doc/named-param.dox
author deba
Thu, 27 Dec 2007 13:40:16 +0000
changeset 2547 f393a8162688
parent 1929 84d87d6024af
child 2553 bfced05fa852
permissions -rw-r--r--
Renaming state_enum to State
Removing "Type" suffix from typedefs
Moving implementation into the class definition
alpar@2391
     1
/* -*- C++ -*-
alpar@2391
     2
 *
alpar@2391
     3
 * This file is a part of LEMON, a generic C++ optimization library
alpar@2391
     4
 *
alpar@2391
     5
 * Copyright (C) 2003-2007
alpar@2391
     6
 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
alpar@2391
     7
 * (Egervary Research Group on Combinatorial Optimization, EGRES).
alpar@2391
     8
 *
alpar@2391
     9
 * Permission to use, modify and distribute this software is granted
alpar@2391
    10
 * provided that this copyright notice appears in all copies. For
alpar@2391
    11
 * precise terms see the accompanying LICENSE file.
alpar@2391
    12
 *
alpar@2391
    13
 * This software is provided "AS IS" with no warranty of any kind,
alpar@2391
    14
 * express or implied, and with no claim as to its suitability for any
alpar@2391
    15
 * purpose.
alpar@2391
    16
 *
alpar@2391
    17
 */
alpar@2391
    18
alpar@1624
    19
/*!
alpar@954
    20
alpar@953
    21
\page named-param Named Parameters
alpar@953
    22
alpar@1624
    23
\section named-func-param Named Function Parameters
alpar@955
    24
alpar@1536
    25
C++ makes it possible to use default parameter values when calling a
alpar@1536
    26
function. In such a case we do not have to give value for parameters,
alpar@1536
    27
the program will use the default ones.  Unfortunately sometimes this
alpar@1536
    28
is not enough. If we do not want to give values for all the
alpar@1536
    29
parameters, only for some of them we come across problems, because an
alpar@1536
    30
arbitrary set of parameters cannot be omitted. On the other hand
alpar@1536
    31
parameters have a fixed order in the head of the function.  C++ can
alpar@1536
    32
apply the default values only in the back of the order, if we do not
alpar@1536
    33
give other value for them.  So we can not give the function for
alpar@1536
    34
example the value of the first, and the third parameter, expecting
alpar@1536
    35
that the program will aplly the default value for the second
alpar@1536
    36
parameter.  However sometimes we would like to use some functinos
alpar@1536
    37
exactly in this way. With a crafty trick and with some little
alpar@1536
    38
inconvenience this is possible. We have implemented this little trick
alpar@1536
    39
as an example below.
hegyi@1141
    40
hegyi@1141
    41
\code
alpar@1713
    42
class namedFn 
hegyi@1141
    43
{
hegyi@1141
    44
  int _id;
hegyi@1141
    45
  double _val;
hegyi@1141
    46
  int _dim;
hegyi@1141
    47
  
hegyi@1141
    48
  public:
alpar@1713
    49
  namedFn() : _id(0), _val(1), _dim(2) {}
alpar@1713
    50
  namedFn& id(int p)     { _id  = p ; return *this; }
alpar@1713
    51
  namedFn& val(double p) { _val = p ; return *this; }
alpar@1713
    52
  namedFn& dim(int p)    { _dim = p ; return *this; }
hegyi@1141
    53
hegyi@1141
    54
  run() {
hegyi@1141
    55
    printf("Here is the function itself.");
hegyi@1141
    56
  }
hegyi@1141
    57
};
hegyi@1141
    58
\endcode
hegyi@1141
    59
hegyi@1141
    60
hegyi@1141
    61
The usage is the following.
hegyi@1141
    62
alpar@1713
    63
We have to define a class, let's call it \c namedFn.  Let us assume that
alpar@1713
    64
we would like to use a parameter, called \c X. In the \c namedFn class we
alpar@1624
    65
have to define an \c _X attribute, and a function \c X. The function
alpar@1624
    66
expects a parameter with the type of \c _X, and sets the value of
alpar@1624
    67
\c _X. After setting the value the function returns the class itself. The
alpar@1624
    68
class also have to have a function, called for example <tt>run()</tt>, we have
alpar@1536
    69
to implement here the original function itself. The constructor of the
alpar@1624
    70
class have to give all the attributes like \c _X the default values of
alpar@1536
    71
them.
hegyi@1141
    72
alpar@1536
    73
If we instantiate this class, the default values will be set for the
hegyi@1619
    74
attributes (originally the parameters), initially. If we call function
alpar@1624
    75
\c X, we get a class with the modified parameter value of
alpar@1713
    76
\c X. Therefore we can modify any parameter-value, independently from the
alpar@1624
    77
order. To run the algorithm we have to call the <tt>run()</tt> function at the
alpar@1536
    78
end of the row.
hegyi@1141
    79
alpar@1624
    80
Example:
alpar@1624
    81
\code
alpar@1713
    82
namedFn().id(3).val(2).run();
alpar@1624
    83
\endcode
alpar@955
    84
alpar@1713
    85
\note Although it is a class, namedFn is used pretty much like as it were
alpar@1713
    86
a function. That it why it is called namedFn and not \c NamedFn.
alpar@1713
    87
alpar@1713
    88
\note In fact, the final <tt>.run()</tt> could be made unnecessary if the
alpar@1713
    89
actual function code were put in the destructor instead. This however would make
alpar@1713
    90
hard to implement functions with return values, and would also make the
alpar@1713
    91
implementation of \ref named-templ-func-param "named template parameters"
alpar@1929
    92
very problematic. <b>Therefore, by convention, <tt>.run()</tt> must be used
alpar@1929
    93
to explicitly execute function having named parameters in Lemon.</b>
alpar@1713
    94
alpar@1713
    95
alpar@955
    96
\section traits-classes Traits Classes
alpar@955
    97
alpar@1536
    98
The procedure above can also be applied when defining classes. In this
alpar@1536
    99
case the type of the attributes can be changed.  Initially we have to
alpar@1536
   100
define a class with the default attribute types. This is the so called
alpar@1536
   101
Traits Class. Later on the types of these attributes can be changed,
alpar@1536
   102
as described below. In our software \ref lemon::DijkstraDefaultTraits is an
alpar@1536
   103
example of how a traits class looks like.
hegyi@1141
   104
alpar@955
   105
\section named-templ-param Named Class Template Parameters
alpar@954
   106
alpar@1536
   107
If we would like to change the type of an attribute in a class that
alpar@1536
   108
was instantiated by using a traits class as a template parameter, and
alpar@1536
   109
the class contains named parameters, we do not have to reinstantiate
alpar@1536
   110
the class with new traits class. Instead of that, adaptor classes can
alpar@1536
   111
be used like in the following cases.
hegyi@1141
   112
alpar@954
   113
\code
deba@1709
   114
Dijkstra<>::SetPredNodeMap<NullMap<Node,Node> >::Create
alpar@954
   115
\endcode
hegyi@1141
   116
alpar@954
   117
It can also be used in conjunction with other named template
alpar@954
   118
parameters in arbitrary order.
hegyi@1141
   119
alpar@954
   120
\code
deba@1709
   121
Dijkstra<>::SetDistMap<MyMap>::SetPredMap<NullMap<Node,Edge> >::Create
alpar@954
   122
\endcode
alpar@954
   123
alpar@1536
   124
The result will be an instantiated Dijkstra class, in which the
alpar@1536
   125
DistMap and the PredMap is modified.
hegyi@1141
   126
alpar@1624
   127
\section named-templ-func-param Named Function Template Parameters
alpar@955
   128
alpar@1536
   129
If the class has so called wizard functions, the new class with the
alpar@1536
   130
modified tpye of attributes can be returned by the appropriate wizard
alpar@1536
   131
function. The usage of these wizard functions is the following:
alpar@953
   132
alpar@953
   133
*/