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I've been working with libffi lately, and since it uses a C API, any abstraction is done by using void pointers (good ol' C). I'm creating a class (with variadic templates) which utilizes this API. The class declaration is the following: (where Ret = return value and Args = function arguments)

template <typename Ret, typename... Args>
class Function

Within this class I have two different functions declared as well (simplified):

Ret Call(Args... args); // Calls the wrapped function
void CallbackBind(Ret * ret, void * args[]); // The libffi callback function (it's actually static...)

I want to be able to use Call from CallbackBind; and that is my problem. I have no idea how I am supposed to convert the void* array to the templated argument list. This is what I want more or less:

CallbackBind(Ret * ret, void * args[])
{
 // I want to somehow expand the array of void pointers and convert each
 // one of them to the corresponding template type/argument. The length
 // of the 'void*' vector equals sizeof...(Args) (variadic template argument count)

 // Cast each of one of the pointers to their original type
 *ret = Call(*((typeof(Args[0])*) args[0]), *((typeof(Args[1])*) args[1]), ... /* and so on */);
}

If this is not achievable, are there any workarounds or different solutions available?

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  • 1
    Is there a reason you can't just call directly into the library's API from the callback? You already have a void*, and it already expects that.
    – Mark B
    Jun 25, 2012 at 18:43
  • Mmm why would you want to call a variadic template function with a fixed amount of arguments? Based on the fact that "the length of args equals sizeof...(Args)", then you know the number of arguments required, why use variadic templates?.
    – mfontanini
    Jun 25, 2012 at 18:49
  • @MarkB Since CallbackBind is called from the library's API I'm trying to call my own function which does not use void pointers. @mfontanini I want a class which mimics std::function, and therefore I require variadic templates (such as operator()(Args...))
    – Elliott Darfink
    Jun 25, 2012 at 18:59
  • 2
    I'm tempted to write something like CallAux<Tuple, Indices...>::call(void * args[]) { Call(*static_cast<(*std::tuple_element<Tuple, Indices>*>(args[Indices]))...); }.
    – Kerrek SB
    Jun 25, 2012 at 19:01
  • 1
    You should have a look at this: stackoverflow.com/questions/7858817/…. You could adapt it to fit your needs :D
    – mfontanini
    Jun 25, 2012 at 19:19

1 Answer 1

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5

You don't want to iterate over the types, you want to create a parameter pack and expand it in a variadic template. You have an array, so the pack you want is a pack of integers 0,1,2... to serve as array indices.

#include <redi/index_tuple.h>

template<typename Ret, typename... Args>
struct Function
{
  Ret (*wrapped_function)(Args...);

  template<unsigned... I>
  Ret dispatch(void* args[], redi::index_tuple<I...>)
  {
    return wrapped_function(*static_cast<Args*>(args[I])...);
  }

  void CallbackBind(Ret * ret, void * args[])
  {
    *ret = dispatch(args, to_index_tuple<Args...>());
  }
};

Something like that, using index_tuple.h

The trick is that CallbackBind creates an index_tuple of integers representing the arg positions, and dispatches to another function which deduces the integers and expands the pack into a list of cast expressions to use as arguments to the wrapped function.

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  • What an elegant solution! Worked flawlessly for me.
    – Elliott Darfink
    Jun 26, 2012 at 6:55

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