def test_updates_properties(storage_mode: str) -> None: """Check for any distributed deadlock following a property read.""" with StorageSupplier(storage_mode) as storage: if dist.get_rank() == 0: # type: ignore study = optuna.create_study(storage=storage) trial = TorchDistributedTrial(study.ask()) else: trial = TorchDistributedTrial(None) trial.suggest_float("f", 0, 1) trial.suggest_int("i", 0, 1) trial.suggest_categorical("c", ("a", "b", "c")) property_names = [ p for p in dir(TorchDistributedTrial) if isinstance(getattr(TorchDistributedTrial, p), property) ] # Rank 0 can read properties without deadlock. if dist.get_rank() == 0: # type: ignore [getattr(trial, p) for p in property_names] dist.barrier() # type: ignore # Same with rank 1. if dist.get_rank() == 1: # type: ignore [getattr(trial, p) for p in property_names] dist.barrier() # type: ignore
def test_suggest_float(storage_mode: str) -> None: with StorageSupplier(storage_mode) as storage: if dist.get_rank() == 0: study = optuna.create_study(storage=storage) trial = TorchDistributedTrial(study.ask()) else: trial = TorchDistributedTrial(None) x1 = trial.suggest_float("x", 0, 1) assert 0 <= x1 <= 1 x2 = trial.suggest_float("x", 0, 1) assert x1 == x2
def test_params(storage_mode: str) -> None: with StorageSupplier(storage_mode) as storage: if dist.get_rank() == 0: study = optuna.create_study(storage=storage) trial = TorchDistributedTrial(study.ask()) else: trial = TorchDistributedTrial(None) trial.suggest_float("f", 0, 1) trial.suggest_int("i", 0, 1) trial.suggest_categorical("c", ("a", "b", "c")) params = trial.params assert 0 <= params["f"] <= 1 assert 0 <= params["i"] <= 1 assert params["c"] in {"a", "b", "c"}
def test_distributions(storage_mode: str) -> None: with StorageSupplier(storage_mode) as storage: if dist.get_rank() == 0: study = optuna.create_study(storage=storage) trial = TorchDistributedTrial(study.ask()) else: trial = TorchDistributedTrial(None) trial.suggest_float("u", 0, 1) trial.suggest_float("lu", 1e-7, 1, log=True) trial.suggest_float("du", 0, 1, step=0.5) trial.suggest_int("i", 0, 1) trial.suggest_int("il", 1, 128, log=True) trial.suggest_categorical("c", ("a", "b", "c")) distributions = trial.distributions assert distributions["u"] == optuna.distributions.UniformDistribution( 0, 1) assert distributions[ "lu"] == optuna.distributions.LogUniformDistribution(1e-7, 1) assert distributions[ "du"] == optuna.distributions.DiscreteUniformDistribution( 0, 1, 0.5) assert distributions[ "i"] == optuna.distributions.IntUniformDistribution(0, 1) assert distributions[ "il"] == optuna.distributions.IntLogUniformDistribution(1, 128) assert distributions[ "c"] == optuna.distributions.CategoricalDistribution( ("a", "b", "c"))