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author | vrouvrea <vrouvrea@636b058d-ea47-450e-bf9e-a15bfbe3eedb> | 2018-11-21 09:18:27 +0000 |
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committer | vrouvrea <vrouvrea@636b058d-ea47-450e-bf9e-a15bfbe3eedb> | 2018-11-21 09:18:27 +0000 |
commit | 0c44486d50e114fb6831ad050ee28dafe218cb97 (patch) | |
tree | 9366865e82fe706e48458a59145d8850dcd6b909 /src/Alpha_complex/test/Weighted_periodic_alpha_complex_3d_unit_test.cpp | |
parent | eef89bb492169faeb57dfdc65222b6a0483cb7c8 (diff) |
Separate tests to parallelize compilation
git-svn-id: svn+ssh://scm.gforge.inria.fr/svnroot/gudhi/branches/alpha_complex_3d_module_vincent@4010 636b058d-ea47-450e-bf9e-a15bfbe3eedb
Former-commit-id: 33bd17816b7258d16e20943e2f54b5379d174b84
Diffstat (limited to 'src/Alpha_complex/test/Weighted_periodic_alpha_complex_3d_unit_test.cpp')
-rw-r--r-- | src/Alpha_complex/test/Weighted_periodic_alpha_complex_3d_unit_test.cpp | 239 |
1 files changed, 239 insertions, 0 deletions
diff --git a/src/Alpha_complex/test/Weighted_periodic_alpha_complex_3d_unit_test.cpp b/src/Alpha_complex/test/Weighted_periodic_alpha_complex_3d_unit_test.cpp new file mode 100644 index 00000000..e8ac83e5 --- /dev/null +++ b/src/Alpha_complex/test/Weighted_periodic_alpha_complex_3d_unit_test.cpp @@ -0,0 +1,239 @@ +/* This file is part of the Gudhi Library. The Gudhi library + * (Geometric Understanding in Higher Dimensions) is a generic C++ + * library for computational topology. + * + * Author(s): Vincent Rouvreau + * + * Copyright (C) 2015 Inria + * + * This program is free software: you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation, either version 3 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program. If not, see <http://www.gnu.org/licenses/>. + */ + +#define BOOST_TEST_DYN_LINK +#define BOOST_TEST_MODULE "alpha_complex_3d" +#include <boost/test/unit_test.hpp> +#include <boost/mpl/list.hpp> + +#include <cmath> // float comparison +#include <limits> +#include <string> +#include <vector> +#include <random> +#include <cstddef> // for std::size_t + +#include <gudhi/Alpha_complex_3d.h> +#include <gudhi/graph_simplicial_complex.h> +#include <gudhi/Simplex_tree.h> +#include <gudhi/Unitary_tests_utils.h> +// to construct Alpha_complex from a OFF file of points +#include <gudhi/Points_3D_off_io.h> + +#include <CGAL/Random.h> +#include <CGAL/point_generators_3.h> + +using Fast_weighted_periodic_alpha_complex_3d = + Gudhi::alpha_complex::Alpha_complex_3d<Gudhi::alpha_complex::complexity::FAST, true, true>; +using Safe_weighted_periodic_alpha_complex_3d = + Gudhi::alpha_complex::Alpha_complex_3d<Gudhi::alpha_complex::complexity::SAFE, true, true>; +using Exact_weighted_periodic_alpha_complex_3d = + Gudhi::alpha_complex::Alpha_complex_3d<Gudhi::alpha_complex::complexity::EXACT, true, true>; + + +typedef boost::mpl::list<Fast_weighted_periodic_alpha_complex_3d, Exact_weighted_periodic_alpha_complex_3d, + Safe_weighted_periodic_alpha_complex_3d> + wp_variants_type_list; + +#ifdef GUDHI_DEBUG +BOOST_AUTO_TEST_CASE_TEMPLATE(Alpha_complex_weighted_periodic_throw, Weighted_periodic_alpha_complex_3d, + wp_variants_type_list) { + std::cout << "Weighted periodic alpha complex 3d exception throw" << std::endl; + + using Creator = CGAL::Creator_uniform_3<double, typename Weighted_periodic_alpha_complex_3d::Point_3>; + CGAL::Random random(7); + CGAL::Random_points_in_cube_3<typename Weighted_periodic_alpha_complex_3d::Point_3, Creator> in_cube(1, random); + std::vector<typename Weighted_periodic_alpha_complex_3d::Point_3> wp_points; + + for (int i = 0; i < 50; i++) { + typename Weighted_periodic_alpha_complex_3d::Point_3 p = *in_cube++; + wp_points.push_back(p); + } + std::vector<double> p_weights; + // Weights must be in range ]0, 1/64 = 0.015625[ + for (std::size_t i = 0; i < wp_points.size(); ++i) { + p_weights.push_back(random.get_double(0., 0.01)); + } + + std::cout << "Cuboid is not iso exception" << std::endl; + // Check it throws an exception when the cuboid is not iso + BOOST_CHECK_THROW( + Weighted_periodic_alpha_complex_3d wp_alpha_complex(wp_points, p_weights, -1., -1., -1., 0.9, 1., 1.), + std::invalid_argument); + BOOST_CHECK_THROW( + Weighted_periodic_alpha_complex_3d wp_alpha_complex(wp_points, p_weights, -1., -1., -1., 1., 0.9, 1.), + std::invalid_argument); + BOOST_CHECK_THROW( + Weighted_periodic_alpha_complex_3d wp_alpha_complex(wp_points, p_weights, -1., -1., -1., 1., 1., 0.9), + std::invalid_argument); + BOOST_CHECK_THROW( + Weighted_periodic_alpha_complex_3d wp_alpha_complex(wp_points, p_weights, -1., -1., -1., 1.1, 1., 1.), + std::invalid_argument); + BOOST_CHECK_THROW( + Weighted_periodic_alpha_complex_3d wp_alpha_complex(wp_points, p_weights, -1., -1., -1., 1., 1.1, 1.), + std::invalid_argument); + BOOST_CHECK_THROW( + Weighted_periodic_alpha_complex_3d wp_alpha_complex(wp_points, p_weights, -1., -1., -1., 1., 1., 1.1), + std::invalid_argument); + + std::cout << "0 <= point.weight() < 1/64 * domain_size * domain_size exception" << std::endl; + // Weights must be in range ]0, 1/64 = 0.015625[ + double temp = p_weights[25]; + p_weights[25] = 1.0; + BOOST_CHECK_THROW(Weighted_periodic_alpha_complex_3d wp_alpha_complex(wp_points, p_weights, 0., 0., 0., 1., 1., 1.), + std::invalid_argument); + // Weights must be in range ]0, 1/64 = 0.015625[ + p_weights[25] = temp; + temp = p_weights[14]; + p_weights[14] = -1e-10; + BOOST_CHECK_THROW(Weighted_periodic_alpha_complex_3d wp_alpha_complex(wp_points, p_weights, 0., 0., 0., 1., 1., 1.), + std::invalid_argument); + p_weights[14] = temp; + + std::cout << "wp_points and p_weights size exception" << std::endl; + // Weights and points must have the same size + // + 1 + p_weights.push_back(1e-10); + BOOST_CHECK_THROW(Weighted_periodic_alpha_complex_3d wp_alpha_complex(wp_points, p_weights, 0., 0., 0., 1., 1., 1.), + std::invalid_argument); + // - 1 + p_weights.pop_back(); + p_weights.pop_back(); + BOOST_CHECK_THROW(Weighted_periodic_alpha_complex_3d wp_alpha_complex(wp_points, p_weights, 0., 0., 0., 1., 1., 1.), + std::invalid_argument); +} +#endif + +BOOST_AUTO_TEST_CASE(Alpha_complex_weighted_periodic) { + // --------------------- + // Fast weighted periodic version + // --------------------- + std::cout << "Fast weighted periodic alpha complex 3d" << std::endl; + + using Creator = CGAL::Creator_uniform_3<double, Fast_weighted_periodic_alpha_complex_3d::Point_3>; + CGAL::Random random(7); + CGAL::Random_points_in_cube_3<Fast_weighted_periodic_alpha_complex_3d::Point_3, Creator> in_cube(1, random); + std::vector<Fast_weighted_periodic_alpha_complex_3d::Point_3> p_points; + + for (int i = 0; i < 50; i++) { + Fast_weighted_periodic_alpha_complex_3d::Point_3 p = *in_cube++; + p_points.push_back(p); + } + std::vector<double> p_weights; + // Weights must be in range ]0, 1/64 = 0.015625[ + for (std::size_t i = 0; i < p_points.size(); ++i) { + p_weights.push_back(random.get_double(0., 0.01)); + } + + Fast_weighted_periodic_alpha_complex_3d periodic_alpha_complex(p_points, p_weights, -1., -1., -1., 1., 1., 1.); + + Gudhi::Simplex_tree<> stree; + periodic_alpha_complex.create_complex(stree); + + // ---------------------- + // Exact weighted periodic version + // ---------------------- + std::cout << "Exact weighted periodic alpha complex 3d" << std::endl; + + std::vector<Exact_weighted_periodic_alpha_complex_3d::Point_3> e_p_points; + + for (auto p : p_points) { + e_p_points.push_back(Exact_weighted_periodic_alpha_complex_3d::Point_3(p[0], p[1], p[2])); + } + + Exact_weighted_periodic_alpha_complex_3d exact_alpha_complex(e_p_points, p_weights, -1., -1., -1., 1., 1., 1.); + + Gudhi::Simplex_tree<> exact_stree; + exact_alpha_complex.create_complex(exact_stree); + + // --------------------- + // Compare both versions + // --------------------- + std::cout << "Exact weighted periodic alpha complex 3d is of dimension " << exact_stree.dimension() + << " - Non exact is " << stree.dimension() << std::endl; + BOOST_CHECK(exact_stree.dimension() == stree.dimension()); + std::cout << "Exact weighted periodic alpha complex 3d num_simplices " << exact_stree.num_simplices() + << " - Non exact is " << stree.num_simplices() << std::endl; + BOOST_CHECK(exact_stree.num_simplices() == stree.num_simplices()); + std::cout << "Exact weighted periodic alpha complex 3d num_vertices " << exact_stree.num_vertices() + << " - Non exact is " << stree.num_vertices() << std::endl; + BOOST_CHECK(exact_stree.num_vertices() == stree.num_vertices()); + + // We cannot compare as objects from dispatcher on the alpha shape is not deterministic. + // cf. https://github.com/CGAL/cgal/issues/3346 + auto sh = stree.filtration_simplex_range().begin(); + auto sh_exact = exact_stree.filtration_simplex_range().begin(); + + while (sh != stree.filtration_simplex_range().end() || sh_exact != exact_stree.filtration_simplex_range().end()) { + GUDHI_TEST_FLOAT_EQUALITY_CHECK(stree.filtration(*sh), exact_stree.filtration(*sh_exact), 1e-14); + + std::vector<int> vh(stree.simplex_vertex_range(*sh).begin(), stree.simplex_vertex_range(*sh).end()); + std::vector<int> exact_vh(exact_stree.simplex_vertex_range(*sh_exact).begin(), + exact_stree.simplex_vertex_range(*sh_exact).end()); + + BOOST_CHECK(vh.size() == exact_vh.size()); + ++sh; + ++sh_exact; + } + + BOOST_CHECK(sh == stree.filtration_simplex_range().end()); + BOOST_CHECK(sh_exact == exact_stree.filtration_simplex_range().end()); + + // ---------------------- + // Safe weighted periodic version + // ---------------------- + std::cout << "Safe weighted periodic alpha complex 3d" << std::endl; + + std::vector<Safe_weighted_periodic_alpha_complex_3d::Point_3> s_p_points; + + for (auto p : p_points) { + s_p_points.push_back(Safe_weighted_periodic_alpha_complex_3d::Point_3(p[0], p[1], p[2])); + } + + Safe_weighted_periodic_alpha_complex_3d safe_alpha_complex(s_p_points, p_weights, -1., -1., -1., 1., 1., 1.); + + Gudhi::Simplex_tree<> safe_stree; + safe_alpha_complex.create_complex(safe_stree); + + // --------------------- + // Compare both versions + // --------------------- + // We cannot compare as objects from dispatcher on the alpha shape is not deterministic. + // cf. https://github.com/CGAL/cgal/issues/3346 + sh = stree.filtration_simplex_range().begin(); + auto sh_safe = safe_stree.filtration_simplex_range().begin(); + + while (sh != stree.filtration_simplex_range().end() || sh_safe != safe_stree.filtration_simplex_range().end()) { + GUDHI_TEST_FLOAT_EQUALITY_CHECK(stree.filtration(*sh), safe_stree.filtration(*sh_safe), 1e-14); + + std::vector<int> vh(stree.simplex_vertex_range(*sh).begin(), stree.simplex_vertex_range(*sh).end()); + std::vector<int> safe_vh(safe_stree.simplex_vertex_range(*sh_safe).begin(), + safe_stree.simplex_vertex_range(*sh_safe).end()); + + BOOST_CHECK(vh.size() == safe_vh.size()); + ++sh; + ++sh_safe; + } + + BOOST_CHECK(sh == stree.filtration_simplex_range().end()); + BOOST_CHECK(sh_safe == safe_stree.filtration_simplex_range().end()); +} |