/// \defgroup PkgHeatMethodRef Reference Manual

/// \defgroup PkgHeatMethodConcepts Concepts
/// \ingroup PkgHeatMethodRef

/*!
\addtogroup PkgHeatMethodRef

\cgalPkgDescriptionBegin{The Heat Method,PkgHeatMethod}
\cgalPkgPicture{heat-method-small.png}

\cgalPkgSummaryBegin
\cgalPkgAuthors{Keenan Crane, Christina Vaz, and Andreas Fabri}
\cgalPkgDesc{The package provides an algorithm that solves the single- or
multiple-source shortest path problem by returning an approximation of the geodesic distance
for all vertices of a triangle mesh to the closest vertex in a given set of
source vertices.}
\cgalPkgManuals{Chapter_HeatMethod,PkgHeatMethodRef}
\cgalPkgSummaryEnd
\cgalPkgShortInfoBegin
\cgalPkgSince{4.14}
\cgalPkgDependsOn{ \ref PkgSolverInterface}
\cgalPkgBib{cgal:cvf-hm3}
\cgalPkgLicense{\ref licensesGPL "GPL"}
\cgalPkgDemo{CGAL Lab,CGALlab.zip}
\cgalPkgShortInfoEnd

\cgalPkgDescriptionEnd

\cgalClassifedRefPages

\cgalCRPSection{Concepts}
- `HeatMethodTraits_3`

\cgalCRPSection{Classes}
- `CGAL::Heat_method_3::Surface_mesh_geodesic_distances_3`
- `CGAL::Heat_method_3::Direct`
- `CGAL::Heat_method_3::Intrinsic_Delaunay`

\cgalCRPSection{Functions}

- `CGAL::Heat_method_3::estimate_geodesic_distances()`

*/

