CGAL 4.11 - 2D Conforming Triangulations and Meshes
|
Namespaces | |
cpp11 | |
IO | |
Mesh_2 | |
Scale_space_reconstruction_3 | |
Shape_detection_3 | |
Surface_mesh_parameterization | |
Enumerations | |
enum | Mesh_optimization_return_code { BOUND_REACHED = 0, TIME_LIMIT_REACHED, CANT_IMPROVE_ANYMORE, CONVERGENCE_REACHED, MAX_ITERATION_NUMBER_REACHED, ALL_VERTICES_FROZEN } |
The enum Mesh_optimization_return_code is the output of the global mesh optimization functions. More... | |
Functions | |
template<class CDT , class Criteria > | |
void | refine_Delaunay_mesh_2 (CDT &t, const Criteria &criteria=Criteria()) |
Refines the default domain defined by a constrained Delaunay triangulation without seeds into a mesh satisfying the criteria defined by the traits criteria . More... | |
template<class CDT , class Criteria , class InputIterator > | |
void | refine_Delaunay_mesh_2 (CDT &t, InputIterator begin, InputIterator end, const Criteria &criteria=Criteria(), bool mark=false) |
Refines the default domain defined by a constrained Delaunay triangulation into a mesh satisfying the criteria defined by the traits criteria .The sequence [begin, end) gives a set of seeds points, that defines the domain to be meshed as follows. More... | |
template<typename CDT , typename PointIterator > | |
Mesh_optimization_return_code | lloyd_optimize_mesh_2 (CDT &cdt, double parameters::time_limit=0, std::size_t parameters::max_iteration_number=0, double parameters::convergence=0.001, double parameters::freeze_bound=0.001, PointIterator parameters::seeds_begin=PointIterator(), PointIterator parameters::seeds_end=PointIterator(), bool parameters::mark=false) |
The function lloyd_optimize_mesh_2() is a mesh optimization process based on the minimization of a global energy function. More... | |
template<class CDT > | |
void | make_conforming_Delaunay_2 (CDT &t) |
Refines the constrained Delaunay triangulation t into a conforming Delaunay triangulation. More... | |
template<class CDT > | |
void | make_conforming_Gabriel_2 (CDT &t) |
Refines the constrained Delaunay triangulation t into a conforming Gabriel triangulation. More... | |