Handles.hh

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#ifndef OPENMESH_HANDLES_HH
#define OPENMESH_HANDLES_HH
 
 
//== INCLUDES =================================================================
 
#include <OpenMesh/Core/System/config.h>
#include <ostream>
 
 
//== NAMESPACES ===============================================================
 
namespace OpenMesh {
 
//== CLASS DEFINITION =========================================================
 
 
class OPENMESHDLLEXPORT BaseHandle
{ 
public:
  
  explicit BaseHandle(int _idx=-1) : idx_(_idx) {}
 
  int idx() const { return idx_; }
 
  bool is_valid() const { return idx_ >= 0; }
 
  void reset() { idx_=-1; }
  void invalidate() { idx_ = -1; }
 
  bool operator==(const BaseHandle& _rhs) const { 
    return (this->idx_ == _rhs.idx_); 
  }
 
  bool operator!=(const BaseHandle& _rhs) const { 
    return (this->idx_ != _rhs.idx_); 
  }
 
  bool operator<(const BaseHandle& _rhs) const { 
    return (this->idx_ < _rhs.idx_); 
  }
 
 
  // this is to be used only by the iterators
  void __increment() { ++idx_; }
  void __decrement() { --idx_; }
 
  void __increment(int amount) { idx_ += amount; }
  void __decrement(int amount) { idx_ -= amount; }
 
private:
 
  int idx_; 
};
 
// this is used by boost::unordered_set/map
inline size_t hash_value(const BaseHandle&  h)   { return h.idx(); }
 
//-----------------------------------------------------------------------------
 
inline std::ostream& operator<<(std::ostream& _os, const BaseHandle& _hnd) 
{
  return (_os << _hnd.idx());
}
 
 
//-----------------------------------------------------------------------------
 
 
struct OPENMESHDLLEXPORT VertexHandle : public BaseHandle
{
  explicit VertexHandle(int _idx=-1) : BaseHandle(_idx) {}
};
 
 
struct OPENMESHDLLEXPORT HalfedgeHandle : public BaseHandle
{
  explicit HalfedgeHandle(int _idx=-1) : BaseHandle(_idx) {}
};
 
 
struct OPENMESHDLLEXPORT EdgeHandle : public BaseHandle
{
  explicit EdgeHandle(int _idx=-1) : BaseHandle(_idx) {}
};
 
 
struct OPENMESHDLLEXPORT FaceHandle : public BaseHandle
{
  explicit FaceHandle(int _idx=-1) : BaseHandle(_idx) {}
};
 
 
struct OPENMESHDLLEXPORT MeshHandle : public BaseHandle
{
  explicit MeshHandle(int _idx=-1) : BaseHandle(_idx) {}
};
 
 
 
 
//=============================================================================
} // namespace OpenMesh
//=============================================================================
 
#ifdef OM_HAS_HASH
#include <functional>
namespace std {
 
#if defined(_MSVC_VER)
#  pragma warning(push)
#  pragma warning(disable:4099) // For VC++ it is class hash
#endif
 
 
template <>
struct hash<OpenMesh::BaseHandle >
{
  typedef OpenMesh::BaseHandle argument_type;
  typedef std::size_t result_type;
 
  std::size_t operator()(const OpenMesh::BaseHandle& h) const
  {
    return h.idx();
  }
};
 
template <>
struct hash<OpenMesh::VertexHandle >
{
  typedef OpenMesh::VertexHandle argument_type;
  typedef std::size_t result_type;
 
  std::size_t operator()(const OpenMesh::VertexHandle& h) const
  {
    return h.idx();
  }
};
 
template <>
struct hash<OpenMesh::HalfedgeHandle >
{
 
  typedef OpenMesh::HalfedgeHandle argument_type;
  typedef std::size_t result_type;
  
  std::size_t operator()(const OpenMesh::HalfedgeHandle& h) const
  {
    return h.idx();
  }
};
 
template <>
struct hash<OpenMesh::EdgeHandle >
{
 
  typedef OpenMesh::EdgeHandle argument_type;
  typedef std::size_t result_type;
  
  std::size_t operator()(const OpenMesh::EdgeHandle& h) const
  {
    return h.idx();
  }
};
 
template <>
struct hash<OpenMesh::FaceHandle >
{
 
  typedef OpenMesh::FaceHandle argument_type;
  typedef std::size_t result_type;
  
  std::size_t operator()(const OpenMesh::FaceHandle& h) const
  {
    return h.idx();
  }
};
 
#if defined(_MSVC_VER)
#  pragma warning(pop)
#endif
 
}
#endif  // OM_HAS_HASH
 
 
#endif // OPENMESH_HANDLES_HH
//=============================================================================