doc/named-param.dox
changeset 1433 e0ec5ce0771e
parent 955 0a066f80e05f
child 1438 826bdac3525a
equal deleted inserted replaced
2:3d8d6e8c0c01 3:d85cf6653e98
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     2 
     3 \page named-param Named Parameters
     3 \page named-param Named Parameters
     4 
     4 
     5 \section named-func-param Named "Function" Parameters
     5 \section named-func-param Named "Function" Parameters
     6 
     6 
       
     7 C++ makes it possible to use default parameter values when calling a function. In such
       
     8 a case we do not have to give value for parameters, the program will use the default ones.
       
     9 Unfortunately sometimes this is not enough. If we do not want to give values for all the parameters, only
       
    10 for some of them we come across problems, because an arbitrary set of parameters cannot be omitted. On the other hand parameters have a fixed order in the head of the function.
       
    11 C++ can apply the default values only in the back of the order, if we do not give other value for them.
       
    12 So we can not give the function for example the value of the first, and the third parameter, expecting that the program will aplly the default value for the second parameter.
       
    13 However sometimes we would like to use some functinos exactly in this way. With a crafty trick and with some little inconvenience this is possible. We have implemented this little trick as an example below.
       
    14 
       
    15 \code
       
    16 class named_fn 
       
    17 {
       
    18   int _id;
       
    19   double _val;
       
    20   int _dim;
       
    21   
       
    22   public:
       
    23   named_fn() : _id(0), _val(1), _dim(2) {}
       
    24   named_fn& id(int p)     { _id  = p ; return *this; }
       
    25   named_fn& val(double p) { _val = p ; return *this; }
       
    26   named_fn& dim(int p)    { _dim = p ; return *this; }
       
    27 
       
    28   run() {
       
    29     printf("Here is the function itself.");
       
    30   }
       
    31 };
       
    32 \endcode
       
    33 
       
    34 
       
    35 The usage is the following.
       
    36 
       
    37 We have to define a class, let's call it named_fn.
       
    38 Let us assume that we would like to use a parameter, called X. In the named_fn class we have to define an _X attribute, and an X function. The function expects a parameter with the type of _X, and sets the value of _X. After setting the value the function returns the class itself. The class also have to have a function, called for example run(), we have to implement here the original function itself. The constructor of the class have to give all the attributes like _X the default values of them.
       
    39 
       
    40 If we instantiate this class, the default values will be set for the attributes (originally the parameters), initially. If we call the X function, we get a class with the modified parameter value of X. Therefore we can modify any parameter-value, independent from the order. To run the algorithm we have to call the run() function at the end of the row.
       
    41 
       
    42 Example: named_fn().id(3).val(2).run();
     7 
    43 
     8 \section traits-classes Traits Classes
    44 \section traits-classes Traits Classes
     9 
    45 
       
    46 The procedure above can also be applied when defining classes. In this case the type of the attributes can be changed.
       
    47 Initially we have to define a class with the default attribute types. This is the se called Traits Class. Later on
       
    48 the types of these attributes can be changed, as described below. In our software \ref DijkstraDefaultTraits is an example of how a traits class look like.
       
    49 
    10 \section named-templ-param Named Class Template Parameters
    50 \section named-templ-param Named Class Template Parameters
    11 
    51 
    12 Instead of creating a new traits class you can also use this adaptor class
    52 If we would like to change the type of an attribute in a class that was instantiated by using a traits class as a template parameter, and the class contains named parameters, we do not have to reinstantiate the class with new traits class. Instead of that adaptor classes can be used like in the following cases.
    13 like this
    53 
    14 \code
    54 \code
    15 Dijkstra<>::SetPredNodeMap<NullMap<Node,Node> >
    55 Dijkstra<>::SetPredNodeMap<NullMap<Node,Node> >
    16 \endcode
    56 \endcode
       
    57 
    17 It can also be used in conjunction with other named template
    58 It can also be used in conjunction with other named template
    18 parameters in arbitrary order.
    59 parameters in arbitrary order.
       
    60 
    19 \code
    61 \code
    20 Dijkstra<>::SetDistMap<MyMap>::SetPredMap<NullMap<Node,Edge> >
    62 Dijkstra<>::SetDistMap<MyMap>::SetPredMap<NullMap<Node,Edge> >
    21 \endcode
    63 \endcode
    22 
    64 
       
    65 The result will be an instantiated Dijkstra class, in which the DistMap and the PredMap is modified.
       
    66 
    23 \section named-templ-func-param Named "Function" Template Parameters
    67 \section named-templ-func-param Named "Function" Template Parameters
    24 
    68 
       
    69 If the class has so called wizard functions, the new class with the modified tpye of attributes can be returned
       
    70 by the appropriate wizard function. The usage of these wizard functions is the following:
    25 
    71 
    26 */
    72 */