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I am working on a C++11 wrapper for a variant type implemented in C. The variant type supports common data types like int, float, string, but also tuples. I have converters for the basic types of the form...

template<typename T>
T convert_to(const Variant &var);

... but I am struggling with conversion to std::tuple.

The underlying C API can break out a tuple by returning an array of Variants. It looks something like this:

int get_tuple(Variant var, Variant **argv, int *argc);

Now I recognize I can manually create templates for each size of tuple, but I am looking for a variadic solution that can handle any size of tuple. Any tips on how to approach this?

BTW, the actual thing that I'm trying to wrap is the Erlang NIF API.

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3  
Does this concept of a tuple readily maps to std::tuple? It seems that its arity is available at runtime, not compile-time. If the possible number of arities if known and small, you could type-erase your way out of this, but the final interface for that type would not look like that of std::tuple. –  Luc Danton Feb 29 '12 at 19:01
    
I intend to throw an exception if the Variant tuple arity does not match the std::tuple arity. –  goertzenator Feb 29 '12 at 20:24

1 Answer 1

up vote 1 down vote accepted

Since you're using C++11 (and you know the tuple type from the template parameter), you can happily use variadic templates. Something like*

template <class ... Ts>
std::tuple<Ts...> convert_to(const Variant& v)
{
  Variant tmp_array[std::tuple_size<std::tuple<Ts...>>::value];
  get_tuple(v, tmp_array, sizeof(tmp_array)/sizeof(tmp_array[0]));
  std::tuple<Ts...> ret;
  array_to_tuple(ret, tmp_array);
  return ret;
}

where array_to_tuple will copy the elements one by one:

template <class ... Ts>
struct array_to_tupler
{
  template <int I>
  static void do_it(std::tuple<Ts...> &t, Variant* vs)
  {
    std::get<I-1>(t) = convert_to<decltype(std::get<I-1>(t))>(vs[I-1]);
    do_it<I-1>(t, vs);
  }
  template <>
  static void do_it<0>(std::tuple<Ts...> &t, Variant* vs)
  {
  }
};

template <int N, class ... Ts>
void array_to_tuple(std::tuple<Ts...> &t, Variant (&vs)[N])
{
  array_to_tupler<Ts...>::do_it<N>(t, vs);
}

Hope this can work...

*) Note that such convert_to will not be easily callable. I suggest doing the specialization on the return types with class templates, because you need partial specialization, which function template cannot have.

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It is illegal to have function specialization inside a template class, but it works if you flip it inside-out (array_to_tupler is templatized on int N, do_it is templatized on Ts...). Many thanks for pointing me in the right direction. –  goertzenator Mar 3 '12 at 20:44

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