CGAL 5.1.3 - Linear Cell Complex
CGAL::Linear_cell_complex_for_combinatorial_map< d, d2, LCCTraits, Items, Alloc > Class Template Reference

#include <CGAL/Linear_cell_complex_for_combinatorial_map.h>

Definition

The class Linear_cell_complex_for_combinatorial_map represents a linear cell complex in dimension d, in an ambient space of dimension d2, using a combinatorial map as underlying combinatorial data-structure.

Is Model Of:

LinearCellComplex

CombinatorialMap

Template Parameters
 d the dimension of the combinatorial map. d2 the dimension of the ambient space. Equal to d by default. LCCTraits be a model of the LinearCellComplexTraits concept, satisfying LCCTraits::ambient_dimension==d2. Equal to CGAL::Linear_cell_complex_traits by default. Items a model of the LinearCellComplexItems concept. Equal to CGAL::Linear_cell_complex_min_items by default. Alloc has to match the standard allocator requirements. Equal to CGAL_ALLOCATOR(int) by default.

Note that there is an additional, and undocumented, template parameter CMap for Linear_cell_complex_for_combinatorial_map<d,d2,LCCTraits,Items,Alloc,CMap> allowing to inherit from any model of the CombinatorialMap concept.

CGAL::Combinatorial_map<d,Items,Alloc>
CGAL::Linear_cell_complex_traits<d,K>
CGAL::Linear_cell_complex_min_items<d>
Deprecated:
Before CGAL 4.9, this class was named Linear_cell_complex. This old name still exist for backward compatibility.
Deprecated:
Before CGAL 4.9, Items had to define the type of dart used. This is now deprecated, the Dart type is no more defined in the item class, but replaced by the Dart_info type. See deprecated note in the Linear_cell_complex_min_items class. CGAL_CMAP_DART_DEPRECATED can be defined to keep the old behavior.
Examples:
Linear_cell_complex/draw_linear_cell_complex.cpp, Linear_cell_complex/linear_cell_complex_3.cpp, Linear_cell_complex/linear_cell_complex_3_attributes_management.cpp, and Linear_cell_complex/linear_cell_complex_3_with_colored_vertices.cpp.

Constants

static const unsigned int ambient_dimension = d2
Ambient dimension, must be > 1.