CGAL 5.4 - 2D and Surface Function Interpolation

#include <CGAL/Voronoi_intersection_2_traits_3.h>

Inherits from

K.

Definition

Voronoi_intersection_2_traits_3 is a model for the concept RegularTriangulationTraits_2.

It can be used to instantiate the geometric traits class of a two-dimensional regular triangulation. A three-dimensional plane is defined by a point and a vector that are members of the traits class. The triangulation is defined on 3D points. It is the regular triangulation of the input points projected onto the plane and each weighted with the negative squared distance of the input point to the plane. It can be shown that it is dual to the power diagram obtained by intersecting the three-dimensional Voronoi diagram of the input points with the plane. All predicates and constructions used in the computation of the regular triangulation are formulated on the three dimensional points without explicitly constructing the projected points and the weights. This reduces the arithmetic demands. The traits class is templated by a kernel class K and inherits from it.

Is Model Of:
RegularTriangulationTraits_2
See also
CGAL::Regular_triangulation_2<Gt, Tds>
CGAL::regular_neighbor_coordinates_2()
3D Surface Neighbor Coordinates Functions

3D types camouflaged as 2D types

typedef K::Point_3 Point_2
 
typedef K::Weighted_point_3 Weighted_point_2
 
typedef K::Segment_3 Segment_2
 
typedef K::Triangle_3 Triangle_2
 
typedef K::Line_3 Line_2
 
typedef K::Ray_3 Ray_2
 
typedef K::Vector_3 Vector_2
 
typedef K::Circle_3 Circle_2
 
typedef K::Construct_point_3 Construct_point_2
 
typedef K::Construct_weighted_point_3 Construct_weighted_point_2
 
typedef K::Construct_segment_3 Construct_segment_2
 
typedef K::Construct_vector_3 Construct_vector_2
 
typedef K::Construct_ray_3 Construct_ray_2
 
typedef K::Construct_triangle_3 Construct_triangle_2
 
typedef K::Compare_distance_3 Compare_distance_2
 
typedef K::Less_distance_to_point_3 Less_distance_to_point_2
 Necessary for certificated coordinates / neighbors computation.
 
typedef K::Compute_squared_distance_3 Compute_squared_distance_2
 Necessary for certificated coordinates / neighbors computation.
 
typedef K::Equal_3 Equal_2
 
typedef K::Construct_circumcenter_3 Construct_circumcenter_2
 

Custom predicates and constructions

typedef Compute_area_3< K > Compute_area_2
 An instance of this function object class computes the square root of the result of K::Compute_squared_area_3. More...
 
typedef Orientation_with_normal_plane_2_3< K > Orientation_2
 
typedef Side_of_plane_centered_sphere_2_3< K > Power_side_of_oriented_power_circle_2
 
typedef Construct_plane_centered_circumcenter_3< K > Construct_weighted_circumcenter_2
 
typedef Construct_plane_intersected_bisector_3< Point_2Construct_radical_axis_2
 
typedef Compare_first_projection_3< K > Compare_x_2
 
typedef Compare_second_projection_3< K > Compare_y_2
 
typedef Compare_to_less< Compare_x_2Compare_x_2
 
typedef Compare_to_less< Compare_y_2Compare_y_2
 

Creation

 Voronoi_intersection_2_traits_3 (const typename K::Point_3 &point=typename K::Point_3(), const typename K::Vector_3 &normal=NULL_VECTOR, const K &k=K())
 The plane associated to the traits class contains point and has as normal vector normal. More...
 

Member Typedef Documentation

◆ Compute_area_2

template<typename K >
typedef Compute_area_3<K> CGAL::Voronoi_intersection_2_traits_3< K >::Compute_area_2

An instance of this function object class computes the square root of the result of K::Compute_squared_area_3.

If the number type FT does not support the square root operation, the result is cast to double before computing the square root.

Constructor & Destructor Documentation

◆ Voronoi_intersection_2_traits_3()

template<typename K >
CGAL::Voronoi_intersection_2_traits_3< K >::Voronoi_intersection_2_traits_3 ( const typename K::Point_3 &  point = typename K::Point_3(),
const typename K::Vector_3 &  normal = NULL_VECTOR,
const K &  k = K() 
)

The plane associated to the traits class contains point and has as normal vector normal.

The optional kernel parameter k is the base class of the traits class.