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from typing import Callable, Optional, List
from collections import namedtuple
import numpy as np
from easydict import EasyDict
from ding.utils import import_module, PLAYER_REGISTRY
from .algorithm import pfsp
class Player:
"""
Overview:
Base player class, player is the basic member of a league
Interfaces:
__init__
Property:
race, payoff, checkpoint_path, player_id, total_agent_step
"""
_name = "BasePlayer" # override this variable for sub-class player
def __init__(
self,
cfg: EasyDict,
category: str,
init_payoff: 'BattleSharedPayoff', # noqa
checkpoint_path: str,
player_id: str,
total_agent_step: int,
rating: 'PlayerRating', # noqa
) -> None:
"""
Overview:
Initialize base player metadata
Arguments:
- cfg (:obj:`EasyDict`): Player config dict.
- category (:obj:`str`): Player category, depending on the game, \
e.g. StarCraft has 3 races ['terran', 'protoss', 'zerg'].
- init_payoff (:obj:`Union[BattleSharedPayoff, SoloSharedPayoff]`): Payoff shared by all players.
- checkpoint_path (:obj:`str`): The path to load player checkpoint.
- player_id (:obj:`str`): Player id in string format.
- total_agent_step (:obj:`int`): For active player, it should be 0; \
For historical player, it should be parent player's ``_total_agent_step`` when ``snapshot``.
- rating (:obj:`PlayerRating`): player rating information in total league
"""
self._cfg = cfg
self._category = category
self._payoff = init_payoff
self._checkpoint_path = checkpoint_path
assert isinstance(player_id, str)
self._player_id = player_id
assert isinstance(total_agent_step, int), (total_agent_step, type(total_agent_step))
self._total_agent_step = total_agent_step
self._rating = rating
@property
def category(self) -> str:
return self._category
@property
def payoff(self) -> 'BattleSharedPayoff': # noqa
return self._payoff
@property
def checkpoint_path(self) -> str:
return self._checkpoint_path
@property
def player_id(self) -> str:
return self._player_id
@property
def total_agent_step(self) -> int:
return self._total_agent_step
@total_agent_step.setter
def total_agent_step(self, step: int) -> None:
self._total_agent_step = step
@property
def rating(self) -> 'PlayerRating': # noqa
return self._rating
@rating.setter
def rating(self, _rating: 'PlayerRating') -> None: # noqa
self._rating = _rating
@PLAYER_REGISTRY.register('historical_player')
class HistoricalPlayer(Player):
"""
Overview:
Historical player which is snapshotted from an active player, and is fixed with the checkpoint.
Have a unique attribute ``parent_id``.
Property:
race, payoff, checkpoint_path, player_id, total_agent_step, parent_id
"""
_name = "HistoricalPlayer"
def __init__(self, *args, parent_id: str) -> None:
"""
Overview:
Initialize ``_parent_id`` additionally
Arguments:
- parent_id (:obj:`str`): id of historical player's parent, should be an active player
"""
super().__init__(*args)
self._parent_id = parent_id
@property
def parent_id(self) -> str:
return self._parent_id
class ActivePlayer(Player):
"""
Overview:
Active player can be updated, or snapshotted to a historical player in the league training.
Interface:
__init__, is_trained_enough, snapshot, mutate, get_job
Property:
race, payoff, checkpoint_path, player_id, total_agent_step
"""
_name = "ActivePlayer"
BRANCH = namedtuple("BRANCH", ['name', 'prob'])
def __init__(self, *args, **kwargs) -> None:
"""
Overview:
Initialize player metadata, depending on the game
Note:
- one_phase_step (:obj:`int`): An active player will be considered trained enough for snapshot \
after two phase steps.
- last_enough_step (:obj:`int`): Player's last step number that satisfies ``_is_trained_enough``.
- strong_win_rate (:obj:`float`): If win rates between this player and all the opponents are greater than
this value, this player can be regarded as strong enough to these opponents. \
If also already trained for one phase step, this player can be regarded as trained enough for snapshot.
- branch_probs (:obj:`namedtuple`): A namedtuple of probabilities of selecting different opponent branch.
"""
super().__init__(*args)
self._one_phase_step = int(float(self._cfg.one_phase_step)) # ``one_phase_step`` is like 1e9
self._last_enough_step = 0
self._strong_win_rate = self._cfg.strong_win_rate
assert isinstance(self._cfg.branch_probs, dict)
self._branch_probs = [self.BRANCH(k, v) for k, v in self._cfg.branch_probs.items()]
# self._eval_opponent_difficulty = ["WEAK", "MEDIUM", "STRONG"]
self._eval_opponent_difficulty = ["RULE_BASED"]
self._eval_opponent_index = 0
def is_trained_enough(self, select_fn: Optional[Callable] = None) -> bool:
"""
Overview:
Judge whether this player is trained enough for further operations(e.g. snapshot, mutate...)
according to past step count and overall win rates against opponents.
If yes, set ``self._last_agent_step`` to ``self._total_agent_step`` and return True; otherwise return False.
Arguments:
- select_fn (:obj:`function`): The function to select opponent players.
Returns:
- flag (:obj:`bool`): Whether this player is trained enough
"""
if select_fn is None:
select_fn = lambda x: isinstance(x, HistoricalPlayer) # noqa
step_passed = self._total_agent_step - self._last_enough_step
if step_passed < self._one_phase_step:
return False
elif step_passed >= 2 * self._one_phase_step:
# ``step_passed`` is 2 times of ``self._one_phase_step``, regarded as trained enough
self._last_enough_step = self._total_agent_step
return True
else:
# Get payoff against specific opponents (Different players have different type of opponent players)
# If min win rate is larger than ``self._strong_win_rate``, then is judged trained enough
selected_players = self._get_players(select_fn)
if len(selected_players) == 0: # No such player, therefore no past game
return False
win_rates = self._payoff[self, selected_players]
if win_rates.min() > self._strong_win_rate:
self._last_enough_step = self._total_agent_step
return True
else:
return False
def snapshot(self, metric_env: 'LeagueMetricEnv') -> HistoricalPlayer: # noqa
"""
Overview:
Generate a snapshot historical player from the current player, called in league's ``_snapshot``.
Argument:
- metric_env (:obj:`LeagueMetricEnv`): player rating environment, one league one env
Returns:
- snapshot_player (:obj:`HistoricalPlayer`): new instantiated historical player
.. note::
This method only generates a historical player object, but without saving the checkpoint, which should be
done by league.
"""
path = self.checkpoint_path.split('.pth')[0] + '_{}'.format(self._total_agent_step) + '.pth'
return HistoricalPlayer(
self._cfg,
self.category,
self.payoff,
path,
self.player_id + '_{}_historical'.format(int(self._total_agent_step)),
self._total_agent_step,
metric_env.create_rating(mu=self.rating.mu),
parent_id=self.player_id
)
def mutate(self, info: dict) -> Optional[str]:
"""
Overview:
Mutate the current player, called in league's ``_mutate_player``.
Arguments:
- info (:obj:`dict`): related information for the mutation
Returns:
- mutation_result (:obj:`str`): if the player does the mutation operation then returns the
corresponding model path, otherwise returns None
"""
pass
def get_job(self, eval_flag: bool = False) -> dict:
"""
Overview:
Get a dict containing some info about the job to be launched, e.g. the selected opponent.
Arguments:
- eval_flag (:obj:`bool`): Whether to select an opponent for evaluator task.
Returns:
- ret (:obj:`dict`): The returned dict. Should contain key ['opponent'].
"""
if eval_flag:
# eval opponent is a str.
opponent = self._eval_opponent_difficulty[self._eval_opponent_index]
else:
# collect opponent is a Player.
opponent = self._get_collect_opponent()
return {
'opponent': opponent,
}
def _get_collect_opponent(self) -> Player:
"""
Overview:
Select an opponent according to the player's ``branch_probs``.
Returns:
- opponent (:obj:`Player`): Selected opponent.
"""
p = np.random.uniform()
L = len(self._branch_probs)
cum_p = [0.] + [sum([j.prob for j in self._branch_probs[:i + 1]]) for i in range(L)]
idx = [cum_p[i] <= p < cum_p[i + 1] for i in range(L)].index(True)
branch_name = '_{}_branch'.format(self._branch_probs[idx].name)
opponent = getattr(self, branch_name)()
return opponent
def _get_players(self, select_fn: Callable) -> List[Player]:
"""
Overview:
Get a list of players in the league (shared_payoff), selected by ``select_fn`` .
Arguments:
- select_fn (:obj:`function`): players in the returned list must satisfy this function
Returns:
- players (:obj:`list`): a list of players that satisfies ``select_fn``
"""
return [player for player in self._payoff.players if select_fn(player)]
def _get_opponent(self, players: list, p: Optional[np.ndarray] = None) -> Player:
"""
Overview:
Get one opponent player from list ``players`` according to probability ``p``.
Arguments:
- players (:obj:`list`): a list of players that can select opponent from
- p (:obj:`np.ndarray`): the selection probability of each player, should have the same size as \
``players``. If you don't need it and set None, it would select uniformly by default.
Returns:
- opponent_player (:obj:`Player`): a random chosen opponent player according to probability
"""
idx = np.random.choice(len(players), p=p)
return players[idx]
def increment_eval_difficulty(self) -> bool:
"""
Overview:
When evaluating, active player will choose a specific builtin opponent difficulty.
This method is used to increment the difficulty.
It is usually called after the easier builtin bot is already been beaten by this player.
Returns:
- increment_or_not (:obj:`bool`): True means difficulty is incremented; \
False means difficulty is already the hardest.
"""
if self._eval_opponent_index < len(self._eval_opponent_difficulty) - 1:
self._eval_opponent_index += 1
return True
else:
return False
@property
def checkpoint_path(self) -> str:
return self._checkpoint_path
@checkpoint_path.setter
def checkpoint_path(self, path: str) -> None:
self._checkpoint_path = path
@PLAYER_REGISTRY.register('naive_sp_player')
class NaiveSpPlayer(ActivePlayer):
def _pfsp_branch(self) -> HistoricalPlayer:
"""
Overview:
Select prioritized fictitious self-play opponent, should be a historical player.
Returns:
- player (:obj:`HistoricalPlayer`): The selected historical player.
"""
historical = self._get_players(lambda p: isinstance(p, HistoricalPlayer))
win_rates = self._payoff[self, historical]
# Normal self-play if no historical players
if win_rates.shape == (0, ):
return self
p = pfsp(win_rates, weighting='squared')
return self._get_opponent(historical, p)
def _sp_branch(self) -> ActivePlayer:
"""
Overview:
Select normal self-play opponent
"""
return self
def create_player(cfg: EasyDict, player_type: str, *args, **kwargs) -> Player:
"""
Overview:
Given the key (player_type), create a new player instance if in player_mapping's values,
or raise an KeyError. In other words, a derived player must first register then call ``create_player``
to get the instance object.
Arguments:
- cfg (:obj:`EasyDict`): player config, necessary keys: [import_names]
- player_type (:obj:`str`): the type of player to be created
Returns:
- player (:obj:`Player`): the created new player, should be an instance of one of \
player_mapping's values
"""
import_module(cfg.get('import_names', []))
return PLAYER_REGISTRY.build(player_type, *args, **kwargs)
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