Circular_kernel_3/functor_compare_theta_3.cpp

#include <CGAL/Exact_spherical_kernel_3.h>
#include <CGAL/iterator.h>
 
typedef CGAL::Exact_spherical_kernel_3               SK;
 
int main(){
  //construction of 3 spheres from their centers and squared radii
  SK::Sphere_3 s1(SK::Point_3(0,0,0),2);
  SK::Sphere_3 s2(SK::Point_3(0,1,0),1);
  SK::Sphere_3 s3(SK::Point_3(1,0,0),3);
 
  //construct two circles lying on sphere s1
  SK::Circle_3 C1(s1,s2);
  SK::Circle_3 C2(s1,s3);
 
  SK::Intersect_3 inter;
  //create a functor to compare theta-coordinates on sphere s1
  SK::Compare_theta_z_3 cmp(s1);
 
 
 
  //unsigned integer indicates multiplicity of intersection point
  typedef std::pair<SK::Circular_arc_point_3,unsigned> Point_and_multiplicity;
 
  // only recover points
  std::vector< Point_and_multiplicity > intersections;
  inter(C1,C2,
        CGAL::dispatch_or_drop_output<Point_and_multiplicity>(std::back_inserter(intersections)));
 
 
  const Point_and_multiplicity& p1=intersections[0];
  const Point_and_multiplicity& p2=intersections[1];
 
  SK::Circular_arc_point_3 t_extreme[2];
  //Compute theta extremal points of circle C1 on sphere s1
  CGAL::theta_extremal_points(C1,s1,t_extreme);
 
  //The theta coordinates of theta extremal points of C1 enclose that of each intersection point.
  assert(cmp(t_extreme[0],p1.first)==CGAL::SMALLER);
  assert(cmp(t_extreme[0],p2.first)==CGAL::SMALLER);
  assert(cmp(t_extreme[1],p1.first)==CGAL::LARGER);
  assert(cmp(t_extreme[1],p2.first)==CGAL::LARGER);
 
  return 0;
}