mirror of https://github.com/CGAL/cgal
Fix indentation
This commit is contained in:
Mael Rouxel-Labbé
parent
bdc800bbab
commit
f2cc4ff509
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@ -84,7 +84,7 @@ void poisson_reconstruction(const PointSet& points, const char* output)
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// Computes average spacing
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FT average_spacing = CGAL::compute_average_spacing<Concurrency_tag>
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(points, 6 /* knn = 1 ring */, params::point_map (Point_map()));
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(points, 6 /* knn = 1 ring */, params::point_map(Point_map()));
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time.stop();
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std::cout << "Average spacing : " << time.time() << " seconds." << std::endl;
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@ -158,30 +158,30 @@ void poisson_reconstruction(const PointSet& points, const char* output)
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int main(int argc, char* argv[])
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{
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const std::string file = (argc < 2) ? CGAL::data_file_path("points_3/kitten.xyz")
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: std::string(argv[1]);
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const std::string file = (argc < 2) ? CGAL::data_file_path("points_3/kitten.xyz")
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: std::string(argv[1]);
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// Reads the point set file in points[].
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// Note: read_points() requires an iterator over points
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// + property maps to access each point's position and normal.
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PointList points;
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if(!CGAL::IO::read_points(file, std::back_inserter(points),
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params::point_map(Point_map())
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.normal_map(Normal_map())))
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{
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std::cerr << "Error: cannot read file input file!" << std::endl;
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return EXIT_FAILURE;
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}
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// Reads the point set file in points[].
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// Note: read_points() requires an iterator over points
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// + property maps to access each point's position and normal.
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PointList points;
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if(!CGAL::IO::read_points(file, std::back_inserter(points),
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params::point_map(Point_map())
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.normal_map(Normal_map())))
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{
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std::cerr << "Error: cannot read file input file!" << std::endl;
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return EXIT_FAILURE;
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}
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std::cout << "File " << file << " has been read, " << points.size() << " points." << std::endl;
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std::cout << "File " << file << " has been read, " << points.size() << " points." << std::endl;
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std::cout << "\n\n### Sequential mode ###" << std::endl;
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poisson_reconstruction<CGAL::Sequential_tag>(points, "out_sequential.off");
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std::cout << "\n\n### Sequential mode ###" << std::endl;
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poisson_reconstruction<CGAL::Sequential_tag>(points, "out_sequential.off");
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#ifdef CGAL_LINKED_WITH_TBB
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std::cout << "\n\n### Parallel mode ###" << std::endl;
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poisson_reconstruction<CGAL::Parallel_tag>(points, "out_parallel.off");
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std::cout << "\n\n### Parallel mode ###" << std::endl;
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poisson_reconstruction<CGAL::Parallel_tag>(points, "out_parallel.off");
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#endif
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return EXIT_SUCCESS;
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return EXIT_SUCCESS;
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}
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@ -36,105 +36,105 @@ typedef CGAL::Implicit_surface_3<Kernel, Poisson_reconstruction_function> Surfac
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int main(int argc, char* argv[])
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{
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// Poisson options
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FT sm_angle = 20.0; // Min triangle angle in degrees.
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FT sm_radius = 100; // Max triangle size w.r.t. point set average spacing.
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FT sm_distance = 0.25; // Surface Approximation error w.r.t. point set average spacing.
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// Poisson options
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FT sm_angle = 20.0; // Min triangle angle in degrees.
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FT sm_radius = 100; // Max triangle size w.r.t. point set average spacing.
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FT sm_distance = 0.25; // Surface Approximation error w.r.t. point set average spacing.
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// Reads the point set file in points[].
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// Note: read_points() requires an iterator over points
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// + property maps to access each point's position and normal.
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PointList points;
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char* filename = argv[1];
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if(!CGAL::IO::read_points(filename, std::back_inserter(points),
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CGAL::parameters::point_map(Point_map())
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.normal_map (Normal_map())))
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{
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std::cerr << "Error: cannot read file input file!" << std::endl;
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return EXIT_FAILURE;
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}
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// Reads the point set file in points[].
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// Note: read_points() requires an iterator over points
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// + property maps to access each point's position and normal.
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PointList points;
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char* filename = argv[1];
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if(!CGAL::IO::read_points(filename, std::back_inserter(points),
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CGAL::parameters::point_map(Point_map())
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.normal_map (Normal_map())))
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{
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std::cerr << "Error: cannot read file input file!" << std::endl;
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return EXIT_FAILURE;
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}
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CGAL::Real_timer total_time;
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total_time.start();
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CGAL::Real_timer total_time;
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total_time.start();
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// Creates implicit function from the read points using the default solver.
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// Creates implicit function from the read points using the default solver.
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// Note: this method requires an iterator over points
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// + property maps to access each point's position and normal.
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Poisson_reconstruction_function function(points.begin(), points.end(),
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Point_map(), Normal_map());
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// Note: this method requires an iterator over points
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// + property maps to access each point's position and normal.
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Poisson_reconstruction_function function(points.begin(), points.end(),
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Point_map(), Normal_map());
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// Computes the Poisson indicator function f()
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// at each vertex of the triangulation.
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if ( ! function.compute_implicit_function() )
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return EXIT_FAILURE;
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// Computes the Poisson indicator function f()
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// at each vertex of the triangulation.
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if (!function.compute_implicit_function())
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return EXIT_FAILURE;
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// Computes average spacing
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FT average_spacing = CGAL::compute_average_spacing<CGAL::Sequential_tag>
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(points, 6 /* knn = 1 ring */,
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CGAL::parameters::point_map (Point_map()));
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// Computes average spacing
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FT average_spacing = CGAL::compute_average_spacing<CGAL::Sequential_tag>
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(points, 6 /* knn = 1 ring */,
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CGAL::parameters::point_map (Point_map()));
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// Gets one point inside the implicit surface
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// and computes implicit function bounding sphere radius.
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Point inner_point = function.get_inner_point();
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Sphere bsphere = function.bounding_sphere();
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FT radius = std::sqrt(bsphere.squared_radius());
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// Gets one point inside the implicit surface
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// and computes implicit function bounding sphere radius.
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Point inner_point = function.get_inner_point();
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Sphere bsphere = function.bounding_sphere();
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FT radius = std::sqrt(bsphere.squared_radius());
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std::cout << "inner_point = " << inner_point << std::endl;
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std::cout << "bsphere = " << bsphere.center()
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<< "\tsqr = " << bsphere.squared_radius() << std::endl;
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std::cout << "radius = " << radius << std::endl;
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std::cout << "inner_point = " << inner_point << std::endl;
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std::cout << "bsphere = " << bsphere.center()
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<< "\tsqr = " << bsphere.squared_radius() << std::endl;
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std::cout << "radius = " << radius << std::endl;
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// Defines the implicit surface: requires defining a
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// conservative bounding sphere centered at inner point.
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FT sm_sphere_radius = 5.0 * radius;
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FT sm_dichotomy_error = sm_distance*average_spacing/1000.0; // Dichotomy error must be << sm_distance
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std::cout << "dichotomy error = " << sm_dichotomy_error << std::endl;
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// Defines the implicit surface: requires defining a
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// conservative bounding sphere centered at inner point.
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FT sm_sphere_radius = 5.0 * radius;
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FT sm_dichotomy_error = sm_distance*average_spacing/1000.0; // Dichotomy error must be << sm_distance
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std::cout << "dichotomy error = " << sm_dichotomy_error << std::endl;
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Surface_3 surface(function,
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Sphere(inner_point,sm_sphere_radius*sm_sphere_radius),
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sm_dichotomy_error/sm_sphere_radius);
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Surface_3 surface(function,
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Sphere(inner_point,sm_sphere_radius*sm_sphere_radius),
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sm_dichotomy_error/sm_sphere_radius);
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std::cout << "Surface created." << std::endl;
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std::cout << "Surface created." << std::endl;
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// Defines surface mesh generation criteria
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CGAL::Surface_mesh_default_criteria_3<STr> criteria(sm_angle, // Min triangle angle (degrees)
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sm_radius*average_spacing, // Max triangle size
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sm_distance*average_spacing); // Approximation error
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// Defines surface mesh generation criteria
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CGAL::Surface_mesh_default_criteria_3<STr> criteria(sm_angle, // Min triangle angle (degrees)
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sm_radius*average_spacing, // Max triangle size
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sm_distance*average_spacing); // Approximation error
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// Generates surface mesh with manifold option
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STr tr; // 3D Delaunay triangulation for surface mesh generation
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C2t3 c2t3(tr); // 2D complex in 3D Delaunay triangulation
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CGAL::make_surface_mesh(c2t3, // reconstructed mesh
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surface, // implicit surface
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criteria, // meshing criteria
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CGAL::Manifold_with_boundary_tag()); // require manifold mesh
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// Generates surface mesh with manifold option
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STr tr; // 3D Delaunay triangulation for surface mesh generation
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C2t3 c2t3(tr); // 2D complex in 3D Delaunay triangulation
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CGAL::make_surface_mesh(c2t3, // reconstructed mesh
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surface, // implicit surface
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criteria, // meshing criteria
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CGAL::Manifold_with_boundary_tag()); // require manifold mesh
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if(tr.number_of_vertices() == 0)
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return EXIT_FAILURE;
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if(tr.number_of_vertices() == 0)
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return EXIT_FAILURE;
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// saves reconstructed surface mesh
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std::ofstream out("kitten_poisson-20-30-0.375.off");
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Polyhedron output_mesh;
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CGAL::facets_in_complex_2_to_triangle_mesh(c2t3, output_mesh);
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// saves reconstructed surface mesh
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std::ofstream out("kitten_poisson-20-30-0.375.off");
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Polyhedron output_mesh;
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CGAL::facets_in_complex_2_to_triangle_mesh(c2t3, output_mesh);
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total_time.stop();
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std::cout << "Total time : " << total_time.time() << " seconds." << std::endl;
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total_time.stop();
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std::cout << "Total time : " << total_time.time() << " seconds." << std::endl;
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out << output_mesh;
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out << output_mesh;
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/// [PMP_distance_snippet]
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// computes the approximation error of the reconstruction
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double max_dist =
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CGAL::Polygon_mesh_processing::approximate_max_distance_to_point_set
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(output_mesh,
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CGAL::make_range (boost::make_transform_iterator
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(points.begin(), CGAL::Property_map_to_unary_function<Point_map>()),
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boost::make_transform_iterator
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(points.end(), CGAL::Property_map_to_unary_function<Point_map>())),
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4000);
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std::cout << "Max distance to point_set: " << max_dist << std::endl;
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/// [PMP_distance_snippet]
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/// [PMP_distance_snippet]
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// computes the approximation error of the reconstruction
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double max_dist =
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CGAL::Polygon_mesh_processing::approximate_max_distance_to_point_set
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(output_mesh,
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CGAL::make_range (boost::make_transform_iterator
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(points.begin(), CGAL::Property_map_to_unary_function<Point_map>()),
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boost::make_transform_iterator
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(points.end(), CGAL::Property_map_to_unary_function<Point_map>())),
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4000);
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std::cout << "Max distance to point_set: " << max_dist << std::endl;
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/// [PMP_distance_snippet]
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return EXIT_SUCCESS;
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return EXIT_SUCCESS;
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}
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