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CGAL 6.0 - 2D Polyline Simplification
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#include <CGAL/Polyline_simplification_2/Scaled_squared_distance_cost.h>
This class is a cost function which calculates the cost as a scaled variant of the square of the distance between the original and simplified polylines.
PolylineSimplificationCostFunction Public Member Functions | |
| Scaled_squared_distance_cost () | |
| Initializes the cost function. | |
| template<class CDT > | |
| std::optional< typename CDT::Geom_traits::FT > | operator() (const Constrained_triangulation_plus_2< CDT > &pct, typename Constrained_triangulation_plus_2< CDT >::Vertices_in_constraint_iterator vicq) const |
Given a vertex in constraint iterator vicq computes vicp=std::prev(vicq) and vicr=std::next(vicq), returns the maximum of the square distances between each point along the original subpolyline between vicp and vicr, and the straight line segment from *vicp->point() to *vicr->point() divided by the shortest squared distance between that segment and each of the vertices adjacent to vicq. | |
| std::optional< typename CDT::Geom_traits::FT > CGAL::Polyline_simplification_2::Scaled_squared_distance_cost::operator() | ( | const Constrained_triangulation_plus_2< CDT > & | pct, |
| typename Constrained_triangulation_plus_2< CDT >::Vertices_in_constraint_iterator | vicq | ||
| ) | const |
Given a vertex in constraint iterator vicq computes vicp=std::prev(vicq) and vicr=std::next(vicq), returns the maximum of the square distances between each point along the original subpolyline between vicp and vicr, and the straight line segment from *vicp->point() to *vicr->point() divided by the shortest squared distance between that segment and each of the vertices adjacent to vicq.
| CDT | must be CGAL::Constrained_Delaunay_triangulation_2 with a vertex type that is model of PolylineSimplificationVertexBase_2. |