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conftest.py
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conftest.py
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# MIT License
#
# Copyright (C) The Adversarial Robustness Toolbox (ART) Authors 2020
#
# Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated
# documentation files (the "Software"), to deal in the Software without restriction, including without limitation the
# rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit
# persons to whom the Software is furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in all copies or substantial portions of the
# Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE
# WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
# TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
import importlib
import json
import logging
import os
import shutil
import tempfile
from typing import Dict, List, TYPE_CHECKING, Union
import warnings
import numpy as np
import pytest
import requests
from art.data_generators import (
KerasDataGenerator,
MXDataGenerator,
PyTorchDataGenerator,
TensorFlowDataGenerator,
TensorFlowV2DataGenerator,
)
from art.defences.preprocessor import FeatureSqueezing, JpegCompression, SpatialSmoothing
from art.estimators.classification import KerasClassifier
from tests.utils import (
ARTTestFixtureNotImplemented,
get_attack_classifier_pt,
get_image_classifier_kr,
get_image_classifier_kr_functional,
get_image_classifier_kr_tf,
get_image_classifier_kr_tf_functional,
get_image_classifier_kr_tf_with_wildcard,
get_image_classifier_mxnet_custom_ini,
get_image_classifier_pt,
get_image_classifier_pt_functional,
get_image_classifier_tf,
get_image_classifier_hf,
get_image_gan_tf_v2,
get_image_generator_tf_v2,
get_tabular_classifier_kr,
get_tabular_classifier_pt,
get_tabular_classifier_scikit_list,
get_tabular_classifier_tf,
load_dataset,
master_seed,
)
if TYPE_CHECKING:
import torch
logger = logging.getLogger(__name__)
deep_learning_frameworks = [
"keras", "tensorflow1", "tensorflow2", "tensorflow2v1", "pytorch", "kerastf", "mxnet", "jax", "huggingface",
]
non_deep_learning_frameworks = ["scikitlearn"]
art_supported_frameworks = []
art_supported_frameworks.extend(deep_learning_frameworks)
art_supported_frameworks.extend(non_deep_learning_frameworks)
master_seed(1234)
def get_default_framework():
import tensorflow as tf
if tf.__version__[0] == "2":
default_framework = "tensorflow2"
else:
default_framework = "tensorflow1"
return default_framework
def pytest_addoption(parser):
parser.addoption(
"--framework",
action="store",
default=get_default_framework(),
help="ART tests allow you to specify which framework to use. The default framework used is `tensorflow`. "
"Other options available are {0}".format(art_supported_frameworks),
)
@pytest.fixture
def image_dl_estimator_defended(framework):
def _image_dl_estimator_defended(one_classifier=False, **kwargs):
sess = None
classifier = None
clip_values = (0, 1)
fs = FeatureSqueezing(bit_depth=2, clip_values=clip_values)
defenses = []
if kwargs.get("defenses") is None:
defenses.append(fs)
else:
if "FeatureSqueezing" in kwargs.get("defenses"):
defenses.append(fs)
if "JpegCompression" in kwargs.get("defenses"):
defenses.append(JpegCompression(clip_values=clip_values, apply_predict=True))
if "SpatialSmoothing" in kwargs.get("defenses"):
defenses.append(SpatialSmoothing())
del kwargs["defenses"]
if framework == "tensorflow2":
classifier, _ = get_image_classifier_tf(**kwargs)
if framework == "keras":
classifier = get_image_classifier_kr(**kwargs)
if framework == "kerastf":
classifier = get_image_classifier_kr_tf(**kwargs)
if framework == "pytorch":
classifier = get_image_classifier_pt(**kwargs)
for i, defense in enumerate(defenses):
if "channels_first" in defense.params:
defenses[i].channels_first = classifier.channels_first
if classifier is not None:
classifier.set_params(preprocessing_defences=defenses)
else:
raise ARTTestFixtureNotImplemented(
"no defended image estimator", image_dl_estimator_defended.__name__, framework, {"defenses": defenses}
)
return classifier, sess
return _image_dl_estimator_defended
@pytest.fixture(scope="function")
def image_dl_estimator_for_attack(framework, image_dl_estimator, image_dl_estimator_defended):
def _image_dl_estimator_for_attack(attack, defended=False, **kwargs):
if defended:
potential_classifier, _ = image_dl_estimator_defended(**kwargs)
else:
potential_classifier, _ = image_dl_estimator(**kwargs)
image_dl_estimator_for_attack
classifier_list = [potential_classifier]
classifier_tested = [
potential_classifier
for potential_classifier in classifier_list
if all(t in type(potential_classifier).__mro__ for t in attack._estimator_requirements)
]
if len(classifier_tested) == 0:
raise ARTTestFixtureNotImplemented(
"no estimator available", image_dl_estimator_for_attack.__name__, framework, {"attack": attack}
)
return classifier_tested[0]
return _image_dl_estimator_for_attack
@pytest.fixture
def estimator_for_attack(framework):
# TODO DO NOT USE THIS FIXTURE this needs to be refactored into image_dl_estimator_for_attack
def _get_attack_classifier_list(**kwargs):
if framework == "pytorch":
return get_attack_classifier_pt(**kwargs)
raise ARTTestFixtureNotImplemented("no estimator available", image_dl_estimator_for_attack.__name__, framework)
return _get_attack_classifier_list
@pytest.fixture(autouse=True)
def setup_tear_down_framework(framework):
# Ran before each test
if framework == "tensorflow1" or framework == "tensorflow2":
import tensorflow as tf
if tf.__version__[0] != "2":
tf.reset_default_graph()
if framework == "tensorflow2v1":
import tensorflow.compat.v1 as tf1
tf1.reset_default_graph()
yield True
# Ran after each test
if framework == "keras":
import keras
keras.backend.clear_session()
@pytest.fixture
def image_iterator(framework, get_default_mnist_subset, default_batch_size):
(x_train_mnist, y_train_mnist), (_, _) = get_default_mnist_subset
def _get_image_iterator():
if framework == "keras" or framework == "kerastf":
from keras.preprocessing.image import ImageDataGenerator
keras_gen = ImageDataGenerator(
width_shift_range=0.075,
height_shift_range=0.075,
rotation_range=12,
shear_range=0.075,
zoom_range=0.05,
fill_mode="constant",
cval=0,
)
return keras_gen.flow(x_train_mnist, y_train_mnist, batch_size=default_batch_size)
if framework in ["tensorflow1", "tensorflow2v1"]:
import tensorflow.compat.v1 as tf
x_tensor = tf.convert_to_tensor(x_train_mnist.reshape(10, 100, 28, 28, 1))
y_tensor = tf.convert_to_tensor(y_train_mnist.reshape(10, 100, 10))
dataset = tf.data.Dataset.from_tensor_slices((x_tensor, y_tensor))
return dataset.make_initializable_iterator()
if framework == "tensorflow2":
import tensorflow as tf
dataset = tf.data.Dataset.from_tensor_slices((x_train_mnist, y_train_mnist)).batch(default_batch_size)
return dataset
if framework in ["pytorch", "huggingface"]:
import torch
# Create tensors from data
x_train_tens = torch.from_numpy(x_train_mnist)
x_train_tens = x_train_tens.float()
y_train_tens = torch.from_numpy(y_train_mnist)
dataset = torch.utils.data.TensorDataset(x_train_tens, y_train_tens)
return torch.utils.data.DataLoader(dataset=dataset, batch_size=default_batch_size, shuffle=True)
if framework == "mxnet":
from mxnet import gluon
dataset = gluon.data.dataset.ArrayDataset(x_train_mnist, y_train_mnist)
return gluon.data.DataLoader(dataset, batch_size=5, shuffle=True)
return None
return _get_image_iterator
@pytest.fixture
def image_data_generator(framework, get_default_mnist_subset, image_iterator, default_batch_size):
def _image_data_generator(**kwargs):
(x_train_mnist, y_train_mnist), (_, _) = get_default_mnist_subset
image_it = image_iterator()
data_generator = None
if framework == "keras" or framework == "kerastf":
data_generator = KerasDataGenerator(
iterator=image_it,
size=x_train_mnist.shape[0],
batch_size=default_batch_size,
)
if framework in ["tensorflow1", "tensorflow2v1"]:
data_generator = TensorFlowDataGenerator(
sess=kwargs["sess"],
iterator=image_it,
iterator_type="initializable",
iterator_arg={},
size=x_train_mnist.shape[0],
batch_size=default_batch_size,
)
if framework == "tensorflow2":
data_generator = TensorFlowV2DataGenerator(
iterator=image_it,
size=x_train_mnist.shape[0],
batch_size=default_batch_size,
)
if framework in ["pytorch", "huggingface"]:
data_generator = PyTorchDataGenerator(
iterator=image_it, size=x_train_mnist.shape[0], batch_size=default_batch_size
)
if framework == "mxnet":
data_generator = MXDataGenerator(
iterator=image_it, size=x_train_mnist.shape[0], batch_size=default_batch_size
)
return data_generator
return _image_data_generator
@pytest.fixture
def store_expected_values(request):
"""
Stores expected values to be retrieved by the expected_values fixture
Note1: Numpy arrays MUST be converted to list before being stored as json
Note2: It's possible to store both a framework independent and framework specific value. If both are stored the
framework specific value will be used
:param request:
:return:
"""
def _store_expected_values(values_to_store, framework=""):
framework_name = framework
if framework_name:
framework_name = "_" + framework_name
file_name = request.node.location[0].split("/")[-1][:-3] + ".json"
try:
with open(
os.path.join(os.path.dirname(__file__), os.path.dirname(request.node.location[0]), file_name), "r"
) as f:
expected_values = json.load(f)
except FileNotFoundError:
expected_values = {}
test_name = request.node.name + framework_name
expected_values[test_name] = values_to_store
with open(
os.path.join(os.path.dirname(__file__), os.path.dirname(request.node.location[0]), file_name), "w"
) as f:
json.dump(expected_values, f, indent=4)
return _store_expected_values
@pytest.fixture
def expected_values(framework, request):
"""
Retrieves the expected values that were stored using the store_expected_values fixture
:param request:
:return:
"""
file_name = request.node.location[0].split("/")[-1][:-3] + ".json"
framework_name = framework
if framework_name:
framework_name = "_" + framework_name
def _expected_values():
with open(
os.path.join(os.path.dirname(__file__), os.path.dirname(request.node.location[0]), file_name), "r"
) as f:
expected_values = json.load(f)
# searching first for any framework specific expected value
framework_specific_values = request.node.name + framework_name
if framework_specific_values in expected_values:
return expected_values[framework_specific_values]
elif request.node.name in expected_values:
return expected_values[request.node.name]
else:
raise ARTTestFixtureNotImplemented(
"Couldn't find any expected values for test {0}".format(request.node.name),
expected_values.__name__,
framework_name,
)
return _expected_values
@pytest.fixture(scope="session")
def get_image_classifier_mx_model():
import mxnet # lgtm [py/import-and-import-from]
# TODO needs to be made parameterizable once Mxnet allows multiple identical models to be created in one session
from_logits = True
class Model(mxnet.gluon.nn.Block):
def __init__(self, **kwargs):
super(Model, self).__init__(**kwargs)
self.model = mxnet.gluon.nn.Sequential()
self.model.add(
mxnet.gluon.nn.Conv2D(
channels=1,
kernel_size=7,
activation="relu",
),
mxnet.gluon.nn.MaxPool2D(pool_size=4, strides=4),
mxnet.gluon.nn.Flatten(),
mxnet.gluon.nn.Dense(
10,
activation=None,
),
)
def forward(self, x):
y = self.model(x)
if from_logits:
return y
return y.softmax()
model = Model()
custom_init = get_image_classifier_mxnet_custom_ini()
model.initialize(init=custom_init)
return model
@pytest.fixture
def get_image_classifier_mx_instance(get_image_classifier_mx_model, mnist_shape):
import mxnet # lgtm [py/import-and-import-from]
from art.estimators.classification import MXClassifier
model = get_image_classifier_mx_model
def _get_image_classifier_mx_instance(from_logits=True):
if from_logits is False:
# due to the fact that only 1 instance of get_image_classifier_mx_model can be created in one session
# this will be resolved once Mxnet allows for 2 models with identical weights to be created in 1 session
raise ARTTestFixtureNotImplemented(
"Currently only supporting Mxnet classifier with from_logit set to True",
get_image_classifier_mx_instance.__name__,
framework,
)
loss = mxnet.gluon.loss.SoftmaxCrossEntropyLoss(from_logits=from_logits)
trainer = mxnet.gluon.Trainer(model.collect_params(), "sgd", {"learning_rate": 0.1})
# Get classifier
mxc = MXClassifier(
model=model,
loss=loss,
input_shape=mnist_shape,
# input_shape=(28, 28, 1),
nb_classes=10,
optimizer=trainer,
ctx=None,
channels_first=True,
clip_values=(0, 1),
preprocessing_defences=None,
postprocessing_defences=None,
preprocessing=(0.0, 1.0),
)
return mxc
return _get_image_classifier_mx_instance
@pytest.fixture
def supported_losses_types(framework):
def supported_losses_types():
if framework == "keras":
return ["label", "function_losses", "function_backend"]
if framework == "kerastf":
# if loss_type is not "label" and loss_name not in ["categorical_hinge", "kullback_leibler_divergence"]:
return ["label", "function", "class"]
raise ARTTestFixtureNotImplemented(
"Could not find supported_losses_types", supported_losses_types.__name__, framework
)
return supported_losses_types
@pytest.fixture
def supported_losses_logit(framework):
def _supported_losses_logit():
if framework == "keras":
return ["categorical_crossentropy_function_backend", "sparse_categorical_crossentropy_function_backend"]
if framework == "kerastf":
# if loss_type is not "label" and loss_name not in ["categorical_hinge", "kullback_leibler_divergence"]:
return [
"categorical_crossentropy_function",
"categorical_crossentropy_class",
"sparse_categorical_crossentropy_function",
"sparse_categorical_crossentropy_class",
]
raise ARTTestFixtureNotImplemented(
"Could not find supported_losses_logit", supported_losses_logit.__name__, framework
)
return _supported_losses_logit
@pytest.fixture
def supported_losses_proba(framework):
def _supported_losses_proba():
if framework == "keras":
return [
"categorical_hinge_function_losses",
"categorical_crossentropy_label",
"categorical_crossentropy_function_losses",
"categorical_crossentropy_function_backend",
"sparse_categorical_crossentropy_label",
"sparse_categorical_crossentropy_function_losses",
"sparse_categorical_crossentropy_function_backend",
]
if framework == "kerastf":
return [
"categorical_hinge_function",
"categorical_hinge_class",
"categorical_crossentropy_label",
"categorical_crossentropy_function",
"categorical_crossentropy_class",
"sparse_categorical_crossentropy_label",
"sparse_categorical_crossentropy_function",
"sparse_categorical_crossentropy_class",
# "kullback_leibler_divergence_function",
"kullback_leibler_divergence_class",
]
raise ARTTestFixtureNotImplemented(
"Could not find supported_losses_proba", supported_losses_proba.__name__, framework
)
return _supported_losses_proba
@pytest.fixture
def image_dl_generator(framework):
def _image_dl_generator(**kwargs):
if framework == "tensorflow2":
return get_image_generator_tf_v2(64, 100)
raise ARTTestFixtureNotImplemented("no test generator available", image_dl_generator.__name__, framework)
return _image_dl_generator
@pytest.fixture
def image_dl_gan(framework):
sess = None
def _image_dl_gan(**kwargs):
if framework == "tensorflow2":
return get_image_gan_tf_v2(**kwargs), sess
raise ARTTestFixtureNotImplemented("no test gan available", image_dl_gan.__name__, framework)
return _image_dl_gan
@pytest.fixture
def image_dl_estimator(framework, get_image_classifier_mx_instance):
def _image_dl_estimator(functional=False, **kwargs):
sess = None
wildcard = False
classifier = None
if kwargs.get("wildcard") is not None:
if kwargs.get("wildcard") is True:
wildcard = True
del kwargs["wildcard"]
if framework == "keras":
if wildcard is False and functional is False:
if functional:
classifier = get_image_classifier_kr_functional(**kwargs)
else:
try:
classifier = get_image_classifier_kr(**kwargs)
except NotImplementedError:
raise ARTTestFixtureNotImplemented(
"This combination of loss function options is currently not supported.",
image_dl_estimator.__name__,
framework,
)
if framework in ["tensorflow1", "tensorflow2", "tensorflow2v1"]:
if wildcard is False and functional is False:
classifier, sess = get_image_classifier_tf(**kwargs, framework=framework)
return classifier, sess
if framework == "pytorch":
if not wildcard:
if functional:
classifier = get_image_classifier_pt_functional(**kwargs)
else:
classifier = get_image_classifier_pt(**kwargs)
if framework == "kerastf":
if wildcard:
classifier = get_image_classifier_kr_tf_with_wildcard(**kwargs)
else:
if functional:
classifier = get_image_classifier_kr_tf_functional(**kwargs)
else:
classifier = get_image_classifier_kr_tf(**kwargs)
if framework == "mxnet":
if wildcard is False and functional is False:
classifier = get_image_classifier_mx_instance(**kwargs)
if framework == "huggingface":
if not wildcard:
classifier = get_image_classifier_hf(**kwargs)
if classifier is None:
raise ARTTestFixtureNotImplemented(
"no test deep learning estimator available", image_dl_estimator.__name__, framework
)
return classifier, sess
return _image_dl_estimator
@pytest.fixture
def art_warning(request):
def _art_warning(exception):
if type(exception) is ARTTestFixtureNotImplemented:
if request.node.get_closest_marker("framework_agnostic"):
if not request.node.get_closest_marker("parametrize"):
raise Exception(
"This test has marker framework_agnostic decorator which means it will only be ran "
"once. However the ART test exception was thrown, hence it is never run fully. "
)
elif (
request.node.get_closest_marker("only_with_platform")
and len(request.node.get_closest_marker("only_with_platform").args) == 1
):
raise Exception(
"This test has marker only_with_platform decorator which means it will only be ran "
"once. However the ARTTestFixtureNotImplemented exception was thrown, hence it is "
"never run fully. "
)
# NotImplementedErrors are raised in ART whenever a test model does not exist for a specific
# model/framework combination. By catching there here, we can provide a report at the end of each
# pytest run list all models requiring to be implemented.
warnings.warn(UserWarning(exception))
else:
raise exception
return _art_warning
@pytest.fixture
def decision_tree_estimator(framework):
def _decision_tree_estimator(clipped=True):
if framework == "scikitlearn":
return get_tabular_classifier_scikit_list(clipped=clipped, model_list_names=["decisionTreeClassifier"])[0]
raise ARTTestFixtureNotImplemented(
"no test decision_tree_classifier available", decision_tree_estimator.__name__, framework
)
return _decision_tree_estimator
@pytest.fixture
def tabular_dl_estimator(framework):
def _tabular_dl_estimator(clipped=True):
classifier = None
if framework == "keras":
if clipped:
classifier = get_tabular_classifier_kr()
else:
kr_classifier = get_tabular_classifier_kr()
classifier = KerasClassifier(model=kr_classifier.model, use_logits=False, channels_first=True)
if framework == "tensorflow1" or framework == "tensorflow2":
if clipped:
classifier, _ = get_tabular_classifier_tf()
if framework == "pytorch":
if clipped:
classifier = get_tabular_classifier_pt()
if classifier is None:
raise ARTTestFixtureNotImplemented(
"no deep learning tabular estimator available", tabular_dl_estimator.__name__, framework
)
return classifier
return _tabular_dl_estimator
@pytest.fixture(scope="function")
def create_test_image(create_test_dir):
test_dir = create_test_dir
# Download one ImageNet pic for tests
url = "http://farm1.static.flickr.com/163/381342603_81db58bea4.jpg"
result = requests.get(url, stream=True)
if result.status_code == 200:
image = result.raw.read()
f = open(os.path.join(test_dir, "test.jpg"), "wb")
f.write(image)
f.close()
yield os.path.join(test_dir, "test.jpg")
@pytest.fixture(scope="session")
def framework(request):
ml_framework = request.config.getoption("--framework")
if ml_framework == "tensorflow":
import tensorflow as tf
if tf.__version__[0] == "2":
ml_framework = "tensorflow2"
else:
ml_framework = "tensorflow1"
if ml_framework not in art_supported_frameworks:
raise Exception(
"framework value {0} is unsupported. Please use one of these valid values: {1}".format(
ml_framework, " ".join(art_supported_frameworks)
)
)
# if utils_test.is_valid_framework(framework):
# raise Exception("The framework specified was incorrect. Valid options available
# are {0}".format(art_supported_frameworks))
return ml_framework
@pytest.fixture(scope="session")
def default_batch_size():
yield 16
@pytest.fixture(scope="session")
def load_iris_dataset():
logging.info("Loading Iris dataset")
(x_train_iris, y_train_iris), (x_test_iris, y_test_iris), _, _ = load_dataset("iris")
yield (x_train_iris, y_train_iris), (x_test_iris, y_test_iris)
@pytest.fixture(scope="function")
def get_iris_dataset(load_iris_dataset, framework):
(x_train_iris, y_train_iris), (x_test_iris, y_test_iris) = load_iris_dataset
x_train_iris_original = x_train_iris.copy()
y_train_iris_original = y_train_iris.copy()
x_test_iris_original = x_test_iris.copy()
y_test_iris_original = y_test_iris.copy()
yield (x_train_iris, y_train_iris), (x_test_iris, y_test_iris)
np.testing.assert_array_almost_equal(x_train_iris_original, x_train_iris, decimal=3)
np.testing.assert_array_almost_equal(y_train_iris_original, y_train_iris, decimal=3)
np.testing.assert_array_almost_equal(x_test_iris_original, x_test_iris, decimal=3)
np.testing.assert_array_almost_equal(y_test_iris_original, y_test_iris, decimal=3)
@pytest.fixture(scope="session")
def load_diabetes_dataset():
logging.info("Loading Diabetes dataset")
(x_train_diabetes, y_train_diabetes), (x_test_diabetes, y_test_diabetes), _, _ = load_dataset("diabetes")
yield (x_train_diabetes, y_train_diabetes), (x_test_diabetes, y_test_diabetes)
@pytest.fixture(scope="function")
def get_diabetes_dataset(load_diabetes_dataset, framework):
(x_train_diabetes, y_train_diabetes), (x_test_diabetes, y_test_diabetes) = load_diabetes_dataset
x_train_diabetes_original = x_train_diabetes.copy()
y_train_diabetes_original = y_train_diabetes.copy()
x_test_diabetes_original = x_test_diabetes.copy()
y_test_diabetes_original = y_test_diabetes.copy()
yield (x_train_diabetes, y_train_diabetes), (x_test_diabetes, y_test_diabetes)
np.testing.assert_array_almost_equal(x_train_diabetes_original, x_train_diabetes, decimal=3)
np.testing.assert_array_almost_equal(y_train_diabetes_original, y_train_diabetes, decimal=3)
np.testing.assert_array_almost_equal(x_test_diabetes_original, x_test_diabetes, decimal=3)
np.testing.assert_array_almost_equal(y_test_diabetes_original, y_test_diabetes, decimal=3)
@pytest.fixture(scope="session")
def default_dataset_subset_sizes():
n_train = 1000
n_test = 100
yield n_train, n_test
@pytest.fixture()
def mnist_shape(framework):
if framework in ["pytorch", "mxnet", "huggingface"]:
return (1, 28, 28)
else:
return (28, 28, 1)
@pytest.fixture()
def cifar10_shape(framework):
if framework == "pytorch" or framework == "mxnet":
return (3, 32, 32)
else:
return (32, 32, 3)
@pytest.fixture()
def get_default_mnist_subset(get_mnist_dataset, default_dataset_subset_sizes, mnist_shape):
(x_train_mnist, y_train_mnist), (x_test_mnist, y_test_mnist) = get_mnist_dataset
n_train, n_test = default_dataset_subset_sizes
x_train_mnist = np.reshape(x_train_mnist, (x_train_mnist.shape[0],) + mnist_shape).astype(np.float32)
x_test_mnist = np.reshape(x_test_mnist, (x_test_mnist.shape[0],) + mnist_shape).astype(np.float32)
yield (x_train_mnist[:n_train], y_train_mnist[:n_train]), (x_test_mnist[:n_test], y_test_mnist[:n_test])
@pytest.fixture()
def get_default_cifar10_subset(get_cifar10_dataset, default_dataset_subset_sizes, cifar10_shape):
(x_train_cifar10, y_train_cifar10), (x_test_cifar10, y_test_cifar10) = get_cifar10_dataset
n_train, n_test = default_dataset_subset_sizes
x_train_cifar10 = np.reshape(x_train_cifar10, (x_train_cifar10.shape[0],) + cifar10_shape).astype(np.float32)
x_test_cifar10 = np.reshape(x_test_cifar10, (x_test_cifar10.shape[0],) + cifar10_shape).astype(np.float32)
yield (x_train_cifar10[:n_train], y_train_cifar10[:n_train]), (x_test_cifar10[:n_test], y_test_cifar10[:n_test])
@pytest.fixture(scope="session")
def load_mnist_dataset():
logging.info("Loading mnist")
(x_train_mnist, y_train_mnist), (x_test_mnist, y_test_mnist), _, _ = load_dataset("mnist")
yield (x_train_mnist, y_train_mnist), (x_test_mnist, y_test_mnist)
@pytest.fixture(scope="session")
def load_cifar10_dataset():
logging.info("Loading cifar10")
(x_train_cifar10, y_train_cifar10), (x_test_cifar10, y_test_cifar10), _, _ = load_dataset("cifar10")
yield (x_train_cifar10, y_train_cifar10), (x_test_cifar10, y_test_cifar10)
@pytest.fixture(scope="function")
def create_test_dir():
test_dir = tempfile.mkdtemp()
yield test_dir
shutil.rmtree(test_dir)
@pytest.fixture(scope="function")
def get_mnist_dataset(load_mnist_dataset, mnist_shape):
(x_train_mnist, y_train_mnist), (x_test_mnist, y_test_mnist) = load_mnist_dataset
x_train_mnist = np.reshape(x_train_mnist, (x_train_mnist.shape[0],) + mnist_shape).astype(np.float32)
x_test_mnist = np.reshape(x_test_mnist, (x_test_mnist.shape[0],) + mnist_shape).astype(np.float32)
x_train_mnist_original = x_train_mnist.copy()
y_train_mnist_original = y_train_mnist.copy()
x_test_mnist_original = x_test_mnist.copy()
y_test_mnist_original = y_test_mnist.copy()
yield (x_train_mnist, y_train_mnist), (x_test_mnist, y_test_mnist)
# Check that the test data has not been modified, only catches changes in attack.generate if self has been used
np.testing.assert_array_almost_equal(x_train_mnist_original, x_train_mnist, decimal=3)
np.testing.assert_array_almost_equal(y_train_mnist_original, y_train_mnist, decimal=3)
np.testing.assert_array_almost_equal(x_test_mnist_original, x_test_mnist, decimal=3)
np.testing.assert_array_almost_equal(y_test_mnist_original, y_test_mnist, decimal=3)
@pytest.fixture(scope="function")
def get_cifar10_dataset(load_cifar10_dataset, cifar10_shape):
(x_train_cifar10, y_train_cifar10), (x_test_cifar10, y_test_cifar10) = load_cifar10_dataset
x_train_cifar10 = np.reshape(x_train_cifar10, (x_train_cifar10.shape[0],) + cifar10_shape).astype(np.float32)
x_test_cifar10 = np.reshape(x_test_cifar10, (x_test_cifar10.shape[0],) + cifar10_shape).astype(np.float32)
x_train_cifar10_original = x_train_cifar10.copy()
y_train_cifar10_original = y_train_cifar10.copy()
x_test_cifar10_original = x_test_cifar10.copy()
y_test_cifar10_original = y_test_cifar10.copy()
yield (x_train_cifar10, y_train_cifar10), (x_test_cifar10, y_test_cifar10)
# Check that the test data has not been modified, only catches changes in attack.generate if self has been used
np.testing.assert_array_almost_equal(x_train_cifar10_original, x_train_cifar10, decimal=3)
np.testing.assert_array_almost_equal(y_train_cifar10_original, y_train_cifar10, decimal=3)
np.testing.assert_array_almost_equal(x_test_cifar10_original, x_test_cifar10, decimal=3)
np.testing.assert_array_almost_equal(y_test_cifar10_original, y_test_cifar10, decimal=3)
# ART test fixture to skip test for specific framework values
# eg: @pytest.mark.only_with_platform("tensorflow")
@pytest.fixture(autouse=True)
def only_with_platform(request, framework):
if request.node.get_closest_marker("only_with_platform"):
if framework not in request.node.get_closest_marker("only_with_platform").args:
pytest.skip("skipped on this platform: {}".format(framework))
# ART test fixture to skip test for specific framework values
# eg: @pytest.mark.skip_framework("tensorflow", "keras", "pytorch", "scikitlearn",
# "mxnet", "kerastf", "non_dl_frameworks", "dl_frameworks")
@pytest.fixture(autouse=True)
def skip_by_framework(request, framework):
if request.node.get_closest_marker("skip_framework"):
framework_to_skip_list = list(request.node.get_closest_marker("skip_framework").args)
if "dl_frameworks" in framework_to_skip_list:
framework_to_skip_list.extend(deep_learning_frameworks)
if "non_dl_frameworks" in framework_to_skip_list:
framework_to_skip_list.extend(non_deep_learning_frameworks)
if "tensorflow" in framework_to_skip_list:
framework_to_skip_list.append("tensorflow1")
framework_to_skip_list.append("tensorflow2")
framework_to_skip_list.append("tensorflow2v1")
if framework in framework_to_skip_list:
pytest.skip("skipped on this platform: {}".format(framework))
@pytest.fixture
def make_customer_record():
def _make_customer_record(name):
return {"name": name, "orders": []}
return _make_customer_record
@pytest.fixture(autouse=True)
def framework_agnostic(request, framework):
if request.node.get_closest_marker("framework_agnostic"):
if framework != get_default_framework():
pytest.skip("framework agnostic test skipped for framework : {}".format(framework))
# ART test fixture to skip test for specific required modules
# eg: @pytest.mark.skip_module("deepspeech_pytorch", "apex.amp", "object_detection")
@pytest.fixture(autouse=True)
def skip_by_module(request):
if request.node.get_closest_marker("skip_module"):
modules_from_args = request.node.get_closest_marker("skip_module").args
# separate possible parent modules and test them first
modules_parents = [m.split(".", 1)[0] for m in modules_from_args]
# merge with modules including submodules (Note: sort ensures that parent comes first)
modules_full = sorted(set(modules_parents).union(modules_from_args))
for module in modules_full:
if module in modules_full:
module_spec = importlib.util.find_spec(module)
module_found = module_spec is not None
if not module_found:
pytest.skip(f"Test skipped because package {module} not available.")
@pytest.fixture()
def fix_get_rcnn():
from art.estimators.estimator import BaseEstimator, LossGradientsMixin
from art.estimators.object_detection.object_detector import ObjectDetectorMixin
class DummyObjectDetector(ObjectDetectorMixin, LossGradientsMixin, BaseEstimator):
def __init__(self):
self._clip_values = (0, 1)
self.channels_first = False
self._input_shape = None
self._compute_loss_count = 1
def loss_gradient(self, x: np.ndarray, y: None, **kwargs):
return np.ones_like(x)
def fit(self, x: np.ndarray, y, batch_size: int = 128, nb_epochs: int = 20, **kwargs):
raise NotImplementedError
def predict(self, x: np.ndarray, batch_size: int = 128, **kwargs):
dict_i = {"boxes": np.array([[0.1, 0.2, 0.3, 0.4]]), "labels": np.array([[2]]), "scores": np.array([[0.8]])}
return [dict_i] * x.shape[0]
@property
def native_label_is_pytorch_format(self):
return True
@property
def input_shape(self):
return self._input_shape
def compute_losses(
self, x: np.ndarray, y: Union[List[Dict[str, np.ndarray]], List[Dict[str, "torch.Tensor"]]]
) -> Dict[str, np.ndarray]:
losses_dict = {
"loss_classifier": np.array(0.43572357, dtype=float),
"loss_box_reg": np.array(0.17341757, dtype=float),
"loss_objectness": np.array(0.02198849, dtype=float),
"loss_rpn_box_reg": np.array(0.03471708, dtype=float),
}
return losses_dict
def compute_loss(
self, x: np.ndarray, y: Union[List[Dict[str, np.ndarray]], List[Dict[str, "torch.Tensor"]]], **kwargs
) -> Union[np.ndarray, "torch.Tensor"]: