#ifndef CGAL_BOOST_GRAPH_CONVERT_SURFACE_MESH_H #define CGAL_BOOST_GRAPH_CONVERT_SURFACE_MESH_H #include #include namespace CGAL { template void convert_surface_mesh(const SourceMesh& sm, TargetMesh& tm, V2V& v2v, H2H& h2h) { typedef boost::graph_traits::vertex_descriptor sm_vertex_descriptor; typedef boost::graph_traits::vertex_descriptor tm_vertex_descriptor; typedef boost::graph_traits::face_descriptor sm_face_descriptor; typedef boost::graph_traits::face_descriptor tm_face_descriptor; typedef boost::graph_traits::halfedge_descriptor sm_halfedge_descriptor; typedef boost::graph_traits::halfedge_descriptor tm_halfedge_descriptor; typedef typename boost::property_map::const_type sm_PMap; typedef typename boost::property_map::type tm_PMap; sm_PMap sm_pmap = get(vertex_point, sm); tm_PMap tm_pmap = get(vertex_point, tm); BOOST_FOREACH(sm_vertex_descriptor svd, vertices(sm)){ tm_vertex_descriptor tvd = add_vertex(tm); v2v[svd] = tvd; put(tm_pmap, tvd, get(sm_pmap, svd)); } boost::unordered_map f2f; BOOST_FOREACH(sm_face_descriptor sfd, faces(sm)){ std::vector tv; BOOST_FOREACH(sm_vertex_descriptor svd, vertices_around_face(halfedge(sfd,sm),sm)){ tv.push_back(v2v[svd]); } f2f[sfd] = Euler::add_face(tv,tm); } BOOST_FOREACH(sm_face_descriptor sfd, faces(sm)){ sm_halfedge_descriptor shd = halfedge(sfd,sm), done(shd); tm_halfedge_descriptor thd = halfedge(f2f[sfd],tm); tm_vertex_descriptor tvd = v2v[target(shd,sm)]; while(target(thd,tm) != tvd){ thd = next(thd,tm); } do { h2h[shd] = thd; shd = next(shd,sm); thd = next(thd,tm); }while(shd != done); } } } // namespace CGAL #endif // CGAL_BOOST_GRAPH_CONVERT_SURFACE_MESH_H