The Question

I have a number of C++ functions void f(), R g(T a), S h(U a, V b) and so on. I want to write a template function that accepts f, g, h and so on as a template argument and calls that function.

ie I want something like this:

template<MagicStuff, WrappedFunction>
ReturnType wrapper(MagicallyCorrectParams... params)
    extra_processing(); // Extra stuff that the wrapper adds
    return WrappedFunction(params);
wrapper<f>(); // calls f
wrapper<g>(T()); // calls g
wrapper<h>(U(), V()); // calls h

Here's what I've tried so far:

Solution 1

template<typename ReturnType, typename Args...>
ReturnType wrapper(ReturnType (*wrappee)(Args...), Args... args)
    return wrappee(args...);
wrapper(f); // calls f OK
wrapper(g, T()); // calls g OK
wrapper(h, U(), V()); // calls h OK

This works but is unsatisfactory because in my case, I want the function pointer bound to the template instance. The function pointer is determinable statically at compile time and it is not desirable in my use case to have to pass it as a parameter at runtime.

Solution 2

    typename ReturnType, typename Args...,
    ReturnType (*FuncPtr)(Args...)
wrapper(Args... args)
    return FuncPtr(args...);
wrapper<void, f>(); // calls f
wrapper<R, T, g>(T()); // calls g
wrapper<S, U, V, h>(U(), V()); // calls h

This works but is unsatisfactory because it is verbose. The return type and parameter types can be deduced from the function pointer itself. What would be perfect is a template specification so I can do wrapper<g>(T()) as indicated above.

Thanks for all help!

  • 4
    And what about std::function<> ?
    – quantdev
    Aug 19, 2014 at 21:10
  • @quantdev, I'm trying to avoid using std::function to solve the problem. If possible I would like my wrapper<f> to instantiate a function whose address is itself determinable at compile time.
    – 0xbe5077ed
    Aug 19, 2014 at 21:11
  • You could also just do wrapper<decltype(f)>().
    – David G
    Aug 19, 2014 at 21:15
  • You want something like template <typename T, T Val> struct Value;, and "deduce" T. To my knowledge this isn't currently possible, though proposals for some kind of auto T keep coming up.
    – Kerrek SB
    Aug 19, 2014 at 21:16
  • 1
    To echo @KerrekSB, I think it would be possible to write a wrapper used as wrapper<decltype(f), f>();, but not one used as wrapper<f>();
    – aschepler
    Aug 19, 2014 at 21:25

3 Answers 3

template<typename Fn, Fn fn, typename... Args>
typename std::result_of<Fn(Args...)>::type
wrapper(Args&&... args) {
    return fn(std::forward<Args>(args)...);
#define WRAPPER(FUNC) wrapper<decltype(&FUNC), &FUNC>


int min(int a, int b){
    return (a<b)?a:b;

int main(){
    std::cout<<WRAPPER(min)(10, 20)<<'\n';

Alternatively, to get maybe quite less readable, but shorter syntax:

#define WRAPPER(FUNC, ...) wrapper<decltype(&FUNC), &FUNC>(__VA_ARGS__)


int main(){
    sdt::cout<<WRAPPER(min, 10, 20)<<'\n';
  • Perfect forward args.... And std::result_of can get rid of that decltype if you like. And dereference fn manually just in case it is not a function pointer (relatively pointless) Aug 20, 2014 at 11:53
  • @Yakk I can't use perfect forward, it causes errors, I already asked a question about this. Aug 20, 2014 at 14:52
  • @GingerPlusPlus thanks, I think that may be the best we can do. I'm likely going to accept it but I had a couple questions: (1) any luck compiling it under MSVC? (2) regardless, what compiler is it working on?
    – 0xbe5077ed
    Aug 20, 2014 at 18:57
  • I tested it under g++, now I'll check it out under MSVC Aug 20, 2014 at 18:59
  • @0xbe5077ed It seems to work... Please give me error message/tell what isn't working. Aug 20, 2014 at 19:16

This is the best I've been able to do so far:

template<typename R, typename...A>
struct S<R(A...)>
    typedef R(*F)(A...);
    F f;
    constexpr S(F _f) : f(_f) { }
    inline R operator()(A... a)
    { return f(a...); }

#define wrapper(FUNC, ARGS...) (S<decltype(FUNC)>(FUNC))(ARGS)

int f(float g);

int main(void)
    return wrapper(f, 3.0f);

Sadly I can't make it compile under MSVC.

  • ARGS... syntax is GCC extension, use ... instead of ARGS... and __VA_ARGS__ instead of ARGS. Solution I recommend depends on Standard. Aug 20, 2014 at 9:41
  • also, it don't compile under GCC anyway - line 2 causes error: ‘S’ is not a class template (disappear after commenting <R(A...)>; and line 4 and 7 cause error: function returning a function, I don't know how to fix it. Aug 20, 2014 at 10:12
  • 2
    It compiles fine if you: add S class template declaration (your code defines only its specialization), remove constexpr (MS VC doesn't support it yet), add body to f function (to avoid linker errors). Other changes are not so significant. Aug 20, 2014 at 10:37

There's a duplicate somewhere here, I remember it, but I can't find it... The conclusion of which being that it was impossible to pass the pointer's type and its value at the same time.

Some hope lies in a suggestion for implicit type template parameters, which you can find here.


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