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doc/maps.dox
changeset 1177 e41c2907fb49
parent 1083 8043b93e5973
child 1183 8f623d1833a7
equal deleted inserted replaced
15:e8ab703836eb 16:dbb9134ddc1d 
     1 namespace lemon{
 
     1 namespace lemon{
 
     2 /*!
 
     2 /*!
 
     3 
     3 
     4 \page maps-page Maps
 
     4 \page maps-page Maps
 
     5 
     5 
     6 Maps play central role in LEMON. As their name suggests, they map a
 
     6 Maps play a central role in LEMON. As their name suggests, they map a
 
     7 certain range of \e keys to certain \e values. Each map has two
 
     7 certain range of \e keys to certain \e values. Each map has two
 
     8 <tt>typedef</tt>'s to determine the types of keys and values, like this:
 
     8 <tt>typedef</tt>'s to determine the types of keys and values, like this:
 
     9 
     9 
    10 \code
 
    10 \code
 
    11   typedef Edge Key;
 
    11   typedef Edge Key;
 
    44 where \c e is an instance of \c ListGraph::Edge.
 
    44 where \c e is an instance of \c ListGraph::Edge.
 
    45 (Or anything else
 
    45 (Or anything else
 
    46 that converts to \c ListGraph::Edge, like  \c ListGraph::EdgeIt or
 
    46 that converts to \c ListGraph::Edge, like  \c ListGraph::EdgeIt or
 
    47 \c ListGraph::OutEdgeIt etc.)
 
    47 \c ListGraph::OutEdgeIt etc.)
 
    48 
    48 
    49 There are two ways the assign a new value to a key
 
    49 There are two ways to assign a new value to a key
 
    50 
    50 
    51 - In case of a <em>reference map</em> <tt>operator[]</tt>
 
    51 - In case of a <em>reference map</em> <tt>operator[]</tt>
 
    52 gives you a reference to the
 
    52 gives you a reference to the
 
    53 value, thus you can use this.
 
    53 value, thus you can use this.
 
    54 \code
 
    54 \code
 
    68 
    68 
    69 \section how-to-write-your-own-map How to Write Your Own Maps
 
    69 \section how-to-write-your-own-map How to Write Your Own Maps
 
    70 
    70 
    71 \subsection read-maps Readable Maps
 
    71 \subsection read-maps Readable Maps
 
    72 
    72 
    73 Readable maps are very frequently used as the input of the
 
    73 Readable maps are very frequently used as the input of an
 
    74 algorithms.  For this purpose the most straightforward way is the use of the
 
    74 algorithm.  For this purpose the most straightforward way is the use of the
 
    75 default maps provided by LEMON's graph structures.
 
    75 default maps provided by LEMON's graph structures.
 
    76 Very often however, it is more
 
    76 Very often however, it is more
 
    77 convenient and/or more efficient to write your own readable map.
 
    77 convenient and/or more efficient to write your own readable map.
 
    78 
    78 
    79 You can find some examples below. In these examples \c Graph is the
 
    79 You can find some examples below. In these examples \c Graph is the
 
   113   const Graph::EdgeMap<double> &orig_len;
 
   113   const Graph::EdgeMap<double> &orig_len;
 
   114   const Graph::NodeMap<double> &pot;
 
   114   const Graph::NodeMap<double> &pot;
 
   115   
   115   
   116 public:
 
   116 public:
 
   117   Value operator[](Key e) const {
 
   117   Value operator[](Key e) const {
 
   118     return orig_len.get(e)-pot.get(G.target(e))-pot.get(G.source(e));
 
   118     return orig_len.get(e)-(pot.get(G.target(e))-pot.get(G.source(e)));
 
   119   }
 
   119   }
 
   120   
   120   
   121   ReducedLengthMap(const Graph &_g,
 
   121   ReducedLengthMap(const Graph &_g,
 
   122                    const Graph::EdgeMap &o,
 
   122                    const Graph::EdgeMap &o,
 
   123                    const Graph::NodeMap &p)
 
   123                    const Graph::NodeMap &p)
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