/// \defgroup PkgPolylineSimplification2Ref Reference Manual
/// \defgroup PkgPolylineSimplification2Concepts Concepts
/// \ingroup PkgPolylineSimplification2Ref

/// \defgroup PkgPolylineSimplification2Classes Polyline Simplification Classes
/// \ingroup PkgPolylineSimplification2Ref


/// \defgroup PkgPolylineSimplification2Functions Global Functions
/// \ingroup PkgPolylineSimplification2Ref



/*!
\addtogroup PkgPolylineSimplification2Ref
\cgalPkgDescriptionBegin{2D Polyline Simplification,PkgPolylineSimplification2}
\cgalPkgPicture{PolylineSimplification-small.png}
\cgalPkgSummaryBegin
\cgalPkgAuthor{Andreas Fabri}
\cgalPkgDesc{This package  enables to simplify polylines with the guarantee that the topology of the polylines does not change. This can be done for a single polyline as well as for a set of polyline constraints in a constrained triangulation. The simplification can be controlled with cost and stop functions.}
\cgalPkgManuals{Chapter_2D_Polyline_simplification,PkgPolylineSimplification2Ref}
\cgalPkgSummaryEnd
\cgalPkgShortInfoBegin
\cgalPkgSince{4.6}
\cgalPkgDependsOn{\ref PkgTriangulation2}
\cgalPkgBib{cgal:f-ps2}
\cgalPkgLicense{\ref licensesGPL "GPL"}
\cgalPkgDemo{Polyline Simplification,polyline_simplification_2.zip}
\cgalPkgShortInfoEnd
\cgalPkgDescriptionEnd


\cgalClassifedRefPages

\cgalCRPSection{Concepts}

- `PolylineSimplificationCostFunction`
- `PolylineSimplificationStopPredicate`
- `PolylineSimplificationVertexBase_2`

\cgalCRPSection{Classes}
- `CGAL::Polyline_simplification_2::Squared_distance_cost`
- `CGAL::Polyline_simplification_2::Scaled_squared_distance_cost`
- `CGAL::Polyline_simplification_2::Hybrid_squared_distance_cost`
- `CGAL::Polyline_simplification_2::Stop_above_cost_threshold`
- `CGAL::Polyline_simplification_2::Stop_below_count_threshold`
- `CGAL::Polyline_simplification_2::Stop_below_count_ratio_threshold`
- `CGAL::Polyline_simplification_2::Vertex_base_2`

\cgalCRPSection{Global Functions}
- `CGAL::Polyline_simplification_2::simplify()`

*/

