d+1, for
d 
{-1,0,1,2,3}. (See 
.)
The triangulation data structure is able to represent a
triangulation of a topological sphere Sd of d+1, for
d {-1,0,1,2,3}. (See .)
The vertex class of a 3D-triangulation data structure must define
a number of types and operations.
The requirements that are of geometric nature are required only when
the triangulation data structure is used as a layer for the geometric
triangulation classes. (See Section .)
The cell class of a triangulation data structure stores four handles to its four vertices and four handles to its four neighbors. The vertices are indexed 0, 1, 2, and 3 in a consistent order. The neighbor indexed i lies opposite to vertex i.
In degenerate dimensions, cells are used to store faces of maximal
dimension: in dimension 2, each cell represents only one
facet of index 3, and 3 edges (0,1), (1,2) and (2,0); in
dimension 1, each cell represents one edge (0,1). (See
Section .)
TriangulationDataStructure_3::Cell
TriangulationDataStructure_3::Vertex
TriangulationDSCellBase_3
TriangulationDSVertexBase_3
CGAL::Triangulation_data_structure_3<TriangulationDSVertexBase_3,TriangulationDSCellBase_3>
This class is a model for the concept of the 3D-triangulation data structure TriangulationDataStructure_3. It is templated by base classes for vertices and cells.
CGAL provides base vertex classes and base cell classes:
CGAL::Triangulation_ds_cell_base_3<>
CGAL::Triangulation_ds_vertex_base_3<>
CGAL::Triangulation_cell_base_3<TriangulationTraits_3, TriangulationDSCellBase_3>
CGAL::Triangulation_vertex_base_3<TriangulationTraits_3, TriangulationDSVertexBase_3>
CGAL::Triangulation_hierarchy_vertex_base_3<TriangulationVertexBase_3>
It defines operations on the indices of vertices and neighbors within a cell of a triangulation.