Consider the following code:

void f(int) {std::cout << "void f(int)" << std::endl;}
void f(double) {std::cout << "void f(double)" << std::endl;}
void f(int*) {std::cout << "void f(int*)" << std::endl;}
std::invoke(f, 3);

I have two questions:

  • With free functions (not functors), is it possible to pass the whole overload set of f and let invoke select the right one? (without any helper class, it's a pure language question)
  • If it's not possible then how to pass void f(int) to invoke? (what are all the possible syntax then, if there are several)

The best way to do it is to manually create the overload set.

#define OVERLOADS_OF(name) [&](auto&&... args) -> decltype(name(FWD(args)...)) noexcept(noexcept(name(FWD(args)...))) { return name(FWD(args)...); }

And then pass this in:

invoke(OVERLOADS_OF(f), 3)

This way, the compiler is still doing overload resolution for us - we don't have to do this ourselves - and the overload taking the int is called as desired/expected.

Note that this isn't exactly equivalent to passing the intended function directly (notable exceptions include functions taking objects of nonmovable types by value), but it's the best you can do without explicit, manual type selection.

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When the compiler parses

std::invoke(f, 3);

it does not look at the implementation of invoke to figure out which overload of f is the best fit.

Hence, f cannot be resolved by the compiler without additional info. You can provide the additional info by casting f to the appropriate overload.

std::invoke(static_cast<void(*)(int)>(f), 3);
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  • Is there any difference between static_cast<void(*)(int)>(f) and static_cast<void(&)(int)>(f)? – Vincent Dec 26 '17 at 21:57
  • @Vincent, for this use case, either should work. I don't see any significant difference between the two. – R Sahu Dec 26 '17 at 22:04

You can just specify the first template argument explicitly.

std::invoke<void( int )>(f, 3); 

Here is a demonstrative program.

#include <iostream>
#include <functional>

void f(int) {std::cout << "void f(int)" << std::endl;}
void f(double) {std::cout << "void f(double)" << std::endl;}
void f(int*) {std::cout << "void f(int*)" << std::endl;}

int main() 
    std::invoke<void( int )>(f, 3);
    std::invoke<void( double )>(f, 3);
    std::invoke<void( int * )>(f, nullptr);

    return 0;

Its output is

void f(int)
void f(double)
void f(int*)

Another approach is to use an intermediate pointer. For example

void ( *pf )( int ) = f;
std::invoke( pf, 3 );
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  • This is a bad idea. Every template argument of std::invoke is intended to be derived from the function arguments and used in perfect forwarding. Specifying the template parameter breaks this. STL's talk Don't Help the Compiler mentions this. – Justin Dec 26 '17 at 22:36
  • @Justin I am sorry but I have not understood what specifying the first template argument breaks. – Vlad from Moscow Dec 26 '17 at 22:38
  • @Justin And moreover in my opinion the code is more clean and readable than using static cast for the first argument.. – Vlad from Moscow Dec 26 '17 at 22:45

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