Specifying one type for all arguments passed to variadic function or variadic template function w/out using array, vector, structs, etc?

Brett Rossier picture Brett Rossier · Sep 13, 2010 · Viewed 22.5k times · Source

I'm creating a function (possibly member function, not that it matters... maybe it does?) that needs to accept an unknown number of arguments, but I want all of them to be the same type. I know I could pass in an array or vector, but I want to be able to accept the list of args directly without extra structure or even extra brackets. It doesn't look like variadic functions by themselves are typesafe, and I wasn't sure how to go about this w/ variadic template functions. Here's essentially what I'm aiming for (more than likely not correct code, and totally not for the purpose of getting lists of dragons, lol):

//typedef for dragon_list_t up here somewhere.

enum Maiden {
    Eunice
    , Beatrice
    , Una_Brow
    , Helga
    , Aida
};

dragon_list_t make_dragon_list(Maiden...) {
    //here be dragons
}

OR

template<Maiden... Maidens> dragon_list_t make_dragon_list(Maidens...) {
    //here be dragons
}

USAGE

dragon_list_t dragons_to_slay
    = make_dragon_list(Maiden.Eunice, Maiden.Helga, Maiden.Aida)
;

Tried a few things similar to the above already, no dice. Suggestions? Obvious oversights I may have made? I know it may not be a huge deal to do this instead:

dragon_list_t make_dragon_list(std::array<Maiden> maidens) {
    //here be dragons.
}
dragon_list_t dragons_to_slay
    = make_dragon_list({Maiden.Eunice, Maiden.Helga, Maiden.Aida})
;

but I'd much rather be able to do it the first way if possible.

Answer

Johannes Schaub - litb picture Johannes Schaub - litb · Sep 13, 2010

You can just accept the arguments by the variadic template and let typechecking check the validity later on when they are converted.

You can check convertibility on the function interface level though, to make use of overload resolution for rejecting outright wrong arguments for example, by using SFINAE

template<typename R, typename...> struct fst { typedef R type; };

template<typename ...Args>
typename fst<void, 
  typename enable_if<
    is_convertible<Args, ToType>::value
  >::type...
>::type 
f(Args...);

For your use-case if you know the steps to go from an std::array<> to your dragon_list_t then you have already solved it though according to the first option above ("convert-later"):

template<typename ...Items>
dragon_list_t make_dragon_list(Items... maidens) {
    std::array<Maiden, sizeof...(Items)> arr = {{ maidens ... }};
    // here be dragons
}

If you combine this with the above is_convertible approach you have a reject-early template that also does overload resolution on arguments and rejects them if not applicable.