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Doubt originated from here

int g() {
   cout << "In function g()" << endl;
   return 0;

class X {
  static int g() {
     cout << "In static member function X::g()" << endl;
     return 1;

class Y: public X {
  static int i;

int Y::i = g();   

initially I though that as symbol resolution happens from inner most scope to outer most scope, that is why x::g() would be called.
but then I closely noticed the code

int Y::i = g();

how are we able to access X::g() without namescope?
And scope in which this statement lies should be global, not Y:: or X:: , so symbol resolution should give global version of the function g()?

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If you want the global function use ::g() –  Charles Beattie Apr 29 '11 at 9:13
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2 Answers

up vote 11 down vote accepted

Note: I think my earlier answer was wrong. Its not Koenig Lookup i.e Argument-dependent name lookup (ADL). So I deleted my (earlier) answer since I found the relevant section from the Standard which answers your question.

Your code is directly from the section §9.4/2 of the C++03 Standard.

A static member may be referred to directly in the scope of its class or in the scope of a class derived (clause 10) from its class; in this case, the static member is referred to as if a qualified-id expression was used, with the nested-name-specifier of the qualified-id naming the class scope from which the static member is referenced.

It then gives this example (which you've asked in the question)


    int g();
    struct X {
        static int g();
    struct Y : X {
        static int i;
    int Y::i = g(); // equivalent to Y::g();

—end example]

It then says that in §9.4/3

If an unqualified-id (5.1) is used in the definition of a static member following the member’s declarator-id, and name lookup (3.4.1) finds that the unqualified-id refers to a static member, enumerator, or nested type of the member’s class (or of a base class of the member’s class), the unqualified-id is transformed into a qualified-id expression in which the nested-name-specifier names the class scope from which the member is referenced.

Since that happens only in the definition of the static member, that means Y::g() is called ONLY in the initialization, not in assignment:

int Y::i = g(); // equivalent to Y::g();
int main()
   Y::i = g(); // does not equivalent to Y::g(); it calls global g()

See the output here : http://www.ideone.com/6KDMI

Lets consider another example:

struct B{};

B f();

namespace NS 
   struct A { static B b;};
   B f();

//Definition cum Initialization
B NS::A::b = f();  //calls NS::f()
B b = f();         //calls global f()

int main() 
   NS::A::b = f(); //calls global f()
   b = f();        //calls global f()

See the complete demo here : http://www.ideone.com/53hoW

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accepted & fully understood. In your previous answer I was thinking where are the arguments in here. anyway thanks for making me aware about Koenig Lookup (i never heard about it before), and of course answer to this question. –  Amar Apr 29 '11 at 18:09
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This is because you use int Y::i =..., note the Y::. That's why, it actually looks for g() inside Y, which is X::g(), because Y derives X.

Addition: For example, if you put int i = g(); after int Y::i = g();, there result would be:

In static member function X::g()
In function g()

EDIT: exactly - Argument-dependent name lookup. I couldn't remember how this is called at the beginning. Thanks Nawaz's answer (:

EDIT2: OK, Nawaz found the correct explanation, it's in the standard and it seems not to be "Argument-dependent name lookup". But the logic is still absolutely the same.

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+1: even though Nawaz gave the rule name, he didn't clearly identified that the scope comes from Y::i. –  Matthieu M. Apr 29 '11 at 9:10
@Kiril, @Nawaz: I was looking through n3242 and I cannot find where it is precised that Koenig Lookup applies here. [class.static.data] is silent about it. It seems strange (though it's obviously what's going on) since normally the result type does not participate into the lookup and overload resolution process. Would you know where it is ? –  Matthieu M. Apr 29 '11 at 9:43
@Matthieu M. - I don't, sorry. –  Kiril Kirov Apr 29 '11 at 9:58
@Kiril: This answer is wrong. Please see my answer. –  Nawaz Apr 29 '11 at 10:42
@Matthieu: You're right. Koenig Lookup doesn't apply here. I updated my answer with the correct reference from the Standard. Please see it. –  Nawaz Apr 29 '11 at 10:43
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