mirror of
https://github.com/vale981/ray
synced 2025-03-06 10:31:39 -05:00
164 lines
6.4 KiB
Python
164 lines
6.4 KiB
Python
from typing import Union
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from ray.rllib.models.action_dist import ActionDistribution
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from ray.rllib.utils.annotations import override
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from ray.rllib.utils.exploration.exploration import Exploration, TensorType
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from ray.rllib.utils.framework import try_import_tf, try_import_torch, \
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get_variable
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from ray.rllib.utils.from_config import from_config
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from ray.rllib.utils.schedules import Schedule, PiecewiseSchedule
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from ray.rllib.utils.torch_ops import FLOAT_MIN
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tf1, tf, tfv = try_import_tf()
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torch, _ = try_import_torch()
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class EpsilonGreedy(Exploration):
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"""Epsilon-greedy Exploration class that produces exploration actions.
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When given a Model's output and a current epsilon value (based on some
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Schedule), it produces a random action (if rand(1) < eps) or
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uses the model-computed one (if rand(1) >= eps).
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"""
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def __init__(self,
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action_space,
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*,
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framework: str,
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initial_epsilon=1.0,
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final_epsilon=0.05,
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epsilon_timesteps=int(1e5),
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epsilon_schedule=None,
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**kwargs):
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"""Create an EpsilonGreedy exploration class.
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Args:
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initial_epsilon (float): The initial epsilon value to use.
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final_epsilon (float): The final epsilon value to use.
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epsilon_timesteps (int): The time step after which epsilon should
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always be `final_epsilon`.
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epsilon_schedule (Optional[Schedule]): An optional Schedule object
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to use (instead of constructing one from the given parameters).
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"""
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assert framework is not None
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super().__init__(
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action_space=action_space, framework=framework, **kwargs)
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self.epsilon_schedule = \
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from_config(Schedule, epsilon_schedule, framework=framework) or \
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PiecewiseSchedule(
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endpoints=[
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(0, initial_epsilon), (epsilon_timesteps, final_epsilon)],
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outside_value=final_epsilon,
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framework=self.framework)
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# The current timestep value (tf-var or python int).
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self.last_timestep = get_variable(
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0, framework=framework, tf_name="timestep")
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# Build the tf-info-op.
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if self.framework in ["tf2", "tf", "tfe"]:
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self._tf_info_op = self.get_info()
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@override(Exploration)
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def get_exploration_action(self,
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*,
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action_distribution: ActionDistribution,
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timestep: Union[int, TensorType],
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explore: bool = True):
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q_values = action_distribution.inputs
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if self.framework in ["tf2", "tf", "tfe"]:
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return self._get_tf_exploration_action_op(q_values, explore,
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timestep)
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else:
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return self._get_torch_exploration_action(q_values, explore,
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timestep)
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def _get_tf_exploration_action_op(self, q_values, explore, timestep):
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"""TF method to produce the tf op for an epsilon exploration action.
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Args:
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q_values (Tensor): The Q-values coming from some q-model.
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Returns:
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tf.Tensor: The tf exploration-action op.
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"""
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epsilon = self.epsilon_schedule(timestep if timestep is not None else
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self.last_timestep)
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# Get the exploit action as the one with the highest logit value.
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exploit_action = tf.argmax(q_values, axis=1)
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batch_size = tf.shape(q_values)[0]
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# Mask out actions with q-value=-inf so that we don't even consider
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# them for exploration.
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random_valid_action_logits = tf.where(
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tf.equal(q_values, tf.float32.min),
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tf.ones_like(q_values) * tf.float32.min, tf.ones_like(q_values))
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random_actions = tf.squeeze(
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tf.random.categorical(random_valid_action_logits, 1), axis=1)
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chose_random = tf.random.uniform(
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tf.stack([batch_size]), minval=0, maxval=1,
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dtype=tf.float32) < epsilon
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action = tf.cond(
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pred=tf.constant(explore, dtype=tf.bool)
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if isinstance(explore, bool) else explore,
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true_fn=(
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lambda: tf.where(chose_random, random_actions, exploit_action)
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),
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false_fn=lambda: exploit_action)
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if self.framework in ["tf2", "tfe"]:
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self.last_timestep = timestep
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return action, tf.zeros_like(action, dtype=tf.float32)
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else:
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assign_op = tf1.assign(self.last_timestep, timestep)
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with tf1.control_dependencies([assign_op]):
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return action, tf.zeros_like(action, dtype=tf.float32)
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def _get_torch_exploration_action(self, q_values, explore, timestep):
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"""Torch method to produce an epsilon exploration action.
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Args:
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q_values (Tensor): The Q-values coming from some Q-model.
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Returns:
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torch.Tensor: The exploration-action.
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"""
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self.last_timestep = timestep
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_, exploit_action = torch.max(q_values, 1)
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action_logp = torch.zeros_like(exploit_action)
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# Explore.
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if explore:
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# Get the current epsilon.
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epsilon = self.epsilon_schedule(self.last_timestep)
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batch_size = q_values.size()[0]
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# Mask out actions, whose Q-values are -inf, so that we don't
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# even consider them for exploration.
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random_valid_action_logits = torch.where(
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q_values <= FLOAT_MIN,
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torch.ones_like(q_values) * 0.0, torch.ones_like(q_values))
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# A random action.
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random_actions = torch.squeeze(
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torch.multinomial(random_valid_action_logits, 1), axis=1)
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# Pick either random or greedy.
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action = torch.where(
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torch.empty(
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(batch_size, )).uniform_().to(self.device) < epsilon,
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random_actions, exploit_action)
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return action, action_logp
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# Return the deterministic "sample" (argmax) over the logits.
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else:
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return exploit_action, action_logp
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@override(Exploration)
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def get_info(self, sess=None):
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if sess:
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return sess.run(self._tf_info_op)
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eps = self.epsilon_schedule(self.last_timestep)
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return {"cur_epsilon": eps}
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