def test_fit_pSMAC(self):
output = os.path.join(self.test_dir, '..', '.tmp_estimator_fit_pSMAC')
self._setUp(output)
X_train, Y_train, X_test, Y_test = putil.get_dataset('iris')
automl = AutoSklearnClassifier(time_left_for_this_task=15,
per_run_time_limit=15,
output_folder=output,
tmp_folder=output,
shared_mode=True,
seed=1,
initial_configurations_via_metalearning=0,
ensemble_size=0)
automl.fit(X_train, Y_train)
# Create a 'dummy model' for the first run, which has an accuracy of
# more than 99%; it should be in the final ensemble if the ensemble
# building of the second AutoSklearn classifier works correct
true_targets_ensemble_path = os.path.join(output, '.auto-sklearn',
'true_targets_ensemble.npy')
true_targets_ensemble = np.load(true_targets_ensemble_path)
true_targets_ensemble[-1] = 1 if true_targets_ensemble[-1] != 1 else 0
probas = np.zeros((len(true_targets_ensemble), 3), dtype=float)
for i, value in enumerate(true_targets_ensemble):
probas[i, value] = 1.0
dummy_predictions_path = os.path.join(output, '.auto-sklearn',
'predictions_ensemble',
'predictions_ensemble_1_00030.npy')
with open(dummy_predictions_path, 'wb') as fh:
np.save(fh, probas)
probas_test = np.zeros((len(Y_test), 3), dtype=float)
for i, value in enumerate(Y_test):
probas_test[i, value] = 1.0
dummy = ArrayReturningDummyPredictor(probas_test)
backend = Backend(output, output)
backend.save_model(dummy, 30, 1)
automl = AutoSklearnClassifier(time_left_for_this_task=15,
per_run_time_limit=15,
output_folder=output,
tmp_folder=output,
shared_mode=True,
seed=2,
initial_configurations_via_metalearning=0,
ensemble_size=0)
automl.fit(X_train, Y_train)
automl.run_ensemble_builder(0, 1, 50).wait()
score = automl.score(X_test, Y_test)
self.assertEqual(len(os.listdir(os.path.join(output, '.auto-sklearn',
'ensemble_indices'))), 1)
self.assertGreaterEqual(score, 0.90)
self.assertEqual(automl._task, MULTICLASS_CLASSIFICATION)
del automl
self._tearDown(output)
def test_fit_pSMAC(self):
output = os.path.join(self.test_dir, '..', '.tmp_estimator_fit_pSMAC')
self._setUp(output)
X_train, Y_train, X_test, Y_test = putil.get_dataset('iris')
automl = AutoSklearnClassifier(time_left_for_this_task=15,
per_run_time_limit=15,
output_folder=output,
tmp_folder=output,
shared_mode=True,
seed=1,
initial_configurations_via_metalearning=0,
ensemble_size=0)
automl.fit(X_train, Y_train)
# Create a 'dummy model' for the first run, which has an accuracy of
# more than 99%; it should be in the final ensemble if the ensemble
# building of the second AutoSklearn classifier works correct
true_targets_ensemble_path = os.path.join(output, '.auto-sklearn',
'true_targets_ensemble.npy')
true_targets_ensemble = np.load(true_targets_ensemble_path)
true_targets_ensemble[-1] = 1 if true_targets_ensemble[-1] != 1 else 0
probas = np.zeros((len(true_targets_ensemble), 3), dtype=float)
for i, value in enumerate(true_targets_ensemble):
probas[i, value] = 1.0
dummy_predictions_path = os.path.join(output, '.auto-sklearn',
'predictions_ensemble',
'predictions_ensemble_1_00030.npy')
with open(dummy_predictions_path, 'wb') as fh:
np.save(fh, probas)
probas_test = np.zeros((len(Y_test), 3), dtype=float)
for i, value in enumerate(Y_test):
probas_test[i, value] = 1.0
dummy = ArrayReturningDummyPredictor(probas_test)
backend = Backend(output, output)
backend.save_model(dummy, 30, 1)
automl = AutoSklearnClassifier(time_left_for_this_task=15,
per_run_time_limit=15,
output_folder=output,
tmp_folder=output,
shared_mode=True,
seed=2,
initial_configurations_via_metalearning=0,
ensemble_size=0)
automl.fit(X_train, Y_train)
automl.run_ensemble_builder(0, 1, 50).wait()
score = automl.score(X_test, Y_test)
self.assertEqual(len(os.listdir(os.path.join(output, '.auto-sklearn',
'ensembles'))), 1)
self.assertGreaterEqual(score, 0.90)
self.assertEqual(automl._task, MULTICLASS_CLASSIFICATION)
del automl
self._tearDown(output)
def test_classification_pandas_support(self):
X, y = sklearn.datasets.fetch_openml(
data_id=2, # cat/num dataset
return_X_y=True,
as_frame=True,
)
# Drop NAN!!
X = X.dropna('columns')
# This test only make sense if input is dataframe
self.assertTrue(isinstance(X, pd.DataFrame))
self.assertTrue(isinstance(y, pd.Series))
automl = AutoSklearnClassifier(
time_left_for_this_task=30,
per_run_time_limit=5,
exclude_estimators=['libsvm_svc'],
seed=5,
)
automl.fit(X, y)
# Make sure that at least better than random.
# We use same X_train==X_test to test code quality
self.assertTrue(automl.score(X, y) > 0.555)
automl.refit(X, y)
# Make sure that at least better than random.
# accuracy in sklearn needs valid data
# It should be 0.555 as the dataset is unbalanced.
y = automl._automl[0].InputValidator.encode_target(y)
prediction = automl._automl[0].InputValidator.encode_target(automl.predict(X))
self.assertTrue(accuracy(y, prediction) > 0.555)
def test_fit(self):
output = os.path.join(self.test_dir, '..', '.tmp_estimator_fit')
self._setUp(output)
X_train, Y_train, X_test, Y_test = putil.get_dataset('iris')
automl = AutoSklearnClassifier(time_left_for_this_task=15,
per_run_time_limit=5,
tmp_folder=output,
output_folder=output)
automl.fit(X_train, Y_train)
score = automl.score(X_test, Y_test)
self.assertGreaterEqual(score, 0.8)
self.assertEqual(automl._automl._automl._task, MULTICLASS_CLASSIFICATION)
del automl
self._tearDown(output)
def test_fit(self):
output = os.path.join(self.test_dir, '..', '.tmp_estimator_fit')
self._setUp(output)
X_train, Y_train, X_test, Y_test = putil.get_dataset('iris')
automl = AutoSklearnClassifier(time_left_for_this_task=15,
per_run_time_limit=5,
tmp_folder=output,
output_folder=output)
automl.fit(X_train, Y_train)
score = automl.score(X_test, Y_test)
print(automl.show_models())
self.assertGreaterEqual(score, 0.8)
self.assertEqual(automl._automl._automl._task, MULTICLASS_CLASSIFICATION)
del automl
self._tearDown(output)
def test_classification_pandas_support(tmp_dir, output_dir, dask_client):
X, y = sklearn.datasets.fetch_openml(
data_id=2, # cat/num dataset
return_X_y=True,
as_frame=True,
)
# Drop NAN!!
X = X.dropna('columns')
# This test only make sense if input is dataframe
assert isinstance(X, pd.DataFrame)
assert isinstance(y, pd.Series)
automl = AutoSklearnClassifier(
time_left_for_this_task=30,
per_run_time_limit=5,
exclude_estimators=['libsvm_svc'],
dask_client=dask_client,
seed=5,
tmp_folder=tmp_dir,
output_folder=output_dir,
)
automl.fit(X, y)
# Make sure that at least better than random.
# We use same X_train==X_test to test code quality
assert automl.score(X, y) > 0.555, print_debug_information(automl)
automl.refit(X, y)
# Make sure that at least better than random.
# accuracy in sklearn needs valid data
# It should be 0.555 as the dataset is unbalanced.
prediction = automl.predict(X)
assert accuracy(y, prediction) > 0.555
assert count_succeses(automl.cv_results_) > 0
assert includes_train_scores(automl.performance_over_time_.columns) is True
assert performance_over_time_is_plausible(
automl.performance_over_time_) is True
def test_classification_pandas_support(tmp_dir, output_dir, dask_client):
X, y = sklearn.datasets.fetch_openml(
data_id=2, # cat/num dataset
return_X_y=True,
as_frame=True,
)
# Drop NAN!!
X = X.dropna('columns')
# This test only make sense if input is dataframe
assert isinstance(X, pd.DataFrame)
assert isinstance(y, pd.Series)
automl = AutoSklearnClassifier(
time_left_for_this_task=30,
per_run_time_limit=5,
exclude_estimators=['libsvm_svc'],
dask_client=dask_client,
seed=5,
tmp_folder=tmp_dir,
output_folder=output_dir,
)
automl.fit(X, y)
log_file_path = glob.glob(os.path.join(tmp_dir, 'AutoML*.log'))[0]
# Make sure that at least better than random.
# We use same X_train==X_test to test code quality
assert automl.score(X, y) > 0.555, extract_msg_from_log(log_file_path)
automl.refit(X, y)
# Make sure that at least better than random.
# accuracy in sklearn needs valid data
# It should be 0.555 as the dataset is unbalanced.
y = automl.automl_.InputValidator.encode_target(y)
prediction = automl.automl_.InputValidator.encode_target(automl.predict(X))
assert accuracy(y, prediction) > 0.555
assert count_succeses(automl.cv_results_) > 0
def test_fit(self):
if self.travis:
self.skipTest('This test does currently not run on travis-ci. '
'Make sure it runs locally on your machine!')
output = os.path.join(self.test_dir, '..', '.tmp_estimator_fit')
self._setUp(output)
X_train, Y_train, X_test, Y_test = putil.get_dataset('iris')
automl = AutoSklearnClassifier(time_left_for_this_task=15,
per_run_time_limit=15,
tmp_folder=output,
output_folder=output)
automl.fit(X_train, Y_train)
score = automl.score(X_test, Y_test)
print(automl.show_models())
self.assertGreaterEqual(score, 0.8)
self.assertEqual(automl._task, MULTICLASS_CLASSIFICATION)
del automl
self._tearDown(output)
def test_fit(self):
if self.travis:
self.skipTest('This test does currently not run on travis-ci. '
'Make sure it runs locally on your machine!')
output = os.path.join(self.test_dir, '..', '.tmp_estimator_fit')
self._setUp(output)
X_train, Y_train, X_test, Y_test = putil.get_dataset('iris')
automl = AutoSklearnClassifier(time_left_for_this_task=15,
per_run_time_limit=15,
tmp_folder=output,
output_folder=output)
automl.fit(X_train, Y_train)
score = automl.score(X_test, Y_test)
print(automl.show_models())
self.assertGreaterEqual(score, 0.8)
self.assertEqual(automl._automl._automl._task, MULTICLASS_CLASSIFICATION)
del automl
self._tearDown(output)
