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Diffstat (limited to 'src/Witness_complex/example/witness_complex_flat_torus.cpp')
-rw-r--r-- | src/Witness_complex/example/witness_complex_flat_torus.cpp | 851 |
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diff --git a/src/Witness_complex/example/witness_complex_flat_torus.cpp b/src/Witness_complex/example/witness_complex_flat_torus.cpp deleted file mode 100644 index 49383154..00000000 --- a/src/Witness_complex/example/witness_complex_flat_torus.cpp +++ /dev/null @@ -1,851 +0,0 @@ -/* 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): Siargey Kachanovich - * - * Copyright (C) 2015 INRIA Sophia Antipolis-Méditerranée (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/>. - */ - -#include <iostream> -#include <fstream> -#include <ctime> -#include <utility> -#include <algorithm> -#include <set> -#include <iterator> - -#include <sys/types.h> -#include <sys/stat.h> -//#include <stdlib.h> - -//#include "gudhi/graph_simplicial_complex.h" -#include "gudhi/Witness_complex.h" -#include "gudhi/reader_utils.h" -//#include <boost/filesystem.hpp> - -//#include <CGAL/Delaunay_triangulation.h> -#include <CGAL/Cartesian_d.h> -#include <CGAL/Search_traits.h> -#include <CGAL/Search_traits_adapter.h> -#include <CGAL/property_map.h> -#include <CGAL/Epick_d.h> -#include <CGAL/Orthogonal_k_neighbor_search.h> -#include <CGAL/Kd_tree.h> -#include <CGAL/Euclidean_distance.h> - -#include <CGAL/Kernel_d/Vector_d.h> -#include <CGAL/point_generators_d.h> -#include <CGAL/constructions_d.h> -#include <CGAL/Fuzzy_sphere.h> -#include <CGAL/Random.h> - - -#include <boost/tuple/tuple.hpp> -#include <boost/iterator/zip_iterator.hpp> -#include <boost/iterator/counting_iterator.hpp> -#include <boost/range/iterator_range.hpp> - -using namespace Gudhi; -//using namespace boost::filesystem; - -typedef CGAL::Epick_d<CGAL::Dynamic_dimension_tag> K; -typedef K::Point_d Point_d; -//typedef CGAL::Cartesian_d<double> K; -//typedef CGAL::Point_d<K> Point_d; -typedef K::FT FT; -typedef CGAL::Search_traits< - FT, Point_d, - typename K::Cartesian_const_iterator_d, - typename K::Construct_cartesian_const_iterator_d> Traits_base; -typedef CGAL::Euclidean_distance<Traits_base> Euclidean_distance; - -/** - * \brief Class of distance in a flat torus in dimension D - * - */ -//class Torus_distance : public Euclidean_distance { -/* - class Torus_distance { - -public: - typedef K::FT FT; - typedef K::Point_d Point_d; - typedef Point_d Query_item; - typedef typename CGAL::Dynamic_dimension_tag D; - - double box_length = 2; - - FT transformed_distance(Query_item q, Point_d p) const - { - FT distance = FT(0); - FT coord = FT(0); - //std::cout << "Hello skitty!\n"; - typename K::Construct_cartesian_const_iterator_d construct_it=Traits_base().construct_cartesian_const_iterator_d_object(); - typename K::Cartesian_const_iterator_d qit = construct_it(q), - qe = construct_it(q,1), pit = construct_it(p); - for(; qit != qe; qit++, pit++) - { - coord = sqrt(((*qit)-(*pit))*((*qit)-(*pit))); - if (coord*coord <= (box_length-coord)*(box_length-coord)) - distance += coord*coord; - else - distance += (box_length-coord)*(box_length-coord); - } - return distance; - } - - FT min_distance_to_rectangle(const Query_item& q, - const CGAL::Kd_tree_rectangle<FT,D>& r) const { - FT distance = FT(0); - FT dist1, dist2; - typename K::Construct_cartesian_const_iterator_d construct_it=Traits_base().construct_cartesian_const_iterator_d_object(); - typename K::Cartesian_const_iterator_d qit = construct_it(q), - qe = construct_it(q,1); - for(unsigned int i = 0;qit != qe; i++, qit++) - { - if((*qit) < r.min_coord(i)) - { - dist1 = (r.min_coord(i)-(*qit)); - dist2 = (box_length - r.max_coord(i)+(*qit)); - if (dist1 < dist2) - distance += dist1*dist1; - else - distance += dist2*dist2; - } - else if ((*qit) > r.max_coord(i)) - { - dist1 = (box_length - (*qit)+r.min_coord(i)); - dist2 = ((*qit) - r.max_coord(i)); - if (dist1 < dist2) - distance += dist1*dist1; - else - distance += dist2*dist2; - } - } - return distance; - } - - FT min_distance_to_rectangle(const Query_item& q, - const CGAL::Kd_tree_rectangle<FT,D>& r, - std::vector<FT>& dists) const { - FT distance = FT(0); - FT dist1, dist2; - typename K::Construct_cartesian_const_iterator_d construct_it=Traits_base().construct_cartesian_const_iterator_d_object(); - typename K::Cartesian_const_iterator_d qit = construct_it(q), - qe = construct_it(q,1); - //std::cout << r.max_coord(0) << std::endl; - for(unsigned int i = 0;qit != qe; i++, qit++) - { - if((*qit) < r.min_coord(i)) - { - dist1 = (r.min_coord(i)-(*qit)); - dist2 = (box_length - r.max_coord(i)+(*qit)); - if (dist1 < dist2) - { - dists[i] = dist1; - distance += dist1*dist1; - } - else - { - dists[i] = dist2; - distance += dist2*dist2; - //std::cout << "Good stuff1\n"; - } - } - else if ((*qit) > r.max_coord(i)) - { - dist1 = (box_length - (*qit)+r.min_coord(i)); - dist2 = ((*qit) - r.max_coord(i)); - if (dist1 < dist2) - { - dists[i] = dist1; - distance += dist1*dist1; - //std::cout << "Good stuff2\n"; - } - else - { - dists[i] = dist2; - distance += dist2*dist2; - } - } - }; - return distance; - } - - FT max_distance_to_rectangle(const Query_item& q, - const CGAL::Kd_tree_rectangle<FT,D>& r) const { - FT distance=FT(0); - typename K::Construct_cartesian_const_iterator_d construct_it=Traits_base().construct_cartesian_const_iterator_d_object(); - typename K::Cartesian_const_iterator_d qit = construct_it(q), - qe = construct_it(q,1); - for(unsigned int i = 0;qit != qe; i++, qit++) - { - if (box_length <= (r.min_coord(i)+r.max_coord(i))) - if ((r.max_coord(i)+r.min_coord(i)-box_length)/FT(2.0) <= (*qit) && - (*qit) <= (r.min_coord(i)+r.max_coord(i))/FT(2.0)) - distance += (r.max_coord(i)-(*qit))*(r.max_coord(i)-(*qit)); - else - distance += ((*qit)-r.min_coord(i))*((*qit)-r.min_coord(i)); - else - if ((box_length-r.max_coord(i)-r.min_coord(i))/FT(2.0) <= (*qit) || - (*qit) <= (r.min_coord(i)+r.max_coord(i))/FT(2.0)) - distance += (r.max_coord(i)-(*qit))*(r.max_coord(i)-(*qit)); - else - distance += ((*qit)-r.min_coord(i))*((*qit)-r.min_coord(i)); - } - return distance; - } - - - FT max_distance_to_rectangle(const Query_item& q, - const CGAL::Kd_tree_rectangle<FT,D>& r, - std::vector<FT>& dists) const { - FT distance=FT(0); - typename K::Construct_cartesian_const_iterator_d construct_it=Traits_base().construct_cartesian_const_iterator_d_object(); - typename K::Cartesian_const_iterator_d qit = construct_it(q), - qe = construct_it(q,1); - for(unsigned int i = 0;qit != qe; i++, qit++) - { - if (box_length <= (r.min_coord(i)+r.max_coord(i))) - if ((r.max_coord(i)+r.min_coord(i)-box_length)/FT(2.0) <= (*qit) && - (*qit) <= (r.min_coord(i)+r.max_coord(i))/FT(2.0)) - { - dists[i] = r.max_coord(i)-(*qit); - distance += (r.max_coord(i)-(*qit))*(r.max_coord(i)-(*qit)); - } - else - { - dists[i] = sqrt(((*qit)-r.min_coord(i))*((*qit)-r.min_coord(i))); - distance += ((*qit)-r.min_coord(i))*((*qit)-r.min_coord(i)); - } - else - if ((box_length-r.max_coord(i)-r.min_coord(i))/FT(2.0) <= (*qit) || - (*qit) <= (r.min_coord(i)+r.max_coord(i))/FT(2.0)) - { - dists[i] = sqrt((r.max_coord(i)-(*qit))*(r.max_coord(i)-(*qit))); - distance += (r.max_coord(i)-(*qit))*(r.max_coord(i)-(*qit)); - - } - else - { - dists[i] = (*qit)-r.min_coord(i); - distance += ((*qit)-r.min_coord(i))*((*qit)-r.min_coord(i)); - } - } - return distance; - } - - inline FT new_distance(FT dist, FT old_off, FT new_off, - int ) const { - - FT new_dist = dist + (new_off*new_off - old_off*old_off); - return new_dist; - } - - inline FT transformed_distance(FT d) const { - return d*d; - } - - inline FT inverse_of_transformed_distance(FT d) const { - return sqrt(d); - } - -}; -*/ - -typedef std::vector< Vertex_handle > typeVectorVertex; - -//typedef std::pair<typeVectorVertex, Filtration_value> typeSimplex; -//typedef std::pair< Simplex_tree<>::Simplex_handle, bool > typePairSimplexBool; - -typedef CGAL::Search_traits_adapter< - std::ptrdiff_t, Point_d*, Traits_base> STraits; -//typedef K TreeTraits; -//typedef CGAL::Distance_adapter<std::ptrdiff_t,Point_d*,Euclidean_distance > Euclidean_adapter; -//typedef CGAL::Kd_tree<STraits> Kd_tree; -typedef CGAL::Orthogonal_k_neighbor_search<STraits, CGAL::Distance_adapter<std::ptrdiff_t,Point_d*,Euclidean_distance>> K_neighbor_search; -typedef K_neighbor_search::Tree Tree; -typedef K_neighbor_search::Distance Distance; -typedef K_neighbor_search::iterator KNS_iterator; -typedef K_neighbor_search::iterator KNS_range; -typedef boost::container::flat_map<int, int> Point_etiquette_map; -typedef CGAL::Kd_tree<STraits> Tree2; - -typedef CGAL::Fuzzy_sphere<STraits> Fuzzy_sphere; - -typedef std::vector<Point_d> Point_Vector; - -//typedef K::Equal_d Equal_d; -//typedef CGAL::Random_points_in_cube_d<CGAL::Point_d<CGAL::Cartesian_d<FT> > > Random_cube_iterator; -typedef CGAL::Random_points_in_cube_d<Point_d> Random_cube_iterator; -typedef CGAL::Random_points_in_ball_d<Point_d> Random_point_iterator; - -bool toric=false; - -/** - * \brief Customized version of read_points - * which takes into account a possible nbP first line - * - */ -inline void -read_points_cust ( std::string file_name , Point_Vector & points) -{ - std::ifstream in_file (file_name.c_str(),std::ios::in); - if(!in_file.is_open()) - { - std::cerr << "Unable to open file " << file_name << std::endl; - return; - } - std::string line; - double x; - while( getline ( in_file , line ) ) - { - std::vector< double > point; - std::istringstream iss( line ); - while(iss >> x) { point.push_back(x); } - Point_d p(point.begin(), point.end()); - if (point.size() != 1) - points.push_back(p); - } - in_file.close(); -} - -void generate_points_grid(Point_Vector& W, int width, int D) -{ - int nb_points = 1; - for (int i = 0; i < D; ++i) - nb_points *= width; - for (int i = 0; i < nb_points; ++i) - { - std::vector<double> point; - int cell_i = i; - for (int l = 0; l < D; ++l) - { - point.push_back((2.0/width)*(cell_i%width)); - cell_i /= width; - } - W.push_back(point); - } -} - -void generate_points_random_box(Point_Vector& W, int nbP, int dim) -{ - /* - Random_cube_iterator rp(dim, 1); - for (int i = 0; i < nbP; i++) - { - std::vector<double> point; - for (auto it = rp->cartesian_begin(); it != rp->cartesian_end(); ++it) - point.push_back(*it); - W.push_back(Point_d(point)); - rp++; - } - */ - Random_cube_iterator rp(dim, 1.0); - for (int i = 0; i < nbP; i++) - { - W.push_back(*rp++); - } -} - -/* NOT TORUS RELATED - */ -void generate_points_sphere(Point_Vector& W, int nbP, int dim) -{ - CGAL::Random_points_on_sphere_d<Point_d> rp(dim,1); - for (int i = 0; i < nbP; i++) - W.push_back(*rp++); -} -/* -void read_points_to_tree (std::string file_name, Tree& tree) -{ - //I assume here that tree is empty - std::ifstream in_file (file_name.c_str(),std::ios::in); - if(!in_file.is_open()) - { - std::cerr << "Unable to open file " << file_name << std::endl; - return; - } - std::string line; - double x; - while( getline ( in_file , line ) ) - { - std::vector<double> coords; - std::istringstream iss( line ); - while(iss >> x) { coords.push_back(x); } - if (coords.size() != 1) - { - Point_d point(coords.begin(), coords.end()); - tree.insert(point); - } - } - in_file.close(); -} -*/ - -void write_wl( std::string file_name, std::vector< std::vector <int> > & WL) -{ - std::ofstream ofs (file_name, std::ofstream::out); - for (auto w : WL) - { - for (auto l: w) - ofs << l << " "; - ofs << "\n"; - } - ofs.close(); -} - - -std::vector<Point_d> convert_to_torus(std::vector< Point_d>& points) -{ - std::vector< Point_d > points_torus; - for (auto p: points) - { - FT theta = M_PI*p[0]; - FT phi = M_PI*p[1]; - std::vector<FT> p_torus; - p_torus.push_back((1+0.2*cos(theta))*cos(phi)); - p_torus.push_back((1+0.2*cos(theta))*sin(phi)); - p_torus.push_back(0.2*sin(theta)); - points_torus.push_back(Point_d(p_torus)); - } - return points_torus; -} - -void write_points_torus( std::string file_name, std::vector< Point_d > & points) -{ - std::ofstream ofs (file_name, std::ofstream::out); - std::vector<Point_d> points_torus = convert_to_torus(points); - for (auto w : points_torus) - { - for (auto it = w.cartesian_begin(); it != w.cartesian_end(); ++it) - ofs << *it << " "; - ofs << "\n"; - } - ofs.close(); -} - -void write_points( std::string file_name, std::vector< Point_d > & points) -{ - if (toric) write_points_torus(file_name, points); - else - { - std::ofstream ofs (file_name, std::ofstream::out); - for (auto w : points) - { - for (auto it = w.cartesian_begin(); it != w.cartesian_end(); ++it) - ofs << *it << " "; - ofs << "\n"; - } - ofs.close(); - } -} - - -void write_edges_torus(std::string file_name, Witness_complex<>& witness_complex, Point_Vector& landmarks) -{ - std::ofstream ofs (file_name, std::ofstream::out); - Point_Vector l_torus = convert_to_torus(landmarks); - for (auto u: witness_complex.complex_vertex_range()) - for (auto v: witness_complex.complex_vertex_range()) - { - typeVectorVertex edge = {u,v}; - if (u < v && witness_complex.find(edge) != witness_complex.null_simplex()) - { - for (auto it = l_torus[u].cartesian_begin(); it != l_torus[u].cartesian_end(); ++it) - ofs << *it << " "; - ofs << "\n"; - for (auto it = l_torus[v].cartesian_begin(); it != l_torus[v].cartesian_end(); ++it) - ofs << *it << " "; - ofs << "\n\n\n"; - } - } - ofs.close(); -} - -void write_edges(std::string file_name, Witness_complex<>& witness_complex, Point_Vector& landmarks) -{ - std::ofstream ofs (file_name, std::ofstream::out); - if (toric) write_edges_torus(file_name, witness_complex, landmarks); - else - { - for (auto u: witness_complex.complex_vertex_range()) - for (auto v: witness_complex.complex_vertex_range()) - { - typeVectorVertex edge = {u,v}; - if (u < v && witness_complex.find(edge) != witness_complex.null_simplex()) - { - for (auto it = landmarks[u].cartesian_begin(); it != landmarks[u].cartesian_end(); ++it) - ofs << *it << " "; - ofs << "\n"; - for (auto it = landmarks[v].cartesian_begin(); it != landmarks[v].cartesian_end(); ++it) - ofs << *it << " "; - ofs << "\n\n\n"; - } - } - ofs.close(); - } -} - - -/** Function that chooses landmarks from W and place it in the kd-tree L. - * Note: nbL hould be removed if the code moves to Witness_complex - */ -void landmark_choice(Point_Vector &W, int nbP, int nbL, Point_Vector& landmarks, std::vector<int>& landmarks_ind) -{ - std::cout << "Enter landmark choice to kd tree\n"; - int chosen_landmark; - Point_d* p; - CGAL::Random rand; - for (int i = 0; i < nbL; i++) - { - // while (!res.second) - // { - do chosen_landmark = rand.get_int(0,nbP); - while (std::find(landmarks_ind.begin(),landmarks_ind.end(),chosen_landmark)!=landmarks_ind.end()); - //rand++; - //std::cout << "Chose " << chosen_landmark << std::endl; - p = &W[chosen_landmark]; - //L_i.emplace(chosen_landmark,i); - // } - landmarks.push_back(*p); - landmarks_ind.push_back(chosen_landmark); - //std::cout << "Added landmark " << chosen_landmark << std::endl; - } - } - -/** \brief Choose landmarks on a body-central cubic system - */ -void landmark_choice_bcc(Point_Vector &W, int nbP, int width, Point_Vector& landmarks, std::vector<int>& landmarks_ind) -{ - int D = W[0].size(); - int nb_points = 1; - for (int i = 0; i < D; ++i) - nb_points *= width; - for (int i = 0; i < nb_points; ++i) - { - std::vector<double> point; - std::vector<double> cpoint; - int cell_i = i; - for (int l = 0; l < D; ++l) - { - point.push_back(-1.0+(2.0/width)*(cell_i%width)); - cpoint.push_back(-1.0+(2.0/width)*(cell_i%width)+(1.0/width)); - cell_i /= width; - } - landmarks.push_back(point); - landmarks.push_back(cpoint); - landmarks_ind.push_back(2*i); - landmarks_ind.push_back(2*i+1); - } - std::cout << "The number of landmarks is: " << landmarks.size() << std::endl; -} - - -int landmark_perturbation(Point_Vector &W, Point_Vector& landmarks, std::vector<int>& landmarks_ind) -{ - //********************Preface: origin point - int D = W[0].size(); - std::vector<FT> orig_vector; - for (int i=0; i<D; i++) - orig_vector.push_back(0); - Point_d origin(orig_vector); - //Distance dist; - //dist.transformed_distance(0,1); - //******************** Constructing a WL matrix - int nbP = W.size(); - int nbL = landmarks.size(); - //Point_Vector landmarks_ = landmarks; - Euclidean_distance ed; - //Equal_d ed; - //Point_d p1(std::vector<FT>({0.8,0.8})), p2(std::vector<FT>({0.1,0.1})); - FT lambda = ed.transformed_distance(landmarks[0],landmarks[1]); - //std::cout << "Lambda=" << lambda << std::endl; - //FT lambda = 0.1;//Euclidean_distance(); - std::vector<Point_d> landmarks_ext; - int nb_cells = 1; - for (int i = 0; i < D; ++i) - nb_cells *= 3; - for (int i = 0; i < nb_cells; ++i) - for (int k = 0; k < nbL; ++k) - { - std::vector<double> point; - int cell_i = i; - for (int l = 0; l < D; ++l) - { - point.push_back(landmarks[k][l] + 2.0*((cell_i%3)-1.0)); - cell_i /= 3; - } - landmarks_ext.push_back(point); - } - write_points("landmarks/initial_landmarks",landmarks_ext); - STraits traits(&(landmarks_ext[0])); - std::vector< std::vector <int> > WL(nbP); - Tree L(boost::counting_iterator<std::ptrdiff_t>(0), - boost::counting_iterator<std::ptrdiff_t>(nb_cells*nbL), - typename Tree::Splitter(), - traits); - /*Tree2 L2(boost::counting_iterator<std::ptrdiff_t>(0), - boost::counting_iterator<std::ptrdiff_t>(nbL), - typename Tree::Splitter(), - STraits(&(landmarks[0]))); - */ - std::cout << "Enter (D+1) nearest landmarks\n"; - //std::cout << "Size of the tree is " << L.size() << std::endl; - for (int i = 0; i < nbP; i++) - { - //std::cout << "Entered witness number " << i << std::endl; - Point_d& w = W[i]; - //std::cout << "Safely constructed a point\n"; - ////Search D+1 nearest neighbours from the tree of landmarks L - /* - if (w[0]>0.95) - std::cout << i << std::endl; - */ - K_neighbor_search search(L, w, D+1, FT(0), true, - //CGAL::Distance_adapter<std::ptrdiff_t,Point_d*,Euclidean_distance>(&(landmarks[0])) ); - CGAL::Distance_adapter<std::ptrdiff_t,Point_d*,Euclidean_distance>(&(landmarks_ext[0])) ); - //std::cout << "Safely found nearest landmarks\n"; - for(K_neighbor_search::iterator it = search.begin(); it != search.end(); ++it) - { - //std::cout << "Entered KNN_it with point at distance " << it->second << "\n"; - //Point_etiquette_map::iterator itm = L_i.find(it->first); - //assert(itm != L_i.end()); - //std::cout << "Entered KNN_it with point at distance " << it->second << "\n"; - if (std::find(WL[i].begin(), WL[i].end(), (it->first)%nbL) == WL[i].end()) - WL[i].push_back((it->first)%nbL); - //std::cout << "ITFIRST " << it->first << std::endl; - //std::cout << i << " " << it->first << ": " << it->second << std::endl; - } - if (i == landmarks_ind[WL[i][0]]) - { - //std::cout << "'"; - FT dist = ed.transformed_distance(W[i], landmarks[WL[i][1]]); - if (dist < lambda) - lambda = dist; - } - } - //std::cout << "\n"; - - std::string out_file = "wl_result"; - write_wl(out_file,WL); - - //******************** Constructng a witness complex - std::cout << "Entered witness complex construction\n"; - Witness_complex<> witnessComplex; - witnessComplex.setNbL(nbL); - witnessComplex.witness_complex(WL); - /* - if (witnessComplex.is_witness_complex(WL)) - std::cout << "!!YES. IT IS A WITNESS COMPLEX!!\n"; - else - std::cout << "??NO. IT IS NOT A WITNESS COMPLEX??\n"; - */ - //******************** Making a set of bad link landmarks - std::cout << "Entered bad links\n"; - std::set< int > perturbL; - int count_badlinks = 0; - //std::cout << "Bad links around "; - std::vector< int > count_bad(D); - std::vector< int > count_good(D); - for (auto u: witnessComplex.complex_vertex_range()) - { - //std::cout << "Vertex " << u << " "; - if (!witnessComplex.has_good_link(u, count_bad, count_good)) - { - //std::cout << "Landmark " << u << " start!" << std::endl; - //perturbL.insert(u); - count_badlinks++; - //std::cout << u << " "; - Point_d& l = landmarks[u]; - Fuzzy_sphere fs(l, sqrt(lambda), 0, traits); - std::vector<int> curr_perturb; - L.search(std::insert_iterator<std::vector<int>>(curr_perturb,curr_perturb.begin()),fs); - for (int i: curr_perturb) - perturbL.insert(i%nbL); - //L.search(std::inserter(perturbL,perturbL.begin()),fs); - //L.search(std::ostream_iterator<int>(std::cout,"\n"),fs); - //std::cout << "PerturbL size is " << perturbL.size() << std::endl; - } - } - for (unsigned int i = 0; i != count_good.size(); i++) - if (count_good[i] != 0) - std::cout << "count_good[" << i << "] = " << count_good[i] << std::endl; - for (unsigned int i = 0; i != count_bad.size(); i++) - if (count_bad[i] != 0) - std::cout << "count_bad[" << i << "] = " << count_bad[i] << std::endl; - std::cout << "\nBad links total: " << count_badlinks << " Points to perturb: " << perturbL.size() << std::endl; - //std::cout << "landmark[0][0] before" << landmarks[0][0] << std::endl; - //*********************** Perturb bad link landmarks - - for (auto u: perturbL) - { - Random_point_iterator rp(D,sqrt(lambda)/8); - //std::cout << landmarks[u] << std::endl; - - std::vector<FT> point; - for (int i = 0; i < D; i++) - { - while (K().squared_distance_d_object()(*rp,origin) < lambda/256) - rp++; - //FT coord = W[landmarks_ind[u]][i] + (*rp)[i]; - FT coord = landmarks[u][i] + (*rp)[i]; - if (coord > 1) - point.push_back(coord-1); - else if (coord < -1) - point.push_back(coord+1); - else - point.push_back(coord); - } - landmarks[u] = Point_d(point); - //std::cout << landmarks[u] << std::endl; - } - - //std::cout << "landmark[0][0] after" << landmarks[0][0] << std::endl; - std::cout << "lambda=" << lambda << std::endl; - - //std::cout << "WL size" << WL.size() << std::endl; - /* - std::cout << "L:" << std::endl; - for (int i = 0; i < landmarks.size(); i++) - std::cout << landmarks[i] << std::endl; - */ - - char buffer[100]; - int i = sprintf(buffer,"stree_result.txt"); - - if (i >= 0) - { - std::string out_file = (std::string)buffer; - std::ofstream ofs (out_file, std::ofstream::out); - witnessComplex.st_to_file(ofs); - ofs.close(); - } - /* - i = sprintf(buffer,"badlinks.txt"); - if (i >= 0) - { - std::string out_file = (std::string)buffer; - std::ofstream ofs (out_file, std::ofstream::out); - witnessComplex.write_bad_links(ofs); - ofs.close(); - } - */ - write_edges("landmarks/edges", witnessComplex, landmarks); - //std::cout << Distance().transformed_distance(Point_d(std::vector<double>({0.1,0.1})), Point_d(std::vector<double>({1.9,1.9}))) << std::endl; - return count_badlinks; -} - - -int main (int argc, char * const argv[]) -{ - - if (argc != 4) - { - std::cerr << "Usage: " << argv[0] - << " nbP nbL dim\n"; - return 0; - } - /* - boost::filesystem::path p; - for (; argc > 2; --argc, ++argv) - p /= argv[1]; - */ - - int nbP = atoi(argv[1]); - int nbL = atoi(argv[2]); - int dim = atoi(argv[3]); - //clock_t start, end; - //Construct the Simplex Tree - //Witness_complex<> witnessComplex; - - std::cout << "Let the carnage begin!\n"; - Point_Vector point_vector; - //read_points_cust(file_name, point_vector); - //generate_points_random_box(point_vector, nbP, dim); - generate_points_grid(point_vector, (int)pow(nbP, 1.0/dim), dim); - //nbP = (int)(pow((int)pow(nbP, 1.0/dim), dim)); - /* - for (auto &p: point_vector) - { - assert(std::count(point_vector.begin(),point_vector.end(),p) == 1); - } - */ - //std::cout << "Successfully read the points\n"; - //witnessComplex.setNbL(nbL); - // witnessComplex.witness_complex_from_points(point_vector); - //int nbP = point_vector.size(); - //std::vector<std::vector< int > > WL(nbP); - //std::set<int> L; - Point_Vector L; - std::vector<int> chosen_landmarks; - //Point_etiquette_map L_i; - //start = clock(); - //witnessComplex.landmark_choice_by_furthest_points(point_vector, point_vector.size(), WL); - bool ok=false; - while (!ok) - { - ok = true; - L = {}; - chosen_landmarks = {}; - landmark_choice(point_vector, nbP, nbL, L, chosen_landmarks); - - //int width = (int)pow(nbL, 1.0/dim); landmark_choice_bcc(point_vector, nbP, width, L, chosen_landmarks); - for (auto i: chosen_landmarks) - { - ok = ok && (std::count(chosen_landmarks.begin(),chosen_landmarks.end(),i) == 1); - if (!ok) break; - } - - } - int bl = nbL, curr_min = bl; - write_points("landmarks/initial_pointset",point_vector); - //write_points("landmarks/initial_landmarks",L); - for (int i = 0; i < 1; i++) - //for (int i = 0; bl > 0; i++) - { - std::cout << "========== Start iteration " << i << "== curr_min(" << curr_min << ")========\n"; - bl=landmark_perturbation(point_vector, L, chosen_landmarks); - if (bl < curr_min) - curr_min=bl; - write_points("landmarks/landmarks0",L); - } - //end = clock(); - - /* - std::cout << "Landmark choice took " - << (double)(end-start)/CLOCKS_PER_SEC << " s. \n"; - start = clock(); - witnessComplex.witness_complex(WL); - // - end = clock(); - std::cout << "Howdy world! The process took " - << (double)(end-start)/CLOCKS_PER_SEC << " s. \n"; - */ - - /* - out_file = "output/"+file_name+"_"+argv[2]+".stree"; - std::ofstream ofs (out_file, std::ofstream::out); - witnessComplex.st_to_file(ofs); - ofs.close(); - - out_file = "output/"+file_name+"_"+argv[2]+".badlinks"; - std::ofstream ofs2(out_file, std::ofstream::out); - witnessComplex.write_bad_links(ofs2); - ofs2.close(); - */ -} |