LEMON/LEMON-official Changeset - r45:bc69cdfe171c

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Changeset - r45:bc69cdfe171c

« 43:17e769

46:b6dd98 »

r45:bc69cdfe171c

Mon, 07 Jan 2008 23:36:33

[Not Reviewed]

0 comments (0 inline)

kpeter (Peter Kovacs)
kpeter@inf.elte.hu

Added missing inheritances and map-creator functions.

0 1 0

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1 file changed with 60 insertions and 8 deletions:

lemon/maps.h

↑ Collapse diff ↑

lemon/maps.h

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@@ -142,63 +142,65 @@
 		    typedef typename Parent::Key Key;
 		    typedef typename Parent::Value Value;
 		    ConstMap() { }
 		    ///\e
 		    V operator[](const K&) const { return v; }
 		    ///\e
 		    void set(const K&, const V&) { }
 		  };
 		  ///Returns a \c ConstMap class
 		  ///This function just returns a \c ConstMap class with inlined value.
 		  ///\relates ConstMap
 		  template<typename K, typename V, V v>
 		  inline ConstMap<K, Const<V, v> > constMap() {
 		    return ConstMap<K, Const<V, v> >();
+		  }
 		  ///Map based on std::map
 		  ///This is essentially a wrapper for \c std::map with addition that
 		  ///you can specify a default value different from \c Value().
 		  template <typename K, typename T, typename Compare = std::less<K> >
 		  class StdMap {
+		  class StdMap : public MapBase<K, T> {
 		    template <typename K1, typename T1, typename C1>
 		    friend class StdMap;
 		  public:
-		    typedef True ReferenceMapTag;
+		    typedef MapBase<K, T> Parent;
 		    ///\e
-		    typedef K Key;
+		    typedef typename Parent::Key Key;
 		    ///\e
-		    typedef T Value;
+		    typedef typename Parent::Value Value;
 		    ///\e
 		    typedef T& Reference;
 		    ///\e
 		    typedef const T& ConstReference;
 		    typedef True ReferenceMapTag;
 		  private:
 		    typedef std::map<K, T, Compare> Map;
 		    Value _value;
 		    Map _map;
 		  public:
 		    /// Constructor with specified default value
 		    StdMap(const T& value = T()) : _value(value) {}
 		    /// \brief Constructs the map from an appropriate std::map, and explicitly
 		    /// specifies a default value.
 		    template <typename T1, typename Comp1>
 		    StdMap(const std::map<Key, T1, Comp1> &map, const T& value = T())
 		      : _map(map.begin(), map.end()), _value(value) {}
 		    /// \brief Constructs a map from an other StdMap.
 		    template<typename T1, typename Comp1>
 		    StdMap(const StdMap<Key, T1, Comp1> &c)
 		      : _map(c._map.begin(), c._map.end()), _value(c._value) {}
 		  private:
 		    StdMap& operator=(const StdMap&);
@@ -219,122 +221,154 @@
 		      typename Map::const_iterator it = _map.find(k);
 		      if (it != _map.end())
 			return it->second;
 		      else
 			return _value;
+		    }
 		    /// \e
 		    void set(const Key &k, const T &t) {
 		      typename Map::iterator it = _map.lower_bound(k);
 		      if (it != _map.end() && !_map.key_comp()(k, it->first))
 			it->second = t;
 		      else
 			_map.insert(it, std::make_pair(k, t));
+		    }
 		    /// \e
 		    void setAll(const T &t) {
 		      _value = t;
 		      _map.clear();
+		    }
 		  };
 		  ///Returns a \ref StdMap class
 		  ///This function just returns a \ref StdMap class with specified
 		  ///default value.
 		  ///\relates StdMap
 		  template<typename K, typename V, typename Compare = std::less<K> >
 		  inline StdMap<K, V, Compare> stdMap(const V& value = V()) {
 		    return StdMap<K, V, Compare>(value);
+		  }
 		  ///Returns a \ref StdMap class created from an appropriate std::map
 		  ///This function just returns a \ref StdMap class created from an
 		  ///appropriate std::map.
 		  ///\relates StdMap
 		  template<typename K, typename V, typename Compare = std::less<K> >
 		  inline StdMap<K, V, Compare> stdMap( const std::map<K, V, Compare> &map,
 		                                       const V& value = V() ) {
 		    return StdMap<K, V, Compare>(map, value);
+		  }
 		  /// \brief Map for storing values for keys from the range <tt>[0..size-1]</tt>
 		  ///
 		  /// The current map has the <tt>[0..size-1]</tt> keyset and the values
 		  /// are stored in a \c std::vector<T>  container. It can be used with
 		  /// some data structures, for example \c UnionFind, \c BinHeap, when
 		  /// the used items are small integer numbers.
 		  ///
 		  /// \todo Revise its name
 		  template <typename T>
 		  class IntegerMap {
+		  class IntegerMap : public MapBase<int, T> {
 		    template <typename T1>
 		    friend class IntegerMap;
 		  public:
-		    typedef True ReferenceMapTag;
+		    typedef MapBase<int, T> Parent;
 		    ///\e
-		    typedef int Key;
+		    typedef typename Parent::Key Key;
 		    ///\e
-		    typedef T Value;
+		    typedef typename Parent::Value Value;
 		    ///\e
 		    typedef T& Reference;
 		    ///\e
 		    typedef const T& ConstReference;
 		    typedef True ReferenceMapTag;
 		  private:
 		    typedef std::vector<T> Vector;
 		    Vector _vector;
 		  public:
 		    /// Constructor with specified default value
 		    IntegerMap(int size = 0, const T& value = T()) : _vector(size, value) {}
 		    /// \brief Constructs the map from an appropriate std::vector.
 		    template <typename T1>
 		    IntegerMap(const std::vector<T1>& vector)
 		      : _vector(vector.begin(), vector.end()) {}
 		    /// \brief Constructs a map from an other IntegerMap.
 		    template <typename T1>
 		    IntegerMap(const IntegerMap<T1> &c)
 		      : _vector(c._vector.begin(), c._vector.end()) {}
 		    /// \brief Resize the container
 		    void resize(int size, const T& value = T()) {
 		      _vector.resize(size, value);
+		    }
 		  private:
 		    IntegerMap& operator=(const IntegerMap&);
 		  public:
 		    ///\e
 		    Reference operator[](Key k) {
 		      return _vector[k];
+		    }
 		    /// \e
 		    ConstReference operator[](Key k) const {
 		      return _vector[k];
+		    }
 		    /// \e
 		    void set(const Key &k, const T& t) {
 		      _vector[k] = t;
+		    }
 		  };
 		  ///Returns an \ref IntegerMap class
 		  ///This function just returns an \ref IntegerMap class.
 		  ///\relates IntegerMap
 		  template<typename T>
 		  inline IntegerMap<T> integerMap(int size = 0, const T& value = T()) {
 		    return IntegerMap<T>(size, value);
+		  }
 		  /// @}
 		  /// \addtogroup map_adaptors
 		  /// @{
 		  /// \brief Identity map.
 		  ///
 		  /// This map gives back the given key as value without any
 		  /// modification.
 		  template <typename T>
 		  class IdentityMap : public MapBase<T, T> {
 		  public:
 		    typedef MapBase<T, T> Parent;
 		    typedef typename Parent::Key Key;
 		    typedef typename Parent::Value Value;
 		    /// \e
 		    const T& operator[](const T& t) const {
 		      return t;
+		    }
 		  };
 		  ///Returns an \c IdentityMap class
@@ -385,75 +419,93 @@
 		  ///This \ref concepts::ReadMap "read only map" returns the simple
 		  ///wrapping of the given map. Sometimes the reference maps cannot be
 		  ///combined with simple read maps. This map adaptor wraps the given
 		  ///map to simple read map.
 		  ///
 		  ///\sa SimpleWriteMap
 		  ///
 		  /// \todo Revise the misleading name
 		  template<typename M>
 		  class SimpleMap : public MapBase<typename M::Key, typename M::Value> {
 		    const M& m;
 		  public:
 		    typedef MapBase<typename M::Key, typename M::Value> Parent;
 		    typedef typename Parent::Key Key;
 		    typedef typename Parent::Value Value;
 		    ///Constructor
 		    SimpleMap(const M &_m) : m(_m) {};
 		    ///\e
 		    Value operator[](Key k) const {return m[k];}
 		  };
 		  ///Returns a \ref SimpleMap class
 		  ///This function just returns a \ref SimpleMap class.
 		  ///\relates SimpleMap
 		  template<typename M>
 		  inline SimpleMap<M> simpleMap(const M &m) {
 		    return SimpleMap<M>(m);
+		  }
 		  ///Simple writable wrapping of a map
 		  ///This \ref concepts::WriteMap "write map" returns the simple
 		  ///wrapping of the given map. Sometimes the reference maps cannot be
 		  ///combined with simple read-write maps. This map adaptor wraps the
 		  ///given map to simple read-write map.
 		  ///
 		  ///\sa SimpleMap
 		  ///
 		  /// \todo Revise the misleading name
 		  template<typename M>
 		  class SimpleWriteMap : public MapBase<typename M::Key, typename M::Value> {
 		    M& m;
 		  public:
 		    typedef MapBase<typename M::Key, typename M::Value> Parent;
 		    typedef typename Parent::Key Key;
 		    typedef typename Parent::Value Value;
 		    ///Constructor
 		    SimpleWriteMap(M &_m) : m(_m) {};
 		    ///\e
 		    Value operator[](Key k) const {return m[k];}
 		    ///\e
 		    void set(Key k, const Value& c) { m.set(k, c); }
 		  };
 		  ///Returns a \ref SimpleWriteMap class
 		  ///This function just returns a \ref SimpleWriteMap class.
 		  ///\relates SimpleWriteMap
 		  template<typename M>
 		  inline SimpleWriteMap<M> simpleWriteMap(M &m) {
 		    return SimpleWriteMap<M>(m);
+		  }
 		  ///Sum of two maps
 		  ///This \c concepts::ReadMap "read only map" returns the sum of the two
 		  ///given maps.
 		  ///Its \c Key and \c Value are inherited from \c M1.
 		  ///The \c Key and \c Value of M2 must be convertible to those of \c M1.
 		  template<typename M1, typename M2>
 		  class AddMap : public MapBase<typename M1::Key, typename M1::Value> {
 		    const M1& m1;
 		    const M2& m2;
 		  public:
 		    typedef MapBase<typename M1::Key, typename M1::Value> Parent;
 		    typedef typename Parent::Key Key;
 		    typedef typename Parent::Value Value;
 		    ///Constructor
 		    AddMap(const M1 &_m1,const M2 &_m2) : m1(_m1), m2(_m2) {};
 		    ///\e
 		    Value operator[](Key k) const {return m1[k]+m2[k];}
 		  };
 		  ///Returns an \c AddMap class

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