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from typing import List, NamedTuple | |
import numpy as np | |
from mlagents.trainers.buffer import ( | |
AgentBuffer, | |
ObservationKeyPrefix, | |
AgentBufferKey, | |
BufferKey, | |
) | |
from mlagents_envs.base_env import ActionTuple | |
from mlagents.trainers.torch_entities.action_log_probs import LogProbsTuple | |
class AgentStatus(NamedTuple): | |
""" | |
Stores observation, action, and reward for an agent. Does not have additional | |
fields that are present in AgentExperience. | |
""" | |
obs: List[np.ndarray] | |
reward: float | |
action: ActionTuple | |
done: bool | |
class AgentExperience(NamedTuple): | |
""" | |
Stores the full amount of data for an agent in one timestep. Includes | |
the status' of group mates and the group reward, as well as the probabilities | |
outputted by the policy. | |
""" | |
obs: List[np.ndarray] | |
reward: float | |
done: bool | |
action: ActionTuple | |
action_probs: LogProbsTuple | |
action_mask: np.ndarray | |
prev_action: np.ndarray | |
interrupted: bool | |
memory: np.ndarray | |
group_status: List[AgentStatus] | |
group_reward: float | |
class ObsUtil: | |
def get_name_at(index: int) -> AgentBufferKey: | |
""" | |
returns the name of the observation given the index of the observation | |
""" | |
return ObservationKeyPrefix.OBSERVATION, index | |
def get_name_at_next(index: int) -> AgentBufferKey: | |
""" | |
returns the name of the next observation given the index of the observation | |
""" | |
return ObservationKeyPrefix.NEXT_OBSERVATION, index | |
def from_buffer(batch: AgentBuffer, num_obs: int) -> List[np.array]: | |
""" | |
Creates the list of observations from an AgentBuffer | |
""" | |
result: List[np.array] = [] | |
for i in range(num_obs): | |
result.append(batch[ObsUtil.get_name_at(i)]) | |
return result | |
def from_buffer_next(batch: AgentBuffer, num_obs: int) -> List[np.array]: | |
""" | |
Creates the list of next observations from an AgentBuffer | |
""" | |
result = [] | |
for i in range(num_obs): | |
result.append(batch[ObsUtil.get_name_at_next(i)]) | |
return result | |
class GroupObsUtil: | |
def get_name_at(index: int) -> AgentBufferKey: | |
""" | |
returns the name of the observation given the index of the observation | |
""" | |
return ObservationKeyPrefix.GROUP_OBSERVATION, index | |
def get_name_at_next(index: int) -> AgentBufferKey: | |
""" | |
returns the name of the next team observation given the index of the observation | |
""" | |
return ObservationKeyPrefix.NEXT_GROUP_OBSERVATION, index | |
def _transpose_list_of_lists( | |
list_list: List[List[np.ndarray]], | |
) -> List[List[np.ndarray]]: | |
return list(map(list, zip(*list_list))) | |
def from_buffer(batch: AgentBuffer, num_obs: int) -> List[np.array]: | |
""" | |
Creates the list of observations from an AgentBuffer | |
""" | |
separated_obs: List[np.array] = [] | |
for i in range(num_obs): | |
separated_obs.append( | |
batch[GroupObsUtil.get_name_at(i)].padded_to_batch(pad_value=np.nan) | |
) | |
# separated_obs contains a List(num_obs) of Lists(num_agents), we want to flip | |
# that and get a List(num_agents) of Lists(num_obs) | |
result = GroupObsUtil._transpose_list_of_lists(separated_obs) | |
return result | |
def from_buffer_next(batch: AgentBuffer, num_obs: int) -> List[np.array]: | |
""" | |
Creates the list of observations from an AgentBuffer | |
""" | |
separated_obs: List[np.array] = [] | |
for i in range(num_obs): | |
separated_obs.append( | |
batch[GroupObsUtil.get_name_at_next(i)].padded_to_batch( | |
pad_value=np.nan | |
) | |
) | |
# separated_obs contains a List(num_obs) of Lists(num_agents), we want to flip | |
# that and get a List(num_agents) of Lists(num_obs) | |
result = GroupObsUtil._transpose_list_of_lists(separated_obs) | |
return result | |
class Trajectory(NamedTuple): | |
steps: List[AgentExperience] | |
next_obs: List[ | |
np.ndarray | |
] # Observation following the trajectory, for bootstrapping | |
next_group_obs: List[List[np.ndarray]] | |
agent_id: str | |
behavior_id: str | |
def to_agentbuffer(self) -> AgentBuffer: | |
""" | |
Converts a Trajectory to an AgentBuffer | |
:param trajectory: A Trajectory | |
:returns: AgentBuffer. Note that the length of the AgentBuffer will be one | |
less than the trajectory, as the next observation need to be populated from the last | |
step of the trajectory. | |
""" | |
agent_buffer_trajectory = AgentBuffer() | |
obs = self.steps[0].obs | |
for step, exp in enumerate(self.steps): | |
is_last_step = step == len(self.steps) - 1 | |
if not is_last_step: | |
next_obs = self.steps[step + 1].obs | |
else: | |
next_obs = self.next_obs | |
num_obs = len(obs) | |
for i in range(num_obs): | |
agent_buffer_trajectory[ObsUtil.get_name_at(i)].append(obs[i]) | |
agent_buffer_trajectory[ObsUtil.get_name_at_next(i)].append(next_obs[i]) | |
# Take care of teammate obs and actions | |
teammate_continuous_actions, teammate_discrete_actions, teammate_rewards = ( | |
[], | |
[], | |
[], | |
) | |
for group_status in exp.group_status: | |
teammate_rewards.append(group_status.reward) | |
teammate_continuous_actions.append(group_status.action.continuous) | |
teammate_discrete_actions.append(group_status.action.discrete) | |
# Team actions | |
agent_buffer_trajectory[BufferKey.GROUP_CONTINUOUS_ACTION].append( | |
teammate_continuous_actions | |
) | |
agent_buffer_trajectory[BufferKey.GROUP_DISCRETE_ACTION].append( | |
teammate_discrete_actions | |
) | |
agent_buffer_trajectory[BufferKey.GROUPMATE_REWARDS].append( | |
teammate_rewards | |
) | |
agent_buffer_trajectory[BufferKey.GROUP_REWARD].append(exp.group_reward) | |
# Next actions | |
teammate_cont_next_actions = [] | |
teammate_disc_next_actions = [] | |
if not is_last_step: | |
next_exp = self.steps[step + 1] | |
for group_status in next_exp.group_status: | |
teammate_cont_next_actions.append(group_status.action.continuous) | |
teammate_disc_next_actions.append(group_status.action.discrete) | |
else: | |
for group_status in exp.group_status: | |
teammate_cont_next_actions.append(group_status.action.continuous) | |
teammate_disc_next_actions.append(group_status.action.discrete) | |
agent_buffer_trajectory[BufferKey.GROUP_NEXT_CONT_ACTION].append( | |
teammate_cont_next_actions | |
) | |
agent_buffer_trajectory[BufferKey.GROUP_NEXT_DISC_ACTION].append( | |
teammate_disc_next_actions | |
) | |
for i in range(num_obs): | |
ith_group_obs = [] | |
for _group_status in exp.group_status: | |
# Assume teammates have same obs space | |
ith_group_obs.append(_group_status.obs[i]) | |
agent_buffer_trajectory[GroupObsUtil.get_name_at(i)].append( | |
ith_group_obs | |
) | |
ith_group_obs_next = [] | |
if is_last_step: | |
for _obs in self.next_group_obs: | |
ith_group_obs_next.append(_obs[i]) | |
else: | |
next_group_status = self.steps[step + 1].group_status | |
for _group_status in next_group_status: | |
# Assume teammates have same obs space | |
ith_group_obs_next.append(_group_status.obs[i]) | |
agent_buffer_trajectory[GroupObsUtil.get_name_at_next(i)].append( | |
ith_group_obs_next | |
) | |
if exp.memory is not None: | |
agent_buffer_trajectory[BufferKey.MEMORY].append(exp.memory) | |
agent_buffer_trajectory[BufferKey.MASKS].append(1.0) | |
agent_buffer_trajectory[BufferKey.DONE].append(exp.done) | |
agent_buffer_trajectory[BufferKey.GROUP_DONES].append( | |
[_status.done for _status in exp.group_status] | |
) | |
# Adds the log prob and action of continuous/discrete separately | |
agent_buffer_trajectory[BufferKey.CONTINUOUS_ACTION].append( | |
exp.action.continuous | |
) | |
agent_buffer_trajectory[BufferKey.DISCRETE_ACTION].append( | |
exp.action.discrete | |
) | |
if not is_last_step: | |
next_action = self.steps[step + 1].action | |
cont_next_actions = next_action.continuous | |
disc_next_actions = next_action.discrete | |
else: | |
cont_next_actions = np.zeros_like(exp.action.continuous) | |
disc_next_actions = np.zeros_like(exp.action.discrete) | |
agent_buffer_trajectory[BufferKey.NEXT_CONT_ACTION].append( | |
cont_next_actions | |
) | |
agent_buffer_trajectory[BufferKey.NEXT_DISC_ACTION].append( | |
disc_next_actions | |
) | |
agent_buffer_trajectory[BufferKey.CONTINUOUS_LOG_PROBS].append( | |
exp.action_probs.continuous | |
) | |
agent_buffer_trajectory[BufferKey.DISCRETE_LOG_PROBS].append( | |
exp.action_probs.discrete | |
) | |
# Store action masks if necessary. Note that 1 means active, while | |
# in AgentExperience False means active. | |
if exp.action_mask is not None: | |
mask = 1 - np.concatenate(exp.action_mask) | |
agent_buffer_trajectory[BufferKey.ACTION_MASK].append( | |
mask, padding_value=1 | |
) | |
else: | |
# This should never be needed unless the environment somehow doesn't supply the | |
# action mask in a discrete space. | |
action_shape = exp.action.discrete.shape | |
agent_buffer_trajectory[BufferKey.ACTION_MASK].append( | |
np.ones(action_shape, dtype=np.float32), padding_value=1 | |
) | |
agent_buffer_trajectory[BufferKey.PREV_ACTION].append(exp.prev_action) | |
agent_buffer_trajectory[BufferKey.ENVIRONMENT_REWARDS].append(exp.reward) | |
# Store the next visual obs as the current | |
obs = next_obs | |
return agent_buffer_trajectory | |
def done_reached(self) -> bool: | |
""" | |
Returns true if trajectory is terminated with a Done. | |
""" | |
return self.steps[-1].done | |
def all_group_dones_reached(self) -> bool: | |
""" | |
Returns true if all other agents in this trajectory are done at the end of the trajectory. | |
Combine with done_reached to check if the whole team is done. | |
""" | |
return all(_status.done for _status in self.steps[-1].group_status) | |
def interrupted(self) -> bool: | |
""" | |
Returns true if trajectory was terminated because max steps was reached. | |
""" | |
return self.steps[-1].interrupted | |