I am using the gtkmm library on linux to draw a simple menu for my GUI.

In the below code the compiler complained about unable to resolve address

        sigc::mem_fun(*this, AppWindow::hide)));
appwindow.cpp:15:41: note:   could not resolve address from overloaded function

But when I insert the & it compiles fine

    sigc::mem_fun(*this, &AppWindow::hide)));

What difference does it make here? Isn't the hide function just an address in the first place?

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  • 6
    One is C++, the other isn't. – Kerrek SB Jan 9 '15 at 21:53
  • It's a bit inconvenient, but that's just the required syntax. – Neil Kirk Jan 9 '15 at 21:54
  • The & operator returns the address of something. In this case it is returning the address of the function so that it can be called at runtime. – Giovanni Botta Jan 9 '15 at 21:55
  • 1
    OP is correct in the (implicitly mentioned) fact that for function symbols, as with array symbols, the values of x and &x are necessarily identical. Perhaps the compiler doesn't "like" the syntax without the & when it comes to functions (although, according to the compilation error, it has something to do specifically with the fact that the function is overloaded). In any case, this is a very good question in my opinion. – barak manos Jan 9 '15 at 21:59

This is the exact definition of the function-to-pointer conversion, [conv.func]:

An lvalue of function type T can be converted to a prvalue of type “pointer to T.” The result is a pointer to the function.55

55) This conversion never applies to non-static member functions because an lvalue that refers to a non-static member function cannot be obtained.

Thus the decay that we see with normal, non-member functions1 doesn't apply and you need to explicitly take the address.


void f();

struct A {
    void f();
    static void g();

auto a = f; // Ok: auto deduced as void(*)()
auto b = A::f; // Error: A::f not an lvalue, auto cannot be deduced
auto c = A::g; // Ok: auto deduced as void(*)()

1 Or static member functions.

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  • 3
    The only answer that explains the reasoning behind it. – tux3 Jan 9 '15 at 22:09
  • Why this was a good idea is another question. The first is for compatibility with C. But why on earth does the standard differentiate between the second and third case (presence of static)? – abligh Jan 10 '15 at 9:34
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    @abligh Suppose A::f did get converted implicitly to a pointer-to-member-function. Then what would happen for struct B : A { void f() { auto x = A::f; x(); } }, or even struct B : A { void f() { A::f(); } } (the latter currently being perfectly valid C++)? There's a difference between how non-static member functions and static member functions get handled because it's necessary, because non-static member functions are so significantly different from non-member functions and static member functions that treating the same is effectively impossible. – user743382 Jan 10 '15 at 13:13

For global (non-member) functions, the name of the function evaluates to the address of that function except when passed to the & operator, so you can (for example) assign to a pointer to a function either with or without the & equivalently:

int f() {}

int (*pf1)() = f;
int (*pf2)() = &f;

So, in this case there's really no difference between the two.

For member functions1, however, the rules are a bit different. In this case, the & is required; if you attempt to omit the &, the code simply won't compile (assuming a properly functioning compiler, anyway).

There's no particular reason this would have to be the case--it's just how Bjarne decided things should be. If he'd decided he wanted the name of a member function to evaluate to a pointer to a member (equivalent to how things work for non-member functions) he could have done that.

1. Other than static member functions, which mostly act like non-member functions.

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  • 1
    "There's no particular reason (for) this" is probably the key point in the answer. I would imagine that OP had been asking himself (or herself) exactly that question. – barak manos Jan 9 '15 at 22:05

When a function is a non-static member function of a class, then it is necessary to use the form &ClassName::functionName when a pointer to the member function is expected in an expression.

When a function is a static member function of a class, both ClassName::functionName and &ClassName;:functionName can be used when a pointer to a function is expected in an expression.

When a function is a global, i.e. non-member, function, both functionName and &functionName can be used when a pointer to a function is expected in an expression.

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