CGAL 4.4 - 3D Convex Hulls
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The function convex_hull_3()
computes the convex hull of a given set of three-dimensional points.
Two versions of this function are available. The first can be used when it is known that the result will be a polyhedron and the second when a degenerate hull may also be possible.
Functions | |
template<class InputIterator , class Polyhedron_3 , class Traits > | |
void | CGAL::convex_hull_3 (InputIterator first, InputIterator last, Polyhedron_3 &P, const Traits &ch_traits=Default_traits) |
computes the convex hull of the set of points in the range [first , last ). More... | |
template<class InputIterator , class Traits > | |
void | CGAL::convex_hull_3 (InputIterator first, InputIterator last, Object &ch_object, const Traits &ch_traits=Default_traits) |
computes the convex hull of the set of points in the range [first , last ). More... | |
template<class Triangulation , class Polyhedron > | |
void | CGAL::convex_hull_3_to_polyhedron_3 (const Triangulation &T, Polyhedron &P) |
fills a polyhedron with the convex hull of a set of 3D points contained in a 3D triangulation of CGAL. More... | |
template<class InputIterator , class Polyhedron > | |
void | CGAL::convex_hull_incremental_3 (InputIterator first, InputIterator beyond, Polyhedron &P, bool test_correctness=false) |
computes the convex hull polyhedron of the three-dimensional points in the range [first ,beyond ) and assigns it to P . More... | |
void CGAL::convex_hull_3 | ( | InputIterator | first, |
InputIterator | last, | ||
Polyhedron_3 & | P, | ||
const Traits & | ch_traits = Default_traits |
||
) |
computes the convex hull of the set of points in the range [first
, last
).
The polyhedron P
is cleared, then the convex hull is stored in P
.
P
.first
, last
) not all of which are collinear.InputIterator | must be an input iterator with a value type equivalent to Traits::Point_3 . |
Polyhedron_3 | must be a model of ConvexHullPolyhedron_3 . |
Traits | must be a model of the concept ConvexHullTraits_3 . For the purposes of checking the postcondition that the convex hull is valid, Traits should also be a model of the concept IsStronglyConvexTraits_3 . |
If the kernel R
of the points determined by the value type of InputIterator
is a kernel with exact predicates but inexact constructions (in practice we check R::Has_filtered_predicates_tag
is Tag_true
and R::FT
is a floating point type), then the default traits class of convex_hull_3()
is Convex_hull_traits_3<R>
, and R
otherwise.
convex_hull_incremental_3()
Implementation
The algorithm implemented by these functions is the quickhull algorithm of Barnard et al. [1].
#include <CGAL/convex_hull_3.h>
void CGAL::convex_hull_3 | ( | InputIterator | first, |
InputIterator | last, | ||
Object & | ch_object, | ||
const Traits & | ch_traits = Default_traits |
||
) |
computes the convex hull of the set of points in the range [first
, last
).
The result, which may be a point, a segment, a triangle, or a polyhedron, is stored in ch_object
.
P
in case the result is a polyhedron.InputIterator | must be an input iterator with a value type equivalent to Traits::Point_3 . |
Traits | must be model of the concept ConvexHullTraits_3 . For the purposes of checking the postcondition that the convex hull is valid, Traits should also be a model of the concept IsStronglyConvexTraits_3 . Furthermore, Traits must define a type Polyhedron_3 that is a model of ConvexHullPolyhedron_3 . |
If the kernel R
of the points determined by the value type of InputIterator
is a kernel with exact predicates but inexact constructions (in practice we check R::Has_filtered_predicates_tag
is Tag_true
and R::FT
is a floating point type), then the default traits class of convex_hull_3()
is Convex_hull_traits_3<R>
, and R
otherwise.
#include <CGAL/convex_hull_3.h>
void CGAL::convex_hull_3_to_polyhedron_3 | ( | const Triangulation & | T, |
Polyhedron & | P | ||
) |
fills a polyhedron with the convex hull of a set of 3D points contained in a 3D triangulation of CGAL.
The polyhedron P
is cleared and the convex hull of the set of 3D points is stored in P
.
P
.T.dimension()
==3.Triangulation | is a CGAL 3D triangulation. |
Polyhedron | is an instantiation of CGAL::Polyhedron_3<Traits> . |
convex_hull_3
#include <CGAL/convex_hull_3_to_polyhedron_3.h>
void CGAL::convex_hull_incremental_3 | ( | InputIterator | first, |
InputIterator | beyond, | ||
Polyhedron & | P, | ||
bool | test_correctness = false |
||
) |
computes the convex hull polyhedron of the three-dimensional points in the range [first
,beyond
) and assigns it to P
.
If test_correctness
is set to true
, the tests described in [3] are used to determine the correctness of the resulting polyhedron.
Delaunay_triangulation_3
together with convex_hull_3_to_polyhedron_3()
is highly recommended.InputIterator | must be an input iterator where the value type must be Polyhedron::Traits::Point . |
Polyhedron | must provide a type Polyhedron::Traits that defines the following types
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convex_hull_3()
Convex_hull_d
Implementation
This function uses the d
-dimensional convex hull incremental construction algorithm [2] with d
fixed to 3. The algorithm requires \( O(n^2)\) time in the worst case and \( O(n \log n)\) expected time.
#include <CGAL/convex_hull_incremental_3.h>