I have a function that accepts as an argument a function pointer. Surprisingly, I can pass in both a function pointer and an ordinary function:

#include <iostream>
#include <functional>

int triple(int a) {
    return 3*a;

int apply(int (*f)(int), int n) {
    return f(n);

int main() {
    std::cout << apply(triple, 7) << "\n";
    std::cout << apply(&triple, 7) << "\n";

I'm confused about why this works. Is there an implicit conversion from functions to function pointers?

  • And, because of the way the address and dereferencing rules work for functions, you could also use &&f, &&&f, etc., with as many &’s as you like. Similarly, in apply, you could write (*f)(n), (**f)(n), etc. – Pete Becker Jan 25 at 3:24

Yes, there's function-to-pointer implicit conversion:

An lvalue of function type T can be implicitly converted to a prvalue pointer to that function. This does not apply to non-static member functions because lvalues that refer to non-static member functions do not exist.


A pointer to function can be initialized with an address of a non-member function or a static member function. Because of the function-to-pointer implicit conversion, the address-of operator is optional:

void f(int);
void (*p1)(int) = &f;
void (*p2)(int) = f; // same as &f

That means when being used in context requiring a function pointer, function (except for non-static member function) would convert to function pointer implicitly, and the usage of operator& is optional.

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