Optional[namedtuple] = None) -> None: |
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""" |
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Overview: |
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Reset evaluator's policy. In some case, we need evaluator work in this same environment but use\ |
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different policy. We can use reset_policy to reset the policy. |
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If _policy is None, reset the old policy. |
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If _policy is not None, replace the old policy in the evaluator with the new passed in policy. |
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Arguments: |
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- policy (:obj:`Optional[namedtuple]`): the api namedtuple of eval_mode policy |
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""" |
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assert hasattr(self, '_env'), "please set env first" |
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if _policy is not None: |
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self._policy = _policy |
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self._policy.reset() |
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def reset(self, _policy: Optional[namedtuple] = None, _env: Optional[BaseEnvManager] = None) -> None: |
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""" |
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Overview: |
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Reset evaluator's policy and environment. Use new policy and environment to collect data. |
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If _env is None, reset the old environment. |
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If _env is not None, replace the old environment in the evaluator with the new passed in \ |
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environment and launch. |
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If _policy is None, reset the old policy. |
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If _policy is not None, replace the old policy in the evaluator with the new passed in policy. |
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Arguments: |
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- policy (:obj:`Optional[namedtuple]`): the api namedtuple of eval_mode policy |
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- env (:obj:`Optional[BaseEnvManager]`): instance of the subclass of vectorized \ |
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env_manager(BaseEnvManager) |
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""" |
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if _env is not None: |
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self.reset_env(_env) |
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if _policy is not None: |
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self.reset_policy(_policy) |
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self._max_episode_return = float("-inf") |
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self._last_eval_iter = 0 |
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self._end_flag = False |
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def close(self) -> None: |
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""" |
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Overview: |
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Close the evaluator. If end_flag is False, close the environment, flush the tb_logger\ |
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and close the tb_logger. |
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""" |
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if self._end_flag: |
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return |
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self._end_flag = True |
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self._env.close() |
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if self._tb_logger: |
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self._tb_logger.flush() |
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self._tb_logger.close() |
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def __del__(self): |
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""" |
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Overview: |
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Execute the close command and close the evaluator. __del__ is automatically called \ |
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to destroy the evaluator instance when the evaluator finishes its work |
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""" |
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self.close() |
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def should_eval(self, train_iter: int) -> bool: |
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""" |
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Overview: |
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Determine whether you need to start the evaluation mode, if the number of training has reached\ |
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the maximum number of times to start the evaluator, return True |
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Arguments: |
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- train_iter (:obj:`int`): Current training iteration. |
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""" |
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if train_iter == self._last_eval_iter: |
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return False |
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if (train_iter - self._last_eval_iter) < self._eval_freq and train_iter != 0: |
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return False |
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self._last_eval_iter = train_iter |
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return True |
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def eval( |
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self, |
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save_ckpt_fn: Callable = None, |
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train_iter: int = -1, |
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envstep: int = -1, |
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n_episode: Optional[int] = None, |
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) -> Tuple[bool, float]: |
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""" |
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Overview: |
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Evaluate policy and store the best policy based on whether it reaches the highest historical reward. |
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Arguments: |
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- save_ckpt_fn (:obj:`Callable`): Saving ckpt function, which will be triggered by getting the best reward. |
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- train_iter (:obj:`int`): Current training iteration. |
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- envstep (:obj:`int`): Current env interaction step. |
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- n_episode (:obj:`int`): Number of evaluation episodes. |
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Returns: |
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- stop_flag (:obj:`bool`): Whether this training program can be ended. |
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- episode_info (:obj:`Dict[str, List]`): Current evaluation episode information. |
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""" |
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episode_info = None |
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stop_flag = False |
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if get_rank() == 0: |
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if n_episode is None: |
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n_episode = self._default_n_episode |
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assert n_episode is not None, "please indicate eval n_episode" |
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envstep_count = 0 |
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eval_monitor = VectorEvalMonitor(self._env.env_num, n_episode) |
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env_nums = self._env.env_num |
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self._env.reset() |
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self._policy.reset() |
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init_obs = self._env.ready_obs |
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retry_waiting_time = 0.001 |
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while len(init_obs.keys()) != self._env_num: |
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self._logger.info('The current init_obs.keys() is {}'.format(init_obs.keys())) |
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self._logger.info('Before sleeping, the _env_states is {}'.format(self._env._env_states)) |
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time.sleep(retry_waiting_time) |
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self._logger.info('=' * 10 + 'Wait for all environments (subprocess) to finish resetting.' + '=' * 10) |
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self._logger.info( |
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'After sleeping {}s, the current _env_states is {}'.format(retry_waiting_time, |
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self._env._env_states) |
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) |
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init_obs = self._env.ready_obs |
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action_mask_dict = {i: to_ndarray(init_obs[i]['action_mask']) for i in range(env_nums)} |
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to_play_dict = {i: to_ndarray(init_obs[i]['to_play']) for i in range(env_nums)} |
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dones = np.array([False for _ in range(env_nums)]) |
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game_segments = [ |
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GameSegment( |
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self._env.action_space, |
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game_segment_length=self.policy_config.game_segment_length, |
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config=self.policy_config |
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) for _ in range(env_nums) |
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] |
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for i in range(env_nums): |
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game_segments[i].reset( |
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[to_ndarray(init_obs[i]['observation']) for _ in range(self.policy_config.model.frame_stack_num)] |
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) |
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ready_env_id = set() |
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remain_episode = n_episode |
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with self._timer: |
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while not eval_monitor.is_finished(): |
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obs = self._env.ready_obs |
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new_available_env_id = set(obs.keys()).difference(ready_env_id) |
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ready_env_id = ready_env_id.union(set(list(new_available_env_id)[:remain_episode])) |
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remain_episode -= min(len(new_available_env_id), remain_episode) |
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stack_obs = {env_id: game_segments[env_id].get_obs() for env_id in ready_env_id} |
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stack_obs = list(stack_obs.values()) |
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action_mask_dict = {env_id: action_mask_dict[env_id] for env_id in ready_env_id} |
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to_play_dict = {env_id: to_play_dict[env_id] for env_id in ready_env_id} |
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action_mask = [action_mask_dict[env_id] for env_id in ready_env_id] |
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to_play = [to_play_dict[env_id] for env_id in ready_env_id] |
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stack_obs = to_ndarray(stack_obs) |
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stack_obs = prepare_observation(stack_obs, self.policy_config.model.model_type) |
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stack_obs = torch.from_numpy(stack_obs).to(self.policy_config.device).float() |
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policy_output = self._policy.forward(stack_obs, action_mask, to_play) |
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actions_no_env_id = {k: v['action'] for k, v in policy_output.items()} |
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distributions_dict_no_env_id = {k: v['visit_count_distributions'] for k, v in policy_output.items()} |
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if self.policy_config.sampled_algo: |
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root_sampled_actions_dict_no_env_id = { |
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k: v['root_sampled_actions'] |
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for k, v in policy_output.items() |
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} |
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value_dict_no_env_id = {k: v['searched_value'] for k, v in policy_output.items()} |
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pred_value_dict_no_env_id = {k: v['predicted_value'] for k, v in policy_output.items()} |
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visit_entropy_dict_no_env_id = { |
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k: v['visit_count_distribution_entropy'] |
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for k, v in policy_output.items() |
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} |
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actions = {} |
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distributions_dict = {} |
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if self.policy_config.sampled_algo: |
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root_sampled_actions_dict = {} |
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value_dict = {} |
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pred_value_dict = {} |
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visit_entropy_dict = {} |
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for index, env_id in enumerate(ready_env_id): |
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actions[env_id] = actions_no_env_id.pop(index) |
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distributions_dict[env_id] = distributions_dict_no_env_id.pop(index) |
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if self.policy_config.sampled_algo: |
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root_sampled_actions_dict[env_id] = root_sampled_actions_dict_no_env_id.pop(index) |
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value_dict[env_id] = value_dict_no_env_id.pop(index) |
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pred_value_dict[env_id] = pred_value_dict_no_env_id.pop(index) |
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visit_entropy_dict[env_id] = visit_entropy_dict_no_env_id.pop(index) |
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timesteps = self._env.step(actions) |
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timesteps = to_tensor(timesteps, dtype=torch.float32) |
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for env_id, t in timesteps.items(): |
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obs, reward, done, info = t.obs, t.reward, t.done, t.info |
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game_segments[env_id].append( |
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actions[env_id], to_ndarray(obs['observation']), reward, action_mask_dict[env_id], |
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to_play_dict[env_id] |
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) |
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action_mask_dict[env_id] = to_ndarray(obs['action_mask']) |
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to_play_dict[env_id] = to_ndarray(obs['to_play']) |
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dones[env_id] = done |
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if t.done: |
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self._policy.reset([env_id]) |
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reward = t.info['eval_episode_return'] |
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saved_info = {'eval_episode_return': t.info['eval_episode_return']} |
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if 'episode_info' in t.info: |
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saved_info.update(t.info['episode_info']) |
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eval_monitor.update_info(env_id, saved_info) |
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eval_monitor.update_reward(env_id, reward) |
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self._logger.info( |
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"[EVALUATOR]env {} finish episode, final reward: {}, current episode: {}".format( |
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env_id, eval_monitor.get_latest_reward(env_id), eval_monitor.get_current_episode() |
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) |
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) |
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if n_episode > self._env_num: |
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init_obs = self._env.ready_obs |
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retry_waiting_time = 0.001 |
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while len(init_obs.keys()) != self._env_num: |
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self._logger.info('The current init_obs.keys() is {}'.format(init_obs.keys())) |
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self._logger.info( |
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'Before sleeping, the _env_states is {}'.format(self._env._env_states) |
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) |
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time.sleep(retry_waiting_time) |
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self._logger.info( |
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'=' * 10 + 'Wait for all environments (subprocess) to finish resetting.' + '=' * 10 |
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) |
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self._logger.info( |
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'After sleeping {}s, the current _env_states is {}'.format( |
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retry_waiting_time, self._env._env_states |
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) |
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) |
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init_obs = self._env.ready_obs |
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new_available_env_id = set(init_obs.keys()).difference(ready_env_id) |
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ready_env_id = ready_env_id.union(set(list(new_available_env_id)[:remain_episode])) |
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remain_episode -= min(len(new_available_env_id), remain_episode) |
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action_mask_dict[env_id] = to_ndarray(init_obs[env_id]['action_mask']) |
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to_play_dict[env_id] = to_ndarray(init_obs[env_id]['to_play']) |
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game_segments[env_id] = GameSegment( |
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self._env.action_space, |
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game_segment_length=self.policy_config.game_segment_length, |
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config=self.policy_config |
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) |
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game_segments[env_id].reset( |
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[ |
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init_obs[env_id]['observation'] |
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for _ in range(self.policy_config.model.frame_stack_num) |
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] |
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) |
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self._policy.reset([env_id]) |
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ready_env_id.remove(env_id) |
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envstep_count += 1 |
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duration = self._timer.value |
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episode_return = eval_monitor.get_episode_return() |
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info = { |
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'train_iter': train_iter, |
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'ckpt_name': 'iteration_{}.pth.tar'.format(train_iter), |
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'episode_count': n_episode, |
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'envstep_count': envstep_count, |
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'avg_envstep_per_episode': envstep_count / n_episode, |
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'evaluate_time': duration, |
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'avg_envstep_per_sec': envstep_count / duration, |
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'avg_time_per_episode': n_episode / duration, |
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'reward_mean': np.mean(episode_return), |
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'reward_std': np.std(episode_return), |
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'reward_max': np.max(episode_return), |
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'reward_min': np.min(episode_return), |
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} |
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episode_info = eval_monitor.get_episode_info() |
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if episode_info is not None: |
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info.update(episode_info) |
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self._logger.info(self._logger.get_tabulate_vars_hor(info)) |
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for k, v in info.items(): |
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if k in ['train_iter', 'ckpt_name', 'each_reward']: |
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continue |
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if not np.isscalar(v): |
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continue |
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self._tb_logger.add_scalar('{}_iter/'.format(self._instance_name) + k, v, train_iter) |
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self._tb_logger.add_scalar('{}_step/'.format(self._instance_name) + k, v, envstep) |
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episode_return = np.mean(episode_return) |
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if episode_return > self._max_episode_return: |
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if save_ckpt_fn: |
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save_ckpt_fn('ckpt_best.pth.tar') |
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self._max_episode_return = episode_return |
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stop_flag = episode_return >= self._stop_value and train_iter > 0 |
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if stop_flag: |
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self._logger.info( |
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"[LightZero serial pipeline] " + |
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"Current episode_return: {} is greater than stop_value: {}".format(episode_return, |
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self._stop_value) + |
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", so your MCTS/RL agent is converged, you can refer to 'log/evaluator/evaluator_logger.txt' for details." |
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) |
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if get_world_size() > 1: |
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objects = [stop_flag, episode_info] |
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broadcast_object_list(objects, src=0) |
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stop_flag, episode_info = objects |
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episode_info = to_item(episode_info) |
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return stop_flag, episode_info |
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