libcgal-dev 4.11-2build1 / usr / include / CGAL / Cell_attribute.h

// Copyright (c) 2010-2011 CNRS and LIRIS' Establishments (France).
// All rights reserved.
//
// This file is part of CGAL (www.cgal.org); you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public License as
// published by the Free Software Foundation; either version 3 of the License,
// or (at your option) any later version.
//
// Licensees holding a valid commercial license may use this file in
// accordance with the commercial license agreement provided with the software.
//
// This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
//
// $URL$
// $Id$
//
// Author(s)     : Guillaume Damiand <guillaume.damiand@liris.cnrs.fr>
//
#ifndef CGAL_CELL_ATTRIBUTE_H
#define CGAL_CELL_ATTRIBUTE_H 1

#include <CGAL/tags.h>
#include <CGAL/assertions.h>

namespace CGAL {

  template <class, class, class, class>
  class Compact_container;

  template <class, class>
  class Concurrent_compact_container;

  template<unsigned int, class, class>
  class Combinatorial_map_storage_1;

  template<unsigned int, class, class>
  class Generalized_map_storage_1;

  template<unsigned int, unsigned int, class, class, class>
  class CMap_linear_cell_complex_storage_1;

  template<unsigned int, unsigned int, class, class, class>
  class GMap_linear_cell_complex_storage_1;

  namespace internal {

  template<class, class>
  struct Init_id;

  } // end namespace internal

  /** @file Cell_attribute.h
   * Definition of cell attribute, with or without info.
   */

  /// Info associated with a cell_attribute.
  template <typename Info>
  class Info_for_cell_attribute
  {
  public:
    /// Contructor without parameter.
    Info_for_cell_attribute()
    {}

    /// Contructor with an info in parameter.
    Info_for_cell_attribute(const Info& ainfo) : minfo(ainfo)
    {}

    /// Get the info associated with the cell_attribute.
    Info& info()
    { return minfo; }

    /// Get the info associated with the cell_attribute.
    const Info& info() const
    { return minfo; }

  protected:
    /// The info associated with the cell_attribute.
    Info minfo;
  };

  /// Id associated with a cell attribute
  template <class WithId>
  class Add_id
  {
  public:
    // Required to have "internal" property maps.
    std::size_t& id()
    { return m_id; }
    const std::size_t& id() const
    { return m_id; }

  protected:
    void set_id(std::size_t id)
    { m_id=id; }
    
  protected:    
    /// id of the cell
    std::size_t m_id;
  };

  /// If the tag WithId is false, we do not add id to cells.
  template <>
  class Add_id<Tag_false>
  {};
  
  /// Cell_attribute_without_info
  template <class Refs, class Tag=Tag_true, class OnMerge=Null_functor,
            class OnSplit=Null_functor, class WithID=Tag_false>
  class Cell_attribute_without_info;

  // Cell_attribute_without_info without dart support.
  template <class Refs, class OnMerge, class OnSplit, class WithID>
  class Cell_attribute_without_info<Refs, Tag_false,
                                    OnMerge, OnSplit, WithID>:
      public Add_id<WithID>
  {
    template<unsigned int, class, class>
    friend class Combinatorial_map_storage_1;

    template<unsigned int, class, class>
    friend class Generalized_map_storage_1;

    template<unsigned int, unsigned int, class, class, class>
    friend class CMap_linear_cell_complex_storage_1;

    template<unsigned int, unsigned int, class, class, class>
    friend class GMap_linear_cell_complex_storage_1;

    template <class, class, class, class>
    friend class Compact_container;

    template <class, class>
    friend class Concurrent_compact_container;

    template<class, class>
    friend struct internal::Init_id;

  public:
    typedef Tag_false                            Supports_cell_dart;

    typedef typename Refs::Dart_handle           Dart_handle;
    typedef typename Refs::Dart_const_handle     Dart_const_handle;
    typedef typename Refs::Alloc                 Alloc;

    typedef OnMerge On_merge;
    typedef OnSplit On_split;
    typedef WithID Has_id;

    /// operator =
    Cell_attribute_without_info&
    operator=(const Cell_attribute_without_info& acell)
    {
      mrefcounting = acell.mrefcounting;
      return *this;
    }

    /// Get the dart associated with the cell.
    Dart_handle dart() { return Refs::null_handle; }

    /// Get the dart associated with the cell.
    Dart_const_handle dart() const { return Refs::null_handle; }

    /// Set the dart associated with the cell.
    void set_dart(Dart_handle) {}

    /// Test if the cell is valid.
    /// For cell without dart, return always true.
    bool is_valid() const
    { return true; }

    bool operator==(const Cell_attribute_without_info&) const
    { return true; }

    bool operator!=(const Cell_attribute_without_info& other) const
    { return !operator==(other); }

  protected:
    /// Contructor without parameter.
    Cell_attribute_without_info(): mrefcounting(0)
    {}

    /// Copy contructor.
    Cell_attribute_without_info(const Cell_attribute_without_info& acell):
      mrefcounting(acell.mrefcounting)
    {}

  protected:
    /// Increment the reference counting.
    void inc_nb_refs()
    { mrefcounting+=4; } // 4 because the two lowest bits are reserved for cc

    /// Decrement the reference counting.
    void dec_nb_refs()
    {
      CGAL_assertion( mrefcounting>=4 );
      mrefcounting-=4; // 4 because the two lowest bits are reserved for cc
    }

  public:
    /// Get the reference counting.
    std::size_t get_nb_refs() const
    { return (mrefcounting>>2); } // >>2 to ignore the 2 least significant bits

    void * for_compact_container() const
    { return vp; }
    void * & for_compact_container()
    { return vp; }

  private:
    /// Reference counting: the number of darts linked to this cell.
    union
    {
      std::size_t mrefcounting;
      void        *vp;
    };
  };

  /** Definition of cell attribute.
   * Cell_attribute defines what is a a cell. This is an object allowing to
   * link to a dart of the cell (when T is true).
   * The refs class must provide the type of Combinatorial_map used.
   */
  template <class Refs, class OnMerge, class OnSplit, class WithID>
  class Cell_attribute_without_info<Refs, Tag_true,
                                    OnMerge, OnSplit, WithID>: public Add_id<WithID>
  {
    template<unsigned int, class, class>
    friend class Combinatorial_map_storage_1;

    template<unsigned int, class, class>
    friend class Generalized_map_storage_1;

    template<unsigned int, unsigned int, class, class, class>
    friend class CMap_linear_cell_complex_storage_1;

    template<unsigned int, unsigned int, class, class, class>
    friend class GMap_linear_cell_complex_storage_1;

    template <class, class, class, class>
    friend class Compact_container;

    template <class, class>
    friend class Concurrent_compact_container;

    template<class, class>
    friend struct internal::Init_id;

  public:
    typedef Tag_true                             Supports_cell_dart;

    typedef typename Refs::Dart_handle           Dart_handle;
    typedef typename Refs::Dart_const_handle     Dart_const_handle;
    typedef typename Refs::Alloc                 Alloc;

    typedef OnMerge On_merge;
    typedef OnSplit On_split;
    typedef WithID Has_id;

    /// operator =
    Cell_attribute_without_info&
    operator=(const Cell_attribute_without_info& acell)
    {
      mdart = acell.mdart;
      mrefcounting = acell.mrefcounting;
      return *this;
    }

    /// Get the dart associated with the cell.
    Dart_handle dart() { return mdart; }

    /// Get the dart associated with the cell.
    Dart_const_handle dart() const { return mdart; }

    /// Set the dart associated with the cell.
    void set_dart(Dart_handle adart) { mdart = adart; }

    /// Test if the cell is valid.
    /// A cell is valid if its dart is not NULL.
    bool is_valid() const
    { return mdart!=Refs::null_handle; }

    bool operator==(const Cell_attribute_without_info&) const
    { return true; }

    bool operator!=(const Cell_attribute_without_info& other) const
    { return !operator==(other); }

  protected:
    /// Contructor without parameter.
    Cell_attribute_without_info() : mdart(Refs::null_handle),
                                    mrefcounting(0)
    {}

    /// Copy contructor.
    Cell_attribute_without_info(const Cell_attribute_without_info& acell):
      mdart(acell.mdart),
      mrefcounting(acell.mrefcounting)
    {}

  protected:
    /// Increment the reference counting.
    void inc_nb_refs()
    { ++mrefcounting; }

    /// Decrement the reference counting.
    void dec_nb_refs()
    {
      CGAL_assertion( mrefcounting>0 );
      --mrefcounting;
    }

  public:
    /// Get the reference counting.
    std::size_t get_nb_refs() const
    { return mrefcounting; }

    void * for_compact_container() const
    { return mdart.for_compact_container(); }
    void * & for_compact_container()
    { return mdart.for_compact_container(); }

  private:
    /// The dart handle associated with the cell.
    Dart_handle mdart;

    /// Reference counting: the number of darts linked to this cell.
    std::size_t mrefcounting;
  };

  /// Cell associated with an attribute, with or without info depending
  /// if Info==void.
  template <class Refs, class Info_=void, class Tag_=Tag_true,
            class OnMerge=Null_functor,
            class OnSplit=Null_functor,
            class WithID=Tag_false>
  class Cell_attribute;

  /// Specialization when Info==void.
  template <class Refs, class Tag_, class OnMerge, class OnSplit, class WithID>
  class Cell_attribute<Refs, void, Tag_, OnMerge, OnSplit, WithID> :
    public Cell_attribute_without_info<Refs, Tag_, OnMerge, OnSplit, WithID>
  {
    template<unsigned int, class, class>
    friend class Combinatorial_map_storage_1;

    template<unsigned int, class, class>
    friend class Generalized_map_storage_1;

    template<unsigned int, unsigned int, class, class, class>
    friend class CMap_linear_cell_complex_storage_1;

    template<unsigned int, unsigned int, class, class, class>
    friend class GMap_linear_cell_complex_storage_1;

    template <class, class, class, class>
    friend class Compact_container;

    template <class, class>
    friend class Concurrent_compact_container;

  public:
    typedef Tag_                             Supports_cell_dart;
    typedef typename Refs::Dart_handle       Dart_handle;
    typedef typename Refs::Dart_const_handle Dart_const_handle;
    typedef typename Refs::Alloc             Alloc;
    typedef OnMerge                          On_merge;
    typedef OnSplit                          On_split;
    typedef void                             Info;

  protected:
    /// Default contructor.
    Cell_attribute()
    {}
  };

  /// Specialization when Info!=void.
  template <class Refs, class Info_, class Tag_,
            class OnMerge, class OnSplit, class WithID>
  class Cell_attribute :
    public Cell_attribute_without_info<Refs, Tag_, OnMerge, OnSplit, WithID>,
    public Info_for_cell_attribute<Info_>
  {
    template<unsigned int, class, class>
    friend class Combinatorial_map_storage_1;

    template<unsigned int, class, class>
    friend class Generalized_map_storage_1;

    template<unsigned int, unsigned int, class, class, class>
    friend class CMap_linear_cell_complex_storage_1;

    template<unsigned int, unsigned int, class, class, class>
    friend class GMap_linear_cell_complex_storage_1;

    template <class, class, class, class>
    friend class Compact_container;

    template <class, class>
    friend class Concurrent_compact_container;

  public:
    typedef Cell_attribute<Refs, Info_, Tag_, OnMerge, OnSplit, WithID> Self;

    typedef Tag_                             Supports_cell_dart;
    typedef typename Refs::Dart_handle       Dart_handle;
    typedef typename Refs::Dart_const_handle Dart_const_handle;
    typedef typename Refs::Alloc             Alloc;
    typedef OnMerge                          On_merge;
    typedef OnSplit                          On_split;
    typedef Info_                            Info;

    bool operator==(const Self& other) const
    { return this->info()==other.info(); }

    bool operator!=(const Self& other) const
    { return !operator==(other); }

  protected:
    /// Default contructor.
    Cell_attribute()
    {}

    /// Contructor with an info in parameter.
    Cell_attribute(const Info_& ainfo) :
      Info_for_cell_attribute<Info_>(ainfo)
    {}
  };

} // namespace CGAL

#endif // CGAL_CELL_ATTRIBUTE_H //
// EOF //