def test_mask_4d():
# Dummy mask
mask = np.zeros((10, 10, 10))
mask[3:7, 3:7, 3:7] = 1
mask_bool = mask.astype(bool)
mask_img = Nifti1Image(mask, np.eye(4))
n_mask_vox = mask_bool.sum()
# Dummy data
data = np.zeros((10, 10, 10, 3))
data[..., 0] = 1
data[..., 1] = 2
data[..., 2] = 3
data_img_4d = Nifti1Image(data, np.eye(4))
data_imgs = [
index_img(data_img_4d, 0),
index_img(data_img_4d, 1),
index_img(data_img_4d, 2)
]
# check whether transform is indeed selecting niimgs subset
sample_mask = np.array([0, 2])
masker = NiftiMasker(mask_img=mask_img, sample_mask=sample_mask)
masker.fit()
data_trans = masker.transform(data_imgs)
data_trans_img = index_img(data_img_4d, sample_mask)
data_trans_direct = data_trans_img.get_data()[mask_bool, :]
data_trans_direct = np.swapaxes(data_trans_direct, 0, 1)
assert_array_equal(data_trans, data_trans_direct)
masker = NiftiMasker(mask_img=mask_img, sample_mask=sample_mask)
masker.fit()
data_trans2 = masker.transform(data_img_4d)
assert_array_equal(data_trans2, data_trans_direct)
def test_with_files():
# Standard masking
data = np.zeros((40, 40, 40, 2))
data[20, 20, 20] = 1
data_img = Nifti1Image(data, np.eye(4))
with testing.write_tmp_imgs(data_img) as filename:
masker = NiftiMasker()
masker.fit(filename)
masker.transform(filename)
def test_auto_mask():
# This mostly a smoke test
data = np.zeros((9, 9, 9))
data[3:-3, 3:-3, 3:-3] = 10
img = Nifti1Image(data, np.eye(4))
masker = NiftiMasker()
# Check that if we have not fit the masker we get a intelligible
# error
assert_raises(ValueError, masker.transform, [
img,
])
# Smoke test the fit
masker.fit(img)
# Smoke test the transform
# With a 4D img
masker.transform([
img,
])
# With a 3D img
masker.transform(img)
# check exception when transform() called without prior fit()
masker2 = NiftiMasker(mask_img=img)
testing.assert_raises_regex(ValueError, 'has not been fitted. ',
masker2.transform, img)
def test_resample():
# Check that target_affine triggers the right resampling
data = np.zeros((9, 9, 9))
data[3:-3, 3:-3, 3:-3] = 10
img = Nifti1Image(data, np.eye(4))
mask = data.astype(np.int)
mask_img = Nifti1Image(mask, np.eye(4))
masker = NiftiMasker(mask_img=mask_img, target_affine=2 * np.eye(3))
# Smoke test the fit
X = masker.fit_transform(img)
assert_true(np.any(X != 0))
def test_detrend():
# Check that detrending doesn't do something stupid with 3D images
data = np.zeros((9, 9, 9))
data[3:-3, 3:-3, 3:-3] = 10
img = Nifti1Image(data, np.eye(4))
mask = data.astype(np.int)
mask_img = Nifti1Image(mask, np.eye(4))
masker = NiftiMasker(mask_img=mask_img, detrend=True)
# Smoke test the fit
X = masker.fit_transform(img)
assert_true(np.any(X != 0))
def test_resample():
# Check that target_affine triggers the right resampling
data = np.zeros((9, 9, 9))
data[3:-3, 3:-3, 3:-3] = 10
img = Nifti1Image(data, np.eye(4))
mask = data.astype(np.int)
mask_img = Nifti1Image(mask, np.eye(4))
masker = NiftiMasker(mask_img=mask_img, target_affine=2 * np.eye(3))
# Smoke test the fit
X = masker.fit_transform(img)
assert_true(np.any(X != 0))
def test_detrend():
# Check that detrending doesn't do something stupid with 3D images
data = np.zeros((9, 9, 9))
data[3:-3, 3:-3, 3:-3] = 10
img = Nifti1Image(data, np.eye(4))
mask = data.astype(np.int)
mask_img = Nifti1Image(mask, np.eye(4))
masker = NiftiMasker(mask_img=mask_img, detrend=True)
# Smoke test the fit
X = masker.fit_transform(img)
assert_true(np.any(X != 0))
def test_mask_4d():
# Dummy mask
mask = np.zeros((10, 10, 10), dtype=int)
mask[3:7, 3:7, 3:7] = 1
mask_bool = mask.astype(bool)
mask_img = Nifti1Image(mask, np.eye(4))
# Dummy data
data = np.zeros((10, 10, 10, 3), dtype=int)
data[..., 0] = 1
data[..., 1] = 2
data[..., 2] = 3
data_img_4d = Nifti1Image(data, np.eye(4))
data_imgs = [index_img(data_img_4d, 0), index_img(data_img_4d, 1),
index_img(data_img_4d, 2)]
# check whether transform is indeed selecting niimgs subset
sample_mask = np.array([0, 2])
masker = NiftiMasker(mask_img=mask_img, sample_mask=sample_mask)
masker.fit()
data_trans = masker.transform(data_imgs)
data_trans_img = index_img(data_img_4d, sample_mask)
data_trans_direct = data_trans_img.get_data()[mask_bool, :]
data_trans_direct = np.swapaxes(data_trans_direct, 0, 1)
assert_array_equal(data_trans, data_trans_direct)
masker = NiftiMasker(mask_img=mask_img, sample_mask=sample_mask)
masker.fit()
data_trans2 = masker.transform(data_img_4d)
assert_array_equal(data_trans2, data_trans_direct)
def test_5d():
mask = np.zeros((10, 10, 10))
mask[3:7, 3:7, 3:7] = 1
mask_img = Nifti1Image(mask, np.eye(4))
# Test that, in list of 4d images with last dimension=1, they are
# considered as 3d
data_5d = [np.random.random((10, 10, 10, 3)) for i in range(5)]
data_5d = [nibabel.Nifti1Image(d, np.eye(4)) for d in data_5d]
masker = NiftiMasker(mask_img=mask_img)
masker.fit()
testing.assert_raises_regex(
DimensionError, 'Data must be a 4D Niimg-like object but you provided'
' a list of 4D images.', masker.transform, data_5d)
def test_4d_single_scan():
mask = np.zeros((10, 10, 10))
mask[3:7, 3:7, 3:7] = 1
mask_img = Nifti1Image(mask, np.eye(4))
data_5d = [np.random.random((10, 10, 10, 1)) for i in range(5)]
data_4d = [d[..., 0] for d in data_5d]
data_5d = [nibabel.Nifti1Image(d, np.eye(4)) for d in data_5d]
data_4d = [nibabel.Nifti1Image(d, np.eye(4)) for d in data_4d]
masker = NiftiMasker(mask_img=mask_img)
masker.fit()
data_trans_5d = masker.transform(data_5d)
data_trans_4d = masker.transform(data_4d)
assert_array_equal(data_trans_4d, data_trans_5d)
def test_4d_single_scan():
mask = np.zeros((10, 10, 10))
mask[3:7, 3:7, 3:7] = 1
mask_img = Nifti1Image(mask, np.eye(4))
data_5d = [np.random.random((10, 10, 10, 1)) for i in range(5)]
data_4d = [d[..., 0] for d in data_5d]
data_5d = [nibabel.Nifti1Image(d, np.eye(4)) for d in data_5d]
data_4d = [nibabel.Nifti1Image(d, np.eye(4)) for d in data_4d]
masker = NiftiMasker(mask_img=mask_img)
masker.fit()
data_trans_5d = masker.transform(data_5d)
data_trans_4d = masker.transform(data_4d)
assert_array_equal(data_trans_4d, data_trans_5d)
def test_5d():
mask = np.zeros((10, 10, 10))
mask[3:7, 3:7, 3:7] = 1
mask_img = Nifti1Image(mask, np.eye(4))
# Test that, in list of 4d images with last dimension=1, they are
# considered as 3d
data_5d = [np.random.random((10, 10, 10, 3)) for i in range(5)]
data_5d = [nibabel.Nifti1Image(d, np.eye(4)) for d in data_5d]
masker = NiftiMasker(mask_img=mask_img)
masker.fit()
testing.assert_raises_regex(
DimensionError, 'Data must be a 4D Niimg-like object but you provided'
' a list of 4D images.', masker.transform, data_5d)
def test_5d():
mask = np.zeros((10, 10, 10))
mask[3:7, 3:7, 3:7] = 1
mask_img = Nifti1Image(mask, np.eye(4))
# Test that, in list of 4d images with last dimension=1, they are
# considered as 3d
data_5d = [np.random.random((10, 10, 10, 3)) for i in range(5)]
data_5d = [nibabel.Nifti1Image(d, np.eye(4)) for d in data_5d]
masker = NiftiMasker(mask_img=mask_img)
masker.fit()
testing.assert_raises_regex(
DimensionError, "Input data has incompatible dimensionality: "
"Expected dimension is 4D and you provided "
"a list of 4D images \(5D\).", masker.transform, data_5d)
def test_joblib_cache():
from joblib import hash, Memory
mask = np.zeros((40, 40, 40))
mask[20, 20, 20] = 1
mask_img = Nifti1Image(mask, np.eye(4))
with testing.write_tmp_imgs(mask_img, create_files=True) as filename:
masker = NiftiMasker(mask_img=filename)
masker.fit()
mask_hash = hash(masker.mask_img_)
get_data(masker.mask_img_)
assert mask_hash == hash(masker.mask_img_)
# Test a tricky issue with memmapped joblib.memory that makes
# imgs return by inverse_transform impossible to save
cachedir = mkdtemp()
try:
masker.memory = Memory(location=cachedir, mmap_mode='r', verbose=0)
X = masker.transform(mask_img)
# inverse_transform a first time, so that the result is cached
out_img = masker.inverse_transform(X)
out_img = masker.inverse_transform(X)
out_img.to_filename(os.path.join(cachedir, 'test.nii'))
finally:
# enables to delete "filename" on windows
del masker
shutil.rmtree(cachedir, ignore_errors=True)
def test_joblib_cache():
if not LooseVersion(nibabel.__version__) > LooseVersion('1.1.0'):
# Old nibabel do not pickle
raise SkipTest
from sklearn.externals.joblib import hash, Memory
mask = np.zeros((40, 40, 40))
mask[20, 20, 20] = 1
mask_img = Nifti1Image(mask, np.eye(4))
with testing.write_tmp_imgs(mask_img, create_files=True)\
as filename:
masker = NiftiMasker(mask_img=filename)
masker.fit()
mask_hash = hash(masker.mask_img_)
masker.mask_img_.get_data()
assert_true(mask_hash == hash(masker.mask_img_))
# Test a tricky issue with memmapped joblib.memory that makes
# imgs return by inverse_transform impossible to save
cachedir = mkdtemp()
try:
masker.memory = Memory(cachedir=cachedir, mmap_mode='r', verbose=0)
X = masker.transform(mask_img)
# inverse_transform a first time, so that the result is cached
out_img = masker.inverse_transform(X)
out_img = masker.inverse_transform(X)
out_img.to_filename(os.path.join(cachedir, 'test.nii'))
finally:
shutil.rmtree(cachedir, ignore_errors=True)
def test_mask_3d():
# Dummy mask
data = np.zeros((40, 40, 40, 2))
data[20, 20, 20] = 1
data_img = Nifti1Image(data, np.eye(4))
with testing.write_tmp_imgs(data_img, create_files=True)\
as filename:
masker = NiftiMasker(mask_img=filename)
assert_raises(TypeError, masker.fit)
def test_4d_single_scan():
mask = np.zeros((10, 10, 10))
mask[3:7, 3:7, 3:7] = 1
mask_img = Nifti1Image(mask, np.eye(4))
# Test that, in list of 4d images with last dimension=1, they are
# considered as 3d
data_5d = [np.random.random((10, 10, 10, 1)) for i in range(5)]
data_4d = [d[..., 0] for d in data_5d]
data_5d = [nibabel.Nifti1Image(d, np.eye(4)) for d in data_5d]
data_4d = [nibabel.Nifti1Image(d, np.eye(4)) for d in data_4d]
masker = NiftiMasker(mask_img=mask_img)
masker.fit()
data_trans_5d = masker.transform(data_5d)
data_trans_4d = masker.transform(data_4d)
assert_array_equal(data_trans_4d, data_trans_5d)
def test_dtype():
data_32 = np.zeros((9, 9, 9), dtype=np.float32)
data_64 = np.zeros((9, 9, 9), dtype=np.float64)
data_32[2:-2, 2:-2, 2:-2] = 10
data_64[2:-2, 2:-2, 2:-2] = 10
affine_32 = np.eye(4, dtype=np.float32)
affine_64 = np.eye(4, dtype=np.float64)
img_32 = Nifti1Image(data_32, affine_32)
img_64 = Nifti1Image(data_64, affine_64)
masker_1 = NiftiMasker(dtype='auto')
assert(masker_1.fit_transform(img_32).dtype == np.float32)
assert(masker_1.fit_transform(img_64).dtype == np.float32)
masker_2 = NiftiMasker(dtype='float64')
assert(masker_2.fit_transform(img_32).dtype == np.float64)
assert(masker_2.fit_transform(img_64).dtype == np.float64)
def test_4d_single_scan():
mask = np.zeros((10, 10, 10))
mask[3:7, 3:7, 3:7] = 1
mask_img = Nifti1Image(mask, np.eye(4))
# Test that, in list of 4d images with last dimension=1, they are
# considered as 3d
data_5d = [np.random.random((10, 10, 10, 1)) for i in range(5)]
data_4d = [d[..., 0] for d in data_5d]
data_5d = [nibabel.Nifti1Image(d, np.eye(4)) for d in data_5d]
data_4d = [nibabel.Nifti1Image(d, np.eye(4)) for d in data_4d]
masker = NiftiMasker(mask_img=mask_img)
masker.fit()
data_trans_5d = masker.transform(data_5d)
data_trans_4d = masker.transform(data_4d)
assert_array_equal(data_trans_4d, data_trans_5d)
def test_5d():
mask = np.zeros((10, 10, 10))
mask[3:7, 3:7, 3:7] = 1
mask_img = Nifti1Image(mask, np.eye(4))
# Test that, in list of 4d images with last dimension=1, they are
# considered as 3d
data_5d = [np.random.random((10, 10, 10, 3)) for i in range(5)]
data_5d = [nibabel.Nifti1Image(d, np.eye(4)) for d in data_5d]
masker = NiftiMasker(mask_img=mask_img)
masker.fit()
testing.assert_raises_regex(
DimensionError,
"Input data has incompatible dimensionality: "
"Expected dimension is 4D and you provided "
"a list of 4D images \(5D\).",
masker.transform, data_5d)
def test_nan():
data = np.ones((9, 9, 9))
data[0] = np.nan
data[:, 0] = np.nan
data[:, :, 0] = np.nan
data[-1] = np.nan
data[:, -1] = np.nan
data[:, :, -1] = np.nan
data[3:-3, 3:-3, 3:-3] = 10
img = Nifti1Image(data, np.eye(4))
masker = NiftiMasker(mask_args=dict(opening=0))
masker.fit(img)
mask = masker.mask_img_.get_data()
assert_true(mask[1:-1, 1:-1, 1:-1].all())
assert_false(mask[0].any())
assert_false(mask[:, 0].any())
assert_false(mask[:, :, 0].any())
assert_false(mask[-1].any())
assert_false(mask[:, -1].any())
assert_false(mask[:, :, -1].any())
def test_nan():
data = np.ones((9, 9, 9))
data[0] = np.nan
data[:, 0] = np.nan
data[:, :, 0] = np.nan
data[-1] = np.nan
data[:, -1] = np.nan
data[:, :, -1] = np.nan
data[3:-3, 3:-3, 3:-3] = 10
img = Nifti1Image(data, np.eye(4))
masker = NiftiMasker(mask_args=dict(opening=0))
masker.fit(img)
mask = masker.mask_img_.get_data()
assert_true(mask[1:-1, 1:-1, 1:-1].all())
assert_false(mask[0].any())
assert_false(mask[:, 0].any())
assert_false(mask[:, :, 0].any())
assert_false(mask[-1].any())
assert_false(mask[:, -1].any())
assert_false(mask[:, :, -1].any())
def test_mask_strategy_errors():
# Error with unknown mask_strategy
mask = NiftiMasker(mask_strategy='oops')
with pytest.raises(ValueError,
match="Unknown value of mask_strategy 'oops'"):
mask.fit()
# Warning with deprecated 'template' strategy
img = np.random.RandomState(42).uniform(size=(9, 9, 5))
img = Nifti1Image(img, np.eye(4))
mask = NiftiMasker(mask_strategy='template')
with pytest.warns(UserWarning,
match="Masking strategy 'template' is deprecated."):
mask.fit(img)
def test_joblib_cache():
if not LooseVersion(nibabel.__version__) > LooseVersion('1.1.0'):
# Old nibabel do not pickle
raise SkipTest
from sklearn.externals.joblib import hash, Memory
mask = np.zeros((40, 40, 40))
mask[20, 20, 20] = 1
mask_img = Nifti1Image(mask, np.eye(4))
with testing.write_tmp_imgs(mask_img, create_files=True)\
as filename:
masker = NiftiMasker(mask_img=filename)
masker.fit()
mask_hash = hash(masker.mask_img_)
masker.mask_img_.get_data()
assert_true(mask_hash == hash(masker.mask_img_))
# Test a tricky issue with memmapped joblib.memory that makes
# imgs return by inverse_transform impossible to save
cachedir = mkdtemp()
try:
masker.memory = Memory(cachedir=cachedir, mmap_mode='r',
verbose=0)
X = masker.transform(mask_img)
# inverse_transform a first time, so that the result is cached
out_img = masker.inverse_transform(X)
out_img = masker.inverse_transform(X)
out_img.to_filename(os.path.join(cachedir, 'test.nii'))
finally:
shutil.rmtree(cachedir, ignore_errors=True)
def test_standardization():
data_shape = (9, 9, 5)
n_samples = 500
signals = np.random.randn(np.prod(data_shape), n_samples)
means = np.random.randn(np.prod(data_shape), 1) * 50 + 1000
signals += means
img = Nifti1Image(signals.reshape(data_shape + (n_samples, )), np.eye(4))
mask = Nifti1Image(np.ones(data_shape), np.eye(4))
# z-score
masker = NiftiMasker(mask, standardize='zscore')
trans_signals = masker.fit_transform(img)
np.testing.assert_almost_equal(trans_signals.mean(0), 0)
np.testing.assert_almost_equal(trans_signals.std(0), 1)
# psc
masker = NiftiMasker(mask, standardize='psc')
trans_signals = masker.fit_transform(img)
np.testing.assert_almost_equal(trans_signals.mean(0), 0)
np.testing.assert_almost_equal(
trans_signals,
(signals / signals.mean(1)[:, np.newaxis] * 100 - 100).T)
def test_filter_and_mask():
data = np.zeros([20, 30, 40, 5])
mask = np.ones([20, 30, 40])
data_img = nibabel.Nifti1Image(data, np.eye(4))
mask_img = nibabel.Nifti1Image(mask, np.eye(4))
masker = NiftiMasker()
params = get_params(NiftiMasker, masker)
# Test return_affine = False
data = filter_and_mask(data_img, mask_img, params)
assert_equal(data.shape, (5, 24000))
def test_filter_and_mask():
data = np.zeros([20, 30, 40, 5])
mask = np.zeros([20, 30, 40, 2])
mask[10, 15, 20, :] = 1
data_img = nibabel.Nifti1Image(data, np.eye(4))
mask_img = nibabel.Nifti1Image(mask, np.eye(4))
masker = NiftiMasker()
params = get_params(NiftiMasker, masker)
assert_raises_regex(DimensionError, "Data must be a 3D", filter_and_mask,
data_img, mask_img, params)
def test_sessions():
# Test the sessions vector
data = np.ones((40, 40, 40, 4))
# Create a border, so that the masking work well
data[0] = 0
data[-1] = 0
data[:, -1] = 0
data[:, 0] = 0
data[..., -1] = 0
data[..., 0] = 0
data[20, 20, 20] = 1
data_img = Nifti1Image(data, np.eye(4))
masker = NiftiMasker(sessions=np.ones(3, dtype=np.int))
assert_raises(ValueError, masker.fit_transform, data_img)
def test_filter_and_mask_error():
data = np.zeros([20, 30, 40, 5])
mask = np.zeros([20, 30, 40, 2])
mask[10, 15, 20, :] = 1
data_img = nibabel.Nifti1Image(data, np.eye(4))
mask_img = nibabel.Nifti1Image(mask, np.eye(4))
masker = NiftiMasker()
params = get_params(NiftiMasker, masker)
assert_raises_regex(
DimensionError, "Input data has incompatible dimensionality: "
"Expected dimension is 3D and you provided "
"a 4D image.", filter_and_mask, data_img, mask_img, params)
def test_matrix_orientation():
"""Test if processing is performed along the correct axis."""
# the "step" kind generate heavyside-like signals for each voxel.
# all signals being identical, standardizing along the wrong axis
# would leave a null signal. Along the correct axis, the step remains.
fmri, mask = testing.generate_fake_fmri(shape=(40, 41, 42), kind="step")
masker = NiftiMasker(mask_img=mask, standardize=True, detrend=True)
timeseries = masker.fit_transform(fmri)
assert (timeseries.shape[0] == fmri.shape[3])
assert (timeseries.shape[1] == mask.get_data().sum())
std = timeseries.std(axis=0)
assert (std.shape[0] == timeseries.shape[1]) # paranoid
assert (not np.any(std < 0.1))
# Test inverse transform
masker = NiftiMasker(mask_img=mask, standardize=False, detrend=False)
masker.fit()
timeseries = masker.transform(fmri)
recovered = masker.inverse_transform(timeseries)
np.testing.assert_array_almost_equal(recovered.get_data(), fmri.get_data())
def test_with_files():
# Standard masking
data = np.zeros((40, 40, 40, 2))
data[20, 20, 20] = 1
data_img = Nifti1Image(data, np.eye(4))
with testing.write_tmp_imgs(data_img) as filename:
masker = NiftiMasker()
masker.fit(filename)
masker.transform(filename)
def test_auto_mask():
# This mostly a smoke test
data = np.zeros((9, 9, 9))
data[3:-3, 3:-3, 3:-3] = 10
img = Nifti1Image(data, np.eye(4))
masker = NiftiMasker()
# Check that if we have not fit the masker we get a intelligible
# error
assert_raises(ValueError, masker.transform, [
img,
])
# Smoke test the fit
masker.fit(img)
# Smoke test the transform
# With a 4D img
masker.transform([
img,
])
# With a 3D img
masker.transform(img)
def test_sessions():
# Test the sessions vector
data = np.ones((40, 40, 40, 4))
# Create a border, so that the masking work well
data[0] = 0
data[-1] = 0
data[:, -1] = 0
data[:, 0] = 0
data[..., -1] = 0
data[..., 0] = 0
data[20, 20, 20] = 1
data_img = Nifti1Image(data, np.eye(4))
masker = NiftiMasker(sessions=np.ones(3, dtype=np.int))
pytest.raises(ValueError, masker.fit_transform, data_img)
# check deprecation warning of attribute sessions
with pytest.warns(DeprecationWarning) as record:
masker.sessions
assert "`sessions` attribute is deprecated" in record[0].message.args[0]
def test_compute_brain_mask():
# Check masker for template masking strategy
img = np.random.RandomState(42).uniform(size=(9, 9, 5))
img = Nifti1Image(img, np.eye(4))
masker = NiftiMasker(mask_strategy='template')
masker.fit(img)
mask1 = masker.mask_img_
masker2 = NiftiMasker(mask_strategy='template',
mask_args=dict(threshold=0.))
masker2.fit(img)
mask2 = masker2.mask_img_
mask_ref = np.zeros((9, 9, 5))
np.testing.assert_array_equal(get_data(mask1), mask_ref)
mask_ref[2:7, 2:7, 2] = 1
np.testing.assert_array_equal(get_data(mask2), mask_ref)
def test_compute_gray_matter_mask():
# Check masker for template masking strategy
img = np.random.rand(9, 9, 5)
img = Nifti1Image(img, np.eye(4))
masker = NiftiMasker(mask_strategy='template')
masker.fit(img)
mask1 = masker.mask_img_
masker2 = NiftiMasker(mask_strategy='template',
mask_args=dict(threshold=0.))
masker2.fit(img)
mask2 = masker2.mask_img_
mask_ref = np.zeros((9, 9, 5))
mask_ref[2:7, 2:7, 2] = 1
np.testing.assert_array_equal(mask1.get_data(), mask_ref)
np.testing.assert_array_equal(mask2.get_data(), mask_ref)
def test_auto_mask():
# This mostly a smoke test
data = np.zeros((9, 9, 9))
data[3:-3, 3:-3, 3:-3] = 10
img = Nifti1Image(data, np.eye(4))
masker = NiftiMasker()
# Smoke test the fit
masker.fit(img)
# Smoke test the transform
# With a 4D img
masker.transform([img, ])
# With a 3D img
masker.transform(img)
# check exception when transform() called without prior fit()
masker2 = NiftiMasker(mask_img=img)
testing.assert_raises_regex(
ValueError,
'has not been fitted. ', masker2.transform, img)
def test_matrix_orientation():
"""Test if processing is performed along the correct axis."""
# the "step" kind generate heavyside-like signals for each voxel.
# all signals being identical, standardizing along the wrong axis
# would leave a null signal. Along the correct axis, the step remains.
fmri, mask = testing.generate_fake_fmri(shape=(40, 41, 42), kind="step")
masker = NiftiMasker(mask_img=mask, standardize=True, detrend=True)
timeseries = masker.fit_transform(fmri)
assert(timeseries.shape[0] == fmri.shape[3])
assert(timeseries.shape[1] == mask.get_data().sum())
std = timeseries.std(axis=0)
assert(std.shape[0] == timeseries.shape[1]) # paranoid
assert(not np.any(std < 0.1))
# Test inverse transform
masker = NiftiMasker(mask_img=mask, standardize=False, detrend=False)
masker.fit()
timeseries = masker.transform(fmri)
recovered = masker.inverse_transform(timeseries)
np.testing.assert_array_almost_equal(recovered.get_data(), fmri.get_data())
def test_5d():
mask = np.zeros((10, 10, 10))
mask[3:7, 3:7, 3:7] = 1
mask_img = Nifti1Image(mask, np.eye(4))
# Test that, in list of 4d images with last dimension=1, they are
# considered as 3d
rng = np.random.RandomState(42)
data_5d = [rng.random_sample((10, 10, 10, 3)) for i in range(5)]
data_5d = [nibabel.Nifti1Image(d, np.eye(4)) for d in data_5d]
masker = NiftiMasker(mask_img=mask_img)
masker.fit()
with pytest.raises(DimensionError,
match="Input data has incompatible dimensionality: "
"Expected dimension is 4D and you provided "
"a list of 4D images \\(5D\\)."):
masker.transform(data_5d)
def test_dtype():
data_32 = np.zeros((9, 9, 9), dtype=np.float32)
data_64 = np.zeros((9, 9, 9), dtype=np.float64)
data_32[2:-2, 2:-2, 2:-2] = 10
data_64[2:-2, 2:-2, 2:-2] = 10
affine_32 = np.eye(4, dtype=np.float32)
affine_64 = np.eye(4, dtype=np.float64)
img_32 = Nifti1Image(data_32, affine_32)
img_64 = Nifti1Image(data_64, affine_64)
masker_1 = NiftiMasker(dtype='auto')
assert (masker_1.fit_transform(img_32).dtype == np.float32)
assert (masker_1.fit_transform(img_64).dtype == np.float32)
masker_2 = NiftiMasker(dtype='float64')
assert (masker_2.fit_transform(img_32).dtype == np.float64)
assert (masker_2.fit_transform(img_64).dtype == np.float64)
def test_compute_gray_matter_mask():
# Check masker for template masking strategy
img = np.random.rand(9, 9, 5)
img = Nifti1Image(img, np.eye(4))
masker = NiftiMasker(mask_strategy='template')
masker.fit(img)
mask1 = masker.mask_img_
masker2 = NiftiMasker(mask_strategy='template',
mask_args=dict(threshold=0.))
masker2.fit(img)
mask2 = masker2.mask_img_
mask_ref = np.zeros((9, 9, 5))
mask_ref[2:7, 2:7, 2] = 1
np.testing.assert_array_equal(mask1.get_data(), mask_ref)
np.testing.assert_array_equal(mask2.get_data(), mask_ref)
def test_compute_epi_mask():
# Taken from test_masking.py, but used to test that the masker class
# is passing parameters appropriately.
mean_image = np.ones((9, 9, 3))
mean_image[3:-2, 3:-2, :] = 10
mean_image[5, 5, :] = 11
mean_image = Nifti1Image(mean_image.astype(float), np.eye(4))
masker = NiftiMasker(mask_strategy='epi', mask_args=dict(opening=False))
masker.fit(mean_image)
mask1 = masker.mask_img_
masker2 = NiftiMasker(mask_strategy='epi',
mask_args=dict(opening=False, exclude_zeros=True))
masker2.fit(mean_image)
mask2 = masker2.mask_img_
# With an array with no zeros, exclude_zeros should not make
# any difference
np.testing.assert_array_equal(mask1.get_data(), mask2.get_data())
# Check that padding with zeros does not change the extracted mask
mean_image2 = np.zeros((30, 30, 3))
mean_image2[3:12, 3:12, :] = mean_image.get_data()
mean_image2 = Nifti1Image(mean_image2, np.eye(4))
masker3 = NiftiMasker(mask_strategy='epi',
mask_args=dict(opening=False, exclude_zeros=True))
masker3.fit(mean_image2)
mask3 = masker3.mask_img_
np.testing.assert_array_equal(mask1.get_data(),
mask3.get_data()[3:12, 3:12])
# However, without exclude_zeros, it does
masker4 = NiftiMasker(mask_strategy='epi', mask_args=dict(opening=False))
masker4.fit(mean_image2)
mask4 = masker4.mask_img_
assert_false(np.allclose(mask1.get_data(), mask4.get_data()[3:12, 3:12]))
def test_mask_init_errors():
# Errors that are caught in init
mask = NiftiMasker(mask_strategy='oops')
testing.assert_raises_regex(ValueError,
"Unknown value of mask_strategy 'oops'",
mask.fit)
def test_mask_init_errors():
# Errors that are caught in init
mask = NiftiMasker(mask_strategy='oops')
with pytest.raises(ValueError,
match="Unknown value of mask_strategy 'oops'"):
mask.fit()
def test_auto_mask():
# This mostly a smoke test
data = np.zeros((9, 9, 9))
data[3:-3, 3:-3, 3:-3] = 10
img = Nifti1Image(data, np.eye(4))
masker = NiftiMasker()
# Smoke test the fit
masker.fit(img)
# Smoke test the transform
# With a 4D img
masker.transform([
img,
])
# With a 3D img
masker.transform(img)
# check exception when transform() called without prior fit()
masker2 = NiftiMasker(mask_img=img)
with pytest.raises(ValueError, match='has not been fitted. '):
masker2.transform(img)
def test_compute_epi_mask():
# Taken from test_masking.py, but used to test that the masker class
# is passing parameters appropriately.
mean_image = np.ones((9, 9, 3))
mean_image[3:-2, 3:-2, :] = 10
mean_image[5, 5, :] = 11
mean_image = Nifti1Image(mean_image.astype(float), np.eye(4))
masker = NiftiMasker(mask_strategy='epi',
mask_args=dict(opening=False))
masker.fit(mean_image)
mask1 = masker.mask_img_
masker2 = NiftiMasker(mask_strategy='epi',
mask_args=dict(opening=False, exclude_zeros=True))
masker2.fit(mean_image)
mask2 = masker2.mask_img_
# With an array with no zeros, exclude_zeros should not make
# any difference
np.testing.assert_array_equal(mask1.get_data(), mask2.get_data())
# Check that padding with zeros does not change the extracted mask
mean_image2 = np.zeros((30, 30, 3))
mean_image2[3:12, 3:12, :] = mean_image.get_data()
mean_image2 = Nifti1Image(mean_image2, np.eye(4))
masker3 = NiftiMasker(mask_strategy='epi',
mask_args=dict(opening=False, exclude_zeros=True))
masker3.fit(mean_image2)
mask3 = masker3.mask_img_
np.testing.assert_array_equal(mask1.get_data(),
mask3.get_data()[3:12, 3:12])
# However, without exclude_zeros, it does
masker4 = NiftiMasker(mask_strategy='epi', mask_args=dict(opening=False))
masker4.fit(mean_image2)
mask4 = masker4.mask_img_
assert_false(np.allclose(mask1.get_data(),
mask4.get_data()[3:12, 3:12]))
