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I would like to have value to type map, and from what I see boost fusion uses map that uses pair where type is always the first memeber(so it is key in a map)?

map_type m(
    fusion::make_pair<int>('X')
  , fusion::make_pair<double>("Men"));

Is it possible to make value(for example 'X' in example above) key and type value? If not can I at least do filter based on value(this is slow so It would be nice to know if I can sort fusion vector based on second param and use binary_search on that(again with custom comparator that looks at value, not key).

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Maybe not in boost::fusion, but the trick where you take an list of runtime values and call a functor with a type depending on which matches exists. I call it magic switch.

You need to enumerate the types at compile time, then associate the runtime type with the offset into said list. tuple already maps indexes to types for you.

You cannot return the type, but instead you can call a passed in template functo with the type.

However, before going down this path, you should have a concrete goal in mind, and see if; there are less convoluted ways to solve it.

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actually motivation was the magic switch... stackoverflow.com/questions/16691214/… recently I stumbled upon fusion and I was wondering is fusion maybe the magic I was looking for :) – NoSenseEtAl Jun 30 '13 at 17:04

Interesting question. Normaly this will not work, because there is not realy a way to represent a type at runtime with same semantics known from compile time, for example there are no virtual constructors (look at Moder C++ Design page 200, paragraph 8.2). But fusion supports for_each which iterates at compile time over the sequence and calls a runtime function object. Now this function object can be a generic filter forwarding a call to another generic function object if its generic predicate returns true.

Now her is the code:

#include <boost/fusion/container/map.hpp>
#include <boost/fusion/algorithm/iteration/for_each.hpp>

#include <string>
#include <iostream>
#include <typeinfo>

using namespace boost::fusion;


template<class Pred,class Fun>
 struct filter {
    Pred pred_;
    Fun& fun_;

    filter(Pred p, Fun& f)
        : pred_(p)
        , fun_(f)
    {}

    template<class Pair>
    void operator()(Pair& pair) const {
        if (pred_(pair.second))
            fun_(pair);
    }
 };

 template<class Pred,class Fun>
 filter<Pred,Fun> make_filter(Pred p, Fun& f) {
    return filter<Pred,Fun>(p, f);
 }

 typedef map 
    < pair<int, char>
    , pair<double, std::string>
 > map_type;

 struct fun {
    template<class First,class Second>
    void operator()(pair<First,Second>& t) const {
        std::cout 
            << typeid(First).name() << std::endl
            << typeid(Second).name() << ":" << t.second << std::endl;
    }
 };

 struct mypred {
    template<class T>
    bool operator()(T const&) const {
        return false;
    }

    bool operator()(char c) const {
        return c=='X';
    }
};

int main(int argc, char** argv) {

    map_type m(
        make_pair<int>('X'), 
        make_pair<double>("Men")
    );

    for_each(m, make_filter(mypred(),fun()));

    return 0;
}

The filter class stores a predicate and a function object. If the predicate returns true on pair.second In your case 'X' it calls the function object. make_filter is a little helper to create a filter. Now there are two piece lof code left: my very special predicate mypred, which only accept char (you have to deal with overloading for more general implementations) and my function object fun which outputs type information and the value. In main for_each is called with a filter. Please note: the filter is designed to take the function object by reference so it can transport arguments and result. At the end this is a variation of ad hoc visitation. If you concern about speed, you should know that allmost everything can be inlined. In this particular example only chars are compared, for all other types the result is false and no function is called. Of course there is much room for improvement but I have no time to do it now. There may be better ways to implement this but this was my first program with boost.fusion:-).

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