There is a function

template <class ...T>
void foo(std::function<void(T...)> callback);

into which I pass a callback.

I'd like to do something like


where bar is, for example,

void bar(int a, long b, double c, float d);

but that gives me

error: no matching function for call to bar(void (&)(int, long int, double, float))

I have to call foo as

foo(std::function<void(int, long, double, float)>(bar));

which is too verbose. Even

foo<int, long, double, float>(bar);

would have been better.


would be just ideal.

Anyway, how can I make calls to foo to be less verbose?

Edit: declaration of foo has to stay the same.

  • foo<int, long, double, float>(bar) should work (note that you used the wrong types in your Q). Are you sure it does not? Can you also show how you eventually use this callback? Perhaps passing it without coercion to std::function could be a solution. Commented Mar 9, 2015 at 8:29
  • 2
    I can't see a use case for that, because a template can not call the function without any knowledge of the parameters content. If the template only forwards the function, the target for this template also has to handle it. Can you give us a real world use case for that problem? My idea is, that you can make the template parameters visible from the knowledge of how to use them in the template.
    – Klaus
    Commented Mar 9, 2015 at 8:31
  • what is wrong with template <class F> void foo(F callback); ? you avoid your problems and don't pay for the type-erasure Commented Mar 9, 2015 at 8:35
  • Oh, right, I will fix the types. Copy-pasted from the original code, when I used different ones in SO example. @Angew it doesn't work, barks error: no matching function for call at me. Commented Mar 9, 2015 at 8:36
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    @PiotrS. they help me alright, have no doubt in that! In fact, that foo function splits a buffer filled with network-received data into chunks of bytes, such that each chunk is sizeof of each of its variadic arguments and applies those chunks as callback's arguments, calling callback with them! So the way we split the network buffer depends only on callback's signature! Such madness is only possible with variadic templates! (Oh, and don't worry, I have some type-safety mechanism on top of that). It's just that I wanted to make a function call a little less verbose/explicit. Commented Mar 9, 2015 at 8:59

3 Answers 3


I'd write a wrapper function that translates the function pointer into a std::function wrapper:

template <typename... T>
void foo(std::function<void (T...)> f) {}

template <typename... T>
void foo(void (*f)(T...)) {
    foo(std::function<void (T...)>(f));

foo() can then be called either way:

void bar(int,double) {}

void foo_caller() {
    foo(std::function<void (int,double)>(bar));

Addendum: Non-static member function wrapper

Same approach can be used for pointer-to-member functions — just add another overload:

template <typename C,typename... T>
void foo(void (C::*f)(T...)) {
    foo(std::function<void (C *,T...)>(f));

Note the extra first parameter for the this pointer for the member function. Usage is similar:

struct quux {
    void mf(char *,double) {}

void foo_caller() {
  • Any way to make this work if bar is a non-static class method? Commented Mar 10, 2015 at 0:04

If you know you will pass a plain function pointer to foo, and not just any C++11 lambda, you can redefine foo as:

template <class ...T>
void foo(void(*callback)(T...)) {
   // .....

If you want to support lambdas, you can be more generic with the type

template <class LambdaType>
void foo(LambdaType callback) {
   // .....

the downside of this approach is that if you pass something that is not a function or lambda, you will get weird template error messages coming from inside of foo.

With your original solution the compiler has problems matching T... to int, long, double, float, probably because it is a nested type.

If I told you to match void(int, double) to MyTempalte<T...> you wouldn't know that I intend to replace T... with int, double, because you don't know what MyTemplate does with its arguments. Maybe MyTemplate is doing something weird to its template arguments first?

Same, the compiler doesn't know how to match std::function template parameters to your function pointer.


In case your foo definition is not set in stone, can change it to

#include <functional>

template <class Ret, class ...T>
void foo(Ret callback(T... params))

void bar(int a, long b, double c, float d){}

int main() 
  • this is not what OP is asking for Commented Mar 9, 2015 at 8:32
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    @PiotrS. I though that's exactly what OP asked, didn't say anything about keeping the declaration of foo fixed.
    – vsoftco
    Commented Mar 9, 2015 at 8:38
  • now he/she did, and you suggest that adding a return type is the solution, which is rather irrelevant to actual question Commented Mar 9, 2015 at 8:50

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