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Consider the following code snippet:

class A
{
    int b[A::a]; //1, error
    void foo(){ int b = A::a; } //2, ok
    static const int a = 5;
}

Clause 3.4.3.1/1 (Qualified name lookup, class members) said:

If the nested-name-specifier of a qualified-id nominates a class, the name specified after the nested-name-specifier is looked up in the scope of the class (10.2)

This implies that the name a after the nested-name-specifier both in //1 and in //2 will be looked up in the class scope.

Clause 10.2 (Member name lookup) said:

10.2/2

The following steps define the result of name lookup for a member name f in a class scope C.

10.2/3

The lookup set for f in C, called S(f, C)...

S(f, C) is calculated as follows:

10.2/4

If C contains a declaration of the name f, the declaration set contains every declaration of f declared in C that satisfies the requirements of the language construct in which the lookup occurs.

The following is unclear for me:

From the quotes I cited implies that for both //1 and //2 the same member lookup rules shall be applied. But actually its a different. Why is my reasoning wrong?

Note: I know about unqualified name lookup rules into the class scope. And I understood that behavior in the following code snippet:

class A
{
    int b[a]; //error
    void foo(){ int b = a; } //ok
    static const int a = 5;
}

It is because that behavior described in the sections 3.4.1/7 and 3.4.1/8 (Unqualified name lookup).

share|improve this question
    
This title is merely the name of a language feature. Good titles describe the question posed, instead of simply naming language features. See meta.stackoverflow.com/q/253766/46642 – R. Martinho Fernandes Jun 22 '14 at 17:19

The error is because when int b[A::a]; is being processed, A does not yet have a symbol a. At that point of compilation, A is still incomplete because we have not reached the closing } of the class definition yet. The compiler doesn't "look ahead" to see if future lines of source code contain a definition of a.

You can see this by reversing the order of the lines:

class A
{
    static const int a = 5;
    int b[A::a]; // OK
};

The function definition does not have the same problem because inline function bodies are not compiled until after compilation of the class definition. (Sorry, I don't have standard references handy for this)

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Does a suitable standard reference exist at all? – Dmitrii Bundin Jun 19 '14 at 8:24

The member declaration int b[A::a]; is not in the potential scope of A::a (3.3.7p1), while the body of void A::foo() is in the potential scope (3.3.7p1b1):

1) The potential scope of a name declared in a class consists not only of the declarative region following the name's point of declaration, but also of all function bodies, brace-or-equal-initializers of non-static data members, and default arguments in that class (including such things in nested classes).

3.4.3.1p1 references the potential scope rule in a note:

[...] [ Note: A class member can be referred to using a qualified-id at any point in its potential scope (3.3.7). — end note ] [...]

Of course, notes are non-normative, so the conclusion must be that the potential scope rule is implied by other material in the standard. I believe this other material is specifically 3.3.2p5:

After the point of declaration of a class member, the member name can be looked up in the scope of its class. [...]

By implication, prior to the point of declaration of that class member, that member name cannot be looked up in the scope of that class.

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Thanks for that answer. But can you clarify the following: from the fact that class member can be referred to using a qualified-id at any point in its potential scope does not implies that that class member cannot be referred outside of it potential scope. Moreover it is not true. Actually, using qualified-id we can use a class member outside of it scope. Applying that I assume that scope reasoning is not correct in my case. Maybe I did not understand you? – Dmitrii Bundin Jun 20 '14 at 8:01
    
@DmitryFucintv using a qualified-id, you can access a class member outside its scope, but you cannot access that class member outside its potential scope. Note that in addition to function bodies within the class etc., the potential scope includes the entire remainder of the translation unit after the point of declaration. – ecatmur Jun 20 '14 at 9:15
    
@DmitryFucintv again, note the example in the note to 3.3.2p5; this illustrates that in the absence of that paragraph the member could not be looked up in the scope of its class at all. – ecatmur Jun 20 '14 at 9:59

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