| 1 | /*! |
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| 2 | |
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| 3 | \page named-param Named Parameters |
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| 4 | |
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| 5 | \section named-func-param Named Function Parameters |
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| 6 | |
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| 7 | C++ makes it possible to use default parameter values when calling a |
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| 8 | function. In such a case we do not have to give value for parameters, |
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| 9 | the program will use the default ones. Unfortunately sometimes this |
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| 10 | is not enough. If we do not want to give values for all the |
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| 11 | parameters, only for some of them we come across problems, because an |
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| 12 | arbitrary set of parameters cannot be omitted. On the other hand |
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| 13 | parameters have a fixed order in the head of the function. C++ can |
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| 14 | apply the default values only in the back of the order, if we do not |
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| 15 | give other value for them. So we can not give the function for |
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| 16 | example the value of the first, and the third parameter, expecting |
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| 17 | that the program will aplly the default value for the second |
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| 18 | parameter. However sometimes we would like to use some functinos |
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| 19 | exactly in this way. With a crafty trick and with some little |
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| 20 | inconvenience this is possible. We have implemented this little trick |
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| 21 | as an example below. |
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| 22 | |
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| 23 | \code |
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| 24 | class namedFn |
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| 25 | { |
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| 26 | int _id; |
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| 27 | double _val; |
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| 28 | int _dim; |
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| 29 | |
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| 30 | public: |
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| 31 | namedFn() : _id(0), _val(1), _dim(2) {} |
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| 32 | namedFn& id(int p) { _id = p ; return *this; } |
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| 33 | namedFn& val(double p) { _val = p ; return *this; } |
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| 34 | namedFn& dim(int p) { _dim = p ; return *this; } |
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| 35 | |
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| 36 | run() { |
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| 37 | printf("Here is the function itself."); |
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| 38 | } |
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| 39 | }; |
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| 40 | \endcode |
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| 41 | |
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| 42 | |
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| 43 | The usage is the following. |
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| 44 | |
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| 45 | We have to define a class, let's call it \c namedFn. Let us assume that |
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| 46 | we would like to use a parameter, called \c X. In the \c namedFn class we |
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| 47 | have to define an \c _X attribute, and a function \c X. The function |
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| 48 | expects a parameter with the type of \c _X, and sets the value of |
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| 49 | \c _X. After setting the value the function returns the class itself. The |
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| 50 | class also have to have a function, called for example <tt>run()</tt>, we have |
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| 51 | to implement here the original function itself. The constructor of the |
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| 52 | class have to give all the attributes like \c _X the default values of |
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| 53 | them. |
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| 54 | |
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| 55 | If we instantiate this class, the default values will be set for the |
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| 56 | attributes (originally the parameters), initially. If we call function |
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| 57 | \c X, we get a class with the modified parameter value of |
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| 58 | \c X. Therefore we can modify any parameter-value, independently from the |
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| 59 | order. To run the algorithm we have to call the <tt>run()</tt> function at the |
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| 60 | end of the row. |
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| 61 | |
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| 62 | Example: |
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| 63 | \code |
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| 64 | namedFn().id(3).val(2).run(); |
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| 65 | \endcode |
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| 66 | |
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| 67 | \note Although it is a class, namedFn is used pretty much like as it were |
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| 68 | a function. That it why it is called namedFn and not \c NamedFn. |
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| 69 | |
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| 70 | \note In fact, the final <tt>.run()</tt> could be made unnecessary if the |
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| 71 | actual function code were put in the destructor instead. This however would make |
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| 72 | hard to implement functions with return values, and would also make the |
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| 73 | implementation of \ref named-templ-func-param "named template parameters" |
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| 74 | very problematic. Therefore, by convention, <tt>.run()</tt> is used |
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| 75 | to explicitly execute function having named parameters in Lemon. |
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| 76 | |
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| 77 | |
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| 78 | \section traits-classes Traits Classes |
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| 79 | |
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| 80 | The procedure above can also be applied when defining classes. In this |
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| 81 | case the type of the attributes can be changed. Initially we have to |
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| 82 | define a class with the default attribute types. This is the so called |
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| 83 | Traits Class. Later on the types of these attributes can be changed, |
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| 84 | as described below. In our software \ref lemon::DijkstraDefaultTraits is an |
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| 85 | example of how a traits class looks like. |
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| 86 | |
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| 87 | \section named-templ-param Named Class Template Parameters |
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| 88 | |
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| 89 | If we would like to change the type of an attribute in a class that |
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| 90 | was instantiated by using a traits class as a template parameter, and |
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| 91 | the class contains named parameters, we do not have to reinstantiate |
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| 92 | the class with new traits class. Instead of that, adaptor classes can |
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| 93 | be used like in the following cases. |
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| 94 | |
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| 95 | \code |
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| 96 | Dijkstra<>::SetPredNodeMap<NullMap<Node,Node> >::Create |
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| 97 | \endcode |
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| 98 | |
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| 99 | It can also be used in conjunction with other named template |
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| 100 | parameters in arbitrary order. |
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| 101 | |
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| 102 | \code |
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| 103 | Dijkstra<>::SetDistMap<MyMap>::SetPredMap<NullMap<Node,Edge> >::Create |
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| 104 | \endcode |
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| 105 | |
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| 106 | The result will be an instantiated Dijkstra class, in which the |
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| 107 | DistMap and the PredMap is modified. |
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| 108 | |
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| 109 | \section named-templ-func-param Named Function Template Parameters |
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| 110 | |
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| 111 | If the class has so called wizard functions, the new class with the |
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| 112 | modified tpye of attributes can be returned by the appropriate wizard |
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| 113 | function. The usage of these wizard functions is the following: |
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| 114 | |
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| 115 | */ |
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