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Diffstat (limited to 'src/Alpha_complex/test/Alpha_complex_unit_test.cpp')
-rw-r--r-- | src/Alpha_complex/test/Alpha_complex_unit_test.cpp | 163 |
1 files changed, 163 insertions, 0 deletions
diff --git a/src/Alpha_complex/test/Alpha_complex_unit_test.cpp b/src/Alpha_complex/test/Alpha_complex_unit_test.cpp new file mode 100644 index 00000000..9530314c --- /dev/null +++ b/src/Alpha_complex/test/Alpha_complex_unit_test.cpp @@ -0,0 +1,163 @@ +/* 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 Saclay (France) + * + * 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_MODULE alpha_complex +#include <boost/test/included/unit_test.hpp> +#include <boost/system/error_code.hpp> +#include <boost/chrono/thread_clock.hpp> +// to construct a Delaunay_triangulation from a OFF file +#include "gudhi/Delaunay_triangulation_off_io.h" +#include "gudhi/Alpha_complex.h" + +#include <CGAL/Delaunay_triangulation.h> +#include <CGAL/Epick_d.h> + +#include <cmath> // float comparison +#include <limits> + +// Use dynamic_dimension_tag for the user to be able to set dimension +typedef CGAL::Epick_d< CGAL::Dynamic_dimension_tag > Kernel; +typedef Kernel::Point_d Point; +typedef std::vector<Point> Vector_of_points; +// The triangulation uses the default instantiation of the TriangulationDataStructure template parameter + +BOOST_AUTO_TEST_CASE(S4_100_OFF_file) { + // ---------------------------------------------------------------------------- + // + // Init of an alpha-complex from a OFF file + // + // ---------------------------------------------------------------------------- + std::string off_file_name("S4_100.off"); + std::cout << "========== OFF FILE NAME = " << off_file_name << " ==========" << std::endl; + + Gudhi::alphacomplex::Alpha_complex alpha_complex_from_file(off_file_name); + + const int DIMENSION = 4; + std::cout << "alpha_complex_from_file.dimension()=" << alpha_complex_from_file.dimension() << std::endl; + BOOST_CHECK(alpha_complex_from_file.dimension() == DIMENSION); + + const int NUMBER_OF_VERTICES = 100; + std::cout << "alpha_complex_from_file.num_vertices()=" << alpha_complex_from_file.num_vertices() << std::endl; + BOOST_CHECK(alpha_complex_from_file.num_vertices() == NUMBER_OF_VERTICES); + + const int NUMBER_OF_SIMPLICES = 6879; + std::cout << "alpha_complex_from_file.num_simplices()=" << alpha_complex_from_file.num_simplices() << std::endl; + BOOST_CHECK(alpha_complex_from_file.num_simplices() == NUMBER_OF_SIMPLICES); + +} + +BOOST_AUTO_TEST_CASE(S8_10_OFF_file) { + // ---------------------------------------------------------------------------- + // + // Init of an alpha-complex from a OFF file + // + // ---------------------------------------------------------------------------- + std::string off_file_name("S8_10.off"); + std::cout << "========== OFF FILE NAME = " << off_file_name << " ==========" << std::endl; + + Gudhi::alphacomplex::Alpha_complex alpha_complex_from_file(off_file_name); + + const int DIMENSION = 8; + std::cout << "alpha_complex_from_file.dimension()=" << alpha_complex_from_file.dimension() << std::endl; + BOOST_CHECK(alpha_complex_from_file.dimension() == DIMENSION); + + const int NUMBER_OF_VERTICES = 10; + std::cout << "alpha_complex_from_file.num_vertices()=" << alpha_complex_from_file.num_vertices() << std::endl; + BOOST_CHECK(alpha_complex_from_file.num_vertices() == NUMBER_OF_VERTICES); + + const int NUMBER_OF_SIMPLICES = 1007; + std::cout << "alpha_complex_from_file.num_simplices()=" << alpha_complex_from_file.num_simplices() << std::endl; + BOOST_CHECK(alpha_complex_from_file.num_simplices() == NUMBER_OF_SIMPLICES); +} + +bool are_almost_the_same(float a, float b) { + return std::fabs(a - b) < std::numeric_limits<float>::epsilon(); +} + +BOOST_AUTO_TEST_CASE(Alpha_complex_from_points) { + + // ---------------------------------------------------------------------------- + // Init of a list of points + // ---------------------------------------------------------------------------- + Vector_of_points points; + std::vector<double> coords; + + coords.clear(); + coords.push_back(0.0); + coords.push_back(0.0); + coords.push_back(0.0); + coords.push_back(1.0); + points.push_back(Point(coords.begin(), coords.end())); + coords.clear(); + coords.push_back(0.0); + coords.push_back(0.0); + coords.push_back(1.0); + coords.push_back(0.0); + points.push_back(Point(coords.begin(), coords.end())); + coords.clear(); + coords.push_back(0.0); + coords.push_back(1.0); + coords.push_back(0.0); + coords.push_back(0.0); + points.push_back(Point(coords.begin(), coords.end())); + coords.clear(); + coords.push_back(1.0); + coords.push_back(0.0); + coords.push_back(0.0); + coords.push_back(0.0); + points.push_back(Point(coords.begin(), coords.end())); + + // ---------------------------------------------------------------------------- + // Init of an alpha complex from the list of points + // ---------------------------------------------------------------------------- + Gudhi::alphacomplex::Alpha_complex alpha_complex_from_points(3, points.size(), points.begin(), points.end()); + + std::cout << "========== Alpha_complex_from_points ==========" << std::endl; + + std::cout << "alpha_complex_from_points.dimension()=" << alpha_complex_from_points.dimension() << std::endl; + BOOST_CHECK(alpha_complex_from_points.dimension() == 3); + std::cout << "alpha_complex_from_points.num_simplices()=" << alpha_complex_from_points.num_simplices() << std::endl; + BOOST_CHECK(alpha_complex_from_points.num_simplices() == 15); + std::cout << "alpha_complex_from_points.num_vertices()=" << alpha_complex_from_points.num_vertices() << std::endl; + BOOST_CHECK(alpha_complex_from_points.num_vertices() == 4); + + for (auto f_simplex : alpha_complex_from_points.filtration_simplex_range()) { + switch (alpha_complex_from_points.dimension(f_simplex)) { + case 0: + BOOST_CHECK(are_almost_the_same(alpha_complex_from_points.filtration(f_simplex), 0.0)); + break; + case 1: + BOOST_CHECK(are_almost_the_same(alpha_complex_from_points.filtration(f_simplex), 1.0/2.0)); + break; + case 2: + BOOST_CHECK(are_almost_the_same(alpha_complex_from_points.filtration(f_simplex), 2.0/3.0)); + break; + case 3: + BOOST_CHECK(are_almost_the_same(alpha_complex_from_points.filtration(f_simplex), 3.0/4.0)); + break; + default: + BOOST_CHECK(false); // Shall not happen + break; + } + } + +} |