def __init__(self, descriptor, global_image=None):
self.global_image = global_image
self.descriptor = descriptor
self.open = True
self.transformer = CoordinateTransformer(
self.descriptor.ranges.origin_start,
self.descriptor.ranges.image_size, self.descriptor.axis)
def test_read_image(self, dim_order, ranges, start, size):
descriptor = SubImageDescriptor.from_dict({
"filename": 'TestFileName', "suffix": "SUFFIX", "index": 0,
"data_type": "XXXX", "template": [], "dim_order": dim_order,
"ranges": ranges, "file_format": "mhd", "msb": "False",
"compression": []})
read_file = Mock()
global_image_size = len(dim_order)*[50]
image = create_dummy_image(global_image_size)
image_wrapper = image
sub_image = image_wrapper.get_sub_image(start, size)
read_file.read_image.return_value = sub_image.image
file_factory = Mock()
file_factory.create_read_file.return_value = read_file
si = SubImage(descriptor, file_factory)
# CoordinateTransforer is tested elsewhere. Here we do not make sure
# the coordinates have been transformed, using another
# CoordinateTransformer to check, but we are not verifying the
# transformations are correct, since the CoordinateTransformer test
# should do this
transformer = CoordinateTransformer(
descriptor.ranges.origin_start, descriptor.ranges.image_size,
descriptor.axis)
expected_start, expected_size = transformer.to_local(start, size)
test_image = si.read_image(start, size)
np.testing.assert_array_equal(test_image.image, sub_image.image)
np.testing.assert_array_equal(read_file.read_image.call_args[0][0], expected_start)
np.testing.assert_array_equal(read_file.read_image.call_args[0][1], expected_size)
def test_local_global(self, origin, size, order, flip, g_start, g_size, l_start, l_size):
ct = CoordinateTransformer(origin, size, Axis(order, flip))
o_l_start, o_l_size = ct.to_local(g_start, g_size)
self.assertTrue(np.array_equal(o_l_start, l_start))
self.assertTrue(np.array_equal(o_l_size, l_size))
o_g_start, o_g_size = ct.to_global(l_start, l_size)
self.assertTrue(np.array_equal(o_g_start, g_start))
self.assertTrue(np.array_equal(o_g_size, g_size))
def test_flip_explicit(self, dim, flip, expected):
global_image_raw = np.array([[[0, 1, 2], [3, 4, 5], [6, 7, 8], [9, 10, 11]],
[[20, 21, 22], [23, 24, 25], [26, 27, 28], [29, 30, 31]]])
global_image = ImageStorage(global_image_raw)
ct = CoordinateTransformer(np.zeros_like(dim), global_image.get_size(), Axis(dim, flip))
local_image = ct.image_to_local(global_image)
np.testing.assert_array_equal(local_image.get_raw(), np.array(expected))
np.testing.assert_array_equal(local_image.get_raw(), np.array(expected))
global_image_2 = ct.image_to_global(local_image)
np.testing.assert_array_equal(global_image_raw, global_image_2.get_raw())
def test_image(self, origin, size, order, flip, g_start, g_size, l_start, l_size):
ct = CoordinateTransformer(origin, size, Axis(order, flip))
transformed_start, transformed_size = ct.to_local(g_start, size)
global_image = create_dummy_image_storage(size)
local_image = ct.image_to_local(global_image)
np.testing.assert_array_equal(size, global_image.get_size())
np.testing.assert_array_equal(transformed_size, local_image.get_size())
test_image = global_image.transpose(order)
test_image = test_image.flip(flip)
np.testing.assert_array_equal(test_image.get_raw(), local_image.get_raw())
global_image_2 = ct.image_to_global(local_image)
np.testing.assert_array_equal(global_image.get_raw(), global_image_2.get_raw())
def test_write_image(self, dim_order, ranges, start, size):
descriptor = SubImageDescriptor.from_dict({
"filename": 'TestFileName',
"suffix": "SUFFIX",
"index": 0,
"data_type": "XXXX",
"template": [],
"dim_order": dim_order,
"ranges": ranges,
"file_format": "mhd",
"msb": "False",
"compression": [],
"voxel_size": [1, 1, 1]
})
file_factory = Mock()
out_file = Mock()
file_factory.create_write_file.return_value = out_file
# This test verifies that the read source supplied to the output file
# correctly converts from the file coordinate system to the global
# coordinate system
source = Mock()
dummy_image = create_dummy_image(len(size) * [20])
source.read_image.return_value = dummy_image
si = SubImage(descriptor, file_factory)
si.write_image(source, None)
# CoordinateTransforer is tested elsewhere.
transformer = CoordinateTransformer(descriptor.ranges.origin_start,
descriptor.ranges.image_size,
descriptor.axis)
local_start, local_size = transformer.to_local(start, size)
# Fetch the local data source provided to the file write method
local_data_source = out_file.write_image.call_args[0][0]
# Read from the local data source to trigger a read in the global source
input_image = local_data_source.read_image(local_start,
local_size).image
input_image = local_data_source.read_image(local_start,
local_size).image
# Get the arguments
test_start = source.read_image.call_args[0][0]
test_size = source.read_image.call_args[0][1]
np.testing.assert_array_equal(test_start, local_start)
np.testing.assert_array_equal(test_size, local_size)
def test_local_source(self, origin, global_size, dim_order, dim_flip, start, size):
transformer = CoordinateTransformer(origin, global_size, Axis(dim_order, dim_flip))
data_source = Mock()
test_image = create_dummy_image(global_size)
data_source.read_image.return_value = test_image
source = LocalSource(data_source, transformer)
local_image = source.read_image(start, size).image
global_start, t_global_size = transformer.to_global(start, size)
np.testing.assert_array_equal(data_source.read_image.call_args[0][0],
start)
np.testing.assert_array_equal(data_source.read_image.call_args[0][1],
size)
self.assertEqual(data_source.close.call_count, 0)
source.close()
self.assertEqual(data_source.close.call_count, 1)
global_image = transformer.image_to_global(local_image)
np.testing.assert_array_equal(local_image, test_image.image)
def global_coordinate_transformer(size):
return CoordinateTransformer(np.zeros_like(size), size, Axis(np.arange(0, len(size)), np.zeros_like(size)))