lemon/iterable_maps.h
author alpar
Tue, 06 Dec 2005 18:44:26 +0000
changeset 1851 78b5ea23f0f1
parent 1805 d284f81f02a5
child 1873 d73c7f115f53
permissions -rw-r--r--
Doc improvements
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/* -*- C++ -*-
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 * lemon/iterable_maps.h - Part of LEMON, a generic C++ optimization library
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 *
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 * Copyright (C) 2005 Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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 * (Egervary Research Group on Combinatorial Optimization, EGRES).
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 *
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 * Permission to use, modify and distribute this software is granted
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 * provided that this copyright notice appears in all copies. For
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 * precise terms see the accompanying LICENSE file.
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 *
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 * This software is provided "AS IS" with no warranty of any kind,
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 * express or implied, and with no claim as to its suitability for any
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 * purpose.
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 *
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 */
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#include <lemon/traits.h>
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#include <lemon/invalid.h>
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#include <vector>
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#include <limits>
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///\ingroup maps
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///\file
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///\brief Maps that makes it possible to iterate through the keys having
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///a certain value
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///
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///
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namespace lemon {
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  ///\todo This is only a static map!
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  ///\todo Undocumented.
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  ///\param BaseMap is an interger map.
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  template<class BaseMap>
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  class IterableBoolMap
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  {
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  public:
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    typedef typename BaseMap::Key Key;
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    typedef bool Value;
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    friend class RefType;
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    friend class FalseIt;
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    friend class TrueIt;
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  private:
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    BaseMap &cref;
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    std::vector<Key> vals;
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    int sep;           //map[e] is true <=> cref[e]>=sep
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    bool isTrue(Key k) {return cref[k]>=sep;}
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    void swap(Key k, int s) 
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    {
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      int ti=cref[k];
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      Key tk=vals[s];
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      cref[k]=s; vals[s]=k;
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      cref[tk]=ti; vals[ti]=tk;
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    }  
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    void setTrue(Key k) { if(cref[k]<sep) { sep--; swap(k,sep); } }
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    void setFalse(Key k) { if(cref[k]>=sep) { swap(k,sep); sep++; } }
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  public:
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    ///\e
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    void set(Key k,Value v) { if(v) setTrue(k); else setFalse(k);}
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    ///Number of \c true items in the map
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    ///Returns the number of \c true values in the map.
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    ///This is a constant time operation.
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    int countTrue() { return vals.size()-sep; }
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    ///Number of \c false items in the map
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    ///Returns the number of \c false values in the map.
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    ///This is a constant time operation.
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    int countFalse() { return sep; }
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    ///\e
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    class FalseIt
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    {
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      const IterableBoolMap &M;
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      int i;
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    public:
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      ///\e
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      explicit FalseIt(const IterableBoolMap &_M) : M(_M), i(0) { }
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      ///\e
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      FalseIt(Invalid)
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	: M(*((IterableBoolMap*)(0))), i(std::numeric_limits<int>::max()) { }
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      ///\e
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      FalseIt &operator++() { ++i; return *this;}
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      ///\e
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      operator Key() const { return i<M.sep ? M.vals[i] : INVALID; }
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      ///\e
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      bool operator !=(Invalid) const { return i<M.sep; }
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      ///\e
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      bool operator ==(Invalid) const { return i>=M.sep; }
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    };
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    ///\e
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    class TrueIt
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    {
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      const IterableBoolMap &M;
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      int i;
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    public:
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      ///\e
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      explicit TrueIt(const IterableBoolMap &_M)
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	: M(_M), i(M.vals.size()-1) { }
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      ///\e
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      TrueIt(Invalid)
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	: M(*((IterableBoolMap*)(0))), i(-1) { }
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      ///\e
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      TrueIt &operator++() { --i; return *this;}
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      ///\e
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      operator Key() const { return i>=M.sep ? M.vals[i] : INVALID; }
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      ///\e
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      bool operator !=(Invalid) const { return i>=M.sep; }
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      ///\e
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      bool operator ==(Invalid) const { return i<M.sep; }
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    };
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    ///\e
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    class RefType
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    {
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      IterableBoolMap &M;
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      Key k;
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    public:
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      RefType(IterableBoolMap &_M,Key _k) : M(_M), k(_k) { }
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      operator Value() const 
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      {
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	return M.isTrue(k);
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      }
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      Value operator = (Value v) const { M.set(k,v); return v; }
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    };
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  public:
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    explicit IterableBoolMap(BaseMap &_m,bool init=false) : cref(_m)
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    {
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      sep=0;
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      for(typename BaseMap::MapIt i(cref);i!=INVALID; ++i) {
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	i.set(sep);
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	vals.push_back(i);
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	sep++;
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      }
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      if(init) sep=0;
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    }
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    ///\e
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    RefType operator[] (Key k) { return RefType(*this,k);}  
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    ///\e
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    Value operator[] (Key k) const { return isTrue(k);}  
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  };
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  /// \addtogroup graph_maps
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  /// @{
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  /// Iterable bool NodeMap
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  /// This map can be used in the same way
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  /// as the standard NodeMap<bool> of the
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  /// given graph \c Graph. 
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  /// In addition, this class provides two iterators called \ref TrueIt
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  /// and \ref FalseIt to iterate through the "true" and "false" nodes.
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  template <class Graph>
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  class IterableBoolNodeMap
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  {
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    typename Graph::template NodeMap<int> cmap;
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  public:
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    typedef IterableBoolMap<typename Graph::template NodeMap<int> > BimType;
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    BimType imap;
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    typedef typename BimType::RefType RefType;
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    typedef typename Graph::Node Key;
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    typedef bool Value;
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    friend class FalseIt;
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    friend class TrueIt;
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    ///\e
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    IterableBoolNodeMap(const Graph &g,bool b=false) : cmap(g), imap(cmap,b) {}
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  public:
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    ///\e
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    void set(Key k, bool v) { imap.set(k,v);}
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    ///Number of \c true items in the map
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    ///Returns the number of \c true values in the map.
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    ///This is a constant time operation.
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    int countTrue() { return imap.countTrue(); }
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    ///Number of \c false items in the map
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    ///Returns the number of \c false values in the map.
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    ///This is a constant time operation.
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    int countFalse() { return imap.countFalse(); }
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#ifdef DOXYGEN
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    ///\e
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    bool &operator[](Key k) { return imap[k];}  
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    ///\e
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    const bool &operator[](Key k) const { return imap[k];}  
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#else
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    Value operator[](Key k) const { return imap[k];}  
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    RefType operator[](Key k) { return imap[k];}  
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#endif
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    ///Iterator for the "false" nodes
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    class FalseIt : public BimType::FalseIt
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    {
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    public:
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      ///\e
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      explicit FalseIt(const IterableBoolNodeMap &m)
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	: BimType::FalseIt(m.imap) { }
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      ///\e
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      FalseIt(Invalid i) : BimType::FalseIt(i) { }
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    };
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    ///Iterator for the "true" nodes
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    class TrueIt : public BimType::TrueIt
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    {
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    public:
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      ///\e
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      explicit TrueIt(const IterableBoolNodeMap &m)
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	: BimType::TrueIt(m.imap) { }
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      ///\e
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      TrueIt(Invalid i) : BimType::TrueIt(i) { }
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    };  
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  };
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  /// Iterable bool EdgeMap
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  /// This map can be used in the same way
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  /// as the standard EdgeMap<bool> of the
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  /// given graph \c Graph. 
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  /// In addition, this class provides two iterators called \ref TrueIt
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  /// and \ref FalseIt to iterate through the "true" and "false" edges.
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  template <class Graph>
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  class IterableBoolEdgeMap
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  {
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    typename Graph::template EdgeMap<int> cmap;
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  public:
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    typedef IterableBoolMap<typename Graph::template EdgeMap<int> > BimType;
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    BimType imap;
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    typedef typename BimType::RefType RefType;
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    typedef typename Graph::Edge Key;
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    typedef bool Value;
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    friend class FalseIt;
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    friend class TrueIt;
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    ///\e
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    IterableBoolEdgeMap(const Graph &g,bool b=false) : cmap(g), imap(cmap,b) {}
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  public:
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    ///\e
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    void set(Key k, bool v) { imap.set(k,v);}
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    ///Returns the number of \c true values in the map.
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    ///This is a constant time operation.
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    int countTrue() { return imap.countTrue(); }
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    ///Number of \c false items in the map
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    ///Returns the number of \c false values in the map.
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    ///This is a constant time operation.
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    int countFalse() { return imap.countFalse(); }
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#ifdef DOXYGEN
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    ///\e
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    bool &operator[](Key k) { return imap[k];}  
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    ///\e
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    const bool &operator[](Key k) const { return imap[k];}  
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#else
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    Value operator[](Key k) const { return imap[k];}  
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    RefType operator[](Key k) { return imap[k];}  
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#endif
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    ///Iterator for the "false" edges
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    class FalseIt : public BimType::FalseIt
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    {
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    public:
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      ///\e
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      explicit FalseIt(const IterableBoolEdgeMap &m)
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	: BimType::FalseIt(m.imap) { }
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      ///\e
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      FalseIt(Invalid i) : BimType::FalseIt(i) { }
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    };
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    ///Iterator for the "true" edges
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    class TrueIt : public BimType::TrueIt
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    {
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    public:
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      ///\e
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      explicit TrueIt(const IterableBoolEdgeMap &m)
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	: BimType::TrueIt(m.imap) { }
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      ///\e
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      TrueIt(Invalid i) : BimType::TrueIt(i) { }
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    };  
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  };
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  namespace _iterable_maps_bits {
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    template <typename Item>
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    struct IterableIntMapNode {
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      IterableIntMapNode() {}
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      IterableIntMapNode(int _value) : value(_value) {}
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      Item prev, next;
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      int value;
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    };
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  }
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  ///\ingroup maps
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  ///
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  /// \brief Dynamic iterable integer map.
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  ///
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  /// This class provides a special graph map type which can store
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  /// for each graph item(node, edge, etc.) an integer value. For each
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  /// non negative value it is possible to iterate on the keys which
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  /// mapped to the given value.
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  /// 
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  /// \param _Graph The graph type.
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  /// \param _Item One of the graph's item type, the key of the map.
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  template <typename _Graph, typename _Item>
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  class IterableIntMap : protected ItemSetTraits<_Graph, _Item> 
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  ::template Map<_iterable_maps_bits::IterableIntMapNode<_Item> >::Parent {
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  public:
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    typedef typename ItemSetTraits<_Graph, _Item> 
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    ::template Map<_iterable_maps_bits::IterableIntMapNode<_Item> >
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    ::Parent Parent;
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    /// The key type
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    typedef _Item Key;
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    /// The value type
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    typedef int Value;
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    /// The graph type
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    typedef _Graph Graph;
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    /// \brief Constructor of the Map.
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    ///
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    /// Constructor of the Map. It set all values -1.
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    explicit IterableIntMap(const Graph& graph) 
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      : Parent(graph, _iterable_maps_bits::IterableIntMapNode<_Item>(-1)) {}
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    /// \brief Constructor of the Map with a given value.
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    ///
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    /// Constructor of the Map with a given value.
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    explicit IterableIntMap(const Graph& graph, int value) 
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      : Parent(graph, _iterable_maps_bits::IterableIntMapNode<_Item>(value)) {
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      if (value >= 0) {
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	for (typename Parent::ItemIt it(*this); it != INVALID; ++it) {
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	  lace(it);
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	}
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      }
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    }
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  private:
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    void unlace(const Key& key) {
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      typename Parent::Value& node = Parent::operator[](key);
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      if (node.value < 0) return;
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      if (node.prev != INVALID) {
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	Parent::operator[](node.prev).next = node.next;	
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      } else {
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	first[node.value] = node.next;
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      }
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      if (node.next != INVALID) {
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	Parent::operator[](node.next).prev = node.prev;
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      }
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      while (!first.empty() && first.back() == INVALID) {
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	first.pop_back();
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      }
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    }
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    void lace(const Key& key) {
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      typename Parent::Value& node = Parent::operator[](key);
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      if (node.value < 0) return;
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      if (node.value >= (int)first.size()) {
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	first.resize(node.value + 1, INVALID);
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      } 
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      node.prev = INVALID;
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      node.next = first[node.value];
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      if (node.next != INVALID) {
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	Parent::operator[](node.next).prev = key;	
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      }
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      first[node.value] = key;
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    }
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  public:
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    /// Indicates that the map if reference map.
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    typedef True ReferenceMapTag;
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    /// \brief Refernce to the value of the map.
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    ///
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    /// This class is near to similar to the int type. It can
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    /// be converted to int and it has the same operators.
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    class Reference {
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      friend class IterableIntMap;
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    private:
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      Reference(IterableIntMap& map, const Key& key) 
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	: _key(key), _map(map) {} 
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    public:
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      Reference& operator=(const Reference& value) {
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	_map.set(_key, (const int&)value);
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 	return *this;
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      }
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      operator const int&() const { 
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	return static_cast<const IterableIntMap&>(_map)[_key]; 
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      }
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      Reference& operator=(int value) { 
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	_map.set(_key, value); 
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	return *this; 
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      }
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      Reference& operator++() {
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	_map.set(_key, _map[_key] + 1); 
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	return *this; 	
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      }
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      int operator++(int) {
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	int value = _map[_key];
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	_map.set(_key, value + 1); 
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	return value; 	
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      }
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      Reference& operator--() {
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	_map.set(_key, _map[_key] - 1); 
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	return *this; 	
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   428
      }
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   429
      int operator--(int) {
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	int value = _map[_key];
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	_map.set(_key, value - 1); 
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	return value; 	
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   433
      }
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      Reference& operator+=(int value) { 
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	_map.set(_key, _map[_key] + value); 
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	return *this;
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   437
      }
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      Reference& operator-=(int value) { 
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	_map.set(_key, _map[_key] - value); 
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	return *this;
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      }
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      Reference& operator*=(int value) { 
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	_map.set(_key, _map[_key] * value); 
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	return *this;
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   445
      }
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      Reference& operator/=(int value) { 
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	_map.set(_key, _map[_key] / value); 
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	return *this;
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      }
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      Reference& operator%=(int value) { 
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	_map.set(_key, _map[_key] % value); 
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	return *this;
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   453
      }
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   454
      Reference& operator&=(int value) { 
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	_map.set(_key, _map[_key] & value); 
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   456
	return *this;
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   457
      }
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      Reference& operator|=(int value) { 
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   459
	_map.set(_key, _map[_key] | value); 
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	return *this;
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   461
      }
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   462
      Reference& operator^=(int value) { 
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	_map.set(_key, _map[_key] ^ value); 
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   464
	return *this;
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   465
      }
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   466
      Reference& operator<<=(int value) { 
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   467
	_map.set(_key, _map[_key] << value); 
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   468
	return *this;
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   469
      }
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   470
      Reference& operator>>=(int value) { 
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   471
	_map.set(_key, _map[_key] >> value); 
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   472
	return *this;
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   473
      }
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   474
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    private:
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   476
      Key _key;
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   477
      IterableIntMap& _map; 
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   478
    };
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   480
    /// The const reference type.    
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   481
    typedef const Value& ConstReference;
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   482
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   483
    /// \brief Gives back the maximal value plus one.
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   484
    ///
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   485
    /// Gives back the maximal value plus one.
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   486
    int size() const {
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   487
      return (int)first.size();
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   488
    }
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   489
    
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   490
    /// \brief Set operation of the map.
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   491
    ///
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   492
    /// Set operation of the map.
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   493
    void set(const Key& key, const Value& value) {
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   494
      unlace(key);
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   495
      Parent::operator[](key).value = value;
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   496
      lace(key);
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   497
    }
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   498
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   499
    /// \brief Const subscript operator of the map.
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   500
    ///
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   501
    /// Const subscript operator of the map.
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   502
    const Value& operator[](const Key& key) const {
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   503
      return Parent::operator[](key).value;
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   504
    }
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   505
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   506
    /// \brief Subscript operator of the map.
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   507
    ///
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   508
    /// Subscript operator of the map.
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   509
    Reference operator[](const Key& key) {
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   510
      return Reference(*this, key);
deba@1752
   511
    }
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   512
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   513
    /// \brief Iterator for the keys with the same value.
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   514
    ///
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   515
    /// Iterator for the keys with the same value. It works
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   516
    /// like a graph item iterator in the map, it can be converted
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   517
    /// the item type of the map, incremented with \c ++ operator, and
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   518
    /// if the iterator leave the last valid item it will be equal to 
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   519
    /// \c INVALID.
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   520
    class ItemIt : public _Item {
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   521
    public:
deba@1752
   522
      typedef _Item Parent;
deba@1752
   523
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   524
      /// \brief Invalid constructor \& conversion.
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   525
      ///
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   526
      /// This constructor initializes the item to be invalid.
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   527
      /// \sa Invalid for more details.
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   528
      ItemIt(Invalid) : Parent(INVALID), _map(0) {}
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   529
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   530
      /// \brief Creates an iterator with a value.
deba@1810
   531
      ///
deba@1810
   532
      /// Creates an iterator with a value. It iterates on the 
deba@1810
   533
      /// keys which have the given value.
deba@1810
   534
      /// \param map The IterableIntMap
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   535
      /// \param value The value
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   536
      ItemIt(const IterableIntMap& map, int value) : _map(&map) {
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   537
	if (value < 0 || value >= (int)_map->first.size()) {	  
deba@1752
   538
	  Parent::operator=(INVALID);
deba@1752
   539
	} else {
deba@1752
   540
	  Parent::operator=(_map->first[value]);
deba@1752
   541
	}
deba@1752
   542
      } 
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   543
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   544
      /// \brief Increment operator.
deba@1810
   545
      ///
deba@1810
   546
      /// Increment Operator.
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   547
      ItemIt& operator++() {
deba@1752
   548
	Parent::operator=(_map->IterableIntMap::Parent::
deba@1752
   549
			  operator[](static_cast<Parent&>(*this)).next);
deba@1752
   550
	return *this;
deba@1752
   551
      }
deba@1752
   552
deba@1752
   553
deba@1752
   554
    private:
deba@1752
   555
      const IterableIntMap* _map;
deba@1752
   556
    };
deba@1752
   557
deba@1752
   558
  protected:
deba@1752
   559
    
deba@1752
   560
    virtual void erase(const Key& key) {
deba@1752
   561
      unlace(key);
deba@1752
   562
      Parent::erase(key);
deba@1752
   563
    }
deba@1752
   564
deba@1752
   565
    virtual void clear() {
deba@1752
   566
      first.clear();
deba@1752
   567
      Parent::clear();
deba@1752
   568
    }
deba@1752
   569
deba@1752
   570
  private:
deba@1752
   571
    std::vector<_Item> first;
deba@1752
   572
  };
deba@1752
   573
alpar@1677
   574
  /// @}
alpar@1677
   575
}