diff options
Diffstat (limited to 'src/Skeleton_blocker/test')
-rw-r--r-- | src/Skeleton_blocker/test/CMakeLists.txt | 17 | ||||
-rw-r--r-- | src/Skeleton_blocker/test/test.off | 10 | ||||
-rw-r--r-- | src/Skeleton_blocker/test/test2.off | 15 | ||||
-rw-r--r-- | src/Skeleton_blocker/test/test_skeleton_blocker_complex.cpp | 826 | ||||
-rw-r--r-- | src/Skeleton_blocker/test/test_skeleton_blocker_geometric_complex.cpp | 113 | ||||
-rw-r--r-- | src/Skeleton_blocker/test/test_skeleton_blocker_simplifiable.cpp | 348 |
6 files changed, 1329 insertions, 0 deletions
diff --git a/src/Skeleton_blocker/test/CMakeLists.txt b/src/Skeleton_blocker/test/CMakeLists.txt new file mode 100644 index 00000000..19c65871 --- /dev/null +++ b/src/Skeleton_blocker/test/CMakeLists.txt @@ -0,0 +1,17 @@ +project(Skeleton_blocker_tests) + +include(GUDHI_test_coverage) + +add_executable ( Skeleton_blocker_test_unit test_skeleton_blocker_complex.cpp ) +target_link_libraries(Skeleton_blocker_test_unit ${Boost_UNIT_TEST_FRAMEWORK_LIBRARY}) +add_executable ( Skeleton_blocker_test_geometric_complex test_skeleton_blocker_geometric_complex.cpp ) +target_link_libraries(Skeleton_blocker_test_geometric_complex ${Boost_UNIT_TEST_FRAMEWORK_LIBRARY}) +add_executable ( Skeleton_blocker_test_simplifiable test_skeleton_blocker_simplifiable.cpp ) +target_link_libraries(Skeleton_blocker_test_simplifiable ${Boost_UNIT_TEST_FRAMEWORK_LIBRARY}) + +# Do not forget to copy test files in current binary dir +file(COPY "test2.off" DESTINATION ${CMAKE_CURRENT_BINARY_DIR}/) + +gudhi_add_coverage_test(Skeleton_blocker_test_unit) +gudhi_add_coverage_test(Skeleton_blocker_test_geometric_complex) +gudhi_add_coverage_test(Skeleton_blocker_test_simplifiable) diff --git a/src/Skeleton_blocker/test/test.off b/src/Skeleton_blocker/test/test.off new file mode 100644 index 00000000..61ef2d2b --- /dev/null +++ b/src/Skeleton_blocker/test/test.off @@ -0,0 +1,10 @@ +OFF +4 4 0 +0 0 0 +1 0 0 +0 1 0 +.5 .5 1 +3 0 1 2 +3 0 1 3 +3 0 2 3 +3 1 2 3 diff --git a/src/Skeleton_blocker/test/test2.off b/src/Skeleton_blocker/test/test2.off new file mode 100644 index 00000000..b12ce572 --- /dev/null +++ b/src/Skeleton_blocker/test/test2.off @@ -0,0 +1,15 @@ +OFF +7 6 0 +-1.5 2 0 +0 2 0 +1.5 2 0 +0 1.5 0 +-1 1 0 +1 1 0 +0 0 0 +3 0 1 4 +3 1 3 4 +3 1 3 5 +3 1 2 5 +3 3 4 5 +3 4 5 6 diff --git a/src/Skeleton_blocker/test/test_skeleton_blocker_complex.cpp b/src/Skeleton_blocker/test/test_skeleton_blocker_complex.cpp new file mode 100644 index 00000000..4336e33b --- /dev/null +++ b/src/Skeleton_blocker/test/test_skeleton_blocker_complex.cpp @@ -0,0 +1,826 @@ +/* This file is part of the Gudhi Library - https://gudhi.inria.fr/ - which is released under MIT. + * See file LICENSE or go to https://gudhi.inria.fr/licensing/ for full license details. + * Author(s): David Salinas + * + * Copyright (C) 2014 Inria + * + * Modification(s): + * - YYYY/MM Author: Description of the modification + */ + +#include <stdio.h> +#include <stdlib.h> +#include <string> +#include <fstream> +#include <sstream> + +#define BOOST_TEST_DYN_LINK +#define BOOST_TEST_MODULE "skeleton_blocker_complex" +#include <boost/test/unit_test.hpp> +#include <boost/mpl/list.hpp> + +#include <gudhi/Skeleton_blocker.h> + +template<typename ComplexType> class Skeleton_blocker_sub_complex; +typedef Gudhi::skeleton_blocker::Skeleton_blocker_simple_traits Traits; +typedef Gudhi::skeleton_blocker::Skeleton_blocker_complex<Traits> Complex; +typedef Gudhi::skeleton_blocker::Skeleton_blocker_link_complex<Complex> Skeleton_blocker_link_complex; +typedef Complex::Vertex_handle Vertex_handle; +typedef Complex::Root_vertex_handle Root_vertex_handle; +typedef Complex::Simplex Simplex; +typedef Complex::Root_simplex_handle Root_simplex_handle; +typedef Simplex::Simplex_vertex_const_iterator Simplex_vertex_const_iterator; +typedef Complex::Edge_handle Edge_handle; + +bool assert_vertex(Complex &complex, Vertex_handle v) { + //assert(complex.contains(v)); + return complex.contains(static_cast<Simplex> (v)); +} + +bool assert_simplex(Complex &complex, Root_vertex_handle a, Root_vertex_handle b, Root_vertex_handle c) { + return true; + // AddressSimplex simplex((a),(b),(c)); + // return complex.contains(&simplex); +} + +// true iff the blocker (a,b,c) is in complex + +bool assert_blocker(Complex &complex, Root_vertex_handle a, Root_vertex_handle b, Root_vertex_handle c) { + return true; + //return complex.contains_blocker((a),(b),(c)); +} + +// true iff the blocker (a,b,c,d) is in complex + +bool assert_blocker(Complex &complex, Root_vertex_handle a, Root_vertex_handle b, Root_vertex_handle c, Root_vertex_handle d) { + return true; + //Simplex blocker (a,b,c,d); + //return complex.contains_blocker(&blocker); +} + +void build_complete(int n, Complex& complex) { + complex.clear(); + for (int i = 0; i < n; i++) + complex.add_vertex(); + + for (int i = 0; i < n; i++) + for (int j = 0; j < i; j++) + complex.add_edge_without_blockers(Vertex_handle(i), Vertex_handle(j)); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplex) { + Simplex simplex(Vertex_handle(0), Vertex_handle(1), Vertex_handle(2), Vertex_handle(3)); + BOOST_CHECK(simplex.dimension() == 3); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_num_simplices) { + int n = 4; + Complex complex; + build_complete(n, complex); + size_t sum = 0; + for (int i = 0; i < n; i++) { + sum += complex.num_simplices(i); + } + BOOST_CHECK(complex.num_vertices() == n); + BOOST_CHECK(complex.num_edges() == 6); + BOOST_CHECK(sum == 15); + BOOST_CHECK(complex.num_simplices() == 15); +} + + +BOOST_AUTO_TEST_CASE(test_skeleton_iterator_vertices1) { + int n = 10; + Complex complex(10); + std::cout << "complex.num_vertices():" << complex.num_vertices() << std::endl; + int num_vertex_seen = 0; + for (auto vi : complex.vertex_range()) { + std::cout << "vertex:" << vi << std::endl; + ++num_vertex_seen; + } + BOOST_CHECK(num_vertex_seen == n); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_iterator_vertices2) { + int n = 10; + Complex complex; + build_complete(10, complex); + std::cout << "complex.num_vertices():" << complex.num_vertices() << std::endl; + std::cout << "complex.num_edges():" << complex.num_edges() << std::endl; + int num_vertex_seen = 0; + for (auto vi : complex.vertex_range(Vertex_handle(2))) { + std::cout << "vertex:" << vi << std::endl; + ++num_vertex_seen; + } + std::cout << "num_vertex_seen:" << num_vertex_seen << std::endl; + BOOST_CHECK(num_vertex_seen == (n -1)); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_iterator_edge) { + const int n = 10; + Complex complex(n); + for (int i = 0; i < n; i++) + for (int j = 0; j < i; j++) + complex.add_edge_without_blockers(Vertex_handle(i), Vertex_handle(j)); + complex.remove_edge(Vertex_handle(2), Vertex_handle(3)); + complex.remove_edge(Vertex_handle(3), Vertex_handle(5)); + std::cout << "complex.num_edges():" << complex.num_edges() << std::endl; + int num_edges_seen = 0; + for (auto edge : complex.edge_range()) { + std::cout << "edge :" << complex[edge] << std::endl; + ++num_edges_seen; + } + + BOOST_CHECK(num_edges_seen == n * (n - 1) / 2 - 2); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_iterator_edge2) { + const int n = 10; + Complex complex(n); + for (int i = 0; i < n; i++) + for (int j = 0; j < i; j++) + complex.add_edge_without_blockers(Vertex_handle(i), Vertex_handle(j)); + complex.remove_edge(Vertex_handle(2), Vertex_handle(3)); + complex.remove_edge(Vertex_handle(3), Vertex_handle(5)); + std::cout << "complex.num_edges():" << complex.num_edges() << std::endl; + int num_neigbors_seen = 0; + for (auto neighbor : complex.vertex_range(Vertex_handle(2))) { + std::cout << "neighbor" << neighbor << std::endl; + ++num_neigbors_seen; + } + BOOST_CHECK(num_neigbors_seen == 8); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_iterator_triangles) { + const int n = 7; + Complex complex(n); + //create a "ring" around '0' + for (int i = 1; i < n; i++) + complex.add_edge_without_blockers(Vertex_handle(0), Vertex_handle(i)); + for (int i = 1; i < n - 1; i++) + complex.add_edge_without_blockers(Vertex_handle(i), Vertex_handle(i + 1)); + complex.add_edge_without_blockers(Vertex_handle(1), Vertex_handle(6)); + + std::cout << complex.to_string() << std::endl; + + int num_triangles_seen = 0; + //for (auto t : complex.triangle_range(5)){ + for (auto t : complex.triangle_range(Vertex_handle(5))) { + ++num_triangles_seen; + } + BOOST_CHECK(num_triangles_seen == 2); + + num_triangles_seen = 0; + for (auto t : complex.triangle_range(Vertex_handle(0))) { + ++num_triangles_seen; + } + BOOST_CHECK(num_triangles_seen == 6); + + // we now add another triangle + complex.add_vertex(); + complex.add_edge_without_blockers(Vertex_handle(4), Vertex_handle(7)); + complex.add_edge_without_blockers(Vertex_handle(3), Vertex_handle(7)); + complex.add_blocker(Simplex(Vertex_handle(0), Vertex_handle(1), Vertex_handle(6))); + num_triangles_seen = 0; + + num_triangles_seen = 0; + for (auto t : complex.triangle_range()) { + ++num_triangles_seen; + } + BOOST_CHECK(num_triangles_seen == 6); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_iterator_simplices) { + Complex complex(6); + complex.add_edge_without_blockers(Vertex_handle(0), Vertex_handle(1)); + complex.add_edge_without_blockers(Vertex_handle(1), Vertex_handle(2)); + complex.add_edge_without_blockers(Vertex_handle(2), Vertex_handle(0)); + complex.add_edge_without_blockers(Vertex_handle(1), Vertex_handle(3)); + complex.add_edge_without_blockers(Vertex_handle(2), Vertex_handle(3)); + complex.add_edge_without_blockers(Vertex_handle(2), Vertex_handle(5)); + complex.add_edge_without_blockers(Vertex_handle(3), Vertex_handle(5)); + complex.add_edge_without_blockers(Vertex_handle(2), Vertex_handle(4)); + complex.add_edge_without_blockers(Vertex_handle(4), Vertex_handle(5)); + complex.add_edge_without_blockers(Vertex_handle(3), Vertex_handle(4)); + + complex.add_blocker(Simplex(Vertex_handle(2), Vertex_handle(3), Vertex_handle(4), Vertex_handle(5))); + + std::map<Vertex_handle, unsigned> expected_num_simplices; + + expected_num_simplices[Vertex_handle(0)] = 4; + expected_num_simplices[Vertex_handle(1)] = 6; + expected_num_simplices[Vertex_handle(2)] = 11; + expected_num_simplices[Vertex_handle(3)] = 9; + expected_num_simplices[Vertex_handle(4)] = 7; + expected_num_simplices[Vertex_handle(5)] = 7; + + for (auto pair : expected_num_simplices) { + std::cout << "found list: "; + unsigned num_simplices_around = 0; + for (const auto& simplex : complex.star_simplex_range(pair.first)) { + simplex.dimension(); + std::cout << simplex << " - "; + ++num_simplices_around; + } + + BOOST_CHECK(num_simplices_around == pair.second); + + std::cout << std::endl << "current vertex:" << pair.first << " - "; + std::cout << "expected_num_simplices:" << pair.second << " - "; + std::cout << "found:" << num_simplices_around << std::endl; + } +} + +BOOST_AUTO_TEST_CASE(test_skeleton_iterator_simplices2) { + Complex complex(2); + complex.add_edge_without_blockers(Vertex_handle(0), Vertex_handle(1)); + + // Check there is no triangle + BOOST_CHECK(std::distance(complex.triangle_range().begin(), complex.triangle_range().end()) == 0); + + // Star(0) is [{0},{0,1}] + BOOST_CHECK(std::distance(complex.star_simplex_range(Vertex_handle(0)).begin(), + complex.star_simplex_range(Vertex_handle(0)).end()) == 2); + + // No blocker + BOOST_CHECK(std::distance(complex.blocker_range(Vertex_handle(0)).begin(), + complex.blocker_range(Vertex_handle(0)).end()) == 0); + + // Complex is [{0},{0,1},{1}] + BOOST_CHECK(std::distance(complex.complex_simplex_range().begin(), + complex.complex_simplex_range().end()) == 3); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_iterator_simplices3) { + Complex complex(3); + complex.add_edge_without_blockers(Vertex_handle(0), Vertex_handle(1)); + complex.add_edge_without_blockers(Vertex_handle(1), Vertex_handle(2)); + complex.add_edge_without_blockers(Vertex_handle(2), Vertex_handle(0)); + complex.add_blocker(Simplex(Vertex_handle(0), Vertex_handle(1), Vertex_handle(2))); + + // Check there is no triangle + BOOST_CHECK(std::distance(complex.triangle_range().begin(), complex.triangle_range().end()) == 0); + + // Star(0) is [{0},{0,1},{0,2}] + BOOST_CHECK(std::distance(complex.star_simplex_range(Vertex_handle(0)).begin(), + complex.star_simplex_range(Vertex_handle(0)).end()) == 3); + + // blocker(0) is [{0,1,2}] + BOOST_CHECK(std::distance(complex.blocker_range(Vertex_handle(0)).begin(), + complex.blocker_range(Vertex_handle(0)).end()) == 1); + + // Complex is [{0},{0,1},{0,2},{1},{1,2},{2}] + BOOST_CHECK(std::distance(complex.complex_simplex_range().begin(), + complex.complex_simplex_range().end()) == 6); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_iterator_simplices4) { + Complex empty_complex; + for (auto v : empty_complex.vertex_range()) { + std::cout << v; + BOOST_CHECK(false); + } + for (auto e : empty_complex.edge_range()) { + std::cout << e; + BOOST_CHECK(false); + } + for (auto t : empty_complex.triangle_range()) { + std::cout << t; + BOOST_CHECK(false); + } + for (auto s : empty_complex.complex_simplex_range()) { + std::cout << s; + BOOST_CHECK(false); + } +} + +BOOST_AUTO_TEST_CASE(test_skeleton_iterator_coboundary) { + Complex c; + build_complete(4, c); + c.remove_edge(Vertex_handle(1), Vertex_handle(3)); + std::cout << c.to_string(); + Simplex s02(Vertex_handle(0), Vertex_handle(2)); + int n = 0; + std::set<Simplex> expected; + expected.insert(Simplex(Vertex_handle(0), Vertex_handle(1), Vertex_handle(2))); + expected.insert(Simplex(Vertex_handle(0), Vertex_handle(2), Vertex_handle(3))); + for (const auto & s : c.coboundary_range(s02)) { + BOOST_CHECK(expected.find(s) != expected.end()); + ++n; + } + BOOST_CHECK(n == 2); +} + +template<typename Map> +auto blocker_range(Map map) -> decltype(map | boost::adaptors::map_values) { + return map | boost::adaptors::map_values; +} + +BOOST_AUTO_TEST_CASE(test_skeleton_iterator_blockers) { + Complex complex; + Simplex alpha; + Simplex vertex_set_expected; + // Build the complexes + for (int i = 0; i < 20; i++) { + complex.add_vertex(); + } + for (int i = 10; i < 15; i++) { + for (int j = i + 1; j < 15; j++) + complex.add_edge_without_blockers(Vertex_handle(i), Vertex_handle(j)); + } + + std::vector<Simplex> myBlockers; + myBlockers.push_back(Simplex(Vertex_handle(10), Vertex_handle(11), Vertex_handle(12))); + myBlockers.push_back(Simplex(Vertex_handle(2), Vertex_handle(1), Vertex_handle(10))); + myBlockers.push_back(Simplex(Vertex_handle(10), Vertex_handle(9), Vertex_handle(15))); + myBlockers.push_back(Simplex(Vertex_handle(1), Vertex_handle(9), Vertex_handle(8))); + + for (auto blocker : myBlockers) + complex.add_blocker(blocker); + + int num_blockers = 0; + for (auto blockers : complex.blocker_range(Vertex_handle(10))) { + // Only the first 3 blockers contain vertex 10 + BOOST_CHECK(*blockers == myBlockers[num_blockers]); + num_blockers++; + } + BOOST_CHECK(num_blockers == 3); + + num_blockers = 0; + for (auto blockers : complex.blocker_range()) { +// If not windows - _WIN32 is for windows 32 and 64 bits +#ifndef _WIN32 + for (auto block_ptr = myBlockers.begin(); block_ptr < myBlockers.end(); block_ptr++) + if (*block_ptr == *blockers) + myBlockers.erase(block_ptr); +#endif + num_blockers++; + } + BOOST_CHECK(num_blockers == 4); +// If not windows - _WIN32 is for windows 32 and 64 bits +#ifndef _WIN32 + BOOST_CHECK(myBlockers.empty()); +#endif +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_link0) { + enum { a, b, c, d, n }; + Complex complex(n); + complex.add_edge_without_blockers(Vertex_handle(b), Vertex_handle(c)); + complex.add_edge_without_blockers(Vertex_handle(c), Vertex_handle(d)); + Simplex alpha = Simplex(Vertex_handle(c)); + Skeleton_blocker_link_complex L(complex, alpha); + + auto L2 = complex.link(alpha); + BOOST_CHECK(L == L2); + + std::cout << L.to_string(); + + BOOST_CHECK(L.contains_vertex(*L.get_address(Root_vertex_handle(b)))); + BOOST_CHECK(L.contains_vertex(*L.get_address(Root_vertex_handle(d)))); + BOOST_CHECK(L.num_edges() == 0); + BOOST_CHECK(L.num_blockers() == 0); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_link1) { + Complex complex; + + // Build the complexes + for (int i = 0; i < 20; i++) { + complex.add_vertex(); + } + for (int i = 10; i < 15; i++) { + for (int j = i + 1; j < 15; j++) + complex.add_edge_without_blockers(Vertex_handle(i), Vertex_handle(j)); + } + Simplex alpha(Vertex_handle(12), Vertex_handle(14)); + Skeleton_blocker_link_complex L(complex, alpha); + // Complexes built + + auto L2 = complex.link(alpha); + BOOST_CHECK(L == L2); + + // verification + BOOST_CHECK(L.contains_vertex(*L.get_address(Root_vertex_handle(10)))); + BOOST_CHECK(L.contains_vertex(*L.get_address(Root_vertex_handle(11)))); + BOOST_CHECK(L.contains_vertex(*L.get_address(Root_vertex_handle(13)))); + BOOST_CHECK(L.num_edges() == 3); + BOOST_CHECK(L.num_blockers() == 0); + Root_simplex_handle simplex; + simplex.add_vertex(Root_vertex_handle(10)); + simplex.add_vertex(Root_vertex_handle(11)); + simplex.add_vertex(Root_vertex_handle(13)); + BOOST_CHECK(L.get_simplex_address(simplex)); + BOOST_CHECK(L.contains(*(L.get_simplex_address(simplex)))); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_link2) { + Complex complex; + + Simplex alpha; + Simplex vertex_set_expected; + // Build the complexes + for (int i = 0; i < 20; i++) { + complex.add_vertex(); + } + for (int i = 10; i < 15; i++) { + for (int j = i + 1; j < 15; j++) + complex.add_edge_without_blockers(Vertex_handle(i), Vertex_handle(j)); + } + complex.add_blocker(Simplex(Vertex_handle(10), Vertex_handle(11), Vertex_handle(13))); + alpha = Simplex(Vertex_handle(12), Vertex_handle(14)); + Skeleton_blocker_link_complex L(complex, alpha); + // Complexes built + + // Print result + std::cout << "complex complex" << complex.to_string(); + std::cout << std::endl << std::endl; + std::cout << "L= Link_complex(" << alpha << ") : \n" << L.to_string(); + + auto L2 = complex.link(alpha); + BOOST_CHECK(L == L2); + + + // verification + BOOST_CHECK(L.contains_vertex(*L.get_address(Root_vertex_handle(10)))); + BOOST_CHECK(L.contains_vertex(*L.get_address(Root_vertex_handle(11)))); + BOOST_CHECK(L.contains_vertex(*L.get_address(Root_vertex_handle(13)))); + BOOST_CHECK(L.num_edges() == 3); + BOOST_CHECK(L.num_blockers() == 1); + Root_simplex_handle simplex; + simplex.add_vertex(Root_vertex_handle(10)); + simplex.add_vertex(Root_vertex_handle(11)); + simplex.add_vertex(Root_vertex_handle(13)); + BOOST_CHECK(L.contains_blocker(*(L.get_simplex_address(simplex)))); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_link3) { + Complex complex; + + Simplex alpha; + Simplex vertex_set_expected; + // Build the complexes + for (int i = 0; i < 20; i++) { + complex.add_vertex(); + } + for (int i = 10; i < 15; i++) { + for (int j = i + 1; j < 15; j++) + complex.add_edge_without_blockers(Vertex_handle(i), Vertex_handle(j)); + } + complex.add_blocker(Simplex(Vertex_handle(10), Vertex_handle(11), Vertex_handle(12))); + alpha = Simplex(Vertex_handle(12), Vertex_handle(14)); + Skeleton_blocker_link_complex L(complex, alpha); + // Complexes built + + // Print result + std::cout << "complex complex" << complex.to_string(); + std::cout << std::endl << std::endl; + std::cout << "L= Link_complex(" << alpha << ") : \n" << L.to_string(); + + auto L2 = complex.link(alpha); + BOOST_CHECK(L == L2); + + // verification + BOOST_CHECK(L.contains(static_cast<Simplex> (*L.get_address(Root_vertex_handle(10))))); + BOOST_CHECK(L.contains(static_cast<Simplex> (*L.get_address(Root_vertex_handle(11))))); + BOOST_CHECK(L.contains(static_cast<Simplex> (*L.get_address(Root_vertex_handle(13))))); + BOOST_CHECK(L.num_edges() == 2); + BOOST_CHECK(L.contains_edge(*L.get_address(Root_vertex_handle(10)), *L.get_address(Root_vertex_handle(13)))); + BOOST_CHECK(L.contains_edge(*L.get_address(Root_vertex_handle(13)), *L.get_address(Root_vertex_handle(11)))); + BOOST_CHECK(L.num_blockers() == 0); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_link4) { + Complex complex; + + // Build the complexes + for (int i = 0; i < 20; i++) { + complex.add_vertex(); + } + for (int i = 10; i < 15; i++) { + for (int j = i + 1; j < 15; j++) + complex.add_edge_without_blockers(Vertex_handle(i), Vertex_handle(j)); + } + complex.add_blocker(Simplex(Vertex_handle(10), Vertex_handle(11), Vertex_handle(12), Vertex_handle(13))); + Simplex alpha(Vertex_handle(12), Vertex_handle(14)); + Skeleton_blocker_link_complex L(complex, alpha); + // Complexes built + + // verification + BOOST_CHECK(L.contains_vertex(*L.get_address(Root_vertex_handle(10)))); + BOOST_CHECK(L.contains_vertex(*L.get_address(Root_vertex_handle(11)))); + BOOST_CHECK(L.contains_vertex(*L.get_address(Root_vertex_handle(13)))); + BOOST_CHECK(L.num_edges() == 3); + BOOST_CHECK(L.num_blockers() == 1); + Root_simplex_handle simplex; + simplex.add_vertex(Root_vertex_handle(10)); + simplex.add_vertex(Root_vertex_handle(11)); + simplex.add_vertex(Root_vertex_handle(13)); + BOOST_CHECK(L.contains_blocker(*(L.get_simplex_address(simplex)))); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_link5) { + Complex complex(0); + // Build the complexes + build_complete(4, complex); + complex.add_blocker(Simplex(Vertex_handle(0), Vertex_handle(1), Vertex_handle(2), Vertex_handle(3))); + + Simplex alpha(Vertex_handle(0), Vertex_handle(1), Vertex_handle(2)); + Skeleton_blocker_link_complex L(complex, alpha); + // Complexes built + + // Print result + std::cout << "Complex: " << complex.to_string()<< std::endl << std::endl; + std::cout << "Link: " << L.to_string() << std::endl; + + // verification + BOOST_CHECK(L.num_vertices() == 0); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_link6) { + Complex complex(0); + // Build the complexes + build_complete(4, complex); + complex.add_blocker(Simplex(Vertex_handle(0), Vertex_handle(1), Vertex_handle(2))); + + Simplex alpha(Vertex_handle(0), Vertex_handle(1), Vertex_handle(2)); + + Skeleton_blocker_link_complex link_blocker_alpha; + + build_link_of_blocker(complex, alpha, link_blocker_alpha); + + // Print result + std::cout << "Complex: " << complex.to_string()<< std::endl << std::endl; + std::cout << "Link: " << link_blocker_alpha.to_string() << std::endl; + + // verification + BOOST_CHECK(link_blocker_alpha.num_vertices() == 1); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_link7) { + Complex complex(0); + // Build the complexes + build_complete(6, complex); + complex.add_vertex(); + complex.add_vertex(); + for (int i = 3; i < 6; ++i) { + complex.add_edge_without_blockers(Vertex_handle(i), Vertex_handle(6)); + complex.add_edge_without_blockers(Vertex_handle(i), Vertex_handle(7)); + } + complex.add_edge_without_blockers(Vertex_handle(6), Vertex_handle(7)); + complex.add_blocker(Simplex(Vertex_handle(0), Vertex_handle(1), Vertex_handle(2))); + complex.add_blocker(Simplex(Vertex_handle(3), Vertex_handle(4), Vertex_handle(5))); + + Simplex alpha(Vertex_handle(3), Vertex_handle(4), Vertex_handle(5)); + + Skeleton_blocker_link_complex link_blocker_alpha; + + build_link_of_blocker(complex, alpha, link_blocker_alpha); + + //the result should be the edge {6,7} plus the blocker {0,1,2} + + // Print result + std::cout << "Complex: " << complex.to_string()<< std::endl << std::endl; + std::cout << "Link: " << link_blocker_alpha.to_string() << std::endl; + + Skeleton_blocker_link_complex link_blocker_alpha_cpy = link_blocker_alpha; + + std::cout << "Link copy: " << link_blocker_alpha_cpy.to_string() << std::endl; + + BOOST_CHECK(link_blocker_alpha.num_vertices() == link_blocker_alpha_cpy.num_vertices()); + BOOST_CHECK(link_blocker_alpha.num_blockers() == link_blocker_alpha_cpy.num_blockers()); + BOOST_CHECK(link_blocker_alpha.num_edges() == link_blocker_alpha_cpy.num_edges()); + BOOST_CHECK((link_blocker_alpha.num_blockers() == link_blocker_alpha_cpy.num_blockers())); + + // verification + BOOST_CHECK(link_blocker_alpha.num_vertices() == 5); + BOOST_CHECK(link_blocker_alpha.num_edges() == 4); + BOOST_CHECK(link_blocker_alpha.num_blockers() == 1); +} + +template<typename SimplexHandle> +void add_triangle_edges(int a, int b, int c, std::list<SimplexHandle>& simplices) { + typedef SimplexHandle Simplex; + typedef typename SimplexHandle::Vertex_handle Vertex_handle; + + simplices.push_back(Simplex(Vertex_handle(a), Vertex_handle(b))); + simplices.push_back(Simplex(Vertex_handle(b), Vertex_handle(c))); + simplices.push_back(Simplex(Vertex_handle(c), Vertex_handle(a))); +} + +template<typename SimplexHandle> +void add_triangle(int a, int b, int c, std::list<SimplexHandle>& simplices) { + typedef SimplexHandle Simplex; + typedef typename SimplexHandle::Vertex_handle Vertex_handle; + simplices.push_back(Simplex(Vertex_handle(a), Vertex_handle(b), Vertex_handle(c))); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_constructor) { + std::list <Simplex> simplices; + + simplices.push_back(Simplex(Vertex_handle(0))); + simplices.push_back(Simplex(Vertex_handle(1))); + simplices.push_back(Simplex(Vertex_handle(2))); + simplices.push_back(Simplex(Vertex_handle(3))); + simplices.push_back(Simplex(Vertex_handle(4))); + simplices.push_back(Simplex(Vertex_handle(5))); + + simplices.push_back(Simplex(Vertex_handle(3), Vertex_handle(5))); + + add_triangle_edges(0, 1, 5, simplices); + add_triangle_edges(1, 2, 3, simplices); + add_triangle_edges(2, 3, 4, simplices); + add_triangle_edges(1, 3, 4, simplices); + add_triangle_edges(1, 2, 4, simplices); + + add_triangle(0, 1, 5, simplices); + add_triangle(1, 2, 3, simplices); + add_triangle(1, 3, 4, simplices); + add_triangle(1, 2, 4, simplices); + add_triangle(2, 3, 4, simplices); + + Complex complex(simplices.begin(), simplices.end()); + + std::cout << "Constructor 1:\n" << complex.to_string(); + + BOOST_CHECK(complex.num_vertices() == 6); + BOOST_CHECK(complex.num_edges() == 10); + BOOST_CHECK(complex.num_blockers() == 2); +} + +std::list<Simplex> subfaces(Simplex top_face) { + std::list<Simplex> res; + if (top_face.dimension() == -1) return res; + if (top_face.dimension() == 0) { + res.push_back(top_face); + return res; + } else { + Vertex_handle first_vertex = top_face.first_vertex(); + top_face.remove_vertex(first_vertex); + res = subfaces(top_face); + std::list<Simplex> copy = res; + for (auto& simplex : copy) { + simplex.add_vertex(first_vertex); + } + res.push_back(Simplex(first_vertex)); + res.splice(res.end(), copy); + return res; + } +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_constructor2) { + Simplex simplex; + for (int i = 0; i < 5; ++i) + simplex.add_vertex(static_cast<Vertex_handle> (i)); + + std::list <Simplex> simplices(subfaces(simplex)); + simplices.remove(simplex); + + Complex complex(simplices.begin(), simplices.end()); + + std::cout << "Constructor 2:\n" << complex.to_string(); + + for (auto b : complex.const_blocker_range()) { + std::cout << "b:" << b << std::endl; + } + + BOOST_CHECK(complex.num_vertices() == 5); + BOOST_CHECK(complex.num_edges() == 10); + BOOST_CHECK(complex.num_blockers() == 1); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_constructor3) { + typedef Vertex_handle Vh; + typedef Simplex Sh; + std::vector<Simplex> simplices; + auto subf(subfaces(Sh(Vh(0), Vh(1), Vh(2)))); + subf.pop_back(); //remove max face -> now a blocker 012 + simplices.insert(simplices.begin(), subf.begin(), subf.end()); + + Complex complex(simplices.begin(), simplices.end()); + + std::cout << "Constructor 3:\n" << complex.to_string(); + + BOOST_CHECK(complex.num_blockers() == 1); + Sh expected_blocker(Vh(0), Vh(1), Vh(2)); + for (auto b : complex.const_blocker_range()) + BOOST_CHECK(*b == expected_blocker); + + + BOOST_CHECK(complex.num_vertices() == 3); + BOOST_CHECK(complex.num_blockers() == 1); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_constructor4) { + typedef Vertex_handle Vh; + typedef Simplex Sh; + std::vector<Simplex> simplices; + auto subf(subfaces(Sh(Vh(0), Vh(1), Vh(2), Vh(3)))); + simplices.insert(simplices.begin(), subf.begin(), subf.end()); + + simplices.push_back(Sh(Vh(4))); + simplices.push_back(Sh(Vh(4), Vh(1))); + simplices.push_back(Sh(Vh(4), Vh(0))); + + Complex complex(simplices.begin(), simplices.end()); + + std::cout << "Constructor 4:\n" << complex.to_string(); + BOOST_CHECK(complex.num_blockers() == 1); + Sh expected_blocker(Vh(0), Vh(1), Vh(4)); + for (auto b : complex.const_blocker_range()) + BOOST_CHECK(*b == expected_blocker); + + BOOST_CHECK(complex.num_vertices() == 5); + BOOST_CHECK(complex.num_blockers() == 1); + BOOST_CHECK(complex.num_edges() == 8); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_constructor5) { + typedef Vertex_handle Vh; + typedef Simplex Sh; + std::vector<Simplex> simplices; + auto subf(subfaces(Sh(Vh(0), Vh(1), Vh(2)))); + simplices.insert(simplices.begin(), subf.begin(), subf.end()); + + simplices.push_back(Sh(Vh(3))); + simplices.push_back(Sh(Vh(3), Vh(1))); + simplices.push_back(Sh(Vh(3), Vh(2))); + simplices.push_back(Sh(Vh(4))); + simplices.push_back(Sh(Vh(4), Vh(1))); + simplices.push_back(Sh(Vh(4), Vh(0))); + simplices.push_back(Sh(Vh(5))); + simplices.push_back(Sh(Vh(5), Vh(2))); + simplices.push_back(Sh(Vh(5), Vh(0))); + + Complex complex(simplices.begin(), simplices.end()); + + std::cout << "Constructor 5:\n" << complex.to_string(); + + BOOST_CHECK(complex.num_vertices() == 6); + BOOST_CHECK(complex.num_blockers() == 3); + BOOST_CHECK(complex.num_edges() == 9); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_constructor6) { + typedef Vertex_handle Vh; + typedef Simplex Sh; + std::vector<Simplex> simplices; + auto subf(subfaces(Sh(Vh(0), Vh(1), Vh(2), Vh(3)))); + for (auto s : subf) { + Sh s1(Vh(0), Vh(1), Vh(2), Vh(3)); + Sh s2(Vh(1), Vh(2), Vh(3)); + if (s != s1 && s != s2) simplices.push_back(s); + } + + Complex complex(simplices.begin(), simplices.end()); + + std::cout << "Constructor 6:\n" << complex.to_string(); + + BOOST_CHECK(complex.num_vertices() == 4); + BOOST_CHECK(complex.num_blockers() == 1); + BOOST_CHECK(complex.num_edges() == 6); + Sh expected_blocker(Vh(1), Vh(2), Vh(3)); + for (auto b : complex.const_blocker_range()) + BOOST_CHECK(*b == expected_blocker); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_constructor7) { + typedef Vertex_handle Vh; + typedef Simplex Sh; + std::vector<Simplex> simplices; + simplices.push_back(Sh(Vh(0), Vh(1), Vh(2))); + simplices.push_back(Sh(Vh(1), Vh(2), Vh(3))); + simplices.push_back(Sh(Vh(3), Vh(0), Vh(2))); + simplices.push_back(Sh(Vh(3), Vh(0), Vh(1))); + + //get complex from top faces + Complex complex(Gudhi::skeleton_blocker::make_complex_from_top_faces<Complex>(simplices.begin(), simplices.end())); + + std::cout << "Constructor 7:\n" << complex.to_string(); + + BOOST_CHECK(complex.num_vertices() == 4); + BOOST_CHECK(complex.num_blockers() == 1); + BOOST_CHECK(complex.num_edges() == 6); + Sh expected_blocker(Vh(0), Vh(1), Vh(2), Vh(3)); + for (auto b : complex.const_blocker_range()) + BOOST_CHECK(*b == expected_blocker); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_complex_constructor8) { + typedef Vertex_handle Vh; + typedef Simplex Sh; + std::vector<Simplex> simplices; + simplices.push_back(Sh(Vh(0), Vh(1))); + simplices.push_back(Sh(Vh(2), Vh(1))); + simplices.push_back(Sh(Vh(0), Vh(2))); + simplices.push_back(Sh(Vh(3), Vh(1))); + simplices.push_back(Sh(Vh(2), Vh(3))); + + //get complex from top faces + Complex complex(Gudhi::skeleton_blocker::make_complex_from_top_faces<Complex>(simplices.begin(), simplices.end())); + + std::cout << "Constructor 8:\n" << complex.to_string(); + + BOOST_CHECK(complex.num_vertices() == 4); + BOOST_CHECK(complex.num_blockers() == 2); + BOOST_CHECK(complex.num_edges() == 5); +} diff --git a/src/Skeleton_blocker/test/test_skeleton_blocker_geometric_complex.cpp b/src/Skeleton_blocker/test/test_skeleton_blocker_geometric_complex.cpp new file mode 100644 index 00000000..8cad97a1 --- /dev/null +++ b/src/Skeleton_blocker/test/test_skeleton_blocker_geometric_complex.cpp @@ -0,0 +1,113 @@ +/* This file is part of the Gudhi Library - https://gudhi.inria.fr/ - which is released under MIT. + * See file LICENSE or go to https://gudhi.inria.fr/licensing/ for full license details. + * Author(s): David Salinas + * + * Copyright (C) 2014 Inria + * + * Modification(s): + * - YYYY/MM Author: Description of the modification + */ + +#include <stdio.h> +#include <stdlib.h> +#include <string> +#include <fstream> +#include <sstream> + +#define BOOST_TEST_DYN_LINK +#define BOOST_TEST_MODULE "skeleton_blocker_geometric_complex" +#include <boost/test/unit_test.hpp> +#include <boost/mpl/list.hpp> + +#include <gudhi/Skeleton_blocker.h> + +struct Geometry_trait { + typedef std::vector<double> Point; +}; + +typedef Geometry_trait::Point Point; +typedef Gudhi::skeleton_blocker::Skeleton_blocker_simple_geometric_traits<Geometry_trait> Complex_geometric_traits; +typedef Gudhi::skeleton_blocker::Skeleton_blocker_geometric_complex< Complex_geometric_traits > Complex; +typedef Complex::Vertex_handle Vertex_handle; +typedef Complex_geometric_traits::Root_vertex_handle Root_vertex_handle; + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_off_reader_writer) { + Complex complex; + Gudhi::skeleton_blocker::Skeleton_blocker_off_reader<Complex> off_reader("test2.off", complex); + BOOST_CHECK(off_reader.is_valid()); + + std::cout << "complex has " << + complex.num_vertices() << " vertices, " << + complex.num_blockers() << " blockers, " << + complex.num_edges() << " edges and " << + complex.num_triangles() << " triangles."; + + BOOST_CHECK(complex.num_vertices() == 7); + BOOST_CHECK(complex.num_edges() == 12); + BOOST_CHECK(complex.num_triangles() == 6); + + Gudhi::skeleton_blocker::Skeleton_blocker_off_writer<Complex> off_writer("tmp.off", complex); + Complex same; + Gudhi::skeleton_blocker::Skeleton_blocker_off_reader<Complex> off_reader2("tmp.off", same); + + std::cout << "\ncomplex:" << complex.to_string() << std::endl; + std::cout << "\nsame:" << same.to_string() << std::endl; + + BOOST_CHECK(complex == same); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_abstract_link) { + Complex complex; + Gudhi::skeleton_blocker::Skeleton_blocker_off_reader<Complex> off_reader("test2.off", complex); + BOOST_CHECK(off_reader.is_valid()); + + std::cout << "complex has " << + complex.num_vertices() << " vertices, " << + complex.num_blockers() << " blockers, " << + complex.num_edges() << " edges and " << + complex.num_triangles() << " triangles."; + + BOOST_CHECK(complex.num_vertices() == 7); + BOOST_CHECK(complex.num_edges() == 12); + BOOST_CHECK(complex.num_triangles() == 6); + + auto link_0 = complex.abstract_link(Vertex_handle(0)); + + std::cout << "\n link(0):" << link_0.to_string() << std::endl; + + BOOST_CHECK(link_0.num_vertices() == 2); + BOOST_CHECK(link_0.num_edges() == 1); + BOOST_CHECK(link_0.num_blockers() == 0); + + // Check the 2 link vertices + auto vertex_handle = link_0.vertex_range().begin(); + BOOST_CHECK(link_0[*vertex_handle].get_id() == Root_vertex_handle(1)); + vertex_handle++; + BOOST_CHECK(link_0[*(vertex_handle)].get_id() == Root_vertex_handle(4)); + + // Check the lonely link edge + auto edge_handle = link_0.edge_range().begin(); + BOOST_CHECK(link_0[*edge_handle].first() == Root_vertex_handle(1)); + BOOST_CHECK(link_0[*(edge_handle)].second() == Root_vertex_handle(4)); + + auto link_geometric_0 = complex.link(Vertex_handle(0)); + std::cout << "\n link_geometric(0):" << link_geometric_0.to_string() << std::endl; + + BOOST_CHECK(link_0 == link_geometric_0); + + auto print_point = [&](Vertex_handle v) { + for (auto x : link_geometric_0.point(v)) std::cout << x << " "; + std::cout << std::endl; + }; + + std::for_each(link_geometric_0.vertex_range().begin(), link_geometric_0.vertex_range().end(), print_point); + + // Check the 2 link vertices + vertex_handle = link_geometric_0.vertex_range().begin(); + std::vector<double> point_1 = {0,2,0}; + std::vector<double> point_4 = {-1,1,0}; + BOOST_CHECK(link_geometric_0.point(*vertex_handle) == point_1); + vertex_handle++; + BOOST_CHECK(link_geometric_0.point(*vertex_handle) == point_4); + +} diff --git a/src/Skeleton_blocker/test/test_skeleton_blocker_simplifiable.cpp b/src/Skeleton_blocker/test/test_skeleton_blocker_simplifiable.cpp new file mode 100644 index 00000000..b714753d --- /dev/null +++ b/src/Skeleton_blocker/test/test_skeleton_blocker_simplifiable.cpp @@ -0,0 +1,348 @@ +/* This file is part of the Gudhi Library - https://gudhi.inria.fr/ - which is released under MIT. + * See file LICENSE or go to https://gudhi.inria.fr/licensing/ for full license details. + * Author(s): David Salinas + * + * Copyright (C) 2014 Inria + * + * Modification(s): + * - YYYY/MM Author: Description of the modification + */ + +#include <stdio.h> +#include <stdlib.h> +#include <string> +#include <fstream> +#include <sstream> + +#define BOOST_TEST_DYN_LINK +#define BOOST_TEST_MODULE "skeleton_blocker_simplifiable" +#include <boost/test/unit_test.hpp> +#include <boost/mpl/list.hpp> + +#include <gudhi/Skeleton_blocker.h> + +template<typename ComplexType> class Skeleton_blocker_sub_complex; +typedef Gudhi::skeleton_blocker::Skeleton_blocker_simple_traits Traits; +typedef Gudhi::skeleton_blocker::Skeleton_blocker_complex<Traits> Complex; +typedef Complex::Vertex_handle Vertex_handle; +typedef Complex::Root_vertex_handle Root_vertex_handle; +typedef Gudhi::skeleton_blocker::Skeleton_blocker_simplex<Vertex_handle> Simplex; + + +void build_complete(int n, Complex& complex) { + complex.clear(); + for (int i = 0; i < n; i++) + complex.add_vertex(); + for (int i = 0; i < n; i++) + for (int j = 0; j < i; j++) + complex.add_edge_without_blockers(Vertex_handle(i), Vertex_handle(j)); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplifiable_contraction1) { + enum { a, b, x, y, z, n }; + Complex complex(n); + build_complete(n, complex); + complex.remove_edge(static_cast<Vertex_handle> (b), static_cast<Vertex_handle> (z)); + complex.add_blocker(Simplex(static_cast<Vertex_handle> (a), static_cast<Vertex_handle> (x), + static_cast<Vertex_handle> (y))); + complex.add_blocker(Simplex(static_cast<Vertex_handle> (b), static_cast<Vertex_handle> (x), + static_cast<Vertex_handle> (y))); + + // Print result + std::cout << "complex before complex" << complex.to_string() << std::endl; + + std::cout << std::endl << std::endl; + complex.contract_edge(static_cast<Vertex_handle> (a), static_cast<Vertex_handle> (b)); + // Print result + std::cout << "ContractEdge(0,1)\n"; + PRINT(complex.to_string()); + + // verification + for (int i = 0; i < 5; i++) + if (i != 1) BOOST_CHECK(complex.contains(Simplex(static_cast<Vertex_handle> (i)))); + BOOST_CHECK(!complex.contains_edge(static_cast<Vertex_handle> (a), static_cast<Vertex_handle> (b))); + + BOOST_CHECK(complex.contains_blocker(Simplex(*complex.get_address(Root_vertex_handle(a)), + *complex.get_address(Root_vertex_handle(x)), + *complex.get_address(Root_vertex_handle(y))))); + + BOOST_CHECK(complex.num_edges() == 6); + BOOST_CHECK(complex.num_blockers() == 1); + Simplex sigma; + sigma.add_vertex(static_cast<Vertex_handle> (a)); + sigma.add_vertex(static_cast<Vertex_handle> (x)); + sigma.add_vertex(static_cast<Vertex_handle> (y)); + sigma.add_vertex(static_cast<Vertex_handle> (z)); + BOOST_CHECK(!(complex.contains(sigma))); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplifiable_contraction2) { + enum { a, b, x, y, z, n }; + Complex complex(n); + build_complete(n, complex); + complex.remove_edge(static_cast<Vertex_handle> (b), static_cast<Vertex_handle> (x)); + Simplex blocker; + blocker.add_vertex(static_cast<Vertex_handle> (a)); + blocker.add_vertex(static_cast<Vertex_handle> (y)); + blocker.add_vertex(static_cast<Vertex_handle> (z)); + + complex.add_blocker(blocker); + + // Print result + std::cout << "complex complex" << complex.to_string(); + std::cout << std::endl << std::endl; + complex.contract_edge(static_cast<Vertex_handle> (a), static_cast<Vertex_handle> (b)); + + std::cout << "complex.ContractEdge(a,b)" << complex.to_string(); + + std::cout << std::endl << std::endl; + + // there should be one blocker (a,c,d,e) in the complex + BOOST_CHECK(complex.contains_blocker(Simplex(static_cast<Vertex_handle> (a), static_cast<Vertex_handle> (x), + static_cast<Vertex_handle> (y), static_cast<Vertex_handle> (z)))); + BOOST_CHECK(complex.num_blockers() == 1); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplifiable_link_condition1) { + Complex complex(0); + // Build the complexes + build_complete(4, complex); + complex.add_blocker(Simplex(static_cast<Vertex_handle> (0), static_cast<Vertex_handle> (1), static_cast<Vertex_handle> (2))); + + // Print result + std::cout << "complex complex" << complex.to_string(); + std::cout << std::endl << std::endl; + + BOOST_CHECK(complex.link_condition(Vertex_handle(1), Vertex_handle(2), true)); + + BOOST_CHECK(!complex.link_condition(Vertex_handle(1), Vertex_handle(2), false)); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplifiable_collapse0) { + Complex complex(5); + build_complete(4, complex); + complex.add_vertex(); + complex.add_edge_without_blockers(static_cast<Vertex_handle> (2), static_cast<Vertex_handle> (4)); + complex.add_edge_without_blockers(static_cast<Vertex_handle> (3), static_cast<Vertex_handle> (4)); + // Print result + std::cout << "initial complex :\n" << complex.to_string(); + std::cout << std::endl << std::endl; + + Simplex simplex_123(static_cast<Vertex_handle> (1), static_cast<Vertex_handle> (2), static_cast<Vertex_handle> (3)); + complex.remove_star(simplex_123); + std::cout << "complex.remove_star(1,2,3):\n" << complex.to_string(); + std::cout << std::endl << std::endl; + + // verification + BOOST_CHECK(complex.contains_blocker(simplex_123)); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplifiable_collapse1) { + Complex complex(5); + build_complete(4, complex); + complex.add_blocker(Simplex(Vertex_handle(0), Vertex_handle(1), Vertex_handle(2), Vertex_handle(3))); + // Print result + std::cout << "initial complex :\n" << complex.to_string(); + std::cout << std::endl << std::endl; + + Simplex simplex_123(Vertex_handle(1), Vertex_handle(2), Vertex_handle(3)); + complex.remove_star(simplex_123); + std::cout << "complex.remove_star(1,2,3):\n" << complex.to_string(); + std::cout << std::endl << std::endl; + + // verification + BOOST_CHECK(complex.contains_blocker(simplex_123)); + BOOST_CHECK(complex.num_blockers() == 1); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplifiable_collapse2) { + Complex complex(5); + build_complete(4, complex); + complex.add_vertex(); + complex.add_edge_without_blockers(Vertex_handle(1), Vertex_handle(4)); + complex.add_edge_without_blockers(Vertex_handle(2), Vertex_handle(4)); + complex.add_edge_without_blockers(Vertex_handle(3), Vertex_handle(4)); + complex.add_blocker(Simplex(Vertex_handle(1), Vertex_handle(2), Vertex_handle(3), Vertex_handle(4))); + // Print result + std::cout << "initial complex :\n" << complex.to_string(); + std::cout << std::endl << std::endl; + + Simplex sigma(Vertex_handle(1), Vertex_handle(2), Vertex_handle(3)); + complex.remove_star(sigma); + std::cout << "complex.remove_star(1,2,3):\n" << complex.to_string(); + std::cout << std::endl << std::endl; + + // verification + BOOST_CHECK(!complex.contains_blocker(Simplex(Vertex_handle(1), Vertex_handle(2), + Vertex_handle(3), Vertex_handle(4)))); + BOOST_CHECK(complex.contains_blocker(sigma)); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplifiable_collapse3) { + Complex complex(5); + build_complete(4, complex); + complex.add_vertex(); + complex.add_edge_without_blockers(Vertex_handle(1), Vertex_handle(4)); + complex.add_edge_without_blockers(Vertex_handle(2), Vertex_handle(4)); + complex.add_edge_without_blockers(Vertex_handle(3), Vertex_handle(4)); + complex.add_blocker(Simplex(Vertex_handle(1), Vertex_handle(2), Vertex_handle(3), Vertex_handle(4))); + // Print result + std::cout << "initial complex:\n" << complex.to_string(); + std::cout << std::endl << std::endl; + + complex.remove_star(static_cast<Vertex_handle> (2)); + std::cout << "complex after remove star of 2:\n" << complex.to_string(); + + BOOST_CHECK(complex.contains_blocker(Simplex(Vertex_handle(1), Vertex_handle(3), Vertex_handle(4)))); + BOOST_CHECK(!complex.contains_blocker(Simplex(Vertex_handle(1), Vertex_handle(2), + Vertex_handle(3), Vertex_handle(4)))); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplifiable_add_simplex) { + Complex complex(4); + build_complete(4, complex); + complex.add_blocker(Simplex(Vertex_handle(0), Vertex_handle(1), Vertex_handle(3))); + std::cout << "initial complex:\n" << complex.to_string(); + std::cout << std::endl << std::endl; + + complex.add_simplex(Simplex(Vertex_handle(0), Vertex_handle(1), Vertex_handle(3))); + std::cout << "complex after add_simplex:\n" << complex.to_string(); + BOOST_CHECK(complex.num_blockers() == 1); + BOOST_CHECK(complex.contains_blocker(Simplex(Vertex_handle(0), Vertex_handle(1), + Vertex_handle(2), Vertex_handle(3)))); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplifiable_add_simplex2) { + Complex complex; + build_complete(4, complex); + // Print result + std::cout << "initial complex:\n" << complex.to_string(); + std::cout << std::endl << std::endl; + + Complex copy(complex.num_vertices()); + + std::vector<Simplex> simplices(complex.complex_simplex_range().begin(), complex.complex_simplex_range().end()); + sort(simplices.begin(), simplices.end(), [&](const Simplex& s1, const Simplex & s2) { + return s1.dimension() < s2.dimension(); + }); + for (const auto & simplex : simplices) { + if (!copy.contains(simplex) && simplex.dimension() == 1) + copy.add_edge_without_blockers(simplex.first_vertex(), simplex.last_vertex()); + if (!copy.contains(simplex) && simplex.dimension() > 1) + copy.add_simplex(simplex); + } + + std::cout << "complex after add_simplex:\n" << copy.to_string(); + + BOOST_CHECK(complex.num_blockers() == copy.num_blockers()); + BOOST_CHECK(complex.num_edges() == copy.num_edges()); + BOOST_CHECK(complex.num_vertices() == copy.num_vertices()); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplifiable_add_simplex3) { + Complex complex(5); + build_complete(5, complex); + complex.remove_edge(Vertex_handle(3), Vertex_handle(4)); + Simplex sigma(Vertex_handle(0), Vertex_handle(1), Vertex_handle(2)); + complex.add_blocker(sigma); + // Print result + std::cout << "initial complex:\n" << complex.to_string(); + std::cout << std::endl << std::endl; + complex.add_simplex(sigma); + //should create two blockers 0123 and 0124 + std::cout << "complex after adding simplex 012:\n" << complex.to_string(); + BOOST_CHECK(complex.num_blockers() == 2); + BOOST_CHECK(complex.contains_blocker(Simplex(Vertex_handle(0), Vertex_handle(1), + Vertex_handle(2), Vertex_handle(3)))); + BOOST_CHECK(complex.contains_blocker(Simplex(Vertex_handle(0), Vertex_handle(1), + Vertex_handle(2), Vertex_handle(4)))); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplifiable_add_simplex4) { + int n = 6; + Complex complex(n); + + // add all simplex 0..n without i + for (int i = 0; i < n; i++) { + Simplex s; + for (int k = 0; k < n; k++) + s.add_vertex(Vertex_handle(k)); + s.remove_vertex(Vertex_handle(i)); + complex.add_simplex(s); + + //at step i there is only blocker 0..i + BOOST_CHECK(!(i < 2 && complex.num_blockers() > 0)); + if (i >= 2 && complex.num_blockers() != 1) { + Simplex b; + for (int k = 0; k < i; k++) + b.add_vertex(Vertex_handle(i)); + BOOST_CHECK(complex.contains_blocker(b)); + } + } + Simplex s; + for (int k = 0; k < n; k++) + s.add_vertex(Vertex_handle(k)); + BOOST_CHECK(complex.num_blockers() == 1); + BOOST_CHECK(complex.contains_blocker(s)); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplifiable_add_edge) { + Complex complex(4); + for (unsigned i = 0u; i < 4; i++) + complex.add_edge(Vertex_handle(i), Vertex_handle((i + 1) % 4)); + + // Print result + std::cout << "initial complex:\n" << complex.to_string(); + std::cout << std::endl << std::endl; + complex.add_edge(Vertex_handle(1), Vertex_handle(3)); + //should create two blockers 013 and 012 + std::cout << "complex after adding edge 13:\n" << complex.to_string(); + BOOST_CHECK(complex.num_blockers() == 2); + BOOST_CHECK(complex.contains_blocker(Simplex(Vertex_handle(0), Vertex_handle(1), Vertex_handle(3)))); + BOOST_CHECK(complex.contains_blocker(Simplex(Vertex_handle(1), Vertex_handle(2), Vertex_handle(3)))); +} + +BOOST_AUTO_TEST_CASE(test_skeleton_blocker_simplifiable_remove_popable_blockers) { + Complex complex; + build_complete(4, complex); + complex.add_vertex(); + complex.add_edge_without_blockers(Vertex_handle(3), Vertex_handle(4)); + complex.add_edge_without_blockers(Vertex_handle(2), Vertex_handle(4)); + Simplex sigma1 = Simplex(Vertex_handle(1), Vertex_handle(2), Vertex_handle(3)); + Simplex sigma2 = Simplex(Vertex_handle(2), Vertex_handle(3), Vertex_handle(4)); + + complex.add_blocker(sigma1); + complex.add_blocker(sigma2); + std::cout << "complex complex" << complex.to_string(); + std::cout << std::endl << std::endl; + std::cout << "complex.RemovePopableBlockers();" << std::endl; + complex.remove_popable_blockers(); + std::cout << "complex complex" << complex.to_string(); + std::cout << std::endl << std::endl; + + BOOST_CHECK(complex.num_blockers() == 1); + + // test 2 + complex.clear(); + build_complete(4, complex); + complex.add_vertex(); + complex.add_vertex(); + complex.add_edge_without_blockers(Vertex_handle(3), Vertex_handle(4)); + complex.add_edge_without_blockers(Vertex_handle(2), Vertex_handle(4)); + complex.add_edge_without_blockers(Vertex_handle(2), Vertex_handle(5)); + complex.add_edge_without_blockers(Vertex_handle(3), Vertex_handle(5)); + complex.add_edge_without_blockers(Vertex_handle(4), Vertex_handle(5)); + sigma1 = Simplex(Vertex_handle(1), Vertex_handle(2), Vertex_handle(3)); + sigma2 = Simplex(Vertex_handle(2), Vertex_handle(3), Vertex_handle(4)); + + complex.add_blocker(sigma1); + complex.add_blocker(sigma2); + std::cout << "complex complex" << complex.to_string(); + std::cout << std::endl << std::endl; + std::cout << "complex.RemovePopableBlockers();" << std::endl; + complex.remove_popable_blockers(); + std::cout << "complex complex" << complex.to_string(); + + std::cout << std::endl << std::endl; + BOOST_CHECK(complex.num_blockers() == 0); +} |