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Possible Duplicate:
Error with address of parenthesized member function

In this recent question the OP ran into a strange provision of the C++ language that makes it illegal to take the address of a member function if that member function name is parenthesized. For example, this code is illegal:

struct X {
    void foo();

int main() {
    void (X::* ptr)();
    ptr = &(X::foo);   // Illegal; must be &X::foo

I looked this up and found that it's due to §5.3.1/3 of the C++ ISO spec, which reads

A pointer to member is only formed when an explicit & is used and its operand is a qualified-id not enclosed in parentheses [...]

Does anyone have any idea why the spec has this rule? It's specific to pointers-to-member, so I would suspect that there is some grammatical ambiguity that this resolves, but I honestly haven't the faintest idea what it might be.

share|improve this question

marked as duplicate by Hans Passant, Troubadour, Johannes Schaub - litb, Lightness Races in Orbit, Jerry Coffin Aug 21 '11 at 14:21

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

@Hans: Not a duplicate. OP is actually the highest-rated answer to that question, which asked what the problem was. This question is asking why. – Nemo Aug 20 '11 at 22:31
-1: It's the same question! – Troubadour Aug 20 '11 at 22:32
@Troubadour: the WHY of something is different from the WHAT and HOW. for example, the what-question "what kind of trousers do Donald Duck wear?" has the answer "he's stark naked on lower part of body", but if you ask the why-question "why is Donald Duck stark naked on lower part of body", then it's a different answer, namely "he's a DUCK". To put it to a point, if you ask "what kind of trousers do Donald Duck wear", then it's not a valid answer to say "he's a DUCK". So as you can see, 2 diff q with 2 diff a. Cheers, – Cheers and hth. - Alf Aug 20 '11 at 22:41
@Troubador- I did not intend for this to be a duplicate of your question. My interpretation of your question was "what is the root cause of this problem" rather than "why is C++ structured this way," so I asked this question to get an answer to the latter question. I apologize if I misread your initial question and repeated it here. – templatetypedef Aug 21 '11 at 1:45
The original question was why. templatetypedef seems to have misinterpreted it as "what", which was silly, because the original question was "What is the reason behind not allowing parentheses while taking the address of a non-static member function?" This is very much a dupe. – Lightness Races in Orbit Aug 21 '11 at 13:48
up vote 24 down vote accepted

This is just a personal opinion. If &(qualified-id) is allowed as &(unary-expression), qualified-id has to be an expression, and an expression is expected to have a type (even if it is incomplete). However, C++ didn't have a type which denotes a member, had only a pointer to member. For example, the following code cannot be compiled.

struct A { int i; };

template< class T > void f( T* );

int main() {
  (void) typeid( A::i );
  f( &A::i );

In order to make &(qualified-id) be valid, the compiler has to hold a member type internally. However, if we abandon &(qualified-id) notation, the compiler doesn't need to handle member type. As member type was always handled in the form of a pointer to it, I guess the standard gave priority to simplify the compiler's type system a little.

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+1 i think you're right. :-) – Cheers and hth. - Alf Aug 20 '11 at 22:08
@AlfP.Steinbach: Wow! That's really encouraging :-D – Ise Wisteria Aug 20 '11 at 22:49
Awesome! This seems like exactly the right answer. Thank you so much for posting this! – templatetypedef Aug 21 '11 at 0:47
@templatetypedef: Oh, not at all! Glad the answer helped :-) – Ise Wisteria Aug 21 '11 at 9:14
Remember you can say sizeof A::i or sizeof(A::i + 42) in C++11. And you can call a non-static function with parenthesis wrapping the name: struct A { void f() { } void g() { (f)(); } }; (f has type void() here). – Johannes Schaub - litb Aug 21 '11 at 13:53

Imagine this code:

struct B { int data; };
struct C { int data; };

struct A : B, C {
  void f() {
    // error: converting "int B::*" to "int*" ?
    int *bData = &B::data;

    // OK: a normal pointer
    int *bData = &(B::data);

Without the trick with the parentheses, you would not be able to take a pointer directly to B's data member (you would need base-class casts and games with this - not nice).

From the ARM:

Note that the address-of operator must be explicitly used to get a pointer to member; there is no implicit conversion ... Had there been, we would have an ambiguity in the context of a member function ... For example,

void B::f() {
    int B::* p = &B::i; // OK
    p = B::i; // error: B::i is an int
    p = &i; // error: '&i'means '&this->i' which is an 'int*'

    int *q = &i; // OK
    q = B::i; // error: 'B::i is an int
    q = &B::i; // error: '&B::i' is an 'int B::*'

The IS just kept this pre-Standard concept and explicitly mentioned that parentheses make it so that you don't get a pointer to member.

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Meh, maybe. Not convinced. – Lightness Races in Orbit Aug 21 '11 at 13:50
@Tomalak too bad. – Johannes Schaub - litb Aug 21 '11 at 14:22

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