#ifndef CGAL_MESH_3_INITIALIZE_TRIANGULATION_FROM_LABELED_IMAGE_H
#define CGAL_MESH_3_INITIALIZE_TRIANGULATION_FROM_LABELED_IMAGE_H
#include <CGAL/license/Mesh_3.h>
#include <CGAL/Mesh_3/search_for_connected_components_in_labeled_image.h>
#include <iostream>
#include <queue>
#include <CGAL/Mesh_3/squared_distance_Point_3_Triangle_3.h>
#include <CGAL/iterator.h>
#include <CGAL/point_generators_3.h>
#include <CGAL/Image_3.h>
#include <CGAL/make_mesh_3.h>
#include <boost/foreach.hpp>
template <typename Point>
struct Get_point
{
const double vx, vy, vz;
Get_point(const CGAL::Image_3* image)
: vx(image->vx())
, vy(image->vy())
, vz(image->vz())
{}
Point operator()(const std::size_t i,
const std::size_t j,
const std::size_t k) const
{
return Point(double(i) * vx, double(j) * vy, double(k) * vz);
}
};
template<class C3T3, class MeshDomain, class MeshCriteria>
void init_tr_from_labeled_image_call_init_features(C3T3&,
const MeshDomain&,
const MeshCriteria&,
{
}
template<class C3T3, class MeshDomain, class MeshCriteria>
void init_tr_from_labeled_image_call_init_features(C3T3& c3t3,
const MeshDomain& domain,
const MeshCriteria& criteria,
{
CGAL::internal::Mesh_3::init_c3t3_with_features(c3t3,
domain,
criteria);
std::cout << c3t3.triangulation().number_of_vertices()
<< " initial points on 1D-features" << std::endl;
}
template<class C3T3, class MeshDomain, class MeshCriteria,
typename Image_word_type>
void initialize_triangulation_from_labeled_image(C3T3& c3t3,
const MeshDomain& domain,
const CGAL::Image_3& image,
const MeshCriteria& criteria,
Image_word_type,
bool protect_features = false
)
{
typedef typename C3T3::Triangulation Tr;
typedef typename Tr::Point Weighted_point;
typedef typename Weighted_point::Point Point_3;
typedef typename Tr::Segment Segment_3;
typedef typename Tr::Geom_traits::Vector_3 Vector_3;
typedef typename Tr::Vertex_handle Vertex_handle;
typedef typename Tr::Cell_handle Cell_handle;
typedef Point_3 Point;
typedef MeshDomain Mesh_domain;
Tr& tr = c3t3.triangulation();
if(protect_features) {
init_tr_from_labeled_image_call_init_features
(c3t3, domain, criteria,
CGAL::internal::Mesh_3::Has_features<Mesh_domain>());
}
const double max_v = (std::max)((std::max)(image.vx(),
image.vy()),
image.vz());
typedef std::vector<std::pair<Point_3, std::size_t> > Seeds;
Seeds seeds;
Get_point<Point_3> get_point(&image);
std::cout << "Searching for connected components..." << std::endl;
search_for_connected_components_in_labeled_image(image,
std::back_inserter(seeds),
no_transformation,
get_point,
Image_word_type());
std::cout << " " << seeds.size() << " components were found." << std::endl;
std::cout << "Construct initial points..." << std::endl;
for(typename Seeds::const_iterator it = seeds.begin(), end = seeds.end();
it != end; ++it)
{
const double radius = double(it->second + 1)* max_v;
CGAL::Random_points_on_sphere_3<Point> points_on_sphere_3(radius);
typename Mesh_domain::Construct_intersection construct_intersection =
domain.construct_intersection_object();
std::vector<Vector_3> directions;
if(it->second < 2) {
directions.push_back(Vector_3(-radius, 0, 0));
directions.push_back(Vector_3(+radius, 0, 0));
directions.push_back(Vector_3(0, -radius, 0));
directions.push_back(Vector_3(0, +radius, 0));
directions.push_back(Vector_3(0, 0, -radius));
directions.push_back(Vector_3(0, 0, +radius));
} else {
for(int i = 0; i < 20; ++i)
{
}
}
BOOST_FOREACH(const Vector_3& v, directions)
{
const Point test = it->first + v;
const typename Mesh_domain::Intersection intersect =
construct_intersection(Segment_3(it->first, test));
if (CGAL::cpp11::get<2>(intersect) != 0)
{
Point_3 pi = CGAL::cpp11::get<0>(intersect);
typename Tr::Locate_type lt;
Cell_handle c;
int li, lj;
Cell_handle pi_cell = tr.locate(pi, lt, li, lj);
if(lt != Tr::OUTSIDE_AFFINE_HULL) {
switch (tr.dimension())
{
case 1:
continue;
break;
case 2:
continue;
break;
case 3:
continue;
}
}
std::vector<Vertex_handle> conflict_vertices;
if (tr.dimension() == 3)
{
tr.vertices_on_conflict_zone_boundary(pi, pi_cell
, std::back_inserter(conflict_vertices));
}
else
{
for (typename Tr::Finite_vertices_iterator vit = tr.finite_vertices_begin();
vit != tr.finite_vertices_end(); ++vit)
{
if (vit->point().weight() > 0.)
conflict_vertices.push_back(vit);
}
}
bool pi_inside_protecting_sphere = false;
BOOST_FOREACH(Vertex_handle cv, conflict_vertices)
{
if (cv->point().weight() == 0.)
continue;
{
pi_inside_protecting_sphere = true;
break;
}
}
if (pi_inside_protecting_sphere)
continue;
const typename Mesh_domain::Index index = CGAL::cpp11::get<1>(intersect);
Vertex_handle v = tr.insert(pi);
CGAL_assertion(v != Vertex_handle());
c3t3.set_dimension(v, 2);
c3t3.set_index(v, index);
}
}
}
std::cout << " " << tr.number_of_vertices() << " initial points." << std::endl;
if ( c3t3.triangulation().dimension() != 3 )
{
std::cout << " not enough points: triangulation.dimension() == "
<< c3t3.triangulation().dimension() << std::endl;
CGAL::internal::Mesh_3::init_c3t3(c3t3, domain, criteria, 20);
std::cout << " -> " << tr.number_of_vertices() << " initial points." << std::endl;
}
}
#endif // CGAL_MESH_3_INITIALIZE_TRIANGULATION_FROM_LABELED_IMAGE_H