doc/maps.dox
changeset 265 bf7aea53635a
parent 205 992aac9c9541
child 273 e9024dad7fc1
equal deleted inserted replaced
2:9e49d3a316d3 3:952358de68b5
    11 This simple map assigns \f$\pi\f$ to each edge.
    11 This simple map assigns \f$\pi\f$ to each edge.
    12 
    12 
    13 \code
    13 \code
    14 class MyMap 
    14 class MyMap 
    15 {
    15 {
    16   double get(Graph::EdgeIt e) const { return M_PI;}
       
    17 };
       
    18 \endcode
       
    19 
       
    20 Or if we accept the new map style, it will look like this:
       
    21 
       
    22 \code
       
    23 class MyMap 
       
    24 {
       
    25   double operator[](Graph::EdgeIt e) const { return 1;}
    16   double operator[](Graph::EdgeIt e) const { return 1;}
    26 };
    17 };
    27 \endcode
    18 \endcode
    28 
    19 
    29 
    20 
    30 A more complex example
    21 Here is a more complex example. It provides a length function which is obtained
       
    22 from a base length function modified by a potential difference.
       
    23 \todo Please improve on the english. 
    31 
    24 
    32 \code
    25 \code
    33 class MyLengthMap 
    26 class MyLengthMap 
    34 {
    27 {
    35   const Graph::EdgeMap &ol;
    28   const Graph::EdgeMap &ol;
    36   const Graph::NodeMap &pot;
    29   const Graph::NodeMap &pot;
    37   
    30   
    38   double get(Graph::EdgeIt e) const { return ol.get(e)-pot.get(v)-pot.get(u);}
    31   double operator[](Graph::EdgeIt e) const {
       
    32     return ol.get(e)-pot.get(v)-pot.get(u);
       
    33   }
    39   
    34   
    40   MyComplexMap(const Graph::EdgeMap &o,const Graph::NodeMap &p) :
    35   MyComplexMap(const Graph::EdgeMap &o,const Graph::NodeMap &p) :
    41     ol(o), pot(p);
    36     ol(o), pot(p);
    42 };
    37 };
    43 \endcode
    38 \endcode