Unity 机器学习代理工具包 (ML-Agents) 是一个开源项目,它使游戏和模拟能够作为训练智能代理的环境。
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import sys
import numpy as np
from typing import List, Dict, TypeVar, Generic, Tuple, Any, Union
from collections import defaultdict, Counter
import queue
from mlagents_envs.base_env import (
ActionTuple,
DecisionSteps,
DecisionStep,
TerminalSteps,
TerminalStep,
)
from mlagents_envs.side_channel.stats_side_channel import (
StatsAggregationMethod,
EnvironmentStats,
)
from mlagents.trainers.trajectory import TeammateStatus, Trajectory, AgentExperience
from mlagents.trainers.policy import Policy
from mlagents.trainers.action_info import ActionInfo, ActionInfoOutputs
from mlagents.trainers.torch.action_log_probs import LogProbsTuple
from mlagents.trainers.stats import StatsReporter
from mlagents.trainers.behavior_id_utils import get_global_agent_id
T = TypeVar("T")
class AgentProcessor:
"""
AgentProcessor contains a dictionary per-agent trajectory buffers. The buffers are indexed by agent_id.
Buffer also contains an update_buffer that corresponds to the buffer used when updating the model.
One AgentProcessor should be created per agent group.
"""
def __init__(
self,
policy: Policy,
behavior_id: str,
stats_reporter: StatsReporter,
max_trajectory_length: int = sys.maxsize,
):
"""
Create an AgentProcessor.
:param trainer: Trainer instance connected to this AgentProcessor. Trainer is given trajectory
when it is finished.
:param policy: Policy instance associated with this AgentProcessor.
:param max_trajectory_length: Maximum length of a trajectory before it is added to the trainer.
:param stats_category: The category under which to write the stats. Usually, this comes from the Trainer.
"""
self.experience_buffers: Dict[str, List[AgentExperience]] = defaultdict(list)
self.last_step_result: Dict[str, Tuple[DecisionStep, int]] = {}
# current_group_obs is used to collect the last seen obs of all the agents in the same group,
# and assemble the collab_obs.
self.current_group_obs: Dict[str, Dict[str, List[np.ndarray]]] = defaultdict(
lambda: defaultdict(list)
)
# last_group_obs is used to collect the last seen obs of all the agents in the same group,
# and assemble the collab_obs.
self.teammate_status: Dict[str, Dict[str, TeammateStatus]] = defaultdict(
lambda: defaultdict(None)
)
# last_take_action_outputs stores the action a_t taken before the current observation s_(t+1), while
# grabbing previous_action from the policy grabs the action PRIOR to that, a_(t-1).
self.last_take_action_outputs: Dict[str, ActionInfoOutputs] = {}
# Note: In the future this policy reference will be the policy of the env_manager and not the trainer.
# We can in that case just grab the action from the policy rather than having it passed in.
self.policy = policy
self.episode_steps: Counter = Counter()
self.episode_rewards: Dict[str, float] = defaultdict(float)
self.stats_reporter = stats_reporter
self.max_trajectory_length = max_trajectory_length
self.trajectory_queues: List[AgentManagerQueue[Trajectory]] = []
self.behavior_id = behavior_id
def add_experiences(
self,
decision_steps: DecisionSteps,
terminal_steps: TerminalSteps,
worker_id: int,
previous_action: ActionInfo,
) -> None:
"""
Adds experiences to each agent's experience history.
:param decision_steps: current DecisionSteps.
:param terminal_steps: current TerminalSteps.
:param previous_action: The outputs of the Policy's get_action method.
"""
take_action_outputs = previous_action.outputs
if take_action_outputs:
for _entropy in take_action_outputs["entropy"]:
self.stats_reporter.add_stat("Policy/Entropy", _entropy)
# Make unique agent_ids that are global across workers
action_global_agent_ids = [
get_global_agent_id(worker_id, ag_id) for ag_id in previous_action.agent_ids
]
for global_id in action_global_agent_ids:
if global_id in self.last_step_result: # Don't store if agent just reset
self.last_take_action_outputs[global_id] = take_action_outputs
# Iterate over all the terminal steps, first gather all the teammate obs
# and then create the AgentExperiences/Trajectories
for terminal_step in terminal_steps.values():
local_id = terminal_step.agent_id
global_id = get_global_agent_id(worker_id, local_id)
self._gather_teammate_obs(terminal_step, global_id)
for terminal_step in terminal_steps.values():
local_id = terminal_step.agent_id
global_id = get_global_agent_id(worker_id, local_id)
self._process_step(
terminal_step, global_id, terminal_steps.agent_id_to_index[local_id]
)
# Clear the last seen group obs when agents die.
self._clear_teammate_obs(global_id)
# Clean the last experience dictionary for terminal steps
for terminal_step in terminal_steps.values():
local_id = terminal_step.agent_id
global_id = get_global_agent_id(worker_id, local_id)
# Iterate over all the decision steps, first gather all the teammate obs
# and then create the trajectories
for ongoing_step in decision_steps.values():
local_id = ongoing_step.agent_id
global_id = get_global_agent_id(worker_id, local_id)
self._gather_teammate_obs(ongoing_step, global_id)
for ongoing_step in decision_steps.values():
local_id = ongoing_step.agent_id
global_id = get_global_agent_id(worker_id, local_id)
self._process_step(
ongoing_step, global_id, decision_steps.agent_id_to_index[local_id]
)
for _gid in action_global_agent_ids:
# If the ID doesn't have a last step result, the agent just reset,
# don't store the action.
if _gid in self.last_step_result:
if "action" in take_action_outputs:
self.policy.save_previous_action(
[_gid], take_action_outputs["action"]
)
def _gather_teammate_obs(
self, step: Union[TerminalStep, DecisionStep], global_id: str
) -> None:
stored_decision_step, idx = self.last_step_result.get(global_id, (None, None))
stored_take_action_outputs = self.last_take_action_outputs.get(global_id, None)
if stored_decision_step is not None and stored_take_action_outputs is not None:
if step.team_manager_id is not None:
stored_actions = stored_take_action_outputs["action"]
action_tuple = ActionTuple(
continuous=stored_actions.continuous[idx],
discrete=stored_actions.discrete[idx],
)
teammate_status = TeammateStatus(
obs=stored_decision_step.obs,
reward=step.reward,
action=action_tuple,
done=isinstance(step, TerminalStep),
)
self.teammate_status[step.team_manager_id][global_id] = teammate_status
self.current_group_obs[step.team_manager_id][global_id] = step.obs
def _clear_teammate_obs(self, global_id: str) -> None:
self._delete_in_nested_dict(self.current_group_obs, global_id)
self._delete_in_nested_dict(self.teammate_status, global_id)
def _delete_in_nested_dict(self, nested_dict, key):
for _manager_id, _team_group in nested_dict.items():
self._safe_delete(_team_group, key)
if not _team_group: # if dict is empty
self._safe_delete(_team_group, _manager_id)
def _process_step(
self, step: Union[TerminalStep, DecisionStep], global_id: str, index: int
) -> None:
terminated = isinstance(step, TerminalStep)
stored_decision_step, idx = self.last_step_result.get(global_id, (None, None))
stored_take_action_outputs = self.last_take_action_outputs.get(global_id, None)
if not terminated:
# Index is needed to grab from last_take_action_outputs
self.last_step_result[global_id] = (step, index)
# This state is the consequence of a past action
if stored_decision_step is not None and stored_take_action_outputs is not None:
obs = stored_decision_step.obs
if self.policy.use_recurrent:
memory = self.policy.retrieve_memories([global_id])[0, :]
else:
memory = None
done = terminated # Since this is an ongoing step
interrupted = step.interrupted if terminated else False
# Add the outputs of the last eval
stored_actions = stored_take_action_outputs["action"]
action_tuple = ActionTuple(
continuous=stored_actions.continuous[idx],
discrete=stored_actions.discrete[idx],
)
stored_action_probs = stored_take_action_outputs["log_probs"]
log_probs_tuple = LogProbsTuple(
continuous=stored_action_probs.continuous[idx],
discrete=stored_action_probs.discrete[idx],
)
action_mask = stored_decision_step.action_mask
prev_action = self.policy.retrieve_previous_action([global_id])[0, :]
# Assemble teammate_obs. If none saved, then it will be an empty list.
teammate_statuses = []
for _id, _obs in self.teammate_status[step.team_manager_id].items():
if _id != global_id:
teammate_statuses.append(_obs)
experience = AgentExperience(
obs=obs,
teammate_status=teammate_statuses,
reward=step.reward,
done=done,
action=action_tuple,
action_probs=log_probs_tuple,
action_mask=action_mask,
prev_action=prev_action,
interrupted=interrupted,
memory=memory,
)
# Add the value outputs if needed
self.experience_buffers[global_id].append(experience)
self.episode_rewards[global_id] += step.reward
if not terminated:
self.episode_steps[global_id] += 1
# Add a trajectory segment to the buffer if terminal or the length has reached the time horizon
if (
len(self.experience_buffers[global_id]) >= self.max_trajectory_length
or terminated
):
next_obs = step.obs
next_collab_obs = []
for _id, _exp in self.current_group_obs[step.team_manager_id].items():
if _id != global_id:
next_collab_obs.append(_exp)
trajectory = Trajectory(
steps=self.experience_buffers[global_id],
agent_id=global_id,
next_obs=next_obs,
next_collab_obs=next_collab_obs,
behavior_id=self.behavior_id,
)
for traj_queue in self.trajectory_queues:
traj_queue.put(trajectory)
self.experience_buffers[global_id] = []
if terminated:
# Record episode length.
self.stats_reporter.add_stat(
"Environment/Episode Length", self.episode_steps.get(global_id, 0)
)
self._clean_agent_data(global_id)
def _clean_agent_data(self, global_id: str) -> None:
"""
Removes the data for an Agent.
"""
self._safe_delete(self.experience_buffers, global_id)
self._safe_delete(self.last_take_action_outputs, global_id)
self._safe_delete(self.last_step_result, global_id)
self._safe_delete(self.episode_steps, global_id)
self._safe_delete(self.episode_rewards, global_id)
self.policy.remove_previous_action([global_id])
self.policy.remove_memories([global_id])
def _safe_delete(self, my_dictionary: Dict[Any, Any], key: Any) -> None:
"""
Safe removes data from a dictionary. If not found,
don't delete.
"""
if key in my_dictionary:
del my_dictionary[key]
def publish_trajectory_queue(
self, trajectory_queue: "AgentManagerQueue[Trajectory]"
) -> None:
"""
Adds a trajectory queue to the list of queues to publish to when this AgentProcessor
assembles a Trajectory
:param trajectory_queue: Trajectory queue to publish to.
"""
self.trajectory_queues.append(trajectory_queue)
def end_episode(self) -> None:
"""
Ends the episode, terminating the current trajectory and stopping stats collection for that
episode. Used for forceful reset (e.g. in curriculum or generalization training.)
"""
all_gids = list(self.experience_buffers.keys()) # Need to make copy
for _gid in all_gids:
self._clean_agent_data(_gid)
class AgentManagerQueue(Generic[T]):
"""
Queue used by the AgentManager. Note that we make our own class here because in most implementations
deque is sufficient and faster. However, if we want to switch to multiprocessing, we'll need to change
out this implementation.
"""
class Empty(Exception):
"""
Exception for when the queue is empty.
"""
pass
def __init__(self, behavior_id: str, maxlen: int = 0):
"""
Initializes an AgentManagerQueue. Note that we can give it a behavior_id so that it can be identified
separately from an AgentManager.
"""
self._maxlen: int = maxlen
self._queue: queue.Queue = queue.Queue(maxsize=maxlen)
self._behavior_id = behavior_id
@property
def maxlen(self):
"""
The maximum length of the queue.
:return: Maximum length of the queue.
"""
return self._maxlen
@property
def behavior_id(self):
"""
The Behavior ID of this queue.
:return: Behavior ID associated with the queue.
"""
return self._behavior_id
def qsize(self) -> int:
"""
Returns the approximate size of the queue. Note that values may differ
depending on the underlying queue implementation.
"""
return self._queue.qsize()
def empty(self) -> bool:
return self._queue.empty()
def get_nowait(self) -> T:
"""
Gets the next item from the queue, throwing an AgentManagerQueue.Empty exception
if the queue is empty.
"""
try:
return self._queue.get_nowait()
except queue.Empty:
raise self.Empty("The AgentManagerQueue is empty.")
def put(self, item: T) -> None:
self._queue.put(item)
class AgentManager(AgentProcessor):
"""
An AgentManager is an AgentProcessor that also holds a single trajectory and policy queue.
Note: this leaves room for adding AgentProcessors that publish multiple trajectory queues.
"""
def __init__(
self,
policy: Policy,
behavior_id: str,
stats_reporter: StatsReporter,
max_trajectory_length: int = sys.maxsize,
threaded: bool = True,
):
super().__init__(policy, behavior_id, stats_reporter, max_trajectory_length)
trajectory_queue_len = 20 if threaded else 0
self.trajectory_queue: AgentManagerQueue[Trajectory] = AgentManagerQueue(
self.behavior_id, maxlen=trajectory_queue_len
)
# NOTE: we make policy queues of infinite length to avoid lockups of the trainers.
# In the environment manager, we make sure to empty the policy queue before continuing to produce steps.
self.policy_queue: AgentManagerQueue[Policy] = AgentManagerQueue(
self.behavior_id, maxlen=0
)
self.publish_trajectory_queue(self.trajectory_queue)
def record_environment_stats(
self, env_stats: EnvironmentStats, worker_id: int
) -> None:
"""
Pass stats from the environment to the StatsReporter.
Depending on the StatsAggregationMethod, either StatsReporter.add_stat or StatsReporter.set_stat is used.
The worker_id is used to determine whether StatsReporter.set_stat should be used.
:param env_stats:
:param worker_id:
:return:
"""
for stat_name, value_list in env_stats.items():
for val, agg_type in value_list:
if agg_type == StatsAggregationMethod.AVERAGE:
self.stats_reporter.add_stat(stat_name, val, agg_type)
elif agg_type == StatsAggregationMethod.SUM:
self.stats_reporter.add_stat(stat_name, val, agg_type)
elif agg_type == StatsAggregationMethod.MOST_RECENT:
# In order to prevent conflicts between multiple environments,
# only stats from the first environment are recorded.
if worker_id == 0:
self.stats_reporter.set_stat(stat_name, val)