def test_step(self):
bench = LubyBenchmark()
bench.config.reward_range = (-10, 10)
env = bench.get_environment()
env.reset()
_, raw_reward, _, _ = env.step(1)
wrapped = RewardNoiseWrapper(env)
wrapped.reset()
_, reward, _, _ = wrapped.step(1)
self.assertTrue(reward != raw_reward)
wrapped = RewardNoiseWrapper(env,
noise_dist="normal",
dist_args=[0, 0.3])
wrapped.reset()
env.reset()
_, raw_reward, _, _ = env.step(1)
_, reward, _, _ = wrapped.step(1)
self.assertTrue(reward != raw_reward)
def dummy():
return 0
wrapped = RewardNoiseWrapper(env, noise_function=dummy)
wrapped.reset()
_, reward, _, _ = wrapped.step(1)
self.assertTrue(reward == 0 or reward == -1)
def test_step(self):
bench = LubyBenchmark()
bench.config.instance_set = {
0: [0, 0],
1: [1, 1],
2: [3, 4],
3: [5, 6]
}
env = bench.get_environment()
wrapped = PerformanceTrackingWrapper(env, 2)
state = wrapped.reset()
self.assertTrue(len(state) > 1)
state, reward, done, _ = wrapped.step(1)
self.assertTrue(len(state) > 1)
self.assertTrue(reward <= 0)
self.assertFalse(done)
while not done:
_, _, done, _ = wrapped.step(1)
self.assertTrue(len(wrapped.overall_performance) == 1)
self.assertTrue(len(wrapped.performance_intervals) == 0)
self.assertTrue(len(wrapped.current_performance) == 1)
self.assertTrue(len(wrapped.instance_performances.keys()) == 1)
done = False
while not done:
_, _, done, _ = wrapped.step(1)
done = False
while not done:
_, _, done, _ = wrapped.step(1)
self.assertTrue(len(wrapped.performance_intervals) == 1)
self.assertTrue(len(wrapped.current_performance) == 1)
wrapped.reset()
done = False
while not done:
_, _, done, _ = wrapped.step(1)
wrapped.reset()
done = False
while not done:
_, _, done, _ = wrapped.step(1)
self.assertTrue(len(wrapped.instance_performances.keys()) == 3)
wrapped.reset()
done = False
while not done:
_, _, done, _ = wrapped.step(1)
wrapped.reset()
done = False
while not done:
_, _, done, _ = wrapped.step(1)
self.assertTrue(len(wrapped.instance_performances.keys()) == 4)
def test_read_instances(self):
bench = LubyBenchmark()
bench.read_instance_set()
self.assertTrue(len(bench.config.instance_set) == 1)
self.assertTrue(len(bench.config.instance_set[0]) == 2)
self.assertTrue(bench.config.instance_set[0] == [0, 0])
bench2 = LubyBenchmark()
env = bench2.get_environment()
self.assertTrue(len(env.instance_set[0]) == 2)
self.assertTrue(env.instance_set[0] == [0, 0])
self.assertTrue(len(env.instance_set) == 1)
def test_rendering(self):
bench = LubyBenchmark()
env = bench.get_environment()
wrapped = EpisodeTimeWrapper(env, 10)
wrapped.reset()
for _ in range(30):
wrapped.step(1)
img = wrapped.render_step_time()
self.assertTrue(img.shape[-1] == 3)
img = wrapped.render_episode_time()
self.assertTrue(img.shape[-1] == 3)
def test_init(self):
bench = LubyBenchmark()
env = bench.get_environment()
with pytest.raises(Exception):
wrapped = InstanceSamplingWrapper(env)
def sample():
return [0, 0]
wrapped = InstanceSamplingWrapper(env, sampling_function=sample)
self.assertFalse(wrapped.sampling_function is None)
def test_scenarios(self):
scenarios = [
"luby_hard.json", "luby_harder.json", "luby_very_hard.json"
]
for s in scenarios:
path = os.path.join("dacbench/scenarios/luby/", s)
bench = LubyBenchmark(path)
self.assertTrue(bench.config is not None)
env = bench.get_environment()
state = env.reset()
self.assertTrue(state is not None)
state, _, _, _ = env.step(0)
self.assertTrue(state is not None)
def test_render(self, mock_plt):
bench = LubyBenchmark()
env = bench.get_environment()
env = PerformanceTrackingWrapper(env)
for _ in range(10):
done = False
env.reset()
while not done:
_, _, done, _ = env.step(1)
env.render_performance()
self.assertTrue(mock_plt.show.called)
env.render_instance_performance()
self.assertTrue(mock_plt.show.called)
def test_init(self):
bench = LubyBenchmark()
bench.config.instance_update_func = "none"
env = bench.get_environment()
with self.assertRaises(Exception):
wrapped = InstanceSamplingWrapper(env)
def sample():
return [0, 0]
wrapped = InstanceSamplingWrapper(env, sampling_function=sample)
self.assertFalse(wrapped.sampling_function is None)
def test_init(self):
bench = LubyBenchmark()
env = bench.get_environment()
wrapped = ActionFrequencyWrapper(env)
self.assertTrue(len(wrapped.overall_actions) == 0)
self.assertTrue(wrapped.action_interval is None)
wrapped.instance = [0]
self.assertTrue(wrapped.instance[0] == 0)
wrapped2 = ActionFrequencyWrapper(env, 10)
self.assertTrue(len(wrapped2.overall_actions) == 0)
self.assertTrue(wrapped2.action_interval == 10)
self.assertTrue(len(wrapped2.action_intervals) == 0)
self.assertTrue(len(wrapped2.current_actions) == 0)
def test_init(self):
bench = LubyBenchmark()
env = bench.get_environment()
wrapped = EpisodeTimeWrapper(env)
self.assertTrue(len(wrapped.overall_times) == 0)
self.assertTrue(wrapped.time_interval is None)
wrapped.instance = [0]
self.assertTrue(wrapped.instance[0] == 0)
wrapped2 = EpisodeTimeWrapper(env, 10)
self.assertTrue(len(wrapped2.overall_times) == 0)
self.assertTrue(wrapped2.time_interval == 10)
self.assertTrue(len(wrapped2.time_intervals) == 0)
self.assertTrue(len(wrapped2.current_times) == 0)
def test_init(self):
bench = LubyBenchmark()
env = bench.get_environment()
wrapped = PerformanceTrackingWrapper(env)
self.assertTrue(len(wrapped.overall_performance) == 0)
self.assertTrue(wrapped.performance_interval is None)
wrapped.instance = [0]
self.assertTrue(wrapped.instance[0] == 0)
wrapped2 = PerformanceTrackingWrapper(env, 10)
self.assertTrue(len(wrapped2.overall_performance) == 0)
self.assertTrue(wrapped2.performance_interval == 10)
self.assertTrue(len(wrapped2.performance_intervals) == 0)
self.assertTrue(len(wrapped2.current_performance) == 0)
def test_get_performance(self):
bench = LubyBenchmark()
env = bench.get_environment()
wrapped = PerformanceTrackingWrapper(env)
wrapped.reset()
done = False
while not done:
_, _, done, _ = wrapped.step(1)
wrapped2 = PerformanceTrackingWrapper(env, 2)
wrapped2.reset()
done = False
while not done:
_, _, done, _ = wrapped2.step(1)
wrapped3 = PerformanceTrackingWrapper(env,
2,
track_instance_performance=False)
wrapped3.reset()
for i in range(5):
wrapped3.step(i)
wrapped4 = PerformanceTrackingWrapper(env,
track_instance_performance=False)
wrapped4.reset()
for i in range(5):
wrapped4.step(i)
overall, instance_performance = wrapped.get_performance()
overall_perf, interval_perf, instance_perf = wrapped2.get_performance()
overall_performance_only = wrapped4.get_performance()
overall_performance, intervals = wrapped3.get_performance()
self.assertTrue(
np.array_equal(
np.round(overall_performance, decimals=2),
np.round(overall_performance_only, decimals=2),
))
self.assertTrue(
np.array_equal(np.round(overall_perf, decimals=2),
np.round(overall, decimals=2)))
self.assertTrue(len(instance_performance.keys()) == 1)
self.assertTrue(len(list(instance_performance.values())[0]) == 1)
self.assertTrue(len(instance_perf.keys()) == 1)
self.assertTrue(len(list(instance_perf.values())[0]) == 1)
self.assertTrue(len(intervals) == 1)
self.assertTrue(len(intervals[0]) == 0)
self.assertTrue(len(interval_perf) == 1)
self.assertTrue(len(interval_perf[0]) == 1)
def test_getters_and_setters(self):
bench = LubyBenchmark()
env = bench.get_environment()
wrapped = RewardNoiseWrapper(env)
self.assertTrue(wrapped.noise_function == getattr(wrapped, "noise_function"))
self.assertTrue(wrapped.env == getattr(wrapped, "env"))
print(wrapped.action_space)
print(wrapped.env.action_space)
print(getattr(wrapped.env, "action_space"))
self.assertTrue(wrapped.action_space == getattr(wrapped.env, "action_space"))
self.assertTrue(
wrapped.observation_space == getattr(wrapped.env, "observation_space")
)
self.assertTrue(wrapped.reward_range == getattr(wrapped.env, "reward_range"))
def test_reset(self):
bench = LubyBenchmark()
bench.config.instance_update_func = "none"
env = bench.get_environment()
def sample():
return [1, 1]
wrapped = InstanceSamplingWrapper(env, sampling_function=sample)
self.assertFalse(np.array_equal(wrapped.instance, sample()))
self.assertFalse(
np.array_equal(list(wrapped.instance_set.values())[0], sample()))
wrapped.reset()
self.assertTrue(np.array_equal(wrapped.instance, sample()))
def test_reset(self):
bench = LubyBenchmark()
env = bench.get_environment()
def sample():
return [0, 0]
wrapped = InstanceSamplingWrapper(env, sampling_function=sample)
self.assertFalse(np.array_equal(wrapped.instance, sample()))
self.assertFalse(np.array_equal(wrapped.instance_set, [sample()]))
self.assertTrue(wrapped.inst_id == 0)
wrapped.reset()
self.assertTrue(np.array_equal(wrapped.instance, sample()))
self.assertTrue(np.array_equal(wrapped.instance_set, [sample()]))
self.assertTrue(wrapped.inst_id == 0)
def test_step(self):
bench = LubyBenchmark()
env = bench.get_environment()
wrapped = ActionFrequencyWrapper(env, 10)
state = wrapped.reset()
self.assertTrue(len(state) > 1)
state, reward, done, _ = wrapped.step(1)
self.assertTrue(len(state) > 1)
self.assertTrue(reward <= 0)
self.assertFalse(done)
self.assertTrue(len(wrapped.overall_actions) == 1)
self.assertTrue(wrapped.overall_actions[0] == 1)
self.assertTrue(len(wrapped.current_actions) == 1)
self.assertTrue(wrapped.current_actions[0] == 1)
self.assertTrue(len(wrapped.action_intervals) == 0)
def test_fit(self):
bench = LubyBenchmark()
bench.config.instance_set_path = "../instance_sets/luby/luby_train.csv"
bench.read_instance_set()
instances = bench.config.instance_set
env = bench.get_environment()
wrapped = InstanceSamplingWrapper(env, instances=instances)
samples = []
for _ in range(100):
samples.append(wrapped.sampling_function())
mi1 = mutual_info_score(np.array(instances)[:, 0], np.array(samples)[:, 0])
mi2 = mutual_info_score(np.array(instances)[:, 1], np.array(samples)[:, 1])
self.assertTrue(mi1 > 0.99)
self.assertTrue(mi1 != 1)
self.assertTrue(mi2 > 0.99)
self.assertTrue(mi2 != 1)
def test_init(self):
bench = LubyBenchmark()
env = bench.get_environment()
wrapped = RewardNoiseWrapper(env)
self.assertFalse(wrapped.noise_function is None)
with self.assertRaises(Exception):
wrapped = RewardNoiseWrapper(env, noise_dist=None)
with self.assertRaises(Exception):
wrapped = RewardNoiseWrapper(env, noise_dist="norm")
wrapped = RewardNoiseWrapper(env, noise_dist="normal", dist_args=[0, 0.3])
self.assertFalse(wrapped.noise_function is None)
def dummy():
return 0
wrapped = RewardNoiseWrapper(env, noise_function=dummy)
self.assertFalse(wrapped.noise_function is None)
def test_box_logging(self):
temp_dir = tempfile.TemporaryDirectory()
seed = 0
episodes = 10
logger = Logger(
output_path=Path(temp_dir.name),
experiment_name="test_box_logging",
step_write_frequency=None,
episode_write_frequency=1,
)
bench = LubyBenchmark()
bench.set_seed(seed)
env = bench.get_environment()
state_logger = logger.add_module(StateTrackingWrapper)
wrapped = StateTrackingWrapper(env, logger=state_logger)
agent = StaticAgent(env, 1)
logger.set_env(env)
run_benchmark(wrapped, agent, episodes, logger)
state_logger.close()
logs = load_logs(state_logger.get_logfile())
dataframe = log2dataframe(logs, wide=True)
sate_columns = [
"state_Action t (current)",
"state_Step t (current)",
"state_Action t-1",
"state_Action t-2",
"state_Step t-1",
"state_Step t-2",
]
for state_column in sate_columns:
self.assertTrue(state_column in dataframe.columns)
self.assertTrue((~dataframe[state_column].isna()).all())
temp_dir.cleanup()
def test_step_reset(self):
bench = LubyBenchmark()
env = bench.get_environment()
wrapped = StateTrackingWrapper(env, 2)
state = wrapped.reset()
self.assertTrue(len(state) > 1)
self.assertTrue(len(wrapped.overall_states) == 1)
state, reward, done, _ = wrapped.step(1)
self.assertTrue(len(state) > 1)
self.assertTrue(reward <= 0)
self.assertFalse(done)
self.assertTrue(len(wrapped.overall_states) == 2)
self.assertTrue(len(wrapped.current_states) == 2)
self.assertTrue(len(wrapped.state_intervals) == 0)
state = wrapped.reset()
self.assertTrue(len(wrapped.overall_states) == 3)
self.assertTrue(len(wrapped.current_states) == 1)
self.assertTrue(len(wrapped.state_intervals) == 1)
def test_get_states(self):
bench = LubyBenchmark()
env = bench.get_environment()
wrapped = StateTrackingWrapper(env)
wrapped.reset()
for i in range(4):
wrapped.step(i)
wrapped2 = StateTrackingWrapper(env, 2)
wrapped2.reset()
for i in range(4):
wrapped2.step(i)
overall_states_only = wrapped.get_states()
overall_states, intervals = wrapped2.get_states()
self.assertTrue(np.array_equal(overall_states, overall_states_only))
self.assertTrue(len(overall_states_only) == 5)
self.assertTrue(len(overall_states_only[4]) == 6)
self.assertTrue(len(intervals) == 3)
self.assertTrue(len(intervals[0]) == 2)
self.assertTrue(len(intervals[1]) == 2)
self.assertTrue(len(intervals[2]) == 1)
def test_step(self):
bench = LubyBenchmark()
env = bench.get_environment()
wrapped = EpisodeTimeWrapper(env, 10)
state = wrapped.reset()
self.assertTrue(len(state) > 1)
state, reward, done, _ = wrapped.step(1)
self.assertTrue(len(state) > 1)
self.assertTrue(reward <= 0)
self.assertFalse(done)
self.assertTrue(len(wrapped.all_steps) == 1)
self.assertTrue(len(wrapped.current_step_interval) == 1)
self.assertTrue(len(wrapped.step_intervals) == 0)
for _ in range(20):
wrapped.step(1)
self.assertTrue(len(wrapped.overall_times) > 2)
self.assertTrue(len(wrapped.time_intervals) == 1)
def test_get_times(self):
bench = LubyBenchmark()
env = bench.get_environment()
wrapped = EpisodeTimeWrapper(env)
wrapped.reset()
for i in range(5):
wrapped.step(i)
wrapped2 = EpisodeTimeWrapper(env, 2)
wrapped2.reset()
for i in range(5):
wrapped2.step(i)
overall_times_only, steps_only = wrapped.get_times()
overall_times, steps, intervals, step_intervals = wrapped2.get_times()
self.assertTrue(
np.array_equal(
np.round(overall_times, decimals=2),
np.round(overall_times_only, decimals=2),
))
self.assertTrue(len(step_intervals) == 3)
self.assertTrue(len(step_intervals[0]) == 2)
self.assertTrue(len(step_intervals[1]) == 2)
self.assertTrue(len(step_intervals[2]) == 1)
def test_get_actions(self):
bench = LubyBenchmark()
env = bench.get_environment()
wrapped = ActionFrequencyWrapper(env)
wrapped.reset()
for i in range(5):
wrapped.step(i)
wrapped2 = ActionFrequencyWrapper(env, 2)
wrapped2.reset()
for i in range(5):
wrapped2.step(i)
overall_actions_only = wrapped.get_actions()
overall_actions, intervals = wrapped2.get_actions()
self.assertTrue(np.array_equal(overall_actions, overall_actions_only))
self.assertTrue(overall_actions_only == [0, 1, 2, 3, 4])
self.assertTrue(len(intervals) == 3)
self.assertTrue(len(intervals[0]) == 2)
self.assertTrue(intervals[0] == [0, 1])
self.assertTrue(len(intervals[1]) == 2)
self.assertTrue(intervals[1] == [2, 3])
self.assertTrue(len(intervals[2]) == 1)
self.assertTrue(intervals[2] == [4])
def test_logging(self):
temp_dir = tempfile.TemporaryDirectory()
episodes = 5
logger = Logger(
output_path=Path(temp_dir.name),
experiment_name="test_logging",
)
bench = LubyBenchmark()
env = bench.get_environment()
time_logger = logger.add_module(EpisodeTimeWrapper)
wrapped = EpisodeTimeWrapper(env, logger=time_logger)
agent = StaticAgent(env=env, action=1)
run_benchmark(wrapped, agent, episodes, logger)
logger.close()
logs = load_logs(time_logger.get_logfile())
dataframe = log2dataframe(logs, wide=True)
# all steps must have logged time
self.assertTrue((~dataframe.step_duration.isna()).all())
# each episode has a recored time
episodes = dataframe.groupby("episode")
last_steps_per_episode = dataframe.iloc[episodes.step.idxmax()]
self.assertTrue(
(~last_steps_per_episode.episode_duration.isna()).all())
# episode time equals the sum of the steps in episode
calculated_episode_times = episodes.step_duration.sum()
recorded_episode_times = last_steps_per_episode.episode_duration
self.assertListEqual(calculated_episode_times.tolist(),
recorded_episode_times.tolist())
temp_dir.cleanup()
# The policy we're following
policy = make_tabular_policy(Q, epsilon, environment.action_space.n)
# Print out which episode we're on, useful for debugging.
if (i_episode + 1) % 100 == 0:
if verbose:
print("\rEpisode {:>5d}/{}.".format(i_episode + 1,
num_episodes))
else:
print("\rEpisode {:>5d}/{}.".format(i_episode + 1,
num_episodes),
end="")
sys.stdout.flush()
Q, rs, exp_rew, ep_len = update(Q, environment, policy, alpha,
discount_factor)
train_stats.episode_rewards[i_episode] = rs
train_stats.expected_rewards[i_episode] = exp_rew
train_stats.episode_lengths[i_episode] = ep_len
if not verbose:
print("\rEpisode {:>5d}/{}.".format(i_episode + 1, num_episodes))
return Q, (test_stats, train_stats)
bench = LubyBenchmark()
env = bench.get_environment()
# Execute 10 episodes of tabular Q-Learning
q_func, test_train_stats = q_learning(env, 10)
print(f"Rewards: {test_train_stats[1].episode_rewards}")
print(f"Episode Lenghts: {test_train_stats[1].episode_lengths}")
def test_get_env(self):
bench = LubyBenchmark()
env = bench.get_environment()
self.assertTrue(issubclass(type(env), LubyEnv))
def test_logging_discrete(self):
temp_dir = tempfile.TemporaryDirectory()
seed = 0
logger = Logger(
output_path=Path(temp_dir.name),
experiment_name="test_discrete_logging",
step_write_frequency=None,
episode_write_frequency=1,
)
bench = LubyBenchmark()
bench.set_seed(seed)
env = bench.get_environment()
env.seed_action_space(seed)
action_logger = logger.add_module(ActionFrequencyWrapper)
wrapped = ActionFrequencyWrapper(env, logger=action_logger)
agent = RandomAgent(env)
logger.set_env(env)
run_benchmark(wrapped, agent, 10, logger)
action_logger.close()
logs = load_logs(action_logger.get_logfile())
dataframe = log2dataframe(logs, wide=True)
expected_actions = [
0,
3,
5,
4,
3,
5,
5,
5,
3,
3,
2,
1,
0,
1,
2,
0,
1,
1,
0,
1,
2,
4,
3,
0,
1,
3,
0,
3,
3,
3,
4,
4,
4,
5,
4,
0,
4,
2,
1,
3,
4,
2,
1,
3,
3,
2,
0,
5,
2,
5,
2,
1,
5,
3,
2,
5,
1,
0,
2,
3,
1,
3,
2,
3,
2,
4,
3,
4,
0,
5,
5,
1,
5,
0,
1,
5,
5,
3,
3,
2,
]
self.assertListEqual(dataframe.action.to_list(), expected_actions)
temp_dir.cleanup()
