Ejemplo n.º 1
0
def test_regressor_custom_cascade_layer_workflow_in_memory(y_train):

    model = CascadeForestRegressor()

    n_estimators = 4
    estimators = [DecisionTreeRegressor() for _ in range(n_estimators)]
    model.set_estimator(estimators)  # set custom base estimators

    predictor = DecisionTreeRegressor()
    model.set_predictor(predictor)

    model.fit(X_train_reg, y_train)
    y_pred_before = model.predict(X_test_reg)

    # Save and Reload
    model.save(save_dir)

    model = CascadeForestRegressor()
    model.load(save_dir)

    # Predictions after loading
    y_pred_after = model.predict(X_test_reg)

    # Make sure the same predictions before and after model serialization
    assert_array_equal(y_pred_before, y_pred_after)

    assert (model.get_estimator(0, 0, "custom") is
            model._get_layer(0).estimators_["0-0-custom"].estimator_)

    model.clean()  # clear the buffer
    shutil.rmtree(save_dir)
def test_model_workflow_partial_mode():
    """Run the workflow of deep forest with a local buffer."""

    case_kwargs = copy.deepcopy(kwargs)
    case_kwargs.update({"partial_mode": True})

    model = CascadeForestRegressor(**case_kwargs)
    model.fit(X_train, y_train)

    # Predictions before saving
    y_pred_before = model.predict(X_test).astype(np.float32)

    # Save and Reload
    model.save(save_dir)

    model = CascadeForestRegressor(**case_kwargs)
    model.load(save_dir)

    # Predictions after loading
    y_pred_after = model.predict(X_test).astype(np.float32)

    # Make sure the same predictions before and after model serialization
    assert_array_equal(y_pred_before, y_pred_after)

    model.clean()  # clear the buffer
    shutil.rmtree(save_dir)
Ejemplo n.º 3
0
def test_model_workflow_in_memory(backend):
    """Run the workflow of deep forest with in-memory mode."""

    case_kwargs = copy.deepcopy(kwargs)
    case_kwargs.update({"partial_mode": False})
    case_kwargs.update({"backend": backend})

    model = CascadeForestRegressor(**case_kwargs)
    model.fit(X_train, y_train)

    # Predictions before saving
    y_pred_before = model.predict(X_test).astype(np.float32)

    # Save and Reload
    model.save(save_dir)

    model = CascadeForestRegressor(**case_kwargs)
    model.load(save_dir)

    # Make sure the same predictions before and after model serialization
    y_pred_after = model.predict(X_test).astype(np.float32)

    assert_array_equal(y_pred_before, y_pred_after)

    shutil.rmtree(save_dir)