CGAL 4.11.2 - 3D Mesh Generation
|
#include <CGAL/Polyhedral_complex_mesh_domain_3.h>
CGAL::Mesh_domain_with_polyline_features_3< MeshDomain_3 >.
The class Polyhedral_complex_mesh_domain_3
implements a domain defined by a collection of polyhedral surfaces, forming a complex.
The constraints on the complex are:
It is a model of the concept MeshDomainWithFeatures_3
. It also provides a member function to automatically detect sharp features and boundaries from the input polyhedral surface(s).
The union of the polyhedral surfaces is a non-manifold surface, called the 2D surface of the domain. It is locally manifold, with or without borders, but at the intersections of polyhedral surfaces.
The complement of the 2D surface is decomposed into:
If the domain has sub-domains, each one must be the union of one or many connected components of the complement of the 2D surface. The sub-domains have indices, of integral type Subdomain_index
, and the exterior of the mesh domain is associated with the subdomain index 0
, like for any mesh domain in CGAL.
Each polyhedral surface is oriented, and has two sides. The positive side is union of the positive side of all of its facets, usually named the "exterior" of the surface. The negative side is the other side. The use of Polyhedral_complex_mesh_domain_3
assumes that for each polyhedral surface, the sub-domain indices on both sides are known.
Polyhedron | stands for the type of the input polyhedral surface(s). The only requirements for this type is that the triangles of the surfaces must be accessible through an object of the class TriangleAccessor . |
IGT_ | stands for a geometric traits class providing the types and functors required to implement the intersection tests and intersection computations for polyhedral boundary surfaces. This parameter has to be instantiated with a model of the concept IntersectionGeometricTraits_3 . |
TriangleAccessor | provides access to the triangles of the input polyhedral surface. It must be a model of the concept TriangleAccessor_3 . It defaults to Triangle_accessor_3<Polyhedron,IGT_> . The type IGT_::Triangle_3 must be identical to the type TriangleAccessor::Triangle_3 . |
TriangleAccessor_3
IntersectionGeometricTraits_3
CGAL::Triangle_accessor_3<Polyhedron_3<K>,K>
CGAL::make_mesh_3()
. CGAL::Mesh_domain_with_polyline_features_3<MeshDomain>
CGAL::Polyhedral_mesh_domain_3<Polyhedron,IGT_,TriangleAccessor>
CGAL::Mesh_polyhedron_3<IGT_>
Public Types | |
typedef Mesh_domain_with_polyline_features_3 < Polyhedral_mesh_domain_3 < Polyhedron, IGT_, TriangleAccessor, Tag_true, Tag_true > > | Base |
The base class. | |
typedef Base::FT | FT |
Numerical type. | |
typedef Polyhedron | Polyhedron_type |
The polyhedron type. | |
Public Types inherited from CGAL::Mesh_domain_with_polyline_features_3< MeshDomain_3 > | |
typedef int | Corner_index |
Corner_index type. | |
typedef int | Curve_segment_index |
Curve_segment_index type. | |
Public Member Functions | |
template<typename InputPolyhedraIterator , typename InputPairOfSubdomainIndicesIterator > | |
Polyhedral_complex_mesh_domain_3 (InputPolyhedraIterator begin, InputPolyhedraIterator end, InputPairOfSubdomainIndicesIterator indices_begin, InputPairOfSubdomainIndicesIterator indices_end) | |
Constructor. More... | |
void | detect_features (FT angle_bound=FT(60)) |
Detects sharp features and boundaries of the polyhedral components of the complex (including potential internal polyhedra), and inserts them as features of the domain. More... | |
void | detect_borders () |
Detects border edges of the polyhedral components of the complex, and inserts them as features of the domain. More... | |
Public Member Functions inherited from CGAL::Mesh_domain_with_polyline_features_3< MeshDomain_3 > | |
template<typename... T> | |
Mesh_domain_with_polyline_features_3 (T...t) | |
Constructor. More... | |
template<typename InputIterator > | |
void | add_features (InputIterator begin, InputIterator beyond) |
Add 1-dimensional features in the domain. More... | |
template<typename InputIterator > | |
void | add_features_and_incidences (InputIterator begin, InputIterator beyond) |
Add 1-dimensional features in the domain with their incidences with 2-dimensional features of the domain. More... | |
Index types | |
typedef Base::Corner_index | Corner_index |
typedef Base::Curve_segment_index | Curve_segment_index |
typedef Base::Surface_patch_index | Surface_patch_index |
typedef Base::Subdomain_index | Subdomain_index |
CGAL::Polyhedral_complex_mesh_domain_3< IGT_, Polyhedron, TriangleAccessor >::Polyhedral_complex_mesh_domain_3 | ( | InputPolyhedraIterator | begin, |
InputPolyhedraIterator | end, | ||
InputPairOfSubdomainIndicesIterator | indices_begin, | ||
InputPairOfSubdomainIndicesIterator | indices_end | ||
) |
Constructor.
Constructs a domain defined by a set of polyhedral surfaces,
describing a polyhedral complex.
begin | first iterator on the input polyhedral surfaces |
end | past the end iterator on the input polyhedral surfaces |
indices_begin | first iterator on the pairs of subdomain indices (two subdomain indices per input polyhedral surface), corresponding to the first input polyhedral surface |
indices_end | past the end iterator on the pairs of subdomain indices |
InputPolyhedraIterator | model of InputIterator , holding Polyhedron 's |
InputPairOfSubdomainIndicesIterator | model of InputIterator , holding std::pair<Subdomain_index, Subdomain_index> |
std::distance(begin, end) == std::distance(indices_begin, indices_end)
void CGAL::Polyhedral_complex_mesh_domain_3< IGT_, Polyhedron, TriangleAccessor >::detect_borders | ( | ) |
Detects border edges of the polyhedral components of the complex, and inserts them as features of the domain.
This function should be called alone only, and not before or after detect_features()
.
void CGAL::Polyhedral_complex_mesh_domain_3< IGT_, Polyhedron, TriangleAccessor >::detect_features | ( | FT | angle_bound = FT(60) ) |
Detects sharp features and boundaries of the polyhedral components of the complex (including potential internal polyhedra), and inserts them as features of the domain.
angle_bound
gives the maximum angle (in degrees) between the two normal vectors of adjacent triangles. For an edge of the polyhedron, if the angle between the two normal vectors of its incident facets is bigger than the given bound, then the edge is considered as a feature edge, and inserted as a feature of the domain.