For the following code:

template<typename T>
void f(std::function<void(T)> g) {

template<typename T>
void g(T x) {

int main() {

C++14 compiler produces the error:

 no matching function for call to 'f(<unresolved overloaded function type>)'

I am curious why is template argument deduction not working here. It seems that, given that the argument of g is of type int, we can deduce that the argument of f is of type std::function<void(int)>, and, therefore T = int in f. Why does this not happen? I am interested in the relevant section of the C++ standard which explains this. Does T occur in a non-deduced context here?

The following similar code compiles:

template<typename T>
void f(std::vector<T> vec) { 

int main() {

So it's not the angle brackets which create a non-deduced context.

  • f(std::function<void(int)>(g<int>)); works
    – xis
    Dec 22, 2016 at 23:51
  • xis, thanks. Actually, f<int>(&g<int>); works as well. My problem is that I can't explain any of these behaviors according to what's written in the standard. Dec 22, 2016 at 23:57

2 Answers 2


Your function expects an argument of type std::function, but you're passing it a pointer to function instead. &g<int> is convertible to the std::function parameter type, but template argument deduction requires exact matches (except for the adjustments allowed by [temp.deduct.call]/2,3,4), user defined conversions are not considered.

Writing f(std::function<void(int)>(g<int>)) will work because you're now passing an std::function, so template argument deduction will succeed.

f<int>(&g<int>) also works because you've now explicitly specified T, it no longer participates in template argument deduction and user defined conversions will be attempted.

  • Thanks! This makes sense! I do not think that argument deduction requires "exact" matches though. For instance, if I add "const" to the type of the f's argument in my second example, it will still compile. So, I guess there are some conversions which are allowed. Dec 23, 2016 at 1:04
  • @Evgenii.Balai Yeah yeah, I simplified it a bit too much :) Fixed now.
    – Praetorian
    Dec 23, 2016 at 1:32
  • 1
    @Evgenii.Balai: A top level const in an argument type is not part of the function signature, so the match is still exact in that case. A non-exact match that does work is a reference.
    – celtschk
    Dec 23, 2016 at 7:02

The type of &g<int> is void(*)(int). Therefore the compiler tries to generate a function with signature void f<>(void(*)(int)) which it cannot do from your template. The type std::function<void(int)> is a completely different type.

In your similar code, the object std::vector<int>{}is of type std::vector<int>, therefore the compiler tries to generate a function void f<>(std::vector<int>) which it can do from the supplied template by deducing Tto be int.

When specifying f<int>, the compiler has no need to deduce the type, and therefore cannot fail to do so. Moreover, while in deduced context no implicit conversions are considered, they are considered in non-deduced context. So by providing the type explicitly and thus making the function argument a non-deduced context, you allow the compiler to use implicit conversion to initialize the std::function<void(int)> argument with g<int>.

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