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from typing import Optional, Union, List |
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from ditk import logging |
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from easydict import EasyDict |
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import os |
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import numpy as np |
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import torch |
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import treetensor.torch as ttorch |
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from ding.framework import task, OnlineRLContext |
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from ding.framework.middleware import CkptSaver, \ |
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wandb_online_logger, offline_data_saver, termination_checker, interaction_evaluator, StepCollector, data_pusher, \ |
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OffPolicyLearner, final_ctx_saver, nstep_reward_enhancer, eps_greedy_handler |
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from ding.envs import BaseEnv |
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from ding.envs import setup_ding_env_manager |
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from ding.policy import DQNPolicy |
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from ding.utils import set_pkg_seed |
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from ding.utils import get_env_fps, render |
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from ding.config import save_config_py, compile_config |
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from ding.model import DQN |
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from ding.model import model_wrap |
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from ding.data import DequeBuffer |
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from ding.bonus.common import TrainingReturn, EvalReturn |
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from ding.config.example.DQN import supported_env_cfg |
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from ding.config.example.DQN import supported_env |
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class DQNAgent: |
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""" |
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Overview: |
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Class of agent for training, evaluation and deployment of Reinforcement learning algorithm Deep Q-Learning(DQN). |
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For more information about the system design of RL agent, please refer to \ |
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<https://di-engine-docs.readthedocs.io/en/latest/03_system/agent.html>. |
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Interface: |
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``__init__``, ``train``, ``deploy``, ``collect_data``, ``batch_evaluate``, ``best`` |
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""" |
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supported_env_list = list(supported_env_cfg.keys()) |
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""" |
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Overview: |
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List of supported envs. |
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Examples: |
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>>> from ding.bonus.dqn import DQNAgent |
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>>> print(DQNAgent.supported_env_list) |
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""" |
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|
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def __init__( |
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self, |
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env_id: str = None, |
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env: BaseEnv = None, |
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seed: int = 0, |
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exp_name: str = None, |
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model: Optional[torch.nn.Module] = None, |
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cfg: Optional[Union[EasyDict, dict]] = None, |
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policy_state_dict: str = None, |
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) -> None: |
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""" |
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Overview: |
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Initialize agent for DQN algorithm. |
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Arguments: |
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- env_id (:obj:`str`): The environment id, which is a registered environment name in gym or gymnasium. \ |
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If ``env_id`` is not specified, ``env_id`` in ``cfg.env`` must be specified. \ |
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If ``env_id`` is specified, ``env_id`` in ``cfg.env`` will be ignored. \ |
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``env_id`` should be one of the supported envs, which can be found in ``supported_env_list``. |
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- env (:obj:`BaseEnv`): The environment instance for training and evaluation. \ |
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If ``env`` is not specified, `env_id`` or ``cfg.env.env_id`` must be specified. \ |
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``env_id`` or ``cfg.env.env_id`` will be used to create environment instance. \ |
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If ``env`` is specified, ``env_id`` and ``cfg.env.env_id`` will be ignored. |
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- seed (:obj:`int`): The random seed, which is set before running the program. \ |
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Default to 0. |
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- exp_name (:obj:`str`): The name of this experiment, which will be used to create the folder to save \ |
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log data. Default to None. If not specified, the folder name will be ``env_id``-``algorithm``. |
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- model (:obj:`torch.nn.Module`): The model of DQN algorithm, which should be an instance of class \ |
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:class:`ding.model.DQN`. \ |
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If not specified, a default model will be generated according to the configuration. |
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- cfg (:obj:Union[EasyDict, dict]): The configuration of DQN algorithm, which is a dict. \ |
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Default to None. If not specified, the default configuration will be used. \ |
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The default configuration can be found in ``ding/config/example/DQN/gym_lunarlander_v2.py``. |
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- policy_state_dict (:obj:`str`): The path of policy state dict saved by PyTorch a in local file. \ |
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If specified, the policy will be loaded from this file. Default to None. |
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|
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.. note:: |
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An RL Agent Instance can be initialized in two basic ways. \ |
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For example, we have an environment with id ``LunarLander-v2`` registered in gym, \ |
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and we want to train an agent with DQN algorithm with default configuration. \ |
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Then we can initialize the agent in the following ways: |
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>>> agent = DQNAgent(env_id='LunarLander-v2') |
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or, if we want can specify the env_id in the configuration: |
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>>> cfg = {'env': {'env_id': 'LunarLander-v2'}, 'policy': ...... } |
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>>> agent = DQNAgent(cfg=cfg) |
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There are also other arguments to specify the agent when initializing. |
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For example, if we want to specify the environment instance: |
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>>> env = CustomizedEnv('LunarLander-v2') |
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>>> agent = DQNAgent(cfg=cfg, env=env) |
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or, if we want to specify the model: |
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>>> model = DQN(**cfg.policy.model) |
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>>> agent = DQNAgent(cfg=cfg, model=model) |
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or, if we want to reload the policy from a saved policy state dict: |
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>>> agent = DQNAgent(cfg=cfg, policy_state_dict='LunarLander-v2.pth.tar') |
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Make sure that the configuration is consistent with the saved policy state dict. |
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""" |
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assert env_id is not None or cfg is not None, "Please specify env_id or cfg." |
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if cfg is not None and not isinstance(cfg, EasyDict): |
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cfg = EasyDict(cfg) |
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if env_id is not None: |
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assert env_id in DQNAgent.supported_env_list, "Please use supported envs: {}".format( |
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DQNAgent.supported_env_list |
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) |
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if cfg is None: |
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cfg = supported_env_cfg[env_id] |
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else: |
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assert cfg.env.env_id == env_id, "env_id in cfg should be the same as env_id in args." |
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else: |
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assert hasattr(cfg.env, "env_id"), "Please specify env_id in cfg." |
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assert cfg.env.env_id in DQNAgent.supported_env_list, "Please use supported envs: {}".format( |
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DQNAgent.supported_env_list |
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) |
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default_policy_config = EasyDict({"policy": DQNPolicy.default_config()}) |
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default_policy_config.update(cfg) |
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cfg = default_policy_config |
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if exp_name is not None: |
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cfg.exp_name = exp_name |
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self.cfg = compile_config(cfg, policy=DQNPolicy) |
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self.exp_name = self.cfg.exp_name |
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if env is None: |
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self.env = supported_env[cfg.env.env_id](cfg=cfg.env) |
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else: |
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assert isinstance(env, BaseEnv), "Please use BaseEnv as env data type." |
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self.env = env |
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logging.getLogger().setLevel(logging.INFO) |
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self.seed = seed |
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set_pkg_seed(self.seed, use_cuda=self.cfg.policy.cuda) |
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if not os.path.exists(self.exp_name): |
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os.makedirs(self.exp_name) |
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save_config_py(self.cfg, os.path.join(self.exp_name, 'policy_config.py')) |
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if model is None: |
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model = DQN(**self.cfg.policy.model) |
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self.buffer_ = DequeBuffer(size=self.cfg.policy.other.replay_buffer.replay_buffer_size) |
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self.policy = DQNPolicy(self.cfg.policy, model=model) |
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if policy_state_dict is not None: |
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self.policy.learn_mode.load_state_dict(policy_state_dict) |
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self.checkpoint_save_dir = os.path.join(self.exp_name, "ckpt") |
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def train( |
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self, |
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step: int = int(1e7), |
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collector_env_num: int = None, |
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evaluator_env_num: int = None, |
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n_iter_save_ckpt: int = 1000, |
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context: Optional[str] = None, |
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debug: bool = False, |
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wandb_sweep: bool = False, |
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) -> TrainingReturn: |
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""" |
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Overview: |
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Train the agent with DQN algorithm for ``step`` iterations with ``collector_env_num`` collector \ |
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environments and ``evaluator_env_num`` evaluator environments. Information during training will be \ |
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recorded and saved by wandb. |
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Arguments: |
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- step (:obj:`int`): The total training environment steps of all collector environments. Default to 1e7. |
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- collector_env_num (:obj:`int`): The collector environment number. Default to None. \ |
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If not specified, it will be set according to the configuration. |
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- evaluator_env_num (:obj:`int`): The evaluator environment number. Default to None. \ |
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If not specified, it will be set according to the configuration. |
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- n_iter_save_ckpt (:obj:`int`): The frequency of saving checkpoint every training iteration. \ |
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Default to 1000. |
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- context (:obj:`str`): The multi-process context of the environment manager. Default to None. \ |
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It can be specified as ``spawn``, ``fork`` or ``forkserver``. |
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- debug (:obj:`bool`): Whether to use debug mode in the environment manager. Default to False. \ |
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If set True, base environment manager will be used for easy debugging. Otherwise, \ |
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subprocess environment manager will be used. |
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- wandb_sweep (:obj:`bool`): Whether to use wandb sweep, \ |
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which is a hyper-parameter optimization process for seeking the best configurations. \ |
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Default to False. If True, the wandb sweep id will be used as the experiment name. |
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Returns: |
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- (:obj:`TrainingReturn`): The training result, of which the attributions are: |
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- wandb_url (:obj:`str`): The weight & biases (wandb) project url of the trainning experiment. |
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""" |
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if debug: |
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logging.getLogger().setLevel(logging.DEBUG) |
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logging.debug(self.policy._model) |
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collector_env_num = collector_env_num if collector_env_num else self.cfg.env.collector_env_num |
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evaluator_env_num = evaluator_env_num if evaluator_env_num else self.cfg.env.evaluator_env_num |
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collector_env = setup_ding_env_manager(self.env, collector_env_num, context, debug, 'collector') |
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evaluator_env = setup_ding_env_manager(self.env, evaluator_env_num, context, debug, 'evaluator') |
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with task.start(ctx=OnlineRLContext()): |
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task.use( |
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interaction_evaluator( |
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self.cfg, |
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self.policy.eval_mode, |
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evaluator_env, |
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render=self.cfg.policy.eval.render if hasattr(self.cfg.policy.eval, "render") else False |
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) |
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) |
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task.use(CkptSaver(policy=self.policy, save_dir=self.checkpoint_save_dir, train_freq=n_iter_save_ckpt)) |
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task.use(eps_greedy_handler(self.cfg)) |
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task.use( |
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StepCollector( |
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self.cfg, |
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self.policy.collect_mode, |
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collector_env, |
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random_collect_size=self.cfg.policy.random_collect_size |
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if hasattr(self.cfg.policy, 'random_collect_size') else 0, |
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) |
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) |
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if "nstep" in self.cfg.policy and self.cfg.policy.nstep > 1: |
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task.use(nstep_reward_enhancer(self.cfg)) |
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task.use(data_pusher(self.cfg, self.buffer_)) |
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task.use(OffPolicyLearner(self.cfg, self.policy.learn_mode, self.buffer_)) |
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task.use( |
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wandb_online_logger( |
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metric_list=self.policy._monitor_vars_learn(), |
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model=self.policy._model, |
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anonymous=True, |
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project_name=self.exp_name, |
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wandb_sweep=wandb_sweep, |
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) |
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) |
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task.use(termination_checker(max_env_step=step)) |
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task.use(final_ctx_saver(name=self.exp_name)) |
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task.run() |
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return TrainingReturn(wandb_url=task.ctx.wandb_url) |
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|
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def deploy( |
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self, |
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enable_save_replay: bool = False, |
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concatenate_all_replay: bool = False, |
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replay_save_path: str = None, |
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seed: Optional[Union[int, List]] = None, |
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debug: bool = False |
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) -> EvalReturn: |
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""" |
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Overview: |
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Deploy the agent with DQN algorithm by interacting with the environment, during which the replay video \ |
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can be saved if ``enable_save_replay`` is True. The evaluation result will be returned. |
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Arguments: |
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- enable_save_replay (:obj:`bool`): Whether to save the replay video. Default to False. |
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- concatenate_all_replay (:obj:`bool`): Whether to concatenate all replay videos into one video. \ |
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Default to False. If ``enable_save_replay`` is False, this argument will be ignored. \ |
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If ``enable_save_replay`` is True and ``concatenate_all_replay`` is False, \ |
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the replay video of each episode will be saved separately. |
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- replay_save_path (:obj:`str`): The path to save the replay video. Default to None. \ |
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If not specified, the video will be saved in ``exp_name/videos``. |
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- seed (:obj:`Union[int, List]`): The random seed, which is set before running the program. \ |
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Default to None. If not specified, ``self.seed`` will be used. \ |
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If ``seed`` is an integer, the agent will be deployed once. \ |
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If ``seed`` is a list of integers, the agent will be deployed once for each seed in the list. |
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- debug (:obj:`bool`): Whether to use debug mode in the environment manager. Default to False. \ |
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If set True, base environment manager will be used for easy debugging. Otherwise, \ |
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subprocess environment manager will be used. |
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Returns: |
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- (:obj:`EvalReturn`): The evaluation result, of which the attributions are: |
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- eval_value (:obj:`np.float32`): The mean of evaluation return. |
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- eval_value_std (:obj:`np.float32`): The standard deviation of evaluation return. |
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""" |
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if debug: |
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logging.getLogger().setLevel(logging.DEBUG) |
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env = self.env.clone(caller='evaluator') |
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if seed is not None and isinstance(seed, int): |
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seeds = [seed] |
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elif seed is not None and isinstance(seed, list): |
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seeds = seed |
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else: |
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seeds = [self.seed] |
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returns = [] |
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images = [] |
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if enable_save_replay: |
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replay_save_path = os.path.join(self.exp_name, 'videos') if replay_save_path is None else replay_save_path |
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env.enable_save_replay(replay_path=replay_save_path) |
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else: |
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logging.warning('No video would be generated during the deploy.') |
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if concatenate_all_replay: |
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logging.warning('concatenate_all_replay is set to False because enable_save_replay is False.') |
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concatenate_all_replay = False |
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def single_env_forward_wrapper(forward_fn, cuda=True): |
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forward_fn = model_wrap(forward_fn, wrapper_name='argmax_sample').forward |
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def _forward(obs): |
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obs = ttorch.as_tensor(obs).unsqueeze(0) |
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if cuda and torch.cuda.is_available(): |
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obs = obs.cuda() |
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action = forward_fn(obs)["action"] |
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action = action.squeeze(0).detach().cpu().numpy() |
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return action |
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return _forward |
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forward_fn = single_env_forward_wrapper(self.policy._model, self.cfg.policy.cuda) |
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env.reset() |
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for seed in seeds: |
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env.seed(seed, dynamic_seed=False) |
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return_ = 0. |
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step = 0 |
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obs = env.reset() |
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images.append(render(env)[None]) if concatenate_all_replay else None |
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while True: |
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action = forward_fn(obs) |
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obs, rew, done, info = env.step(action) |
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images.append(render(env)[None]) if concatenate_all_replay else None |
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return_ += rew |
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step += 1 |
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if done: |
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break |
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logging.info(f'DQN deploy is finished, final episode return with {step} steps is: {return_}') |
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returns.append(return_) |
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env.close() |
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if concatenate_all_replay: |
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images = np.concatenate(images, axis=0) |
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import imageio |
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imageio.mimwrite(os.path.join(replay_save_path, 'deploy.mp4'), images, fps=get_env_fps(env)) |
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return EvalReturn(eval_value=np.mean(returns), eval_value_std=np.std(returns)) |
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|
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def collect_data( |
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self, |
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env_num: int = 8, |
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save_data_path: Optional[str] = None, |
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n_sample: Optional[int] = None, |
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n_episode: Optional[int] = None, |
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context: Optional[str] = None, |
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debug: bool = False |
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) -> None: |
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""" |
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Overview: |
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Collect data with DQN algorithm for ``n_episode`` episodes with ``env_num`` collector environments. \ |
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The collected data will be saved in ``save_data_path`` if specified, otherwise it will be saved in \ |
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``exp_name/demo_data``. |
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Arguments: |
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- env_num (:obj:`int`): The number of collector environments. Default to 8. |
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- save_data_path (:obj:`str`): The path to save the collected data. Default to None. \ |
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If not specified, the data will be saved in ``exp_name/demo_data``. |
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- n_sample (:obj:`int`): The number of samples to collect. Default to None. \ |
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If not specified, ``n_episode`` must be specified. |
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- n_episode (:obj:`int`): The number of episodes to collect. Default to None. \ |
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If not specified, ``n_sample`` must be specified. |
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- context (:obj:`str`): The multi-process context of the environment manager. Default to None. \ |
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It can be specified as ``spawn``, ``fork`` or ``forkserver``. |
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- debug (:obj:`bool`): Whether to use debug mode in the environment manager. Default to False. \ |
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If set True, base environment manager will be used for easy debugging. Otherwise, \ |
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subprocess environment manager will be used. |
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""" |
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if debug: |
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logging.getLogger().setLevel(logging.DEBUG) |
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if n_episode is not None: |
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raise NotImplementedError |
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env_num = env_num if env_num else self.cfg.env.collector_env_num |
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env = setup_ding_env_manager(self.env, env_num, context, debug, 'collector') |
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|
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if save_data_path is None: |
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save_data_path = os.path.join(self.exp_name, 'demo_data') |
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with task.start(ctx=OnlineRLContext()): |
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task.use( |
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StepCollector( |
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self.cfg, self.policy.collect_mode, env, random_collect_size=self.cfg.policy.random_collect_size |
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) |
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) |
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task.use(offline_data_saver(save_data_path, data_type='hdf5')) |
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task.run(max_step=1) |
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logging.info( |
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f'DQN collecting is finished, more than {n_sample} samples are collected and saved in `{save_data_path}`' |
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) |
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|
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def batch_evaluate( |
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self, |
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env_num: int = 4, |
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n_evaluator_episode: int = 4, |
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context: Optional[str] = None, |
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debug: bool = False |
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) -> EvalReturn: |
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""" |
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Overview: |
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Evaluate the agent with DQN algorithm for ``n_evaluator_episode`` episodes with ``env_num`` evaluator \ |
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environments. The evaluation result will be returned. |
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The difference between methods ``batch_evaluate`` and ``deploy`` is that ``batch_evaluate`` will create \ |
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multiple evaluator environments to evaluate the agent to get an average performance, while ``deploy`` \ |
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will only create one evaluator environment to evaluate the agent and save the replay video. |
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Arguments: |
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- env_num (:obj:`int`): The number of evaluator environments. Default to 4. |
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- n_evaluator_episode (:obj:`int`): The number of episodes to evaluate. Default to 4. |
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- context (:obj:`str`): The multi-process context of the environment manager. Default to None. \ |
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It can be specified as ``spawn``, ``fork`` or ``forkserver``. |
|
- debug (:obj:`bool`): Whether to use debug mode in the environment manager. Default to False. \ |
|
If set True, base environment manager will be used for easy debugging. Otherwise, \ |
|
subprocess environment manager will be used. |
|
Returns: |
|
- (:obj:`EvalReturn`): The evaluation result, of which the attributions are: |
|
- eval_value (:obj:`np.float32`): The mean of evaluation return. |
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- eval_value_std (:obj:`np.float32`): The standard deviation of evaluation return. |
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""" |
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|
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if debug: |
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logging.getLogger().setLevel(logging.DEBUG) |
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|
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env_num = env_num if env_num else self.cfg.env.evaluator_env_num |
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env = setup_ding_env_manager(self.env, env_num, context, debug, 'evaluator') |
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|
|
|
|
|
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env.launch() |
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env.reset() |
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|
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evaluate_cfg = self.cfg |
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evaluate_cfg.env.n_evaluator_episode = n_evaluator_episode |
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|
|
|
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with task.start(ctx=OnlineRLContext()): |
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task.use(interaction_evaluator(self.cfg, self.policy.eval_mode, env)) |
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task.run(max_step=1) |
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|
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return EvalReturn(eval_value=task.ctx.eval_value, eval_value_std=task.ctx.eval_value_std) |
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|
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@property |
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def best(self) -> 'DQNAgent': |
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""" |
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Overview: |
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Load the best model from the checkpoint directory, \ |
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which is by default in folder ``exp_name/ckpt/eval.pth.tar``. \ |
|
The return value is the agent with the best model. |
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Returns: |
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- (:obj:`DQNAgent`): The agent with the best model. |
|
Examples: |
|
>>> agent = DQNAgent(env_id='LunarLander-v2') |
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>>> agent.train() |
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>>> agent = agent.best |
|
|
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.. note:: |
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The best model is the model with the highest evaluation return. If this method is called, the current \ |
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model will be replaced by the best model. |
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""" |
|
|
|
best_model_file_path = os.path.join(self.checkpoint_save_dir, "eval.pth.tar") |
|
|
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if os.path.exists(best_model_file_path): |
|
policy_state_dict = torch.load(best_model_file_path, map_location=torch.device("cpu")) |
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self.policy.learn_mode.load_state_dict(policy_state_dict) |
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return self |
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