def test_model(self): frame_shape = (10, 20, 30) frame = scarlet.Frame(frame_shape) shape = (5, 4, 6) on_location = (1, 2, 3) sed = np.zeros(shape[0]) sed[on_location[0]] = 1 fparams = np.array(on_location[1:]) def f(*params): morph = np.zeros(shape[1:]) morph[tuple(params)] = 1 return morph sed = scarlet.Parameter(sed) fparams = scarlet.Parameter(fparams) origin = (2, 3, 4) bbox = scarlet.Box(shape, origin=origin) component = scarlet.FunctionComponent(frame, sed, fparams, f, bbox=bbox) model = component.get_model() # everything zero except at one location? test_loc = tuple(np.array(on_location) + np.array(origin)) mask = np.zeros(model.shape, dtype='bool') mask[test_loc] = True assert_array_equal(model[~mask], 0) assert model[test_loc] == 1
def test_model(self): frame_shape = (10, 20, 30) frame = scarlet.Frame(frame_shape) shape = (5, 4, 6) on_location = (1, 2, 3) sed = np.zeros(shape[0]) sed[on_location[0]] = 1 morph = np.zeros(shape[1:]) morph[on_location[1:]] = 1 sed = scarlet.Parameter(sed) morph = scarlet.Parameter(morph) origin = (2, 3, 4) bbox = scarlet.Box(shape, origin=origin) component = scarlet.FactorizedComponent(frame, sed, morph, bbox=bbox) model = component.get_model() # everything zero except at one location? test_loc = tuple(np.array(on_location) + np.array(origin)) mask = np.zeros(model.shape, dtype='bool') mask[test_loc] = True assert_array_equal(model[~mask], 0) assert model[test_loc] == 1 # now with shift shift_loc = (0, 1, 0) shift = scarlet.Parameter(np.array(shift_loc[1:])) component = scarlet.FactorizedComponent(frame, sed, morph, shift=shift, bbox=bbox) model = component.get_model() # everything zero except at one location? test_loc = tuple( np.array(on_location) + np.array(origin) + np.array(shift_loc)) mask = np.zeros(model.shape, dtype='bool') mask[test_loc] = True assert_almost_equal(model[~mask], 0) assert_almost_equal(model[test_loc], 1)
def test_model(self): frame_shape = (10, 20, 30) frame = scarlet.Frame(frame_shape) shape = (5, 4, 6) on_location = (1, 2, 3) cube = np.zeros(shape) cube[on_location] = 1 cube = scarlet.Parameter(cube) origin1 = (2, 3, 4) bbox1 = scarlet.Box(shape, origin=origin1) component1 = scarlet.CubeComponent(frame, cube, bbox=bbox1) sed = np.zeros(shape[0]) sed[on_location[0]] = 1 morph = np.zeros(shape[1:]) morph[on_location[1:]] = 1 sed = scarlet.Parameter(sed) morph = scarlet.Parameter(morph) origin2 = (5, 6, 7) bbox2 = scarlet.Box(shape, origin=origin2) component2 = scarlet.FactorizedComponent(frame, sed, morph, bbox=bbox2) tree = scarlet.ComponentTree([component1, component2]) model = tree.get_model() # everything zero except at one location? test_locs = [ tuple(np.array(on_location) + np.array(origin1)), tuple(np.array(on_location) + np.array(origin2)) ] mask = np.zeros(model.shape, dtype='bool') for test_loc in test_locs: mask[test_loc] = True assert_array_equal(model[~mask], 0) assert_array_equal(model[mask], 1)
def test_model(self): frame_shape = (10, 20, 30) frame = scarlet.Frame(frame_shape, channels=np.arange(10)) shape = (5, 4, 6) on_location = (1, 2, 3) sed = np.zeros(shape[0]) sed[on_location[0]] = 1 morph = np.zeros(shape[1:]) morph[on_location[1:]] = 1 origin = (2, 3, 4) box = scarlet.Box(shape, origin=origin) spectrum = scarlet.TabulatedSpectrum(frame, sed, bbox=box[0]) morphology = scarlet.ImageMorphology(frame, morph, bbox=box[1:]) component = scarlet.FactorizedComponent(frame, spectrum, morphology) model = component.get_model(frame=frame) # everything zero except at one location? test_loc = tuple(np.array(on_location) + np.array(origin)) mask = np.zeros(model.shape, dtype="bool") mask[test_loc] = True assert_array_equal(model[~mask], 0) assert model[test_loc] == 1 # now with shift shift_loc = (0, 1, 0) shift = scarlet.Parameter(np.array(shift_loc[1:]), step=0.1, name="shift") morphology = scarlet.ImageMorphology(frame, morph, bbox=box[1:], shift=shift) component = scarlet.FactorizedComponent(frame, spectrum, morphology) model = component.get_model(frame=frame) # everything zero except at one location? test_loc = tuple( np.array(on_location) + np.array(origin) + np.array(shift_loc)) mask = np.zeros(model.shape, dtype="bool") mask[test_loc] = True assert_almost_equal(model[~mask], 0) assert_almost_equal(model[test_loc], 1)
def test_model(self): frame_shape = (10, 20, 30) frame = scarlet.Frame(frame_shape) shape = (5, 4, 6) cube = np.zeros(shape) on_location = (1, 2, 3) cube[on_location] = 1 cube = scarlet.Parameter(cube) origin = (2, 3, 4) bbox = scarlet.Box(shape, origin=origin) component = scarlet.CubeComponent(frame, cube, bbox=bbox) model = component.get_model() # everything zero except at one location? test_loc = tuple(np.array(on_location) + np.array(origin)) mask = np.zeros(model.shape, dtype='bool') mask[test_loc] = True assert_array_equal(model[~mask], 0) assert model[test_loc] == 1
def test_model(self): frame_shape = (10, 20, 30) frame = scarlet.Frame(frame_shape, channels=np.arange(10)) shape = (5, 4, 6) origin = (2, 3, 4) box = scarlet.Box(shape, origin=origin) on_location1 = (1, 2, 3) cube = np.zeros(shape) cube[on_location1] = 1 cube = scarlet.Parameter(cube, name="cube") component1 = scarlet.CubeComponent(frame, cube, bbox=box) # make factorized component with a different origin on_location2 = (1, 1, 1) sed = np.zeros(shape[0]) sed[on_location2[0]] = 1 morph = np.zeros(shape[1:]) morph[on_location2[1:]] = 1 spectrum = scarlet.TabulatedSpectrum(frame, sed, bbox=box[0]) morphology = scarlet.ImageMorphology(frame, morph, bbox=box[1:]) component2 = scarlet.FactorizedComponent(frame, spectrum, morphology) combined = scarlet.CombinedComponent([component1, component2]) model = combined.get_model(frame=frame) # everything zero except at one location? test_locs = [ tuple(np.array(on_location1) + np.array(origin)), tuple(np.array(on_location2) + np.array(origin)), ] mask = np.zeros(model.shape, dtype="bool") for test_loc in test_locs: mask[test_loc] = True assert_array_equal(model[~mask], 0) assert_array_equal(model[mask], 1)
def __init__(self, model_frame, on_pixel, bbox=None): self._bbox = bbox self._on_pixel = scarlet.Parameter(on_pixel, step=1, name="on_pixel") super().__init__(model_frame, self._on_pixel, bbox=bbox)