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I have a question about the Functor implementation of the library Loki. I am doing some changes in order to make it work with variadic templates instead of having lines and lines of template specialization. The problem is that I am trying to use typedef for variadic template and I do not understand my error, that is why I could use some help from experts...

Here is the header file.

I tested it with a simple example:

static void foo()
{
    std::cout << "foo !!!" << std::endl;
}
int
main( int argc, const char** argv )
{
    Functor<void, void> static_func(foo);
    static_func();
}

Which gives me this error

/home/test/src/EntryPoint.cpp:237:17: error: no match for call to ‘(Functor<void, void>) ()’
    In file included from /home/test/src/EntryPoint.cpp:231:0:
    /home/test/include/FunctorTest.h:217:7: note: candidate is:
    /home/test/include/FunctorTest.h:292:16: note: Functor<R, TList>::ResultType Functor<R, TList>::operator()(Functor<R, TList>::MyList&&) const [with R = void; TList = {void}; Functor<R, TList>::ResultType = void; Functor<R, TList>::MyList = variadic_typedef<void>]
    /home/test/include/FunctorTest.h:292:16: note:   candidate expects 1 argument, 0 provided
    /home/test/src/EntryPoint.cpp: At global scope:
    /home/test/src/EntryPoint.cpp:234:1: warning: unused parameter ‘argc’ [-Wunused-parameter]
    /home/test/src/EntryPoint.cpp:234:1: warning: unused parameter ‘argv’ [-Wunused-parameter]
    In file included from /home/test/src/EntryPoint.cpp:231:0:
    /home/test/include/FunctorTest.h: In instantiation of ‘FunctorHandler<ParentFunctor, Fun>::ResultType FunctorHandler<ParentFunctor, Fun>::operator()(FunctorHandler<ParentFunctor, Fun>::MyList&&) [with ParentFunctor = Functor<void, void>; Fun = void (*)(); FunctorHandler<ParentFunctor, Fun>::ResultType = void; FunctorHandler<ParentFunctor, Fun>::MyList = variadic_typedef<void>]’:
    /home/test/src/EntryPoint.cpp:247:1:   required from here
    /home/test/include/FunctorTest.h:159:49: error: no matching function for call to ‘forward(FunctorHandler<Functor<void, void>, void (*)()>::MyList&)’
    /home/test/include/FunctorTest.h:159:49: note: candidates are:
    In file included from /usr/include/c++/4.7/bits/stl_pair.h:61:0,
                     from /usr/include/c++/4.7/utility:72,
                     from /home/jean/Lib/vitals/include/CLPair.h:28,
                     from /home/jean/Lib/vitals/include/CLMap.h:27,
                     from /home/jean/Lib/vitals/include/HTCmdLineParser.h:27,
                     from /home/test/include/EntryPoint.h:23,
                     from /home/test/src/EntryPoint.cpp:22:
    /usr/include/c++/4.7/bits/move.h:77:5: note: template<class _Tp> constexpr _Tp&& std::forward(typename std::remove_reference<_From>::type&)
    /usr/include/c++/4.7/bits/move.h:77:5: note:   template argument deduction/substitution failed:
    In file included from /home/test/src/EntryPoint.cpp:231:0:
    /home/test/include/FunctorTest.h:159:49: note:   cannot convert ‘parms’ (type ‘FunctorHandler<Functor<void, void>, void (*)()>::MyList {aka variadic_typedef<void>}’) to type ‘std::remove_reference<convert_in_tuple<variadic_typedef<void> > >::type& {aka convert_in_tuple<variadic_typedef<void> >&}’
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Anybody ?... I have been told to use std::function, but I prefer Loki's implementation of Functor since it also work with all sorts of pointers as parameters (e.g. std::shared_ptr). Is there a way to do so with std::function ? –  Athanase Dec 16 '13 at 10:51
    
ResultType operator()( MyList&& parms ) const This prototype of operator() in class Functor is incorrect if you want to pass function (foo() in this case) parameters to it. –  Constructor Dec 16 '13 at 14:55

1 Answer 1

You can't apply a tuple to function parameters with std::forward directly. You need something like this:

/*
 * Indices<N + 1> ==> Indices<0, 0, 1, 2, ..., N> ==> Seq<0, 1, 2, ... , N>
 */
template<int...> struct Seq {};

template<int N, int ... S> 
struct Indices : Indices<N - 1, N - 1, S...> {};

template<int ... S> 
struct Indices<0, S...> { 
  typedef Seq<S...> SeqType; 
};

template<typename R, typename F, typename ... A, int ... S>
inline R Apply(F f, const std::tuple<A...>& t, Seq<S...>) {
  return (R) f(std::get<S>(t)...);
}

template<typename R, typename F, typename ... A>
inline R Apply(F f, const std::tuple<A...>& t) {
  return Apply<R>(f, t, typename Indices<sizeof...(A)>::SeqType());
}

template<typename R, typename T, typename F, typename ... A, int ... S>
inline R Apply(T* obj, F f, const std::tuple<A...>& t, Seq<S...>) {
  return (R) (obj->*f)(std::get<S>(t)...);
}

template<typename R, typename T, typename F, typename ... A>
inline R Apply(T* obj, F f, const std::tuple<A...>& t) {
  return Apply<R>(obj, f, t, typename Indices<sizeof...(A)>::SeqType());
}

See my implementation about Closure based on variadic templates: https://github.com/idealvin/base/blob/master/closure.h

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