Consider the following function in C++11:

template<class Function, class... Args, typename ReturnType = /*SOMETHING*/> 
inline ReturnType apply(Function&& f, const Args&... args);

I want ReturnType to be equal to the result type of f(args...) What do I have to write instead of /*SOMETHING*/ ?

  • 4
    Wouldn't decltype(f(args...)) do it? – chris Jan 3 '13 at 18:07

I think you should rewrite your function template using trailing-return-type as:

template<class Function, class... Args> 
inline auto apply(Function&& f, const Args&... args) -> decltype(f(args...))
    typedef decltype(f(args...)) ReturnType;

    //your code; you can use the above typedef.

Note that if you pass args as Args&&... instead of const Args&...., then it is better to use std::forward in f as:


When you use const Args&..., then std::forward doesn't make much sense (at least to me).

It is better to pass args as Args&&.. called universal-reference and use std::forward with it.

  • Is it better to pass the arguments as universal references or as constant references ? – Vincent Jan 3 '13 at 18:17
  • @Vincent: Universal references. That is better. – Nawaz Jan 3 '13 at 18:17

It doesn't need to be a template parameter, since it isn't used for overload resolution. Try

template<class Function, class... Args> 
inline auto apply(Function&& f, const Args&... args) -> decltype(f(std::forward<const Args &>(args)...));
  • What is the difference between a version with and whithout std::forward ? – Vincent Jan 3 '13 at 18:08
  • He is passing Args by const &. So does it much make sense to use std::forward? – Nawaz Jan 3 '13 at 18:08
  • @Nawaz: Maybe not, but I suspect it should actually be Args&& ...args. However that's a different question. I just want this answer to be robust in the face of such changes. – Ben Voigt Jan 3 '13 at 18:09
  • 1
    @Vincent: The difference is that this doesn't break if you decide to use perfect forwarding in the future. – Ben Voigt Jan 3 '13 at 18:10
  • Does this even work? The way I see it std::forward<Args>(args) would cast args from const Args& to Args&& (note that I talk about single elements of the pack of ease of expression), meaning it would remove the constness (if it even works, which it shouldn't, since forward<T> should take either T& or T&&, but not const T&). – Grizzly Jan 4 '13 at 8:45

There are situations where std::result_of is more useful. For example, say you want to pass this function:

int ff(int& out, int in);

and inside apply() call it like so

int res;
f(res, args...);

then I wouldn't know how to use decltype, because I have no int lvalue reference at hand. With result_of, you don't need variables:

template<class Function, class... Args> 
typename std::result_of<Function(const Args&...)>::type apply(Function&& f, const Args&... args)
  typedef typename std::result_of<F(const Args&...)>::type ReturnType;

  // your code

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