#include <CGAL/Simple_cartesian.h>
#include <CGAL/Isosurfacing_3/Cartesian_grid_3.h>
#include <CGAL/Isosurfacing_3/dual_contouring_3.h>
#include <CGAL/Isosurfacing_3/Dual_contouring_domain_3.h>
#include <CGAL/Isosurfacing_3/Value_function_3.h>
#include <CGAL/Isosurfacing_3/Gradient_function_3.h>
#include <CGAL/IO/polygon_soup_io.h>
#include <vector>
using FT = typename Kernel::FT;
using Point_range = std::vector<Point>;
using Polygon_range = std::vector<std::vector<std::size_t> >;
auto devil_value = [](const Point& point)
{
const FT x = point.x(), y = point.y(), z = point.z();
return x*x*x*x + 2*x*x*z*z - 0.36*x*x - y*y*y*y + 0.25*y*y + z*z*z*z;
};
auto devil_gradient = [](const Point& point)
{
const FT x = point.x(), y = point.y(), z = point.z();
const FT gx = 4*x*x*x + 4*x*z*z - 0.72*x;
const FT gy = -4*y*y*y + 0.5*y;
const FT gz = 4*x*x*z + 4*z*z*z;
Vector g(gx, gy, gz);
return g / std::sqrt(gx*gx + gy*gy + gz*gz);
};
int main(int argc, char** argv)
{
const FT isovalue = (argc > 1) ? std::stod(argv[1]) : 0.;
Grid grid {
bbox, CGAL::make_array<std::size_t>(50, 50, 50) };
std::cout << "Span: " << grid.span() << std::endl;
std::cout << "Cell dimensions: " << grid.spacing()[0] << " " << grid.spacing()[1] << " " << grid.spacing()[2] << std::endl;
std::cout << "Cell #: " << grid.xdim() << ", " << grid.ydim() << ", " << grid.zdim() << std::endl;
Values values { devil_value, grid };
Gradients gradients { devil_gradient, grid };
Point_range points;
Polygon_range triangles;
std::cout << "Running Dual Contouring with isovalue = " << isovalue << std::endl;
CGAL::Isosurfacing::dual_contouring<CGAL::Parallel_if_available_tag>(domain, isovalue, points, triangles,
CGAL::parameters::do_not_triangulate_faces(true)
.constrain_to_cell(false));
std::cout << "Output #vertices: " << points.size() << std::endl;
std::cout << "Output #triangles: " << triangles.size() << std::endl;
std::cout << "Done" << std::endl;
return EXIT_SUCCESS;
}
The class Cartesian_grid_3 represents a 3D Cartesian grid, that is the partition of an iso-cuboid int...
Definition: Cartesian_grid_3.h:148
A domain that can be used as input in the Dual Contouring algorithm.
Definition: Dual_contouring_domain_3.h:52
The class Gradient_function_3 represents a field of vectors computed using a user-provided unary func...
Definition: Gradient_function_3.h:39
The class Value_function_3 represents a field of scalars computed using a user-provided unary functio...
Definition: Value_function_3.h:40
bool write_polygon_soup(const std::string &fname, const PointRange &points, const PolygonRange &polygons, const NamedParameters &np=parameters::default_values())
Dual_contouring_domain_3< Partition, ValueField, GradientField, EdgeIntersectionOracle > create_dual_contouring_domain_3(const Partition &partition, const ValueField &values, const GradientField &gradients, const EdgeIntersectionOracle &intersection_oracle=EdgeIntersectionOracle())
creates a new instance of a domain that can be used with the Dual Contouring algorithm.
Definition: Dual_contouring_domain_3.h:99
CGAL::Bbox_3 bbox(const PolygonMesh &pmesh, const NamedParameters &np=parameters::default_values())
1.9.6