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import os
from collections import defaultdict
from copy import deepcopy
import numpy as np
import pytest
from easydict import EasyDict
from ding.league.player import Player
from ding.league.shared_payoff import BattleRecordDict, create_payoff
from ding.league.metric import LeagueMetricEnv
env = LeagueMetricEnv()
@pytest.mark.unittest
class TestBattleRecordDict:
def test_init(self):
data1 = defaultdict(BattleRecordDict)
data1['test_player_0-test_player_1'] *= 1
assert data1['test_player_0-test_player_1']['wins'] == 0
assert data1['test_player_0-test_player_1']['draws'] == 0
assert data1['test_player_0-test_player_1']['losses'] == 0
assert data1['test_player_0-test_player_1']['games'] == 0
with pytest.raises(KeyError):
tmp = data1['test_player_0-test_player_1']['xxx']
@pytest.fixture(scope='function')
def setup_battle_shared_payoff():
cfg = EasyDict({'type': 'battle', 'decay': 0.99})
return create_payoff(cfg)
global sp_player_count
sp_player_count = 0
def get_shared_payoff_player(payoff):
global sp_player_count
player = Player(
cfg=EasyDict(),
category='zerg',
init_payoff=payoff,
checkpoint_path='sp_ckpt_{}.pth'.format(sp_player_count),
player_id='sp_player_{}'.format(sp_player_count),
total_agent_step=0,
rating=env.create_rating(),
)
sp_player_count += 1
return player
def _win_loss_reverse(result_: str, reverse_: bool) -> str:
if result_ == 'draws' or not reverse_:
return result_
reverse_dict = {'wins': 'losses', 'losses': 'wins'}
return reverse_dict[result_]
@pytest.mark.unittest
class TestBattleSharedPayoff:
def test_update(self, setup_battle_shared_payoff, random_job_result, get_job_result_categories):
N = 10
games_per_player = 4
player_list = [get_shared_payoff_player(setup_battle_shared_payoff) for _ in range(N)]
for p in player_list:
setup_battle_shared_payoff.add_player(p)
# test update exception
job_info = {
'player_id': [player_list[0].player_id, player_list[1].player_id],
'episode_num': 1,
'env_num': 1,
'result': [["error"]]
}
assert not setup_battle_shared_payoff.update(job_info)
for home in player_list:
for away in player_list:
if home == away:
continue # ignore self-play case
for i in range(games_per_player):
episode_num = 2
env_num = 4
job_result = [[random_job_result() for _ in range(env_num)] for _ in range(episode_num)]
job_info = {
'player_id': [home.player_id, away.player_id],
'episode_num': episode_num,
'env_num': env_num,
'result': job_result
}
key, reverse = setup_battle_shared_payoff.get_key(home.player_id, away.player_id)
old = deepcopy(setup_battle_shared_payoff._data[key])
assert setup_battle_shared_payoff.update(job_info)
decay = setup_battle_shared_payoff._decay
for j in job_result:
for i in j:
for k in get_job_result_categories:
old[k] *= decay
result = _win_loss_reverse(i, reverse)
old[result] += 1
for t in get_job_result_categories:
assert old[t] == setup_battle_shared_payoff._data[key][t], t
# test shared payoff
for p in player_list:
assert id(p.payoff) == id(setup_battle_shared_payoff)
def test_getitem(self, setup_battle_shared_payoff, random_job_result):
N = 10
games_per_player = 4
player_list = [get_shared_payoff_player(setup_battle_shared_payoff) for _ in range(N)]
for p in player_list:
setup_battle_shared_payoff.add_player(p)
# test key not in setup_battle_shared_payoff._data
home = player_list[0]
away = player_list[0]
key, reverse = setup_battle_shared_payoff.get_key(home.player_id, away.player_id)
assert key not in setup_battle_shared_payoff._data.keys()
win_rate = setup_battle_shared_payoff[home, away]
assert key in setup_battle_shared_payoff._data.keys() # set key in ``_win_rate``
assert len(win_rate.shape) == 1
assert win_rate[0] == pytest.approx(0.5) # no enough game results, return 0.5 by default
# test players list
for i in range(314):
home = np.random.choice(setup_battle_shared_payoff.players)
away = np.random.choice(setup_battle_shared_payoff.players)
env_num = 1
episode_num = 1
job_result = [[random_job_result() for _ in range(env_num)] for _ in range(episode_num)]
job_info = {
'player_id': [home.player_id, away.player_id],
'episode_num': episode_num,
'env_num': env_num,
'result': job_result
}
assert setup_battle_shared_payoff.update(job_info)
for i in range(314):
home_num = np.random.randint(1, N + 1)
home = np.random.choice(setup_battle_shared_payoff.players, home_num).tolist()
away_num = np.random.randint(1, N + 1)
away = np.random.choice(setup_battle_shared_payoff.players, away_num).tolist()
win_rates = setup_battle_shared_payoff[home, away]
assert isinstance(win_rates, np.ndarray)
if home_num == 1 or away_num == 1:
assert len(win_rates.shape) == 1
else:
assert len(win_rates.shape) == 2
assert win_rates.shape == (home_num, away_num)
assert win_rates.max() <= 1.
assert win_rates.min() >= 0.
# test shared payoff
for p in player_list:
assert id(p.payoff) == id(setup_battle_shared_payoff)
if __name__ == '__main__':
pytest.main(["-sv", os.path.basename(__file__)])