CGAL 6.0.1 - Polygon Mesh Processing
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Intersection Functions

Functions to test if there are self intersections, and to report faces that do intersect.

Functions

template<class PolylineRange >
bool CGAL::Polygon_mesh_processing::do_intersect (const PolylineRange &polylines1, const PolylineRange &polylines2)
 returns true if there exists a segment of a polyline of polylines1 and a segment of a polyline of polylines2 which intersect, and false otherwise.
 
template<class Polyline >
bool CGAL::Polygon_mesh_processing::do_intersect (const Polyline &polyline1, const Polyline &polyline2)
 returns true if there exists a segment of polyline1 and a segment of polyline2 which intersect, and false otherwise.
 
template<class TriangleMesh , class NamedParameters1 = CGAL::parameters::Default_named_parameter, class NamedParameters2 = CGAL::parameters::Default_named_parameter>
bool CGAL::Polygon_mesh_processing::do_intersect (const TriangleMesh &tm1, const TriangleMesh &tm2, const NamedParameters1 &np1=parameters::default_values(), const NamedParameters2 &np2=parameters::default_values())
 returns true if there exists a face of tm1 and a face of tm2 which intersect, and false otherwise.
 
template<class TriangleMesh , class PolylineRange , class NamedParameters = parameters::Default_named_parameters>
bool CGAL::Polygon_mesh_processing::do_intersect (const TriangleMesh &tm, const PolylineRange &polylines, const NamedParameters &np=parameters::default_values())
 returns true if there exists a face of tm and a segment of a polyline of polylines which intersect, and false otherwise.
 
template<class TriangleMesh , class Polyline , class NamedParameters = CGAL::parameters::Default_named_parameters>
bool CGAL::Polygon_mesh_processing::do_intersect (const TriangleMesh &tm, const Polyline &polyline, const NamedParameters &np=parameters::default_values())
 returns true if there exists a face of tm and a segment of polyline which intersect, and false otherwise.
 
template<class TriangleMeshRange , class OutputIterator , class NamedParameters , class NamedParametersRange >
OutputIterator CGAL::Polygon_mesh_processing::intersecting_meshes (const TriangleMeshRange &range, OutputIterator out, const NamedParameters &np, const NamedParametersRange &nps)
 detects and reports all the pairs of meshes intersecting in a range of triangulated surface meshes.
 
template<class ConcurrencyTag = Sequential_tag, class TriangleMesh , class FaceRange , class FacePairOutputIterator , class NamedParameters = parameters::Default_named_parameters>
FacePairOutputIterator CGAL::Polygon_mesh_processing::self_intersections (const FaceRange &face_range, const TriangleMesh &tmesh, FacePairOutputIterator out, const NamedParameters &np=parameters::default_values())
 collects intersections between a subset of faces of a triangulated surface mesh.
 
template<class ConcurrencyTag = Sequential_tag, class TriangleMesh , class FacePairOutputIterator , class NamedParameters = CGAL::parameters::Default_named_parameters>
FacePairOutputIterator CGAL::Polygon_mesh_processing::self_intersections (const TriangleMesh &tmesh, FacePairOutputIterator out, const NamedParameters &np=parameters::default_values())
 collects intersections between all the faces of a triangulated surface mesh.
 
template<class ConcurrencyTag = Sequential_tag, class FaceRange , class TriangleMesh , class NamedParameters = parameters::Default_named_parameters>
bool CGAL::Polygon_mesh_processing::does_self_intersect (const FaceRange &face_range, const TriangleMesh &tmesh, const NamedParameters &np=parameters::default_values())
 tests if a set of faces of a triangulated surface mesh self-intersects.
 
template<class ConcurrencyTag = Sequential_tag, class TriangleMesh , class NamedParameters = CGAL::parameters::Default_named_parameters>
bool CGAL::Polygon_mesh_processing::does_self_intersect (const TriangleMesh &tmesh, const NamedParameters &np=parameters::default_values())
 tests if a triangulated surface mesh self-intersects.
 
template<class ConcurrencyTag = Sequential_tag, class PointRange , class TriangleRange , class TriangleIdPairOutputIterator , class NamedParameters = CGAL::parameters::Default_named_parameters>
TriangleIdPairOutputIterator CGAL::Polygon_mesh_processing::triangle_soup_self_intersections (const PointRange &points, const TriangleRange &triangles, TriangleIdPairOutputIterator out, const NamedParameters &np=parameters::default_values())
 collects intersections between all the triangles in a triangle soup.
 
template<class ConcurrencyTag = Sequential_tag, class PointRange , class TriangleRange , class NamedParameters = CGAL::parameters::Default_named_parameters>
bool CGAL::Polygon_mesh_processing::does_triangle_soup_self_intersect (const PointRange &points, const TriangleRange &triangles, const NamedParameters &np=parameters::default_values())
 tests if a triangle soup self-intersects.
 

Function Documentation

◆ do_intersect() [1/5]

template<class Polyline >
bool CGAL::Polygon_mesh_processing::do_intersect ( const Polyline &  polyline1,
const Polyline &  polyline2 
)

#include <CGAL/Polygon_mesh_processing/intersection.h>

returns true if there exists a segment of polyline1 and a segment of polyline2 which intersect, and false otherwise.

This function depends on the package Intersecting Sequences of dD Iso-oriented Boxes.

Template Parameters
Polylinea RandomAccessRange of points. The point type must be from a 3D point type from CGAL Kernel. A polyline is defined as a sequence of points, each pair of contiguous points defines a segment of the polyline. If the first and last points of the polyline are identical, the polyline is closed.
Parameters
polyline1the first polyline to check for intersections.
polyline2the second polyline to check for intersections.

◆ do_intersect() [2/5]

template<class PolylineRange >
bool CGAL::Polygon_mesh_processing::do_intersect ( const PolylineRange &  polylines1,
const PolylineRange &  polylines2 
)

#include <CGAL/Polygon_mesh_processing/intersection.h>

returns true if there exists a segment of a polyline of polylines1 and a segment of a polyline of polylines2 which intersect, and false otherwise.

This function depends on the package Intersecting Sequences of dD Iso-oriented Boxes.

Template Parameters
PolylineRangea RandomAccessRange of RandomAccessRange of points. The point type must be from a 3D point from a CGAL Kernel. A polyline is defined as a sequence of points, each pair of contiguous points defines a segment of the polyline. If the first and last points of the polyline are identical, the polyline is closed.
Parameters
polylines1the first range of polylines to check for intersections.
polylines2the second range of polylines to check for intersections.

◆ do_intersect() [3/5]

template<class TriangleMesh , class Polyline , class NamedParameters = CGAL::parameters::Default_named_parameters>
bool CGAL::Polygon_mesh_processing::do_intersect ( const TriangleMesh &  tm,
const Polyline &  polyline,
const NamedParameters &  np = parameters::default_values() 
)

#include <CGAL/Polygon_mesh_processing/intersection.h>

returns true if there exists a face of tm and a segment of polyline which intersect, and false otherwise.

This function depends on the package Intersecting Sequences of dD Iso-oriented Boxes.

Precondition
CGAL::is_triangle_mesh(tm)
Template Parameters
TriangleMesha model of FaceListGraph
Polylinea RandomAccessRange of points. The point type of the range must be the same as the value type of the vertex point map. A polyline is defined as a sequence of points, each pair of contiguous points defines a segment of the polyline. If the first and last points of the polyline are identical, the polyline is closed.
NamedParametersa sequence of Named Parameters
Parameters
tmthe triangulated surface mesh to check for intersections
polylinethe polyline to check for intersections.
npan optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
  • a property map associating points to the vertices of tm
  • Type: a class model of ReadWritePropertyMap with boost::graph_traits<TriangleMesh>::vertex_descriptor as key type and Point_3 as value type
  • Default: boost::get(CGAL::vertex_point, tm)
  • Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t should be available for the vertices of tm.

◆ do_intersect() [4/5]

template<class TriangleMesh , class PolylineRange , class NamedParameters = parameters::Default_named_parameters>
bool CGAL::Polygon_mesh_processing::do_intersect ( const TriangleMesh &  tm,
const PolylineRange &  polylines,
const NamedParameters &  np = parameters::default_values() 
)

#include <CGAL/Polygon_mesh_processing/intersection.h>

returns true if there exists a face of tm and a segment of a polyline of polylines which intersect, and false otherwise.

This function depends on the package Intersecting Sequences of dD Iso-oriented Boxes.

Precondition
CGAL::is_triangle_mesh(tm)
Template Parameters
TriangleMesha model of FaceListGraph
PolylineRangea RandomAccessRange of RandomAccessRange of points. The point type of the range must be the same as the value type of the vertex point map. A polyline is defined as a sequence of points, each pair of contiguous points defines a segment of the polyline. If the first and last points of the polyline are identical, the polyline is closed.
NamedParametersa sequence of Named Parameters
Parameters
tmthe triangulated surface mesh to check for intersections
polylinesthe range of polylines to check for intersections.
npan optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
  • a property map associating points to the vertices of tm
  • Type: a class model of ReadWritePropertyMap with boost::graph_traits<TriangleMesh>::vertex_descriptor as key type and Point_3 as value type
  • Default: boost::get(CGAL::vertex_point, tm)
  • Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t should be available for the vertices of tm.

◆ do_intersect() [5/5]

template<class TriangleMesh , class NamedParameters1 = CGAL::parameters::Default_named_parameter, class NamedParameters2 = CGAL::parameters::Default_named_parameter>
bool CGAL::Polygon_mesh_processing::do_intersect ( const TriangleMesh &  tm1,
const TriangleMesh &  tm2,
const NamedParameters1 &  np1 = parameters::default_values(),
const NamedParameters2 &  np2 = parameters::default_values() 
)

#include <CGAL/Polygon_mesh_processing/intersection.h>

returns true if there exists a face of tm1 and a face of tm2 which intersect, and false otherwise.

If do_overlap_test_of_bounded_sides is set to true, the overlap of bounded sides are tested as well. In that case, the meshes must be closed. This function depends on the package Intersecting Sequences of dD Iso-oriented Boxes.

Precondition
CGAL::is_triangle_mesh(tm1)
CGAL::is_triangle_mesh(tm2)
!do_overlap_test_of_bounded_sides || CGAL::is_closed(tm1)
!do_overlap_test_of_bounded_sides || CGAL::is_closed(tm2)
Template Parameters
TriangleMesha model of FaceListGraph
NamedParameters1a sequence of Named Parameters for tm1
NamedParameters2a sequence of Named Parameters for tm2
Parameters
tm1the first triangulated surface mesh to check for intersections
tm2the second triangulated surface mesh to check for intersections
np1an optional sequence of Named Parameters among the ones listed below
np2an optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
  • a property map associating points to the vertices of tm1 (tm2)
  • Type: a class model of ReadablePropertyMap with boost::graph_traits<TriangleMesh>::vertex_descriptor as key type and Point_3 as value type
  • Default: boost::get(CGAL::vertex_point, tm1 (tm2))
  • Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t should be available for the vertices of tm1 (tm2)
  • Extra: Both vertex point maps must have the same value type

  • an instance of a geometric traits class
  • Type: a class model of PMPSelfIntersectionTraits
  • Default: a CGAL Kernel deduced from the point type, using CGAL::Kernel_traits
  • Extra: The geometric traits class must be compatible with the vertex point type.
  • Extra: np1 only

  • If true, also tests the overlap of the bounded sides of tm1 and tm2. If false, only the intersection of surface triangles is tested.
  • Type: Boolean
  • Default: false
See also
intersecting_meshes()

◆ does_self_intersect() [1/2]

template<class ConcurrencyTag = Sequential_tag, class FaceRange , class TriangleMesh , class NamedParameters = parameters::Default_named_parameters>
bool CGAL::Polygon_mesh_processing::does_self_intersect ( const FaceRange &  face_range,
const TriangleMesh &  tmesh,
const NamedParameters &  np = parameters::default_values() 
)

#include <CGAL/Polygon_mesh_processing/self_intersections.h>

tests if a set of faces of a triangulated surface mesh self-intersects.

This function depends on the package Intersecting Sequences of dD Iso-oriented Boxes.

Precondition
CGAL::is_triangle_mesh(tmesh)
Template Parameters
ConcurrencyTagenables sequential versus parallel algorithm. Possible values are Sequential_tag, Parallel_tag, and Parallel_if_available_tag.
FaceRangea range of face_descriptor
TriangleMesha model of FaceListGraph
NamedParametersa sequence of Named Parameters
Parameters
face_rangethe set of faces to test for self-intersection
tmeshthe triangulated surface mesh to be tested
npan optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
  • a property map associating points to the vertices of tmesh
  • Type: a class model of ReadWritePropertyMap with boost::graph_traits<TriangleMesh>::vertex_descriptor as key type and Point_3 as value type
  • Default: boost::get(CGAL::vertex_point, tmesh)
  • Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t should be available for the vertices of tmesh.

Returns
true if the faces in face_range self-intersect
See also
self_intersections()

◆ does_self_intersect() [2/2]

template<class ConcurrencyTag = Sequential_tag, class TriangleMesh , class NamedParameters = CGAL::parameters::Default_named_parameters>
bool CGAL::Polygon_mesh_processing::does_self_intersect ( const TriangleMesh &  tmesh,
const NamedParameters &  np = parameters::default_values() 
)

#include <CGAL/Polygon_mesh_processing/self_intersections.h>

tests if a triangulated surface mesh self-intersects.

This function depends on the package Intersecting Sequences of dD Iso-oriented Boxes.

Precondition
CGAL::is_triangle_mesh(tmesh)
Template Parameters
ConcurrencyTagenables sequential versus parallel algorithm. Possible values are Sequential_tag, Parallel_tag, and Parallel_if_available_tag.
TriangleMesha model of FaceListGraph
NamedParametersa sequence of Named Parameters
Parameters
tmeshthe triangulated surface mesh to be tested
npan optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
  • a property map associating points to the vertices of tmesh
  • Type: a class model of ReadWritePropertyMap with boost::graph_traits<TriangleMesh>::vertex_descriptor as key type and Point_3 as value type
  • Default: boost::get(CGAL::vertex_point, tmesh)
  • Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t should be available for the vertices of tmesh.

Returns
true if tmesh self-intersects
See also
self_intersections()

◆ does_triangle_soup_self_intersect()

template<class ConcurrencyTag = Sequential_tag, class PointRange , class TriangleRange , class NamedParameters = CGAL::parameters::Default_named_parameters>
bool CGAL::Polygon_mesh_processing::does_triangle_soup_self_intersect ( const PointRange &  points,
const TriangleRange &  triangles,
const NamedParameters &  np = parameters::default_values() 
)

#include <CGAL/Polygon_mesh_processing/self_intersections.h>

tests if a triangle soup self-intersects.

A triangle soup self-intersects if at least two triangles of the soup intersect. Two triangles of the soup are said to intersect if the corresponding geometric triangles intersect and the intersection is neither an edge nor a vertex of both triangles (with the same point ids, ignoring the orientation for an edge).

This function depends on the package Intersecting Sequences of dD Iso-oriented Boxes.

Template Parameters
ConcurrencyTagenables sequential versus parallel algorithm. Possible values are Sequential_tag, Parallel_tag, and Parallel_if_available_tag.
PointRangea model of the concept RandomAccessContainer whose value type is the point type
TriangleRangea model of the concept RandomAccessContainer whose value type is a model of the concept RandomAccessContainer whose value type is std::size_t
NamedParametersa sequence of Named Parameters
Parameters
pointspoints of the soup of triangles
triangleseach element in the range describes a triangle using the indices of the points in points
npan optional sequence of Named Parameters among the ones listed below
Optional Named Parameters

  • an instance of a geometric traits class
  • Type: a class model of PMPSelfIntersectionTraits
  • Default: a CGAL Kernel deduced from the point type, using CGAL::Kernel_traits
  • Extra: The geometric traits class must be compatible with the point type of the point map.
Returns
true if the triangle soup self-intersects, and false otherwise.
See also
triangle_soup_self_intersections()
self_intersections()
does_self_intersect()

◆ intersecting_meshes()

template<class TriangleMeshRange , class OutputIterator , class NamedParameters , class NamedParametersRange >
OutputIterator CGAL::Polygon_mesh_processing::intersecting_meshes ( const TriangleMeshRange &  range,
OutputIterator  out,
const NamedParameters &  np,
const NamedParametersRange &  nps 
)

#include <CGAL/Polygon_mesh_processing/intersection.h>

detects and reports all the pairs of meshes intersecting in a range of triangulated surface meshes.

A pair of meshes intersecting is put in the output iterator out as a std::pair<std::size_t, std::size_t>, each index referring to the index of the triangle mesh in the input range. If do_overlap_test_of_bounded_sides is true, the overlap of bounded sides are tested as well. In that case, the meshes must be closed. This function depends on the package Intersecting Sequences of dD Iso-oriented Boxes.

Template Parameters
TriangleMeshRangea model of RandomAccessRange of triangulated surface meshes model of FaceListGraph.
OutputIteratoran output iterator in which std::pair<std::size_t, std::size_t> can be put.
NamedParametersa sequence of Named Parameters for the algorithm
NamedParametersRangea range of Named Parameters for the meshes.
Parameters
rangethe range of triangulated surface meshes to be checked for intersections.
outoutput iterator used to collect pairs of intersecting meshes.
npan optional sequence of Named Parameters among the ones listed below
Optional Named Parameters

  • If true, reports also overlap of bounded sides of meshes. If false, only the intersection of surface triangles are tested.
  • Type: Boolean
  • Default: false
Parameters
npsan optional range of sequences of Named Parameters among the ones listed below
Optional Named Parameters
  • a property map associating points to the vertices of a mesh tm
  • Type: a class model of ReadablePropertyMap with boost::graph_traits<TriangleMesh>::vertex_descriptor as key type and Point_3 as value type
  • Default: boost::get(CGAL::vertex_point, tm)
  • Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t should be available for the vertices of tm.
  • Extra: All vertex point maps must have the same value type
See also
do_intersect()

◆ self_intersections() [1/2]

template<class ConcurrencyTag = Sequential_tag, class TriangleMesh , class FaceRange , class FacePairOutputIterator , class NamedParameters = parameters::Default_named_parameters>
FacePairOutputIterator CGAL::Polygon_mesh_processing::self_intersections ( const FaceRange &  face_range,
const TriangleMesh &  tmesh,
FacePairOutputIterator  out,
const NamedParameters &  np = parameters::default_values() 
)

#include <CGAL/Polygon_mesh_processing/self_intersections.h>

collects intersections between a subset of faces of a triangulated surface mesh.

Two faces are said to intersect if the corresponding triangles intersect and the intersection is neither an edge nor a vertex incident to both faces.

This function depends on the package Intersecting Sequences of dD Iso-oriented Boxes.

Precondition
CGAL::is_triangle_mesh(tmesh)
Template Parameters
ConcurrencyTagenables sequential versus parallel algorithm. Possible values are Sequential_tag, Parallel_tag, and Parallel_if_available_tag.
FaceRangea model of ConstRange with value type boost::graph_traits<TriangleMesh>::face_descriptor.
TriangleMesha model of FaceListGraph
FacePairOutputIteratora model of OutputIterator holding objects of type std::pair<boost::graph_traits<TriangleMesh>::face_descriptor, boost::graph_traits<TriangleMesh>::face_descriptor>. It does not need to be thread-safe.
NamedParametersa sequence of Named Parameters
Parameters
face_rangethe range of faces to check for self-intersection.
tmeshthe triangulated surface mesh to be checked
outoutput iterator to be filled with all pairs of non-adjacent faces that intersect
npan optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
  • a property map associating points to the vertices of tmesh
  • Type: a class model of ReadWritePropertyMap with boost::graph_traits<TriangleMesh>::vertex_descriptor as key type and Point_3 as value type
  • Default: boost::get(CGAL::vertex_point, tmesh)
  • Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t should be available for the vertices of tmesh.

  • the maximum number of self intersections that will be detected and returned by the function.
  • Type: unsigned int
  • Default: No limit.
  • Extra: In parallel mode, the number of returned self-intersections is at least maximum_number (and not exactly that number) as no strong synchronization is put on threads for performance reasons.
Returns
out
See also
does_self_intersect()

◆ self_intersections() [2/2]

template<class ConcurrencyTag = Sequential_tag, class TriangleMesh , class FacePairOutputIterator , class NamedParameters = CGAL::parameters::Default_named_parameters>
FacePairOutputIterator CGAL::Polygon_mesh_processing::self_intersections ( const TriangleMesh &  tmesh,
FacePairOutputIterator  out,
const NamedParameters &  np = parameters::default_values() 
)

#include <CGAL/Polygon_mesh_processing/self_intersections.h>

collects intersections between all the faces of a triangulated surface mesh.

Two faces are said to intersect if the corresponding triangles intersect and the intersection is neither an edge nor a vertex incident to both faces.

This function depends on the package Intersecting Sequences of dD Iso-oriented Boxes.

Precondition
CGAL::is_triangle_mesh(tmesh)
Template Parameters
ConcurrencyTagenables sequential versus parallel algorithm. Possible values are Sequential_tag, Parallel_tag, and Parallel_if_available_tag.
TriangleMesha model of FaceListGraph
FacePairOutputIteratora model of OutputIterator holding objects of type std::pair<boost::graph_traits<TriangleMesh>::face_descriptor, boost::graph_traits<TriangleMesh>::face_descriptor>. It does not need to be thread-safe.
NamedParametersa sequence of Named Parameters
Parameters
tmeshthe triangulated surface mesh to be checked
outoutput iterator to be filled with all pairs of non-adjacent faces that intersect. In case tmesh contains some degenerate faces, for each degenerate face f a pair (f,f) will be put in out before any other self intersection between non-degenerate faces.
Note that these are the only pairs where degenerate faces will be reported.
npan optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
  • a property map associating points to the vertices of tmesh
  • Type: a class model of ReadWritePropertyMap with boost::graph_traits<TriangleMesh>::vertex_descriptor as key type and Point_3 as value type
  • Default: boost::get(CGAL::vertex_point, tmesh)
  • Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t should be available for the vertices of tmesh.

  • the maximum number of self intersections that will be detected and returned by the function.
  • Type: unsigned int
  • Default: No limit.
  • Extra: In parallel mode, the number of returned self-intersections is at least maximum_number (and not exactly that number) as no strong synchronization is put on threads for performance reasons.
Returns
out
See also
does_self_intersect()

◆ triangle_soup_self_intersections()

template<class ConcurrencyTag = Sequential_tag, class PointRange , class TriangleRange , class TriangleIdPairOutputIterator , class NamedParameters = CGAL::parameters::Default_named_parameters>
TriangleIdPairOutputIterator CGAL::Polygon_mesh_processing::triangle_soup_self_intersections ( const PointRange &  points,
const TriangleRange &  triangles,
TriangleIdPairOutputIterator  out,
const NamedParameters &  np = parameters::default_values() 
)

#include <CGAL/Polygon_mesh_processing/self_intersections.h>

collects intersections between all the triangles in a triangle soup.

Two triangles of the soup are said to intersect if the corresponding geometric triangles intersect and the intersection is neither an edge nor a vertex of both triangles (with the same point ids, ignoring the orientation for an edge).

This function depends on the package Intersecting Sequences of dD Iso-oriented Boxes.

Template Parameters
ConcurrencyTagenables sequential versus parallel algorithm. Possible values are Sequential_tag, Parallel_tag, and Parallel_if_available_tag.
PointRangea model of the concept RandomAccessContainer whose value type is the point type
TriangleRangea model of the concept RandomAccessContainer whose value type is a model of the concept RandomAccessContainer whose value type is std::size_t
TriangleIdPairOutputIteratora model of OutputIterator holding objects of type std::pair<std::size_t,std::size_t>
NamedParametersa sequence of Named Parameters
Parameters
pointspoints of the soup of triangles
triangleseach element in the range describes a triangle using the indices of the points in points
outoutput iterator to be filled with all pairs of ids of triangles intersecting (the id of a triangle is its position in triangles). In case the triangle soup contains some degenerate triangles, for each degenerate triangle t with id i a pair (i,i) will be put in out before any other self intersection between non-degenerate triangles.
Note that these are the only pairs where degenerate triangles will be reported.
npan optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
  • the maximum number of self intersections that will be detected and returned by the function.
  • Type: unsigned int
  • Default: No limit.
  • Extra: In parallel mode, the number of returned self-intersections is at least maximum_number (and not exactly that number) as no strong synchronization is put on threads for performance reasons.

  • an instance of a geometric traits class
  • Type: a class model of PMPSelfIntersectionTraits
  • Default: a CGAL Kernel deduced from the point type, using CGAL::Kernel_traits
  • Extra: The geometric traits class must be compatible with the point type of the point map.
Returns
out
See also
does_triangle_soup_self_intersect()
self_intersections()
does_self_intersect()