11
struct A {
    static const int a = 5;

    struct B {
       static const int b = a;
    };

 };

 int main() {
   return A::B::b;
 }

The above code compiles. However if you go by Effective C++ book by Scott Myers(pg 14); We need a definition for a in addition to the declaration. Can anyone explain why this is an exception?

3
  • 1
    The code does contain a definition for 'a'. Commented Aug 21, 2009 at 14:29
  • 2
    No, it doesn't contain a definition. Commented Aug 21, 2009 at 14:42
  • 2
    @Henk. Not really. Try passing the address of 'a' or 'b' to a function and see what message the compiler generates! Commented Aug 21, 2009 at 14:43

4 Answers 4

22

C++ compilers allow static const integers (and integers only) to have their value specified at the location they are declared. This is because the variable is essentially not needed, and lives only in the code (it is typically compiled out).

Other variable types (such as static const char*) cannot typically be defined where they are declared, and require a separate definition.

For a tiny bit more explanation, realize that accessing a global variable typically requires making an address reference in the lower-level code. But your global variable is an integer whose size is this typically around the size of an address, and the compiler realizes it will never change, so why bother adding the pointer abstraction?

1
  • +1, nice answer. But what if const integers? Can we specify their value in class?
    – Alcott
    Commented Mar 28, 2012 at 12:21
19

By really pedantic rules, yes, your code needs a definition for that static integer. But by practical rules, and what all compilers implement because that's how the rules of C++03 are intended - no, you don't need a definition.

The rules for such static constant integers are intended to allow you to omit the definition if the integer is used only in such situations where a value is immediately read, and if the static member can be used in constant expressions.

In your return statement, the value of the member is immediately read, so you can omit the definition of the static constant integer member if that's the only use of it. The following situation needs a definition, however:

struct A {
    static const int a = 5;

    struct B {
       static const int b = a;
    };

 };

 int main() {
   int *p = &A::B::b;
 }

No value is read here - but instead the address of it is taken. Therefore, the intent of the C++03 Standard is that you have to provide a definition for the member like the following in some implementation file.

const int A::B::b;

Note that the actual rules appearing in the C++03 Standard says that a definition is not required only where the variable is used where a constant expression is required. That rule, however, if strictly applied, is too strict. It would only allow you to omit a definition for situation like array-dimensions - but would require a definition in cases like a return statement. The corresponding defect report is here.

The wording of C++0x has been updated to include that defect report resolution, and to allow your code as written.

9
  • Does it means that Walt W is wrong when he says : "C++ compilers allow static const integers (and integers only) to be defined at the location they are declared" ? I thought like him that the "static const int a = 5;" statement was both declaration and definition. If I understand correctly, it is only a declaration without any definition and the A::a can only be used in very specific cases. I'm intesrested in the final word ...
    – neuro
    Commented Aug 21, 2009 at 18:00
  • Yes, he is wrong too. That is only a declaration - it's not a definition. If you refer to it in cases that doesn't read a value immediately, a definition is needed. You seem to have it right in your comment. Commented Aug 21, 2009 at 18:55
  • Better? I suppose it wasn't the technical use of "definition"
    – Walt W
    Commented Aug 21, 2009 at 21:07
  • @Walt W, yeah i like it that way :) Have fun Commented Aug 21, 2009 at 21:15
  • This answer is more correct. See ISO C++ Defect Report 454 (open-std.org/jtc1/sc22/wg21/docs/papers/2009/n2937.html#454), where this issue is described in more detail. Note that while the issue is fixed, the fix is not in C++03. Commented Aug 21, 2009 at 21:16
2

However, if you try the ternary operand without "defining" static consts, you get a linker error in GCC 4x:

http://gcc.gnu.org/bugzilla/show_bug.cgi?id=13795

So, although constructs like int k = A::CONSTVAL; are illegal in the current standard, they are supported. But the ternary operand is not. Some operators are more equal than others, if you get my drift :)

So much for "lax" rules. I suggest you write code conforming to the standard if you do not want surprises.

0

In general, most (and recent) C++ compilers allow static const ints

You just lucky, perhaps not. Try older compiler, such as gcc 2.0 and it will vehemently punish you with-less-than-pretty error message.

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