diff options
Diffstat (limited to 'src/python/test/test_alpha_complex.py')
| -rwxr-xr-x | src/python/test/test_alpha_complex.py | 179 |
1 files changed, 118 insertions, 61 deletions
diff --git a/src/python/test/test_alpha_complex.py b/src/python/test/test_alpha_complex.py index 814f8289..f81e6137 100755 --- a/src/python/test/test_alpha_complex.py +++ b/src/python/test/test_alpha_complex.py @@ -8,10 +8,12 @@ - YYYY/MM Author: Description of the modification """ -import gudhi as gd +from gudhi import AlphaComplex import math import numpy as np import pytest +import warnings + try: # python3 from itertools import zip_longest @@ -19,22 +21,24 @@ except ImportError: # python2 from itertools import izip_longest as zip_longest -__author__ = "Vincent Rouvreau" -__copyright__ = "Copyright (C) 2016 Inria" -__license__ = "MIT" def _empty_alpha(precision): - alpha_complex = gd.AlphaComplex(points=[[0, 0]], precision = precision) + alpha_complex = AlphaComplex(precision = precision) + assert alpha_complex.__is_defined() == True + +def _one_2d_point_alpha(precision): + alpha_complex = AlphaComplex(points=[[0, 0]], precision = precision) assert alpha_complex.__is_defined() == True def test_empty_alpha(): for precision in ['fast', 'safe', 'exact']: _empty_alpha(precision) + _one_2d_point_alpha(precision) def _infinite_alpha(precision): point_list = [[0, 0], [1, 0], [0, 1], [1, 1]] - alpha_complex = gd.AlphaComplex(points=point_list, precision = precision) + alpha_complex = AlphaComplex(points=point_list, precision = precision) assert alpha_complex.__is_defined() == True simplex_tree = alpha_complex.create_simplex_tree() @@ -69,18 +73,9 @@ def _infinite_alpha(precision): assert point_list[1] == alpha_complex.get_point(1) assert point_list[2] == alpha_complex.get_point(2) assert point_list[3] == alpha_complex.get_point(3) - try: - alpha_complex.get_point(4) == [] - except IndexError: - pass - else: - assert False - try: - alpha_complex.get_point(125) == [] - except IndexError: - pass - else: - assert False + + with pytest.raises(IndexError): + alpha_complex.get_point(len(point_list)) def test_infinite_alpha(): for precision in ['fast', 'safe', 'exact']: @@ -88,7 +83,7 @@ def test_infinite_alpha(): def _filtered_alpha(precision): point_list = [[0, 0], [1, 0], [0, 1], [1, 1]] - filtered_alpha = gd.AlphaComplex(points=point_list, precision = precision) + filtered_alpha = AlphaComplex(points=point_list, precision = precision) simplex_tree = filtered_alpha.create_simplex_tree(max_alpha_square=0.25) @@ -99,18 +94,9 @@ def _filtered_alpha(precision): assert point_list[1] == filtered_alpha.get_point(1) assert point_list[2] == filtered_alpha.get_point(2) assert point_list[3] == filtered_alpha.get_point(3) - try: - filtered_alpha.get_point(4) == [] - except IndexError: - pass - else: - assert False - try: - filtered_alpha.get_point(125) == [] - except IndexError: - pass - else: - assert False + + with pytest.raises(IndexError): + filtered_alpha.get_point(len(point_list)) assert list(simplex_tree.get_filtration()) == [ ([0], 0.0), @@ -141,10 +127,10 @@ def _safe_alpha_persistence_comparison(precision): embedding2 = [[signal[i], delayed[i]] for i in range(len(time))] #build alpha complex and simplex tree - alpha_complex1 = gd.AlphaComplex(points=embedding1, precision = precision) + alpha_complex1 = AlphaComplex(points=embedding1, precision = precision) simplex_tree1 = alpha_complex1.create_simplex_tree() - alpha_complex2 = gd.AlphaComplex(points=embedding2, precision = precision) + alpha_complex2 = AlphaComplex(points=embedding2, precision = precision) simplex_tree2 = alpha_complex2.create_simplex_tree() diag1 = simplex_tree1.persistence() @@ -162,7 +148,7 @@ def test_safe_alpha_persistence_comparison(): def _delaunay_complex(precision): point_list = [[0, 0], [1, 0], [0, 1], [1, 1]] - filtered_alpha = gd.AlphaComplex(points=point_list, precision = precision) + filtered_alpha = AlphaComplex(points=point_list, precision = precision) simplex_tree = filtered_alpha.create_simplex_tree(default_filtration_value = True) @@ -173,18 +159,11 @@ def _delaunay_complex(precision): assert point_list[1] == filtered_alpha.get_point(1) assert point_list[2] == filtered_alpha.get_point(2) assert point_list[3] == filtered_alpha.get_point(3) - try: - filtered_alpha.get_point(4) == [] - except IndexError: - pass - else: - assert False - try: - filtered_alpha.get_point(125) == [] - except IndexError: - pass - else: - assert False + + with pytest.raises(IndexError): + filtered_alpha.get_point(4) + with pytest.raises(IndexError): + filtered_alpha.get_point(125) for filtered_value in simplex_tree.get_filtration(): assert math.isnan(filtered_value[1]) @@ -198,7 +177,13 @@ def test_delaunay_complex(): _delaunay_complex(precision) def _3d_points_on_a_plane(precision, default_filtration_value): - alpha = gd.AlphaComplex(off_file='alphacomplexdoc.off', precision = precision) + alpha = AlphaComplex(points = [[1.0, 1.0 , 0.0], + [7.0, 0.0 , 0.0], + [4.0, 6.0 , 0.0], + [9.0, 6.0 , 0.0], + [0.0, 14.0, 0.0], + [2.0, 19.0, 0.0], + [9.0, 17.0, 0.0]], precision = precision) simplex_tree = alpha.create_simplex_tree(default_filtration_value = default_filtration_value) assert simplex_tree.dimension() == 2 @@ -206,28 +191,16 @@ def _3d_points_on_a_plane(precision, default_filtration_value): assert simplex_tree.num_simplices() == 25 def test_3d_points_on_a_plane(): - off_file = open("alphacomplexdoc.off", "w") - off_file.write("OFF \n" \ - "7 0 0 \n" \ - "1.0 1.0 0.0\n" \ - "7.0 0.0 0.0\n" \ - "4.0 6.0 0.0\n" \ - "9.0 6.0 0.0\n" \ - "0.0 14.0 0.0\n" \ - "2.0 19.0 0.0\n" \ - "9.0 17.0 0.0\n" ) - off_file.close() - for default_filtration_value in [True, False]: for precision in ['fast', 'safe', 'exact']: _3d_points_on_a_plane(precision, default_filtration_value) def _3d_tetrahedrons(precision): points = 10*np.random.rand(10, 3) - alpha = gd.AlphaComplex(points=points, precision = precision) + alpha = AlphaComplex(points = points, precision = precision) st_alpha = alpha.create_simplex_tree(default_filtration_value = False) # New AlphaComplex for get_point to work - delaunay = gd.AlphaComplex(points=points, precision = precision) + delaunay = AlphaComplex(points = points, precision = precision) st_delaunay = delaunay.create_simplex_tree(default_filtration_value = True) delaunay_tetra = [] @@ -256,3 +229,87 @@ def _3d_tetrahedrons(precision): def test_3d_tetrahedrons(): for precision in ['fast', 'safe', 'exact']: _3d_tetrahedrons(precision) + +def test_off_file_deprecation_warning(): + off_file = open("alphacomplexdoc.off", "w") + off_file.write("OFF \n" \ + "7 0 0 \n" \ + "1.0 1.0 0.0\n" \ + "7.0 0.0 0.0\n" \ + "4.0 6.0 0.0\n" \ + "9.0 6.0 0.0\n" \ + "0.0 14.0 0.0\n" \ + "2.0 19.0 0.0\n" \ + "9.0 17.0 0.0\n" ) + off_file.close() + + with pytest.warns(DeprecationWarning): + alpha = AlphaComplex(off_file="alphacomplexdoc.off") + +def test_non_existing_off_file(): + with pytest.warns(DeprecationWarning): + with pytest.raises(FileNotFoundError): + alpha = AlphaComplex(off_file="pouetpouettralala.toubiloubabdou") + +def test_inconsistency_points_and_weights(): + points = [[1.0, 1.0 , 0.0], + [7.0, 0.0 , 0.0], + [4.0, 6.0 , 0.0], + [9.0, 6.0 , 0.0], + [0.0, 14.0, 0.0], + [2.0, 19.0, 0.0], + [9.0, 17.0, 0.0]] + with pytest.raises(ValueError): + # 7 points, 8 weights, on purpose + alpha = AlphaComplex(points = points, + weights = [1., 2., 3., 4., 5., 6., 7., 8.]) + + with pytest.raises(ValueError): + # 7 points, 6 weights, on purpose + alpha = AlphaComplex(points = points, + weights = [1., 2., 3., 4., 5., 6.]) + +def _weighted_doc_example(precision): + stree = AlphaComplex(points=[[ 1., -1., -1.], + [-1., 1., -1.], + [-1., -1., 1.], + [ 1., 1., 1.], + [ 2., 2., 2.]], + weights = [4., 4., 4., 4., 1.], + precision = precision).create_simplex_tree() + + assert stree.filtration([0, 1, 2, 3]) == pytest.approx(-1.) + assert stree.filtration([0, 1, 3, 4]) == pytest.approx(95.) + assert stree.filtration([0, 2, 3, 4]) == pytest.approx(95.) + assert stree.filtration([1, 2, 3, 4]) == pytest.approx(95.) + +def test_weighted_doc_example(): + for precision in ['fast', 'safe', 'exact']: + _weighted_doc_example(precision) + +def test_float_relative_precision(): + assert AlphaComplex.get_float_relative_precision() == 1e-5 + # Must be > 0. + with pytest.raises(ValueError): + AlphaComplex.set_float_relative_precision(0.) + # Must be < 1. + with pytest.raises(ValueError): + AlphaComplex.set_float_relative_precision(1.) + + points = [[1, 1], [7, 0], [4, 6], [9, 6], [0, 14], [2, 19], [9, 17]] + st = AlphaComplex(points=points).create_simplex_tree() + filtrations = list(st.get_filtration()) + + # Get a better precision + AlphaComplex.set_float_relative_precision(1e-15) + assert AlphaComplex.get_float_relative_precision() == 1e-15 + + st = AlphaComplex(points=points).create_simplex_tree() + filtrations_better_resolution = list(st.get_filtration()) + + assert len(filtrations) == len(filtrations_better_resolution) + for idx in range(len(filtrations)): + # check simplex is the same + assert filtrations[idx][0] == filtrations_better_resolution[idx][0] + # check filtration is about the same with a relative precision of the worst case + assert filtrations[idx][1] == pytest.approx(filtrations_better_resolution[idx][1], rel=1e-5) |