doc/named-param.dox
changeset 279 6307bbbf285b
parent 268 986d30f5c1c0
child 463 88ed40ad0d4f
     1.1 --- /dev/null	Thu Jan 01 00:00:00 1970 +0000
     1.2 +++ b/doc/named-param.dox	Tue Sep 23 18:42:49 2008 +0200
     1.3 @@ -0,0 +1,119 @@
     1.4 +/* -*- mode: C++; indent-tabs-mode: nil; -*-
     1.5 + *
     1.6 + * This file is a part of LEMON, a generic C++ optimization library.
     1.7 + *
     1.8 + * Copyright (C) 2003-2008
     1.9 + * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
    1.10 + * (Egervary Research Group on Combinatorial Optimization, EGRES).
    1.11 + *
    1.12 + * Permission to use, modify and distribute this software is granted
    1.13 + * provided that this copyright notice appears in all copies. For
    1.14 + * precise terms see the accompanying LICENSE file.
    1.15 + *
    1.16 + * This software is provided "AS IS" with no warranty of any kind,
    1.17 + * express or implied, and with no claim as to its suitability for any
    1.18 + * purpose.
    1.19 + *
    1.20 + */
    1.21 +
    1.22 +/*!
    1.23 +
    1.24 +\page named-param Named Parameters
    1.25 +
    1.26 +\section named-func-param Named Function Parameters
    1.27 +
    1.28 +Several modern languages provide a convenient way to refer the
    1.29 +function parameters by name also when you call the function. It is
    1.30 +especially comfortable in case of a function having tons of parameters
    1.31 +with natural default values. Sadly, C++ lack this amenity.
    1.32 +
    1.33 +However, with a crafty trick and with some little
    1.34 +inconvenience, it is possible to emulate is.
    1.35 +The example below shows how to do it.
    1.36 +
    1.37 +\code
    1.38 +class namedFn
    1.39 +{
    1.40 +  int _id;
    1.41 +  double _val;
    1.42 +  int _dim;
    1.43 +
    1.44 +  public:
    1.45 +  namedFn() : _id(0), _val(1), _dim(2) {}
    1.46 +  namedFn& id(int p)     { _id  = p ; return *this; }
    1.47 +  namedFn& val(double p) { _val = p ; return *this; }
    1.48 +  namedFn& dim(int p)    { _dim = p ; return *this; }
    1.49 +
    1.50 +  run() {
    1.51 +    std::cout << "Here comes the function itself\n" <<
    1.52 +              << "With parameters "
    1.53 +              << _id << ", " << _val << ", " << _dim << std::endl;
    1.54 +  }
    1.55 +};
    1.56 +\endcode
    1.57 +
    1.58 +Then you can use it like this.
    1.59 +
    1.60 +\code
    1.61 +namedFn().id(3).val(2).run();
    1.62 +\endcode
    1.63 +
    1.64 +The trick is obvious, each "named parameter" changes one component of
    1.65 +the underlying class, then gives back a reference to it. Finally,
    1.66 +<tt>run()</tt> executes the algorithm itself.
    1.67 +
    1.68 +\note Although it is a class, namedFn is used pretty much like as it were
    1.69 +a function. That it why we called it namedFn instead of \c NamedFn.
    1.70 +
    1.71 +\note In fact, the final <tt>.run()</tt> could be made unnecessary,
    1.72 +because the algorithm could also be implemented in the destructor of
    1.73 +\c namedFn instead. This however would make it impossible to implement
    1.74 +functions with return values, and would also cause serious problems when
    1.75 +implementing \ref named-templ-func-param "named template parameters".
    1.76 +<b>Therefore, by convention, <tt>.run()</tt> must be used
    1.77 +explicitly to execute a function having named parameters
    1.78 +everywhere in LEMON.</b>
    1.79 +
    1.80 +\section named-templ-func-param Named Function Template Parameters
    1.81 +
    1.82 +A named parameter can also be a template function. The usage is
    1.83 +exactly the same, but the implementation behind is a kind of black
    1.84 +magic and they are the dirtiest part of the LEMON code.
    1.85 +
    1.86 +You will probably never need to know how it works, but if you really
    1.87 +committed, have a look at \ref lemon/graph_to_eps.h for an example.
    1.88 +
    1.89 +\section traits-classes Traits Classes
    1.90 +
    1.91 +A similar game can also be played when defining classes. In this case
    1.92 +the type of the class attributes can be changed. Initially we have to
    1.93 +define a special class called <em>Traits Class</em> defining the
    1.94 +default type of the attributes. Then the types of these attributes can
    1.95 +be changed in the same way as described in the next section.
    1.96 +
    1.97 +See \ref lemon::DijkstraDefaultTraits for an
    1.98 +example how a traits class implementation looks like.
    1.99 +
   1.100 +\section named-templ-param Named Class Template Parameters
   1.101 +
   1.102 +If we would like to change the type of an attribute in a class that
   1.103 +was instantiated by using a traits class as a template parameter, and
   1.104 +the class contains named parameters, we do not have to instantiate again
   1.105 +the class with new traits class, but instead adaptor classes can
   1.106 +be used as shown in the following example.
   1.107 +
   1.108 +\code
   1.109 +Dijkstra<>::SetPredMap<NullMap<Node,Arc> >::Create
   1.110 +\endcode
   1.111 +
   1.112 +It can also be used in conjunction with other named template
   1.113 +parameters in arbitrary order.
   1.114 +
   1.115 +\code
   1.116 +Dijkstra<>::SetDistMap<MyMap>::SetPredMap<NullMap<Node,Arc> >::Create
   1.117 +\endcode
   1.118 +
   1.119 +The result will be an instantiated Dijkstra class, in which the
   1.120 +DistMap and the PredMap is modified.
   1.121 +
   1.122 +*/