import copy import datetime import numpy import pytest from conftest import ANNOTATION_FILE_PATH, SURFACE_FILE_PATH from freesurfer_surface import ( Annotation, LineSegment, PolygonalCircuit, Surface, Triangle, Vertex, setlocale, ) # pylint: disable=protected-access def test_read_triangular(): surface = Surface.read_triangular(SURFACE_FILE_PATH) assert surface.creator == b"fabianpeter" assert surface.creation_datetime == datetime.datetime(2019, 5, 9, 22, 37, 41) assert len(surface.vertices) == 155622 assert len(surface.triangles) == 311240 assert not surface.using_old_real_ras assert surface.volume_geometry_info == ( b"valid = 1 # volume info valid\n", b"filename = ../mri/filled-pretess255.mgz\n", b"volume = 256 256 256\n", b"voxelsize = 1.000000000000000e+00 1.000000000000000e+00 1.000000000000000e+00\n", b"xras = -1.000000000000000e+00 0.000000000000000e+00 1.862645149230957e-09\n", b"yras = 0.000000000000000e+00 -6.655682227574289e-09 -1.000000000000000e+00\n", b"zras = 0.000000000000000e+00 1.000000000000000e+00 -8.300048648379743e-09\n", b"cras = -2.773597717285156e+00 1.566547393798828e+01 -7.504364013671875e+00\n", ) assert surface.command_lines == [ b"mris_remove_intersection ../surf/lh.orig ../surf/lh.orig" b" ProgramVersion: $Name: stable6 $" b" TimeStamp: 2019/05/09-17:42:36-GMT" b" BuildTimeStamp: Jan 18 2017 16:38:58" b" CVS: $Id: mris_remove_intersection.c,v 1.6 2011/03/02 00:04:32 nicks Exp $" b" User: fabianpeter" b" Machine: host12345" b" Platform: Linux" b" PlatformVersion: 4.15.0-46-generic" b" CompilerName: GCC" b" CompilerVersion: 40400" b" ", b"mris_make_surfaces -orig_white white.preaparc -orig_pial white.preaparc" b" -aseg ../mri/aseg.presurf -mgz -T1 brain.finalsurfs" b" fabian20190509 lh ProgramVersion: $Name: $" b" TimeStamp: 2019/05/09-20:27:28-GMT" b" BuildTimeStamp: Jan 18 2017 16:38:58" b" CVS: $Id: mris_make_surfaces.c,v 1.164.2.4 2016/12/13 22:26:32 zkaufman Exp $" b" User: fabianpeter" b" Machine: host12345" b" Platform: Linux" b" PlatformVersion: 4.15.0-46-generic" b" CompilerName: GCC" b" CompilerVersion: 40400" b" ", ] def test_read_triangular_locale(): with setlocale("de_AT.utf8"): surface = Surface.read_triangular(SURFACE_FILE_PATH) assert surface.creation_datetime == datetime.datetime(2019, 5, 9, 22, 37, 41) @pytest.mark.parametrize( ("creation_datetime", "expected_str"), [ (datetime.datetime(2019, 5, 9, 22, 37, 41), b"Thu May 9 22:37:41 2019"), (datetime.datetime(2019, 4, 24, 23, 29, 22), b"Wed Apr 24 23:29:22 2019"), ], ) def test_triangular_strftime(creation_datetime, expected_str): # pylint: disable=protected-access assert expected_str == Surface._triangular_strftime(creation_datetime) def test_read_write_triangular_same(tmpdir): surface = Surface.read_triangular(SURFACE_FILE_PATH) output_path = tmpdir.join("surface").strpath surface.write_triangular(output_path, creation_datetime=surface.creation_datetime) with open(output_path, "rb") as output_file: with open(SURFACE_FILE_PATH, "rb") as expected_file: assert expected_file.read() == output_file.read() def test_read_write_datetime(tmpdir): surface = Surface.read_triangular(SURFACE_FILE_PATH) original_creation_datetime = surface.creation_datetime output_path = tmpdir.join("surface").strpath surface.write_triangular(output_path) assert original_creation_datetime == surface.creation_datetime new_surface = Surface.read_triangular(output_path) assert new_surface.creation_datetime > original_creation_datetime assert datetime.datetime.now() > new_surface.creation_datetime assert ( datetime.datetime.now() - new_surface.creation_datetime ) < datetime.timedelta(seconds=20) def test_write_read_triangular_same(tmpdir): expected_surface = Surface() expected_surface.creator = b"pytest" expected_surface.creation_datetime = datetime.datetime.now().replace(microsecond=0) expected_surface.vertices = [ Vertex(0.0, 0.0, 0.0), Vertex(1.0, 2.0, 3.0), Vertex(2.0, 4.0, 6.0), Vertex(3.0, 5.0, 7.0), ] expected_surface.triangles = [ Triangle((0, 1, 2)), Triangle((0, 1, 3)), Triangle((3, 2, 1)), ] expected_surface.using_old_real_ras = False expected_surface.volume_geometry_info = tuple(b"?\n" for _ in range(8)) expected_surface.command_lines = [b"?", b"!"] output_path = tmpdir.join("surface").strpath expected_surface.write_triangular( output_path, creation_datetime=expected_surface.creation_datetime ) resulted_surface = Surface.read_triangular(output_path) assert numpy.array_equal(expected_surface.vertices, resulted_surface.vertices) expected_surface.vertices = resulted_surface.vertices = [] assert vars(expected_surface) == vars(resulted_surface) def test_write_triangular_same_locale(tmpdir): surface = Surface() surface.creator = b"pytest" surface.volume_geometry_info = tuple(b"?" for _ in range(8)) creation_datetime = datetime.datetime(2018, 12, 31, 21, 42) output_path = tmpdir.join("surface").strpath with setlocale("de_AT.utf8"): surface.write_triangular(output_path, creation_datetime=creation_datetime) resulted_surface = Surface.read_triangular(output_path) assert resulted_surface.creation_datetime == creation_datetime with open(output_path, "rb") as output_file: assert ( output_file.read() .split(b" on ")[1] .startswith(b"Mon Dec 31 21:42:00 2018\n") ) def test_load_annotation(): surface = Surface.read_triangular(SURFACE_FILE_PATH) assert not surface.annotation surface.load_annotation_file(ANNOTATION_FILE_PATH) assert isinstance(surface.annotation, Annotation) assert len(surface.annotation.vertex_label_index) == 155622 assert surface.annotation.vertex_label_index[0] == 5 def test_add_vertex(): surface = Surface() assert not surface.vertices assert surface.add_vertex(Vertex(1.0, 1.5, 2.0)) == 0 assert len(surface.vertices) == 1 assert surface.vertices[0].anterior == pytest.approx(1.5) assert surface.add_vertex(Vertex(-3.0, 0.0, 4.0)) == 1 assert len(surface.vertices) == 2 assert surface.vertices[1].right == pytest.approx(-3.0) @pytest.mark.parametrize( "vertices_coords", [ ((0, 0, 0), (2, 4, 0), (2, 4, 3)), ((0, 0, 0), (2, 4, 0), (2, 4, 3), (0, 0, 3)), ((1, 1, 0), (3, 5, 0), (3, 5, 3), (1, 1, 3)), ((1, 1, 7), (3, 5, 7), (3, 5, 3), (1, 1, 3)), ((1, 1, 1), (3, 5, 7), (3, 5, 9), (1, 1, 3)), ((3, 5, 7), (1, 1, 1), (1, 1, 3)), ((3, 5, 7), (1, 1, 1), (1, 1, 3), (3, 5, 9)), ], ) def test_add_rectangle(vertices_coords): surface = Surface() for vertex_coords in vertices_coords: surface.add_vertex(Vertex(*(float(c) for c in vertex_coords))) surface.add_rectangle(range(len(vertices_coords))) assert len(surface.vertices) == 4 assert len(surface.triangles) == 2 assert surface.triangles[0].vertex_indices == (0, 1, 2) assert surface.triangles[1].vertex_indices == (2, 3, 0) @pytest.mark.parametrize( ("vertices_coords", "expected_extra_vertex_coords"), [ (((0, 0, 0), (2, 4, 0), (2, 4, 3)), (0, 0, 3)), (((1, 1, 0), (3, 5, 0), (3, 5, 3)), (1, 1, 3)), (((1, 1, 7), (3, 5, 7), (3, 5, 3)), (1, 1, 3)), (((1, 1, 1), (3, 5, 7), (3, 5, 9)), (1, 1, 3)), (((3, 5, 7), (1, 1, 1), (1, 1, 3)), (3, 5, 9)), ], ) def test_add_rectangle_3(vertices_coords, expected_extra_vertex_coords): surface = Surface() for vertex_coords in vertices_coords: surface.add_vertex(Vertex(*(float(c) for c in vertex_coords))) surface.add_rectangle(range(3)) assert tuple(surface.vertices[3]) == pytest.approx(expected_extra_vertex_coords) def test__triangle_count_by_adjacent_vertex_indices_empty(): surface = Surface() assert surface._triangle_count_by_adjacent_vertex_indices() == {} def test__triangle_count_by_adjacent_vertex_indices_none(): surface = Surface() surface.vertices.append(Vertex(1, 0, 0)) surface.vertices.append(Vertex(2, 0, 0)) surface.vertices.append(Vertex(3, 0, 0)) assert surface._triangle_count_by_adjacent_vertex_indices() == {0: {}, 1: {}, 2: {}} def test__triangle_count_by_adjacent_vertex_indices_single(): surface = Surface() surface.triangles.append( Triangle([surface.add_vertex(Vertex(i, 0, 0)) for i in range(3)]) ) assert surface._triangle_count_by_adjacent_vertex_indices() == { 0: {1: 1, 2: 1}, 1: {0: 1, 2: 1}, 2: {0: 1, 1: 1}, } def test__triangle_count_by_adjacent_vertex_indices_multiple(): surface = Surface() for i in range(5): surface.add_vertex(Vertex(i, 0, 0)) surface.triangles.append(Triangle((0, 1, 2))) surface.triangles.append(Triangle((3, 1, 2))) assert surface._triangle_count_by_adjacent_vertex_indices() == { 0: {1: 1, 2: 1}, 1: {0: 1, 2: 2, 3: 1}, 2: {0: 1, 1: 2, 3: 1}, 3: {1: 1, 2: 1}, 4: {}, } surface.triangles.append(Triangle((3, 4, 2))) assert surface._triangle_count_by_adjacent_vertex_indices() == { 0: {1: 1, 2: 1}, 1: {0: 1, 2: 2, 3: 1}, 2: {0: 1, 1: 2, 3: 2, 4: 1}, 3: {1: 1, 2: 2, 4: 1}, 4: {2: 1, 3: 1}, } surface.triangles.append(Triangle((3, 0, 2))) assert surface._triangle_count_by_adjacent_vertex_indices() == { 0: {1: 1, 2: 2, 3: 1}, 1: {0: 1, 2: 2, 3: 1}, 2: {0: 2, 1: 2, 3: 3, 4: 1}, 3: {0: 1, 1: 1, 2: 3, 4: 1}, 4: {2: 1, 3: 1}, } def test__triangle_count_by_adjacent_vertex_indices_real(): surface = Surface.read_triangular(SURFACE_FILE_PATH) counts = surface._triangle_count_by_adjacent_vertex_indices() assert len(counts) == len(surface.vertices) assert all(counts.values()) assert all( count == 2 for vertex_counts in counts.values() for count in vertex_counts.values() ) assert ( sum( count for vertex_counts in counts.values() for count in vertex_counts.values() ) == len(surface.triangles) * 6 ) def test_find_borders_none(): surface = Surface.read_triangular(SURFACE_FILE_PATH) assert not list(surface.find_borders()) def test_find_borders_single(): surface = Surface.read_triangular(SURFACE_FILE_PATH) single_index = surface.add_vertex(Vertex(0, 21, 42)) borders = list(surface.find_borders()) assert len(borders) == 1 assert borders[0] == PolygonalCircuit((single_index,)) def test_find_borders_singles(): surface = Surface.read_triangular(SURFACE_FILE_PATH) single_indices = [surface.add_vertex(Vertex(i, 21, 42)) for i in range(3)] borders = set(surface.find_borders()) assert len(borders) == 3 assert PolygonalCircuit((single_indices[0],)) in borders assert PolygonalCircuit((single_indices[1],)) in borders assert PolygonalCircuit((single_indices[2],)) in borders def test_find_borders_single_triangle_simple(): surface = Surface() vertex_indices = [surface.add_vertex(Vertex(i, 21, 42)) for i in range(3)] surface.triangles.append(Triangle(vertex_indices)) borders = set(surface.find_borders()) assert len(borders) == 1 assert PolygonalCircuit(vertex_indices) in borders def test_find_borders_single_triangle_real(): surface = Surface.read_triangular(SURFACE_FILE_PATH) vertex_indices = [surface.add_vertex(Vertex(i, 21, 42)) for i in range(3)] surface.triangles.append(Triangle(vertex_indices)) borders = set(surface.find_borders()) assert len(borders) == 1 assert PolygonalCircuit(vertex_indices) in borders def test_find_borders_remove_triangle(): surface = Surface.read_triangular(SURFACE_FILE_PATH) triangle = surface.triangles.pop() borders = set(surface.find_borders()) assert len(borders) == 1 assert triangle in borders def test_find_borders_remove_non_adjacent_triangles(): surface = Surface.read_triangular(SURFACE_FILE_PATH) triangles = [surface.triangles.pop(), surface.triangles.pop()] borders = set(surface.find_borders()) assert len(borders) == 2 assert triangles[0] in borders assert triangles[1] in borders def test_find_borders_remove_adjacent_triangles(): surface = Surface.read_triangular(SURFACE_FILE_PATH) triangles = [surface.triangles.pop(), surface.triangles.pop()] triangles.append(surface.triangles.pop(270682)) assert triangles[1] == Triangle((136141, 136142, 137076)) assert triangles[2] == Triangle((136141, 136142, 135263)) borders = set(surface.find_borders()) assert len(borders) == 2 assert triangles[0] in borders assert PolygonalCircuit((137076, 136141, 135263, 136142)) in borders surface.triangles.pop(270682) borders = set(surface.find_borders()) assert len(borders) == 2 assert triangles[0] in borders assert PolygonalCircuit((137076, 136141, 135263, 135264, 136142)) in borders surface.triangles.pop(274320) borders = set(surface.find_borders()) assert len(borders) == 2 assert PolygonalCircuit((136143, 138007, 138008, 137078)) in borders assert PolygonalCircuit((137076, 136141, 135263, 135264, 136142)) in borders @pytest.mark.parametrize( ("label_name", "expected_border_lens"), [ ("precentral", [416]), ("postcentral", [395]), ("medialorbitofrontal", [6, 246]), # ...--2343 2347 # \ / \ # 2345 2348 # / \ / # ...--2344 2346 ("posteriorcingulate", [4, 190]), ("unknown", [3, 390]), ], ) def test_find_borders_real(label_name, expected_border_lens): surface = Surface.read_triangular(SURFACE_FILE_PATH) surface.load_annotation_file(ANNOTATION_FILE_PATH) (label,) = filter( lambda l: l.name == label_name, surface.annotation.labels.values() ) surface.triangles = list( filter( lambda t: all( surface.annotation.vertex_label_index[vertex_idx] == label.index for vertex_idx in t.vertex_indices ), surface.triangles, ) ) surface.remove_unused_vertices() borders = list(surface.find_borders()) border_lens = [len(b.vertex_indices) for b in borders] # self-crossing borders may or may not be split into # separate polygonal circuits assert sorted(border_lens) == expected_border_lens or sum(border_lens) == sum( expected_border_lens ) def test__get_vertex_label_index(): surface = Surface.read_triangular(SURFACE_FILE_PATH) surface.load_annotation_file(ANNOTATION_FILE_PATH) # pylint: disable=protected-access assert surface._get_vertex_label_index(64290) == 22 assert surface._get_vertex_label_index(72160) == 22 assert surface._get_vertex_label_index(84028) == 24 assert surface._get_vertex_label_index(97356) == 24 assert surface._get_vertex_label_index(123173) == 27 assert surface._get_vertex_label_index(140727) == 27 assert surface._get_vertex_label_index(93859) == 28 assert surface._get_vertex_label_index(78572) == 0 assert surface._get_vertex_label_index(120377) == 0 vertex_index = surface.add_vertex(Vertex(0.0, 21.0, 42.0)) assert surface._get_vertex_label_index(vertex_index) is None del surface.annotation.vertex_label_index[140727] assert surface._get_vertex_label_index(140727) is None def test__find_label_border_segments(): surface = Surface.read_triangular(SURFACE_FILE_PATH) surface.load_annotation_file(ANNOTATION_FILE_PATH) (precentral_label,) = filter( lambda l: l.name == "precentral", surface.annotation.labels.values() ) # pylint: disable=protected-access border_segments = set(surface._find_label_border_segments(precentral_label)) assert len(border_segments) == 417 assert LineSegment((33450, 32065)) in border_segments assert LineSegment((33454, 33450)) in border_segments for border_vertex_index in [33450, 33454, 32065]: assert ( surface.annotation.vertex_label_index[border_vertex_index] == precentral_label.index ) for other_vertex_index in [32064, 33449, 33455, 33449, 33455]: assert ( LineSegment((other_vertex_index, border_vertex_index)) not in border_segments ) assert ( LineSegment((border_vertex_index, other_vertex_index)) not in border_segments ) def test__find_label_border_segments_incomplete_annotation(): surface = Surface.read_triangular(SURFACE_FILE_PATH) surface.load_annotation_file(ANNOTATION_FILE_PATH) (precentral_label,) = filter( lambda l: l.name == "precentral", surface.annotation.labels.values() ) # pylint: disable=protected-access assert surface._find_label_border_segments(precentral_label) surface.triangles.append( Triangle( [ surface.add_vertex(Vertex(0.0, 21.0 * factor, 42.0 * factor)) for factor in range(3) ] ) ) border_segments = set(surface._find_label_border_segments(precentral_label)) assert len(border_segments) == 417 def test_find_label_border_polygonal_chains(): surface = Surface.read_triangular(SURFACE_FILE_PATH) surface.load_annotation_file(ANNOTATION_FILE_PATH) (precentral_label,) = filter( lambda l: l.name == "precentral", surface.annotation.labels.values() ) (border_chain,) = surface.find_label_border_polygonal_chains(precentral_label) vertex_indices = list(border_chain.vertex_indices) assert len(vertex_indices) == 418 min_index = vertex_indices.index(min(vertex_indices)) vertex_indices_normalized = vertex_indices[min_index:] + vertex_indices[:min_index] assert vertex_indices_normalized[:4] == [32065, 32072, 32073, 32080] assert vertex_indices_normalized[-4:] == [36281, 34870, 33454, 33450] def test__unused_vertices(): surface = Surface() assert not surface._unused_vertices() for i in range(4): surface.add_vertex(Vertex(i, i, i)) assert surface._unused_vertices() == {0, 1, 2, 3} surface.triangles.append(Triangle((0, 2, 3))) assert surface._unused_vertices() == {1} surface.triangles.append(Triangle((0, 3, 1))) assert not surface._unused_vertices() del surface.triangles[0] assert surface._unused_vertices() == {2} def test__unused_vertices_real(): surface = Surface.read_triangular(SURFACE_FILE_PATH) assert not surface._unused_vertices() surface.triangles = list( filter(lambda t: 42 not in t.vertex_indices, surface.triangles) ) assert surface._unused_vertices() == {42} def test_remove_unused_vertices_all(): surface = Surface() for i in range(5): surface.add_vertex(Vertex(i, i, i)) assert len(surface.vertices) == 5 surface.remove_unused_vertices() assert not surface.vertices surface.remove_unused_vertices() assert not surface.vertices def test_remove_unused_vertices_almost_all(): surface = Surface() for i in range(5): surface.add_vertex(Vertex(i, i, i)) assert len(surface.vertices) == 5 surface.triangles.append(Triangle((0, 2, 3))) surface.remove_unused_vertices() assert len(surface.vertices) == 3 assert surface.vertices[0] == pytest.approx(Vertex(0, 0, 0)) assert surface.vertices[1] == pytest.approx(Vertex(2, 2, 2)) assert surface.vertices[2] == pytest.approx(Vertex(3, 3, 3)) assert len(surface.triangles) == 1 assert surface.triangles[0] == Triangle((0, 1, 2)) del surface.triangles[0] surface.remove_unused_vertices() assert not surface.vertices def test_remove_unused_vertices_some(): surface = Surface() for i in range(9): surface.add_vertex(Vertex(i, i, i)) surface.triangles.append(Triangle((0, 2, 3))) surface.triangles.append(Triangle((3, 4, 5))) surface.triangles.append(Triangle((3, 2, 5))) surface.triangles.append(Triangle((3, 2, 8))) surface.remove_unused_vertices() assert len(surface.vertices) == 6 assert surface.vertices[0] == pytest.approx(Vertex(0, 0, 0)) assert surface.vertices[1] == pytest.approx(Vertex(2, 2, 2)) assert surface.vertices[2] == pytest.approx(Vertex(3, 3, 3)) assert surface.vertices[3] == pytest.approx(Vertex(4, 4, 4)) assert surface.vertices[4] == pytest.approx(Vertex(5, 5, 5)) assert surface.vertices[5] == pytest.approx(Vertex(8, 8, 8)) assert len(surface.triangles) == 4 assert surface.triangles[0] == Triangle((0, 1, 2)) assert surface.triangles[1] == Triangle((2, 3, 4)) assert surface.triangles[2] == Triangle((2, 1, 4)) assert surface.triangles[3] == Triangle((2, 1, 5)) surface.remove_unused_vertices() assert len(surface.triangles) == 4 def test_remove_unused_vertices_none(): surface = Surface.read_triangular(SURFACE_FILE_PATH) assert len(surface.vertices) == 155622 assert len(surface.triangles) == 311240 surface.remove_unused_vertices() assert len(surface.vertices) == 155622 assert len(surface.triangles) == 311240 def test_remove_unused_vertices_single(): surface = Surface.read_triangular(SURFACE_FILE_PATH) assert len(surface.vertices) == 155622 assert len(surface.triangles) == 311240 assert surface.triangles[-1] == Triangle((136143, 138007, 137078)) surface.triangles = list( filter(lambda t: 42 not in t.vertex_indices, surface.triangles) ) assert surface._unused_vertices() == {42} surface.remove_unused_vertices() assert len(surface.vertices) == 155622 - 1 assert len(surface.triangles) == 311240 - 7 assert surface.triangles[-1] == Triangle((136142, 138006, 137077)) assert all( vertex_index < len(surface.vertices) for triangle in surface.triangles for vertex_index in triangle.vertex_indices ) def test_select_vertices(): surface = Surface() for i in range(4): surface.add_vertex(Vertex(i, i, i)) assert numpy.allclose( surface.select_vertices([2, 1]), [surface.vertices[2], surface.vertices[1]] ) assert numpy.allclose( surface.select_vertices([3, 2]), [surface.vertices[3], surface.vertices[2]] ) assert numpy.allclose(surface.select_vertices((3, 2)), [[3, 3, 3], [2, 2, 2]]) assert numpy.allclose( surface.select_vertices(filter(lambda i: i % 2 == 1, range(4))), [[1, 1, 1], [3, 3, 3]], ) def test_unite_2(): surface_a = Surface() for i in range(0, 4): surface_a.add_vertex(Vertex(i, i, i)) surface_a.triangles.append(Triangle((0, 1, 2))) surface_a.triangles.append(Triangle((1, 2, 3))) surface_b = Surface() for i in range(10, 14): surface_b.add_vertex(Vertex(i, i, i)) surface_b.triangles.append(Triangle((0, 1, 3))) surface_a_copy = copy.deepcopy(surface_a) surface_b_copy = copy.deepcopy(surface_b) union = Surface.unite([surface_a, surface_b]) assert numpy.allclose(surface_a.vertices, surface_a_copy.vertices) assert numpy.allclose(surface_b.vertices, surface_b_copy.vertices) assert numpy.allclose(union.vertices[:4], surface_a.vertices) assert numpy.allclose(union.vertices[4:], surface_b.vertices) assert surface_a.triangles == surface_a_copy.triangles assert surface_b.triangles == surface_b_copy.triangles assert union.triangles[:2] == surface_a.triangles assert union.triangles[2:] == [Triangle((4, 5, 7))] def test_unite_3(): surface_a = Surface() for i in range(0, 4): surface_a.add_vertex(Vertex(i, i, i)) surface_a.triangles.append(Triangle((0, 1, 2))) surface_a.triangles.append(Triangle((1, 2, 3))) surface_b = Surface() for i in range(10, 14): surface_b.add_vertex(Vertex(i, i, i)) surface_b.triangles.append(Triangle((0, 1, 3))) surface_c = Surface() for i in range(20, 23): surface_c.add_vertex(Vertex(i, i, i)) surface_c.triangles.append(Triangle((0, 1, 2))) surface_c.triangles.append(Triangle((0, 1, 2))) union = Surface.unite(filter(None, [surface_a, surface_b, surface_c])) assert numpy.allclose(union.vertices[:4], surface_a.vertices) assert numpy.allclose(union.vertices[4:8], surface_b.vertices) assert numpy.allclose(union.vertices[8:], surface_c.vertices) assert union.triangles[:2] == surface_a.triangles assert union.triangles[2:3] == [Triangle((4, 5, 7))] assert union.triangles[3:] == [Triangle((8, 9, 10)), Triangle((8, 9, 10))] def test_unite_real(): surface_a = Surface.read_triangular(SURFACE_FILE_PATH) surface_b = Surface() for i in range(5): surface_b.add_vertex(Vertex(i, i, i)) surface_b.triangles.append(Triangle((0, 1, 3))) surface_b.triangles.append(Triangle((1, 3, 4))) union = Surface.unite((surface_a, surface_b)) assert numpy.allclose(union.vertices[:-5], surface_a.vertices) assert numpy.allclose(union.vertices[-5:], surface_b.vertices) assert union.triangles[:-2] == surface_a.triangles assert union.triangles[-2:] == [ Triangle((155622, 155623, 155625)), Triangle((155623, 155625, 155626)), ] assert union.creator == surface_a.creator assert union.creation_datetime == surface_a.creation_datetime assert union.using_old_real_ras == surface_a.using_old_real_ras assert union.volume_geometry_info == surface_a.volume_geometry_info assert union.command_lines == surface_a.command_lines assert union.annotation == surface_a.annotation