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\*===========================================================================*/
#ifndef OPENMESH_POLYCONNECTIVITY_HH
#define OPENMESH_POLYCONNECTIVITY_HH
#include
#include
#include
namespace OpenMesh
{
/** \brief Connectivity Class for polygonal meshes
*/
class OPENMESHDLLEXPORT PolyConnectivity : public ArrayKernel
{
public:
/// \name Mesh Handles
//@{
/// Invalid handle
static const VertexHandle InvalidVertexHandle;
/// Invalid handle
static const HalfedgeHandle InvalidHalfedgeHandle;
/// Invalid handle
static const EdgeHandle InvalidEdgeHandle;
/// Invalid handle
static const FaceHandle InvalidFaceHandle;
//@}
typedef PolyConnectivity This;
//--- iterators ---
/** \name Mesh Iterators
Refer to OpenMesh::Mesh::Iterators or \ref mesh_iterators for
documentation.
*/
//@{
/// Linear iterator
typedef Iterators::GenericIteratorT VertexIter;
typedef Iterators::GenericIteratorT HalfedgeIter;
typedef Iterators::GenericIteratorT EdgeIter;
typedef Iterators::GenericIteratorT FaceIter;
typedef VertexIter ConstVertexIter;
typedef HalfedgeIter ConstHalfedgeIter;
typedef EdgeIter ConstEdgeIter;
typedef FaceIter ConstFaceIter;
//@}
//--- circulators ---
/** \name Mesh Circulators
Refer to OpenMesh::Mesh::Iterators or \ref mesh_iterators
for documentation.
*/
//@{
/*
* Vertex-centered circulators
*/
/**
* Enumerates 1-ring vertices in a clockwise fashion.
*/
typedef Iterators::GenericCirculatorT_DEPRECATED::toVertexHandle>
VertexVertexIter;
typedef Iterators::GenericCirculatorT::toVertexHandle> VertexVertexCWIter;
/**
* Enumerates 1-ring vertices in a counter clockwise fashion.
*/
typedef Iterators::GenericCirculatorT::toVertexHandle, false>
VertexVertexCCWIter;
/**
* Enumerates outgoing half edges in a clockwise fashion.
*/
typedef Iterators::GenericCirculatorT_DEPRECATED::toHalfedgeHandle>
VertexOHalfedgeIter;
typedef Iterators::GenericCirculatorT::toHalfedgeHandle> VertexOHalfedgeCWIter;
/**
* Enumerates outgoing half edges in a counter clockwise fashion.
*/
typedef Iterators::GenericCirculatorT::toHalfedgeHandle, false>
VertexOHalfedgeCCWIter;
/**
* Enumerates incoming half edges in a clockwise fashion.
*/
typedef Iterators::GenericCirculatorT_DEPRECATED::toOppositeHalfedgeHandle>
VertexIHalfedgeIter;
typedef Iterators::GenericCirculatorT::toOppositeHalfedgeHandle> VertexIHalfedgeCWIter;
/**
* Enumerates incoming half edges in a counter clockwise fashion.
*/
typedef Iterators::GenericCirculatorT::toOppositeHalfedgeHandle, false>
VertexIHalfedgeCCWIter;
/**
* Enumerates incident faces in a clockwise fashion.
*/
typedef Iterators::GenericCirculatorT_DEPRECATED::toFaceHandle>
VertexFaceIter;
typedef Iterators::GenericCirculatorT::toFaceHandle> VertexFaceCWIter;
/**
* Enumerates incident faces in a counter clockwise fashion.
*/
typedef Iterators::GenericCirculatorT::toFaceHandle, false>
VertexFaceCCWIter;
/**
* Enumerates incident edges in a clockwise fashion.
*/
typedef Iterators::GenericCirculatorT_DEPRECATED::toEdgeHandle>
VertexEdgeIter;
typedef Iterators::GenericCirculatorT::toEdgeHandle> VertexEdgeCWIter;
/**
* Enumerates incident edges in a counter clockwise fashion.
*/
typedef Iterators::GenericCirculatorT::toEdgeHandle, false>
VertexEdgeCCWIter;
/**
* Identical to #FaceHalfedgeIter. God knows why this typedef exists.
*/
typedef Iterators::GenericCirculatorT_DEPRECATED::toHalfedgeHandle>
HalfedgeLoopIter;
typedef Iterators::GenericCirculatorT::toHalfedgeHandle> HalfedgeLoopCWIter;
/**
* Identical to #FaceHalfedgeIter. God knows why this typedef exists.
*/
typedef Iterators::GenericCirculatorT::toHalfedgeHandle, false>
HalfedgeLoopCCWIter;
typedef VertexVertexIter ConstVertexVertexIter;
typedef VertexVertexCWIter ConstVertexVertexCWIter;
typedef VertexVertexCCWIter ConstVertexVertexCCWIter;
typedef VertexOHalfedgeIter ConstVertexOHalfedgeIter;
typedef VertexOHalfedgeCWIter ConstVertexOHalfedgeCWIter;
typedef VertexOHalfedgeCCWIter ConstVertexOHalfedgeCCWIter;
typedef VertexIHalfedgeIter ConstVertexIHalfedgeIter;
typedef VertexIHalfedgeCWIter ConstVertexIHalfedgeCWIter;
typedef VertexIHalfedgeCCWIter ConstVertexIHalfedgeCCWIter;
typedef VertexFaceIter ConstVertexFaceIter;
typedef VertexFaceCWIter ConstVertexFaceCWIter;
typedef VertexFaceCCWIter ConstVertexFaceCCWIter;
typedef VertexEdgeIter ConstVertexEdgeIter;
typedef VertexEdgeCWIter ConstVertexEdgeCWIter;
typedef VertexEdgeCCWIter ConstVertexEdgeCCWIter;
/*
* Face-centered circulators
*/
/**
* Enumerate incident vertices in a counter clockwise fashion.
*/
typedef Iterators::GenericCirculatorT_DEPRECATED::toVertexHandle>
FaceVertexIter;
typedef Iterators::GenericCirculatorT::toVertexHandle> FaceVertexCCWIter;
/**
* Enumerate incident vertices in a clockwise fashion.
*/
typedef Iterators::GenericCirculatorT::toVertexHandle, false>
FaceVertexCWIter;
/**
* Enumerate incident half edges in a counter clockwise fashion.
*/
typedef Iterators::GenericCirculatorT_DEPRECATED::toHalfedgeHandle>
FaceHalfedgeIter;
typedef Iterators::GenericCirculatorT::toHalfedgeHandle> FaceHalfedgeCCWIter;
/**
* Enumerate incident half edges in a clockwise fashion.
*/
typedef Iterators::GenericCirculatorT::toHalfedgeHandle, false>
FaceHalfedgeCWIter;
/**
* Enumerate incident edges in a counter clockwise fashion.
*/
typedef Iterators::GenericCirculatorT_DEPRECATED::toEdgeHandle>
FaceEdgeIter;
typedef Iterators::GenericCirculatorT::toEdgeHandle> FaceEdgeCCWIter;
/**
* Enumerate incident edges in a clockwise fashion.
*/
typedef Iterators::GenericCirculatorT::toEdgeHandle, false>
FaceEdgeCWIter;
/**
* Enumerate adjacent faces in a counter clockwise fashion.
*/
typedef Iterators::GenericCirculatorT_DEPRECATED::toOppositeFaceHandle>
FaceFaceIter;
typedef Iterators::GenericCirculatorT::toOppositeFaceHandle> FaceFaceCCWIter;
/**
* Enumerate adjacent faces in a clockwise fashion.
*/
typedef Iterators::GenericCirculatorT::toOppositeFaceHandle, false>
FaceFaceCWIter;
typedef FaceVertexIter ConstFaceVertexIter;
typedef FaceVertexCWIter ConstFaceVertexCWIter;
typedef FaceVertexCCWIter ConstFaceVertexCCWIter;
typedef FaceHalfedgeIter ConstFaceHalfedgeIter;
typedef FaceHalfedgeCWIter ConstFaceHalfedgeCWIter;
typedef FaceHalfedgeCCWIter ConstFaceHalfedgeCCWIter;
typedef FaceEdgeIter ConstFaceEdgeIter;
typedef FaceEdgeCWIter ConstFaceEdgeCWIter;
typedef FaceEdgeCCWIter ConstFaceEdgeCCWIter;
typedef FaceFaceIter ConstFaceFaceIter;
typedef FaceFaceCWIter ConstFaceFaceCWIter;
typedef FaceFaceCCWIter ConstFaceFaceCCWIter;
/*
* Halfedge circulator
*/
typedef HalfedgeLoopIter ConstHalfedgeLoopIter;
typedef HalfedgeLoopCWIter ConstHalfedgeLoopCWIter;
typedef HalfedgeLoopCCWIter ConstHalfedgeLoopCCWIter;
//@}
// --- shortcuts
/** \name Typedef Shortcuts
Provided for convenience only
*/
//@{
/// Alias typedef
typedef VertexHandle VHandle;
typedef HalfedgeHandle HHandle;
typedef EdgeHandle EHandle;
typedef FaceHandle FHandle;
typedef VertexIter VIter;
typedef HalfedgeIter HIter;
typedef EdgeIter EIter;
typedef FaceIter FIter;
typedef ConstVertexIter CVIter;
typedef ConstHalfedgeIter CHIter;
typedef ConstEdgeIter CEIter;
typedef ConstFaceIter CFIter;
typedef VertexVertexIter VVIter;
typedef VertexVertexCWIter VVCWIter;
typedef VertexVertexCCWIter VVCCWIter;
typedef VertexOHalfedgeIter VOHIter;
typedef VertexOHalfedgeCWIter VOHCWIter;
typedef VertexOHalfedgeCCWIter VOHCCWIter;
typedef VertexIHalfedgeIter VIHIter;
typedef VertexIHalfedgeCWIter VIHICWter;
typedef VertexIHalfedgeCCWIter VIHICCWter;
typedef VertexEdgeIter VEIter;
typedef VertexEdgeCWIter VECWIter;
typedef VertexEdgeCCWIter VECCWIter;
typedef VertexFaceIter VFIter;
typedef VertexFaceCWIter VFCWIter;
typedef VertexFaceCCWIter VFCCWIter;
typedef FaceVertexIter FVIter;
typedef FaceVertexCWIter FVCWIter;
typedef FaceVertexCCWIter FVCCWIter;
typedef FaceHalfedgeIter FHIter;
typedef FaceHalfedgeCWIter FHCWIter;
typedef FaceHalfedgeCCWIter FHCWWIter;
typedef FaceEdgeIter FEIter;
typedef FaceEdgeCWIter FECWIter;
typedef FaceEdgeCCWIter FECWWIter;
typedef FaceFaceIter FFIter;
typedef ConstVertexVertexIter CVVIter;
typedef ConstVertexVertexCWIter CVVCWIter;
typedef ConstVertexVertexCCWIter CVVCCWIter;
typedef ConstVertexOHalfedgeIter CVOHIter;
typedef ConstVertexOHalfedgeCWIter CVOHCWIter;
typedef ConstVertexOHalfedgeCCWIter CVOHCCWIter;
typedef ConstVertexIHalfedgeIter CVIHIter;
typedef ConstVertexIHalfedgeCWIter CVIHCWIter;
typedef ConstVertexIHalfedgeCCWIter CVIHCCWIter;
typedef ConstVertexEdgeIter CVEIter;
typedef ConstVertexEdgeCWIter CVECWIter;
typedef ConstVertexEdgeCCWIter CVECCWIter;
typedef ConstVertexFaceIter CVFIter;
typedef ConstVertexFaceCWIter CVFCWIter;
typedef ConstVertexFaceCCWIter CVFCCWIter;
typedef ConstFaceVertexIter CFVIter;
typedef ConstFaceVertexCWIter CFVCWIter;
typedef ConstFaceVertexCCWIter CFVCCWIter;
typedef ConstFaceHalfedgeIter CFHIter;
typedef ConstFaceHalfedgeCWIter CFHCWIter;
typedef ConstFaceHalfedgeCCWIter CFHCCWIter;
typedef ConstFaceEdgeIter CFEIter;
typedef ConstFaceEdgeCWIter CFECWIter;
typedef ConstFaceEdgeCCWIter CFECCWIter;
typedef ConstFaceFaceIter CFFIter;
typedef ConstFaceFaceCWIter CFFCWIter;
typedef ConstFaceFaceCCWIter CFFCCWIter;
//@}
public:
PolyConnectivity() {}
virtual ~PolyConnectivity() {}
inline static bool is_triangles()
{ return false; }
/** assign_connectivity() method. See ArrayKernel::assign_connectivity()
for more details. */
inline void assign_connectivity(const PolyConnectivity& _other)
{ ArrayKernel::assign_connectivity(_other); }
/** \name Adding items to a mesh
*/
//@{
/// Add a new vertex
inline VertexHandle add_vertex()
{ return new_vertex(); }
/** \brief Add and connect a new face
*
* Create a new face consisting of the vertices provided by the vertex handle vector.
* (The vertices have to be already added to the mesh by add_vertex)
*
* @param _vhandles sorted list of vertex handles (also defines order in which the vertices are added to the face)
*/
FaceHandle add_face(const std::vector& _vhandles);
/** \brief Add and connect a new face
*
* Create a new face consisting of three vertices provided by the handles.
* (The vertices have to be already added to the mesh by add_vertex)
*
* @param _vh0 First vertex handle
* @param _vh1 Second vertex handle
* @param _vh2 Third vertex handle
*/
FaceHandle add_face(VertexHandle _vh0, VertexHandle _vh1, VertexHandle _vh2);
/** \brief Add and connect a new face
*
* Create a new face consisting of four vertices provided by the handles.
* (The vertices have to be already added to the mesh by add_vertex)
*
* @param _vh0 First vertex handle
* @param _vh1 Second vertex handle
* @param _vh2 Third vertex handle
* @param _vh3 Fourth vertex handle
*/
FaceHandle add_face(VertexHandle _vh0, VertexHandle _vh1, VertexHandle _vh2, VertexHandle _vh3);
/** \brief Add and connect a new face
*
* Create a new face consisting of vertices provided by a handle array.
* (The vertices have to be already added to the mesh by add_vertex)
*
* @param _vhandles pointer to a sorted list of vertex handles (also defines order in which the vertices are added to the face)
* @param _vhs_size number of vertex handles in the array
*/
FaceHandle add_face(const VertexHandle* _vhandles, size_t _vhs_size);
//@}
/// \name Deleting mesh items and other connectivity/topology modifications
//@{
/** Returns whether collapsing halfedge _heh is ok or would lead to
topological inconsistencies.
\attention This method need the Attributes::Status attribute and
changes the \em tagged bit. */
bool is_collapse_ok(HalfedgeHandle _he);
/** Mark vertex and all incident edges and faces deleted.
Items marked deleted will be removed by garbageCollection().
\attention Needs the Attributes::Status attribute for vertices,
edges and faces.
*/
void delete_vertex(VertexHandle _vh, bool _delete_isolated_vertices = true);
/** Mark edge (two opposite halfedges) and incident faces deleted.
Resulting isolated vertices are marked deleted if
_delete_isolated_vertices is true. Items marked deleted will be
removed by garbageCollection().
\attention Needs the Attributes::Status attribute for vertices,
edges and faces.
*/
void delete_edge(EdgeHandle _eh, bool _delete_isolated_vertices=true);
/** Delete face _fh and resulting degenerated empty halfedges as
well. Resulting isolated vertices will be deleted if
_delete_isolated_vertices is true.
\attention All item will only be marked to be deleted. They will
actually be removed by calling garbage_collection().
\attention Needs the Attributes::Status attribute for vertices,
edges and faces.
*/
void delete_face(FaceHandle _fh, bool _delete_isolated_vertices=true);
//@}
/** \name Begin and end iterators
*/
//@{
/// Begin iterator for vertices
VertexIter vertices_begin();
/// Const begin iterator for vertices
ConstVertexIter vertices_begin() const;
/// End iterator for vertices
VertexIter vertices_end();
/// Const end iterator for vertices
ConstVertexIter vertices_end() const;
/// Begin iterator for halfedges
HalfedgeIter halfedges_begin();
/// Const begin iterator for halfedges
ConstHalfedgeIter halfedges_begin() const;
/// End iterator for halfedges
HalfedgeIter halfedges_end();
/// Const end iterator for halfedges
ConstHalfedgeIter halfedges_end() const;
/// Begin iterator for edges
EdgeIter edges_begin();
/// Const begin iterator for edges
ConstEdgeIter edges_begin() const;
/// End iterator for edges
EdgeIter edges_end();
/// Const end iterator for edges
ConstEdgeIter edges_end() const;
/// Begin iterator for faces
FaceIter faces_begin();
/// Const begin iterator for faces
ConstFaceIter faces_begin() const;
/// End iterator for faces
FaceIter faces_end();
/// Const end iterator for faces
ConstFaceIter faces_end() const;
//@}
/** \name Begin for skipping iterators
*/
//@{
/// Begin iterator for vertices
VertexIter vertices_sbegin()
{ return VertexIter(*this, VertexHandle(0), true); }
/// Const begin iterator for vertices
ConstVertexIter vertices_sbegin() const
{ return ConstVertexIter(*this, VertexHandle(0), true); }
/// Begin iterator for halfedges
HalfedgeIter halfedges_sbegin()
{ return HalfedgeIter(*this, HalfedgeHandle(0), true); }
/// Const begin iterator for halfedges
ConstHalfedgeIter halfedges_sbegin() const
{ return ConstHalfedgeIter(*this, HalfedgeHandle(0), true); }
/// Begin iterator for edges
EdgeIter edges_sbegin()
{ return EdgeIter(*this, EdgeHandle(0), true); }
/// Const begin iterator for edges
ConstEdgeIter edges_sbegin() const
{ return ConstEdgeIter(*this, EdgeHandle(0), true); }
/// Begin iterator for faces
FaceIter faces_sbegin()
{ return FaceIter(*this, FaceHandle(0), true); }
/// Const begin iterator for faces
ConstFaceIter faces_sbegin() const
{ return ConstFaceIter(*this, FaceHandle(0), true); }
//@}
//--- circulators ---
/** \name Vertex and Face circulators
*/
//@{
/// vertex - vertex circulator
VertexVertexIter vv_iter(VertexHandle _vh)
{ return VertexVertexIter(*this, _vh); }
/// vertex - vertex circulator cw
VertexVertexCWIter vv_cwiter(VertexHandle _vh)
{ return VertexVertexCWIter(*this, _vh); }
/// vertex - vertex circulator ccw
VertexVertexCCWIter vv_ccwiter(VertexHandle _vh)
{ return VertexVertexCCWIter(*this, _vh); }
/// vertex - incoming halfedge circulator
VertexIHalfedgeIter vih_iter(VertexHandle _vh)
{ return VertexIHalfedgeIter(*this, _vh); }
/// vertex - incoming halfedge circulator cw
VertexIHalfedgeCWIter vih_cwiter(VertexHandle _vh)
{ return VertexIHalfedgeCWIter(*this, _vh); }
/// vertex - incoming halfedge circulator ccw
VertexIHalfedgeCCWIter vih_ccwiter(VertexHandle _vh)
{ return VertexIHalfedgeCCWIter(*this, _vh); }
/// vertex - outgoing halfedge circulator
VertexOHalfedgeIter voh_iter(VertexHandle _vh)
{ return VertexOHalfedgeIter(*this, _vh); }
/// vertex - outgoing halfedge circulator cw
VertexOHalfedgeCWIter voh_cwiter(VertexHandle _vh)
{ return VertexOHalfedgeCWIter(*this, _vh); }
/// vertex - outgoing halfedge circulator ccw
VertexOHalfedgeCCWIter voh_ccwiter(VertexHandle _vh)
{ return VertexOHalfedgeCCWIter(*this, _vh); }
/// vertex - edge circulator
VertexEdgeIter ve_iter(VertexHandle _vh)
{ return VertexEdgeIter(*this, _vh); }
/// vertex - edge circulator cw
VertexEdgeCWIter ve_cwiter(VertexHandle _vh)
{ return VertexEdgeCWIter(*this, _vh); }
/// vertex - edge circulator ccw
VertexEdgeCCWIter ve_ccwiter(VertexHandle _vh)
{ return VertexEdgeCCWIter(*this, _vh); }
/// vertex - face circulator
VertexFaceIter vf_iter(VertexHandle _vh)
{ return VertexFaceIter(*this, _vh); }
/// vertex - face circulator cw
VertexFaceCWIter vf_cwiter(VertexHandle _vh)
{ return VertexFaceCWIter(*this, _vh); }
/// vertex - face circulator ccw
VertexFaceCCWIter vf_ccwiter(VertexHandle _vh)
{ return VertexFaceCCWIter(*this, _vh); }
/// const vertex circulator
ConstVertexVertexIter cvv_iter(VertexHandle _vh) const
{ return ConstVertexVertexIter(*this, _vh); }
/// const vertex circulator cw
ConstVertexVertexCWIter cvv_cwiter(VertexHandle _vh) const
{ return ConstVertexVertexCWIter(*this, _vh); }
/// const vertex circulator ccw
ConstVertexVertexCCWIter cvv_ccwiter(VertexHandle _vh) const
{ return ConstVertexVertexCCWIter(*this, _vh); }
/// const vertex - incoming halfedge circulator
ConstVertexIHalfedgeIter cvih_iter(VertexHandle _vh) const
{ return ConstVertexIHalfedgeIter(*this, _vh); }
/// const vertex - incoming halfedge circulator cw
ConstVertexIHalfedgeCWIter cvih_cwiter(VertexHandle _vh) const
{ return ConstVertexIHalfedgeCWIter(*this, _vh); }
/// const vertex - incoming halfedge circulator ccw
ConstVertexIHalfedgeCCWIter cvih_ccwiter(VertexHandle _vh) const
{ return ConstVertexIHalfedgeCCWIter(*this, _vh); }
/// const vertex - outgoing halfedge circulator
ConstVertexOHalfedgeIter cvoh_iter(VertexHandle _vh) const
{ return ConstVertexOHalfedgeIter(*this, _vh); }
/// const vertex - outgoing halfedge circulator cw
ConstVertexOHalfedgeCWIter cvoh_cwiter(VertexHandle _vh) const
{ return ConstVertexOHalfedgeCWIter(*this, _vh); }
/// const vertex - outgoing halfedge circulator ccw
ConstVertexOHalfedgeCCWIter cvoh_ccwiter(VertexHandle _vh) const
{ return ConstVertexOHalfedgeCCWIter(*this, _vh); }
/// const vertex - edge circulator
ConstVertexEdgeIter cve_iter(VertexHandle _vh) const
{ return ConstVertexEdgeIter(*this, _vh); }
/// const vertex - edge circulator cw
ConstVertexEdgeCWIter cve_cwiter(VertexHandle _vh) const
{ return ConstVertexEdgeCWIter(*this, _vh); }
/// const vertex - edge circulator ccw
ConstVertexEdgeCCWIter cve_ccwiter(VertexHandle _vh) const
{ return ConstVertexEdgeCCWIter(*this, _vh); }
/// const vertex - face circulator
ConstVertexFaceIter cvf_iter(VertexHandle _vh) const
{ return ConstVertexFaceIter(*this, _vh); }
/// const vertex - face circulator cw
ConstVertexFaceCWIter cvf_cwiter(VertexHandle _vh) const
{ return ConstVertexFaceCWIter(*this, _vh); }
/// const vertex - face circulator ccw
ConstVertexFaceCCWIter cvf_ccwiter(VertexHandle _vh) const
{ return ConstVertexFaceCCWIter(*this, _vh); }
/// face - vertex circulator
FaceVertexIter fv_iter(FaceHandle _fh)
{ return FaceVertexIter(*this, _fh); }
/// face - vertex circulator cw
FaceVertexCWIter fv_cwiter(FaceHandle _fh)
{ return FaceVertexCWIter(*this, _fh); }
/// face - vertex circulator ccw
FaceVertexCCWIter fv_ccwiter(FaceHandle _fh)
{ return FaceVertexCCWIter(*this, _fh); }
/// face - halfedge circulator
FaceHalfedgeIter fh_iter(FaceHandle _fh)
{ return FaceHalfedgeIter(*this, _fh); }
/// face - halfedge circulator cw
FaceHalfedgeCWIter fh_cwiter(FaceHandle _fh)
{ return FaceHalfedgeCWIter(*this, _fh); }
/// face - halfedge circulator ccw
FaceHalfedgeCCWIter fh_ccwiter(FaceHandle _fh)
{ return FaceHalfedgeCCWIter(*this, _fh); }
/// face - edge circulator
FaceEdgeIter fe_iter(FaceHandle _fh)
{ return FaceEdgeIter(*this, _fh); }
/// face - edge circulator cw
FaceEdgeCWIter fe_cwiter(FaceHandle _fh)
{ return FaceEdgeCWIter(*this, _fh); }
/// face - edge circulator ccw
FaceEdgeCCWIter fe_ccwiter(FaceHandle _fh)
{ return FaceEdgeCCWIter(*this, _fh); }
/// face - face circulator
FaceFaceIter ff_iter(FaceHandle _fh)
{ return FaceFaceIter(*this, _fh); }
/// face - face circulator cw
FaceFaceCWIter ff_cwiter(FaceHandle _fh)
{ return FaceFaceCWIter(*this, _fh); }
/// face - face circulator ccw
FaceFaceCCWIter ff_ccwiter(FaceHandle _fh)
{ return FaceFaceCCWIter(*this, _fh); }
/// const face - vertex circulator
ConstFaceVertexIter cfv_iter(FaceHandle _fh) const
{ return ConstFaceVertexIter(*this, _fh); }
/// const face - vertex circulator cw
ConstFaceVertexCWIter cfv_cwiter(FaceHandle _fh) const
{ return ConstFaceVertexCWIter(*this, _fh); }
/// const face - vertex circulator ccw
ConstFaceVertexCCWIter cfv_ccwiter(FaceHandle _fh) const
{ return ConstFaceVertexCCWIter(*this, _fh); }
/// const face - halfedge circulator
ConstFaceHalfedgeIter cfh_iter(FaceHandle _fh) const
{ return ConstFaceHalfedgeIter(*this, _fh); }
/// const face - halfedge circulator cw
ConstFaceHalfedgeCWIter cfh_cwiter(FaceHandle _fh) const
{ return ConstFaceHalfedgeCWIter(*this, _fh); }
/// const face - halfedge circulator ccw
ConstFaceHalfedgeCCWIter cfh_ccwiter(FaceHandle _fh) const
{ return ConstFaceHalfedgeCCWIter(*this, _fh); }
/// const face - edge circulator
ConstFaceEdgeIter cfe_iter(FaceHandle _fh) const
{ return ConstFaceEdgeIter(*this, _fh); }
/// const face - edge circulator cw
ConstFaceEdgeCWIter cfe_cwiter(FaceHandle _fh) const
{ return ConstFaceEdgeCWIter(*this, _fh); }
/// const face - edge circulator ccw
ConstFaceEdgeCCWIter cfe_ccwiter(FaceHandle _fh) const
{ return ConstFaceEdgeCCWIter(*this, _fh); }
/// const face - face circulator
ConstFaceFaceIter cff_iter(FaceHandle _fh) const
{ return ConstFaceFaceIter(*this, _fh); }
/// const face - face circulator cw
ConstFaceFaceCWIter cff_cwiter(FaceHandle _fh) const
{ return ConstFaceFaceCWIter(*this, _fh); }
/// const face - face circulator
ConstFaceFaceCCWIter cff_ccwiter(FaceHandle _fh) const
{ return ConstFaceFaceCCWIter(*this, _fh); }
// 'begin' circulators
/// vertex - vertex circulator
VertexVertexIter vv_begin(VertexHandle _vh)
{ return VertexVertexIter(*this, _vh); }
/// vertex - vertex circulator cw
VertexVertexCWIter vv_cwbegin(VertexHandle _vh)
{ return VertexVertexCWIter(*this, _vh); }
/// vertex - vertex circulator ccw
VertexVertexCCWIter vv_ccwbegin(VertexHandle _vh)
{ return VertexVertexCCWIter(*this, _vh); }
/// vertex - incoming halfedge circulator
VertexIHalfedgeIter vih_begin(VertexHandle _vh)
{ return VertexIHalfedgeIter(*this, _vh); }
/// vertex - incoming halfedge circulator cw
VertexIHalfedgeCWIter vih_cwbegin(VertexHandle _vh)
{ return VertexIHalfedgeCWIter(*this, _vh); }
/// vertex - incoming halfedge circulator ccw
VertexIHalfedgeCCWIter vih_ccwbegin(VertexHandle _vh)
{ return VertexIHalfedgeCCWIter(*this, _vh); }
/// vertex - outgoing halfedge circulator
VertexOHalfedgeIter voh_begin(VertexHandle _vh)
{ return VertexOHalfedgeIter(*this, _vh); }
/// vertex - outgoing halfedge circulator cw
VertexOHalfedgeCWIter voh_cwbegin(VertexHandle _vh)
{ return VertexOHalfedgeCWIter(*this, _vh); }
/// vertex - outgoing halfedge circulator ccw
VertexOHalfedgeCCWIter voh_ccwbegin(VertexHandle _vh)
{ return VertexOHalfedgeCCWIter(*this, _vh); }
/// vertex - edge circulator
VertexEdgeIter ve_begin(VertexHandle _vh)
{ return VertexEdgeIter(*this, _vh); }
/// vertex - edge circulator cw
VertexEdgeCWIter ve_cwbegin(VertexHandle _vh)
{ return VertexEdgeCWIter(*this, _vh); }
/// vertex - edge circulator ccw
VertexEdgeCCWIter ve_ccwbegin(VertexHandle _vh)
{ return VertexEdgeCCWIter(*this, _vh); }
/// vertex - face circulator
VertexFaceIter vf_begin(VertexHandle _vh)
{ return VertexFaceIter(*this, _vh); }
/// vertex - face circulator cw
VertexFaceCWIter vf_cwbegin(VertexHandle _vh)
{ return VertexFaceCWIter(*this, _vh); }
/// vertex - face circulator ccw
VertexFaceCCWIter vf_ccwbegin(VertexHandle _vh)
{ return VertexFaceCCWIter(*this, _vh); }
/// const vertex circulator
ConstVertexVertexIter cvv_begin(VertexHandle _vh) const
{ return ConstVertexVertexIter(*this, _vh); }
/// const vertex circulator cw
ConstVertexVertexCWIter cvv_cwbegin(VertexHandle _vh) const
{ return ConstVertexVertexCWIter(*this, _vh); }
/// const vertex circulator ccw
ConstVertexVertexCCWIter cvv_ccwbegin(VertexHandle _vh) const
{ return ConstVertexVertexCCWIter(*this, _vh); }
/// const vertex - incoming halfedge circulator
ConstVertexIHalfedgeIter cvih_begin(VertexHandle _vh) const
{ return ConstVertexIHalfedgeIter(*this, _vh); }
/// const vertex - incoming halfedge circulator cw
ConstVertexIHalfedgeCWIter cvih_cwbegin(VertexHandle _vh) const
{ return ConstVertexIHalfedgeCWIter(*this, _vh); }
/// const vertex - incoming halfedge circulator ccw
ConstVertexIHalfedgeCCWIter cvih_ccwbegin(VertexHandle _vh) const
{ return ConstVertexIHalfedgeCCWIter(*this, _vh); }
/// const vertex - outgoing halfedge circulator
ConstVertexOHalfedgeIter cvoh_begin(VertexHandle _vh) const
{ return ConstVertexOHalfedgeIter(*this, _vh); }
/// const vertex - outgoing halfedge circulator cw
ConstVertexOHalfedgeCWIter cvoh_cwbegin(VertexHandle _vh) const
{ return ConstVertexOHalfedgeCWIter(*this, _vh); }
/// const vertex - outgoing halfedge circulator ccw
ConstVertexOHalfedgeCCWIter cvoh_ccwbegin(VertexHandle _vh) const
{ return ConstVertexOHalfedgeCCWIter(*this, _vh); }
/// const vertex - edge circulator
ConstVertexEdgeIter cve_begin(VertexHandle _vh) const
{ return ConstVertexEdgeIter(*this, _vh); }
/// const vertex - edge circulator cw
ConstVertexEdgeCWIter cve_cwbegin(VertexHandle _vh) const
{ return ConstVertexEdgeCWIter(*this, _vh); }
/// const vertex - edge circulator ccw
ConstVertexEdgeCCWIter cve_ccwbegin(VertexHandle _vh) const
{ return ConstVertexEdgeCCWIter(*this, _vh); }
/// const vertex - face circulator
ConstVertexFaceIter cvf_begin(VertexHandle _vh) const
{ return ConstVertexFaceIter(*this, _vh); }
/// const vertex - face circulator cw
ConstVertexFaceCWIter cvf_cwbegin(VertexHandle _vh) const
{ return ConstVertexFaceCWIter(*this, _vh); }
/// const vertex - face circulator ccw
ConstVertexFaceCCWIter cvf_ccwbegin(VertexHandle _vh) const
{ return ConstVertexFaceCCWIter(*this, _vh); }
/// face - vertex circulator
FaceVertexIter fv_begin(FaceHandle _fh)
{ return FaceVertexIter(*this, _fh); }
/// face - vertex circulator cw
FaceVertexCWIter fv_cwbegin(FaceHandle _fh)
{ return FaceVertexCWIter(*this, _fh); }
/// face - vertex circulator ccw
FaceVertexCCWIter fv_ccwbegin(FaceHandle _fh)
{ return FaceVertexCCWIter(*this, _fh); }
/// face - halfedge circulator
FaceHalfedgeIter fh_begin(FaceHandle _fh)
{ return FaceHalfedgeIter(*this, _fh); }
/// face - halfedge circulator cw
FaceHalfedgeCWIter fh_cwbegin(FaceHandle _fh)
{ return FaceHalfedgeCWIter(*this, _fh); }
/// face - halfedge circulator ccw
FaceHalfedgeCCWIter fh_ccwbegin(FaceHandle _fh)
{ return FaceHalfedgeCCWIter(*this, _fh); }
/// face - edge circulator
FaceEdgeIter fe_begin(FaceHandle _fh)
{ return FaceEdgeIter(*this, _fh); }
/// face - edge circulator cw
FaceEdgeCWIter fe_cwbegin(FaceHandle _fh)
{ return FaceEdgeCWIter(*this, _fh); }
/// face - edge circulator ccw
FaceEdgeCCWIter fe_ccwbegin(FaceHandle _fh)
{ return FaceEdgeCCWIter(*this, _fh); }
/// face - face circulator
FaceFaceIter ff_begin(FaceHandle _fh)
{ return FaceFaceIter(*this, _fh); }
/// face - face circulator cw
FaceFaceCWIter ff_cwbegin(FaceHandle _fh)
{ return FaceFaceCWIter(*this, _fh); }
/// face - face circulator ccw
FaceFaceCCWIter ff_ccwbegin(FaceHandle _fh)
{ return FaceFaceCCWIter(*this, _fh); }
/// halfedge circulator
HalfedgeLoopIter hl_begin(HalfedgeHandle _heh)
{ return HalfedgeLoopIter(*this, _heh); }
/// halfedge circulator
HalfedgeLoopCWIter hl_cwbegin(HalfedgeHandle _heh)
{ return HalfedgeLoopCWIter(*this, _heh); }
/// halfedge circulator ccw
HalfedgeLoopCCWIter hl_ccwbegin(HalfedgeHandle _heh)
{ return HalfedgeLoopCCWIter(*this, _heh); }
/// const face - vertex circulator
ConstFaceVertexIter cfv_begin(FaceHandle _fh) const
{ return ConstFaceVertexIter(*this, _fh); }
/// const face - vertex circulator cw
ConstFaceVertexCWIter cfv_cwbegin(FaceHandle _fh) const
{ return ConstFaceVertexCWIter(*this, _fh); }
/// const face - vertex circulator ccw
ConstFaceVertexCCWIter cfv_ccwbegin(FaceHandle _fh) const
{ return ConstFaceVertexCCWIter(*this, _fh); }
/// const face - halfedge circulator
ConstFaceHalfedgeIter cfh_begin(FaceHandle _fh) const
{ return ConstFaceHalfedgeIter(*this, _fh); }
/// const face - halfedge circulator cw
ConstFaceHalfedgeCWIter cfh_cwbegin(FaceHandle _fh) const
{ return ConstFaceHalfedgeCWIter(*this, _fh); }
/// const face - halfedge circulator ccw
ConstFaceHalfedgeCCWIter cfh_ccwbegin(FaceHandle _fh) const
{ return ConstFaceHalfedgeCCWIter(*this, _fh); }
/// const face - edge circulator
ConstFaceEdgeIter cfe_begin(FaceHandle _fh) const
{ return ConstFaceEdgeIter(*this, _fh); }
/// const face - edge circulator cw
ConstFaceEdgeCWIter cfe_cwbegin(FaceHandle _fh) const
{ return ConstFaceEdgeCWIter(*this, _fh); }
/// const face - edge circulator ccw
ConstFaceEdgeCCWIter cfe_ccwbegin(FaceHandle _fh) const
{ return ConstFaceEdgeCCWIter(*this, _fh); }
/// const face - face circulator
ConstFaceFaceIter cff_begin(FaceHandle _fh) const
{ return ConstFaceFaceIter(*this, _fh); }
/// const face - face circulator cw
ConstFaceFaceCWIter cff_cwbegin(FaceHandle _fh) const
{ return ConstFaceFaceCWIter(*this, _fh); }
/// const face - face circulator ccw
ConstFaceFaceCCWIter cff_ccwbegin(FaceHandle _fh) const
{ return ConstFaceFaceCCWIter(*this, _fh); }
/// const halfedge circulator
ConstHalfedgeLoopIter chl_begin(HalfedgeHandle _heh) const
{ return ConstHalfedgeLoopIter(*this, _heh); }
/// const halfedge circulator cw
ConstHalfedgeLoopCWIter chl_cwbegin(HalfedgeHandle _heh) const
{ return ConstHalfedgeLoopCWIter(*this, _heh); }
/// const halfedge circulator ccw
ConstHalfedgeLoopCCWIter chl_ccwbegin(HalfedgeHandle _heh) const
{ return ConstHalfedgeLoopCCWIter(*this, _heh); }
// 'end' circulators
/// vertex - vertex circulator
VertexVertexIter vv_end(VertexHandle _vh)
{ return VertexVertexIter(*this, _vh, true); }
/// vertex - vertex circulator cw
VertexVertexCWIter vv_cwend(VertexHandle _vh)
{ return VertexVertexCWIter(*this, _vh, true); }
/// vertex - vertex circulator ccw
VertexVertexCCWIter vv_ccwend(VertexHandle _vh)
{ return VertexVertexCCWIter(*this, _vh, true); }
/// vertex - incoming halfedge circulator
VertexIHalfedgeIter vih_end(VertexHandle _vh)
{ return VertexIHalfedgeIter(*this, _vh, true); }
/// vertex - incoming halfedge circulator cw
VertexIHalfedgeCWIter vih_cwend(VertexHandle _vh)
{ return VertexIHalfedgeCWIter(*this, _vh, true); }
/// vertex - incoming halfedge circulator ccw
VertexIHalfedgeCCWIter vih_ccwend(VertexHandle _vh)
{ return VertexIHalfedgeCCWIter(*this, _vh, true); }
/// vertex - outgoing halfedge circulator
VertexOHalfedgeIter voh_end(VertexHandle _vh)
{ return VertexOHalfedgeIter(*this, _vh, true); }
/// vertex - outgoing halfedge circulator cw
VertexOHalfedgeCWIter voh_cwend(VertexHandle _vh)
{ return VertexOHalfedgeCWIter(*this, _vh, true); }
/// vertex - outgoing halfedge circulator ccw
VertexOHalfedgeCCWIter voh_ccwend(VertexHandle _vh)
{ return VertexOHalfedgeCCWIter(*this, _vh, true); }
/// vertex - edge circulator
VertexEdgeIter ve_end(VertexHandle _vh)
{ return VertexEdgeIter(*this, _vh, true); }
/// vertex - edge circulator cw
VertexEdgeCWIter ve_cwend(VertexHandle _vh)
{ return VertexEdgeCWIter(*this, _vh, true); }
/// vertex - edge circulator ccw
VertexEdgeCCWIter ve_ccwend(VertexHandle _vh)
{ return VertexEdgeCCWIter(*this, _vh, true); }
/// vertex - face circulator
VertexFaceIter vf_end(VertexHandle _vh)
{ return VertexFaceIter(*this, _vh, true); }
/// vertex - face circulator cw
VertexFaceCWIter vf_cwend(VertexHandle _vh)
{ return VertexFaceCWIter(*this, _vh, true); }
/// vertex - face circulator ccw
VertexFaceCCWIter vf_ccwend(VertexHandle _vh)
{ return VertexFaceCCWIter(*this, _vh, true); }
/// const vertex circulator
ConstVertexVertexIter cvv_end(VertexHandle _vh) const
{ return ConstVertexVertexIter(*this, _vh, true); }
/// const vertex circulator cw
ConstVertexVertexCWIter cvv_cwend(VertexHandle _vh) const
{ return ConstVertexVertexCWIter(*this, _vh, true); }
/// const vertex circulator ccw
ConstVertexVertexCCWIter cvv_ccwend(VertexHandle _vh) const
{ return ConstVertexVertexCCWIter(*this, _vh, true); }
/// const vertex - incoming halfedge circulator
ConstVertexIHalfedgeIter cvih_end(VertexHandle _vh) const
{ return ConstVertexIHalfedgeIter(*this, _vh, true); }
/// const vertex - incoming halfedge circulator cw
ConstVertexIHalfedgeCWIter cvih_cwend(VertexHandle _vh) const
{ return ConstVertexIHalfedgeCWIter(*this, _vh, true); }
/// const vertex - incoming halfedge circulator ccw
ConstVertexIHalfedgeCCWIter cvih_ccwend(VertexHandle _vh) const
{ return ConstVertexIHalfedgeCCWIter(*this, _vh, true); }
/// const vertex - outgoing halfedge circulator
ConstVertexOHalfedgeIter cvoh_end(VertexHandle _vh) const
{ return ConstVertexOHalfedgeIter(*this, _vh, true); }
/// const vertex - outgoing halfedge circulator cw
ConstVertexOHalfedgeCWIter cvoh_cwend(VertexHandle _vh) const
{ return ConstVertexOHalfedgeCWIter(*this, _vh, true); }
/// const vertex - outgoing halfedge circulator ccw
ConstVertexOHalfedgeCCWIter cvoh_ccwend(VertexHandle _vh) const
{ return ConstVertexOHalfedgeCCWIter(*this, _vh, true); }
/// const vertex - edge circulator
ConstVertexEdgeIter cve_end(VertexHandle _vh) const
{ return ConstVertexEdgeIter(*this, _vh, true); }
/// const vertex - edge circulator cw
ConstVertexEdgeCWIter cve_cwend(VertexHandle _vh) const
{ return ConstVertexEdgeCWIter(*this, _vh, true); }
/// const vertex - edge circulator ccw
ConstVertexEdgeCCWIter cve_ccwend(VertexHandle _vh) const
{ return ConstVertexEdgeCCWIter(*this, _vh, true); }
/// const vertex - face circulator
ConstVertexFaceIter cvf_end(VertexHandle _vh) const
{ return ConstVertexFaceIter(*this, _vh, true); }
/// const vertex - face circulator cw
ConstVertexFaceCWIter cvf_cwend(VertexHandle _vh) const
{ return ConstVertexFaceCWIter(*this, _vh, true); }
/// const vertex - face circulator ccw
ConstVertexFaceCCWIter cvf_ccwend(VertexHandle _vh) const
{ return ConstVertexFaceCCWIter(*this, _vh, true); }
/// face - vertex circulator
FaceVertexIter fv_end(FaceHandle _fh)
{ return FaceVertexIter(*this, _fh, true); }
/// face - vertex circulator cw
FaceVertexCWIter fv_cwend(FaceHandle _fh)
{ return FaceVertexCWIter(*this, _fh, true); }
/// face - vertex circulator ccw
FaceVertexCCWIter fv_ccwend(FaceHandle _fh)
{ return FaceVertexCCWIter(*this, _fh, true); }
/// face - halfedge circulator
FaceHalfedgeIter fh_end(FaceHandle _fh)
{ return FaceHalfedgeIter(*this, _fh, true); }
/// face - halfedge circulator cw
FaceHalfedgeCWIter fh_cwend(FaceHandle _fh)
{ return FaceHalfedgeCWIter(*this, _fh, true); }
/// face - halfedge circulator ccw
FaceHalfedgeCCWIter fh_ccwend(FaceHandle _fh)
{ return FaceHalfedgeCCWIter(*this, _fh, true); }
/// face - edge circulator
FaceEdgeIter fe_end(FaceHandle _fh)
{ return FaceEdgeIter(*this, _fh, true); }
/// face - edge circulator cw
FaceEdgeCWIter fe_cwend(FaceHandle _fh)
{ return FaceEdgeCWIter(*this, _fh, true); }
/// face - edge circulator ccw
FaceEdgeCCWIter fe_ccwend(FaceHandle _fh)
{ return FaceEdgeCCWIter(*this, _fh, true); }
/// face - face circulator
FaceFaceIter ff_end(FaceHandle _fh)
{ return FaceFaceIter(*this, _fh, true); }
/// face - face circulator cw
FaceFaceCWIter ff_cwend(FaceHandle _fh)
{ return FaceFaceCWIter(*this, _fh, true); }
/// face - face circulator ccw
FaceFaceCCWIter ff_ccwend(FaceHandle _fh)
{ return FaceFaceCCWIter(*this, _fh, true); }
/// face - face circulator
HalfedgeLoopIter hl_end(HalfedgeHandle _heh)
{ return HalfedgeLoopIter(*this, _heh, true); }
/// face - face circulator cw
HalfedgeLoopCWIter hl_cwend(HalfedgeHandle _heh)
{ return HalfedgeLoopCWIter(*this, _heh, true); }
/// face - face circulator ccw
HalfedgeLoopCCWIter hl_ccwend(HalfedgeHandle _heh)
{ return HalfedgeLoopCCWIter(*this, _heh, true); }
/// const face - vertex circulator
ConstFaceVertexIter cfv_end(FaceHandle _fh) const
{ return ConstFaceVertexIter(*this, _fh, true); }
/// const face - vertex circulator cw
ConstFaceVertexCWIter cfv_cwend(FaceHandle _fh) const
{ return ConstFaceVertexCWIter(*this, _fh, true); }
/// const face - vertex circulator ccw
ConstFaceVertexCCWIter cfv_ccwend(FaceHandle _fh) const
{ return ConstFaceVertexCCWIter(*this, _fh, true); }
/// const face - halfedge circulator
ConstFaceHalfedgeIter cfh_end(FaceHandle _fh) const
{ return ConstFaceHalfedgeIter(*this, _fh, true); }
/// const face - halfedge circulator cw
ConstFaceHalfedgeCWIter cfh_cwend(FaceHandle _fh) const
{ return ConstFaceHalfedgeCWIter(*this, _fh, true); }
/// const face - halfedge circulator ccw
ConstFaceHalfedgeCCWIter cfh_ccwend(FaceHandle _fh) const
{ return ConstFaceHalfedgeCCWIter(*this, _fh, true); }
/// const face - edge circulator
ConstFaceEdgeIter cfe_end(FaceHandle _fh) const
{ return ConstFaceEdgeIter(*this, _fh, true); }
/// const face - edge circulator cw
ConstFaceEdgeCWIter cfe_cwend(FaceHandle _fh) const
{ return ConstFaceEdgeCWIter(*this, _fh, true); }
/// const face - edge circulator ccw
ConstFaceEdgeCCWIter cfe_ccwend(FaceHandle _fh) const
{ return ConstFaceEdgeCCWIter(*this, _fh, true); }
/// const face - face circulator
ConstFaceFaceIter cff_end(FaceHandle _fh) const
{ return ConstFaceFaceIter(*this, _fh, true); }
/// const face - face circulator
ConstFaceFaceCWIter cff_cwend(FaceHandle _fh) const
{ return ConstFaceFaceCWIter(*this, _fh, true); }
/// const face - face circulator
ConstFaceFaceCCWIter cff_ccwend(FaceHandle _fh) const
{ return ConstFaceFaceCCWIter(*this, _fh, true); }
/// const face - face circulator
ConstHalfedgeLoopIter chl_end(HalfedgeHandle _heh) const
{ return ConstHalfedgeLoopIter(*this, _heh, true); }
/// const face - face circulator cw
ConstHalfedgeLoopCWIter chl_cwend(HalfedgeHandle _heh) const
{ return ConstHalfedgeLoopCWIter(*this, _heh, true); }
/// const face - face circulator ccw
ConstHalfedgeLoopCCWIter chl_ccwend(HalfedgeHandle _heh) const
{ return ConstHalfedgeLoopCCWIter(*this, _heh, true); }
//@}
/** @name Range based iterators and circulators */
//@{
/// Generic class for vertex/halfedge/edge/face ranges.
template<
typename CONTAINER_TYPE,
typename ITER_TYPE,
ITER_TYPE (CONTAINER_TYPE::*begin_fn)() const,
ITER_TYPE (CONTAINER_TYPE::*end_fn)() const>
class EntityRange {
public:
EntityRange(CONTAINER_TYPE &container) : container_(container) {}
ITER_TYPE begin() const { return (container_.*begin_fn)(); }
ITER_TYPE end() const { return (container_.*end_fn)(); }
private:
CONTAINER_TYPE &container_;
};
typedef EntityRange<
const PolyConnectivity,
PolyConnectivity::ConstVertexIter,
&PolyConnectivity::vertices_begin,
&PolyConnectivity::vertices_end> ConstVertexRange;
typedef EntityRange<
const PolyConnectivity,
PolyConnectivity::ConstHalfedgeIter,
&PolyConnectivity::halfedges_begin,
&PolyConnectivity::halfedges_end> ConstHalfedgeRange;
typedef EntityRange<
const PolyConnectivity,
PolyConnectivity::ConstEdgeIter,
&PolyConnectivity::edges_begin,
&PolyConnectivity::edges_end> ConstEdgeRange;
typedef EntityRange<
const PolyConnectivity,
PolyConnectivity::ConstFaceIter,
&PolyConnectivity::faces_begin,
&PolyConnectivity::faces_end> ConstFaceRange;
/**
* @return The vertices as a range object suitable
* for C++11 range based for loops.
*/
ConstVertexRange vertices() const { return ConstVertexRange(*this); }
/**
* @return The halfedges as a range object suitable
* for C++11 range based for loops.
*/
ConstHalfedgeRange halfedges() const { return ConstHalfedgeRange(*this); }
/**
* @return The edges as a range object suitabl
* for C++11 range based for loops.
*/
ConstEdgeRange edges() const { return ConstEdgeRange(*this); }
/**
* @return The faces as a range object suitable
* for C++11 range based for loops.
*/
ConstFaceRange faces() const { return ConstFaceRange(*this); }
/// Generic class for iterator ranges.
template<
typename CONTAINER_TYPE,
typename ITER_TYPE,
typename CENTER_ENTITY_TYPE,
ITER_TYPE (CONTAINER_TYPE::*begin_fn)(CENTER_ENTITY_TYPE) const,
ITER_TYPE (CONTAINER_TYPE::*end_fn)(CENTER_ENTITY_TYPE) const>
class CirculatorRange {
public:
CirculatorRange(
CONTAINER_TYPE &container,
CENTER_ENTITY_TYPE center) :
container_(container), center_(center) {}
ITER_TYPE begin() { return (container_.*begin_fn)(center_); }
ITER_TYPE end() { return (container_.*end_fn)(center_); }
private:
CONTAINER_TYPE &container_;
CENTER_ENTITY_TYPE center_;
};
typedef CirculatorRange<
const PolyConnectivity,
ConstVertexVertexIter,
VertexHandle,
&PolyConnectivity::cvv_begin,
&PolyConnectivity::cvv_end> ConstVertexVertexRange;
typedef CirculatorRange<
const PolyConnectivity,
ConstVertexIHalfedgeIter,
VertexHandle,
&PolyConnectivity::cvih_begin,
&PolyConnectivity::cvih_end> ConstVertexIHalfedgeRange;
typedef CirculatorRange<
const PolyConnectivity,
ConstVertexOHalfedgeIter, VertexHandle,
&PolyConnectivity::cvoh_begin,
&PolyConnectivity::cvoh_end> ConstVertexOHalfedgeRange;
typedef CirculatorRange<
const PolyConnectivity,
ConstVertexEdgeIter,
VertexHandle,
&PolyConnectivity::cve_begin,
&PolyConnectivity::cve_end> ConstVertexEdgeRange;
typedef CirculatorRange<
const PolyConnectivity,
ConstVertexFaceIter,
VertexHandle,
&PolyConnectivity::cvf_begin,
&PolyConnectivity::cvf_end> ConstVertexFaceRange;
typedef CirculatorRange<
const PolyConnectivity,
ConstFaceVertexIter,
FaceHandle,
&PolyConnectivity::cfv_begin,
&PolyConnectivity::cfv_end> ConstFaceVertexRange;
typedef CirculatorRange<
const PolyConnectivity,
ConstFaceHalfedgeIter,
FaceHandle,
&PolyConnectivity::cfh_begin,
&PolyConnectivity::cfh_end> ConstFaceHalfedgeRange;
typedef CirculatorRange<
const PolyConnectivity,
ConstFaceEdgeIter,
FaceHandle,
&PolyConnectivity::cfe_begin,
&PolyConnectivity::cfe_end> ConstFaceEdgeRange;
typedef CirculatorRange<
const PolyConnectivity,
ConstFaceFaceIter,
FaceHandle,
&PolyConnectivity::cff_begin,
&PolyConnectivity::cff_end> ConstFaceFaceRange;
/**
* @return The vertices adjacent to the specified vertex
* as a range object suitable for C++11 range based for loops.
*/
ConstVertexVertexRange vv_range(VertexHandle _vh) const {
return ConstVertexVertexRange(*this, _vh);
}
/**
* @return The incoming halfedges incident to the specified vertex
* as a range object suitable for C++11 range based for loops.
*/
ConstVertexIHalfedgeRange vih_range(VertexHandle _vh) const {
return ConstVertexIHalfedgeRange(*this, _vh);
}
/**
* @return The outgoing halfedges incident to the specified vertex
* as a range object suitable for C++11 range based for loops.
*/
ConstVertexOHalfedgeRange voh_range(VertexHandle _vh) const {
return ConstVertexOHalfedgeRange(*this, _vh);
}
/**
* @return The edges incident to the specified vertex
* as a range object suitable for C++11 range based for loops.
*/
ConstVertexEdgeRange ve_range(VertexHandle _vh) const {
return ConstVertexEdgeRange(*this, _vh);
}
/**
* @return The faces incident to the specified vertex
* as a range object suitable for C++11 range based for loops.
*/
ConstVertexFaceRange vf_range(VertexHandle _vh) const {
return ConstVertexFaceRange(*this, _vh);
}
/**
* @return The vertices incident to the specified face
* as a range object suitable for C++11 range based for loops.
*/
ConstFaceVertexRange fv_range(FaceHandle _fh) const {
return ConstFaceVertexRange(*this, _fh);
}
/**
* @return The halfedges incident to the specified face
* as a range object suitable for C++11 range based for loops.
*/
ConstFaceHalfedgeRange fh_range(FaceHandle _fh) const {
return ConstFaceHalfedgeRange(*this, _fh);
}
/**
* @return The edges incident to the specified face
* as a range object suitable for C++11 range based for loops.
*/
ConstFaceEdgeRange fe_range(FaceHandle _fh) const {
return ConstFaceEdgeRange(*this, _fh);
}
/**
* @return The faces adjacent to the specified face
* as a range object suitable for C++11 range based for loops.
*/
ConstFaceFaceRange ff_range(FaceHandle _fh) const {
return ConstFaceFaceRange(*this, _fh);
}
//@}
//===========================================================================
/** @name Boundary and manifold tests
* @{ */
//===========================================================================
/** \brief Check if the halfedge is at the boundary
*
* The halfedge is at the boundary, if no face is incident to it.
*
* @param _heh HalfedgeHandle to test
* @return boundary?
*/
bool is_boundary(HalfedgeHandle _heh) const
{ return ArrayKernel::is_boundary(_heh); }
/** \brief Is the edge a boundary edge?
*
* Checks it the edge _eh is a boundary edge, i.e. is one of its halfedges
* a boundary halfedge.
*
* @param _eh Edge handle to test
* @return boundary?
*/
bool is_boundary(EdgeHandle _eh) const
{
return (is_boundary(halfedge_handle(_eh, 0)) ||
is_boundary(halfedge_handle(_eh, 1)));
}
/** \brief Is vertex _vh a boundary vertex ?
*
* Checks if the associated halfedge (which would on a boundary be the outside
* halfedge), is connected to a face. Which is equivalent, if the vertex is
* at the boundary of the mesh, as OpenMesh will make sure, that if there is a
* boundary halfedge at the vertex, the halfedge will be the one which is associated
* to the vertex.
*
* @param _vh VertexHandle to test
* @return boundary?
*/
bool is_boundary(VertexHandle _vh) const
{
HalfedgeHandle heh(halfedge_handle(_vh));
return (!(heh.is_valid() && face_handle(heh).is_valid()));
}
/** \brief Check if face is at the boundary
*
* Is face _fh at boundary, i.e. is one of its edges (or vertices)
* a boundary edge?
*
* @param _fh Check this face
* @param _check_vertex If \c true, check the corner vertices of the face, too.
* @return boundary?
*/
bool is_boundary(FaceHandle _fh, bool _check_vertex=false) const;
/** \brief Is (the mesh at) vertex _vh two-manifold ?
*
* The vertex is non-manifold if more than one gap exists, i.e.
* more than one outgoing boundary halfedge. If (at least) one
* boundary halfedge exists, the vertex' halfedge must be a
* boundary halfedge.
*
* @param _vh VertexHandle to test
* @return manifold?
*/
bool is_manifold(VertexHandle _vh) const;
/** @} */
// --- shortcuts ---
/// returns the face handle of the opposite halfedge
inline FaceHandle opposite_face_handle(HalfedgeHandle _heh) const
{ return face_handle(opposite_halfedge_handle(_heh)); }
// --- misc ---
/** Adjust outgoing halfedge handle for vertices, so that it is a
boundary halfedge whenever possible.
*/
void adjust_outgoing_halfedge(VertexHandle _vh);
/// Find halfedge from _vh0 to _vh1. Returns invalid handle if not found.
HalfedgeHandle find_halfedge(VertexHandle _start_vh, VertexHandle _end_vh) const;
/// Vertex valence
uint valence(VertexHandle _vh) const;
/// Face valence
uint valence(FaceHandle _fh) const;
// --- connectivity operattions
/** Halfedge collapse: collapse the from-vertex of halfedge _heh
into its to-vertex.
\attention Needs vertex/edge/face status attribute in order to
delete the items that degenerate.
\note The from vertex is marked as deleted while the to vertex will still exist.
\note This function does not perform a garbage collection. It
only marks degenerate items as deleted.
\attention A halfedge collapse may lead to topological inconsistencies.
Therefore you should check this using is_collapse_ok().
*/
void collapse(HalfedgeHandle _heh);
/** return true if the this the only link between the faces adjacent to _eh.
_eh is allowed to be boundary, in which case true is returned iff _eh is
the only boundary edge of its ajdacent face.
*/
bool is_simple_link(EdgeHandle _eh) const;
/** return true if _fh shares only one edge with all of its adjacent faces.
Boundary is treated as one face, i.e., the function false if _fh has more
than one boundary edge.
*/
bool is_simply_connected(FaceHandle _fh) const;
/** Removes the edge _eh. Its adjacent faces are merged. _eh and one of the
adjacent faces are set deleted. The handle of the remaining face is
returned (InvalidFaceHandle is returned if _eh is a boundary edge).
\pre is_simple_link(_eh). This ensures that there are no hole faces
or isolated vertices appearing in result of the operation.
\attention Needs the Attributes::Status attribute for edges and faces.
\note This function does not perform a garbage collection. It
only marks items as deleted.
*/
FaceHandle remove_edge(EdgeHandle _eh);
/** Inverse of remove_edge. _eh should be the handle of the edge and the
vertex and halfedge handles pointed by edge(_eh) should be valid.
*/
void reinsert_edge(EdgeHandle _eh);
/** Inserts an edge between to_vh(_prev_heh) and from_vh(_next_heh).
A new face is created started at heh0 of the inserted edge and
its halfedges loop includes both _prev_heh and _next_heh. If an
old face existed which includes the argument halfedges, it is
split at the new edge. heh0 is returned.
\note assumes _prev_heh and _next_heh are either boundary or pointed
to the same face
*/
HalfedgeHandle insert_edge(HalfedgeHandle _prev_heh, HalfedgeHandle _next_heh);
/** \brief Face split (= 1-to-n split).
*
* Split an arbitrary face into triangles by connecting each vertex of fh to vh.
*
* \note fh will remain valid (it will become one of the triangles)
* \note the halfedge handles of the new triangles will point to the old halfeges
*
* \note The properties of the new faces and all other new primitives will be undefined!
*
* @param _fh Face handle that should be splitted
* @param _vh Vertex handle of the new vertex that will be inserted in the face
*/
void split(FaceHandle _fh, VertexHandle _vh);
/** \brief Face split (= 1-to-n split).
*
* Split an arbitrary face into triangles by connecting each vertex of fh to vh.
*
* \note fh will remain valid (it will become one of the triangles)
* \note the halfedge handles of the new triangles will point to the old halfeges
*
* \note The properties of the new faces will be adjusted to the properties of the original faces
* \note Properties of the new edges and halfedges will be undefined
*
* @param _fh Face handle that should be splitted
* @param _vh Vertex handle of the new vertex that will be inserted in the face
*/
void split_copy(FaceHandle _fh, VertexHandle _vh);
/** \brief Triangulate the face _fh
Split an arbitrary face into triangles by connecting
each vertex of fh after its second to vh.
\note _fh will remain valid (it will become one of the
triangles)
\note The halfedge handles of the new triangles will
point to the old halfedges
@param _fh Handle of the face that should be triangulated
*/
void triangulate(FaceHandle _fh);
/** \brief triangulate the entire mesh
*/
void triangulate();
/** Edge split (inserts a vertex on the edge only)
*
* This edge split only splits the edge without introducing new faces!
* As this is for polygonal meshes, we can have valence 2 vertices here.
*
* \note The properties of the new edges and halfedges will be undefined!
*
* @param _eh Handle of the edge, that will be splitted
* @param _vh Handle of the vertex that will be inserted at the edge
*/
void split_edge(EdgeHandle _eh, VertexHandle _vh);
/** Edge split (inserts a vertex on the edge only)
*
* This edge split only splits the edge without introducing new faces!
* As this is for polygonal meshes, we can have valence 2 vertices here.
*
* \note The properties of the new edge will be copied from the splitted edge
* \note Properties of the new halfedges will be undefined
*
* @param _eh Handle of the edge, that will be splitted
* @param _vh Handle of the vertex that will be inserted at the edge
*/
void split_edge_copy(EdgeHandle _eh, VertexHandle _vh);
/** \name Generic handle derefertiation.
Calls the respective vertex(), halfedge(), edge(), face()
method of the mesh kernel.
*/
//@{
/// Get item from handle
const Vertex& deref(VertexHandle _h) const { return vertex(_h); }
Vertex& deref(VertexHandle _h) { return vertex(_h); }
const Halfedge& deref(HalfedgeHandle _h) const { return halfedge(_h); }
Halfedge& deref(HalfedgeHandle _h) { return halfedge(_h); }
const Edge& deref(EdgeHandle _h) const { return edge(_h); }
Edge& deref(EdgeHandle _h) { return edge(_h); }
const Face& deref(FaceHandle _h) const { return face(_h); }
Face& deref(FaceHandle _h) { return face(_h); }
//@}
protected:
/// Helper for halfedge collapse
void collapse_edge(HalfedgeHandle _hh);
/// Helper for halfedge collapse
void collapse_loop(HalfedgeHandle _hh);
private: // Working storage for add_face()
struct AddFaceEdgeInfo
{
HalfedgeHandle halfedge_handle;
bool is_new;
bool needs_adjust;
};
std::vector edgeData_; //
std::vector > next_cache_; // cache for set_next_halfedge and vertex' set_halfedge
uint next_cache_count_;
};
}//namespace OpenMesh
#endif//OPENMESH_POLYCONNECTIVITY_HH