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// #ifdef _DEBUG
// # define TBB_USE_THREADING_TOOL
// #endif
#include <gudhi/pick_random_points.h>
#include <gudhi/choose_by_farthest_point.h>
#include <vector>
#include <iterator>
#include <CGAL/Epick_d.h>
int main() {
typedef CGAL::Epick_d<CGAL::Dynamic_dimension_tag> K;
typedef typename K::FT FT;
typedef typename K::Point_d Point_d;
std::vector<Point_d> vect;
vect.push_back(Point_d(std::vector<FT>({0,0,0,0})));
vect.push_back(Point_d(std::vector<FT>({0,0,0,1})));
vect.push_back(Point_d(std::vector<FT>({0,0,1,0})));
vect.push_back(Point_d(std::vector<FT>({0,0,1,1})));
vect.push_back(Point_d(std::vector<FT>({0,1,0,0})));
vect.push_back(Point_d(std::vector<FT>({0,1,0,1})));
vect.push_back(Point_d(std::vector<FT>({0,1,1,0})));
vect.push_back(Point_d(std::vector<FT>({0,1,1,1})));
vect.push_back(Point_d(std::vector<FT>({1,0,0,0})));
vect.push_back(Point_d(std::vector<FT>({1,0,0,1})));
vect.push_back(Point_d(std::vector<FT>({1,0,1,0})));
vect.push_back(Point_d(std::vector<FT>({1,0,1,1})));
vect.push_back(Point_d(std::vector<FT>({1,1,0,0})));
vect.push_back(Point_d(std::vector<FT>({1,1,0,1})));
vect.push_back(Point_d(std::vector<FT>({1,1,1,0})));
vect.push_back(Point_d(std::vector<FT>({1,1,1,1})));
std::vector<Point_d> landmarks;
Gudhi::pick_random_points(vect, 5, std::back_inserter(landmarks));
std::cout << "landmark vector contains: ";
for (auto l: landmarks)
std::cout << l << "\n";
assert(landmarks_size() == 5);
}
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