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In C++ specifically, what are the semantic differences between for example:

static const int x = 0 ;


const int x = 0 ;

for both static as a linkage and a storage class specifier (i.e. inside and outside a function).

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static is probably the most-overloaded keyword in C++. Your code's meaning varies widely depending on whether it is at namespace scope, at class scope, or at function scope. You might want to clarify that. – sbi Sep 14 '10 at 13:25
@sbi: I thought I did already. Function scope (where it is a storage class specifier) and file scope (where it is a linkage specifier). Class members and namespace scoped variables specifically are not of concern to me in respect to this question, although if anyone feels there is an interesting distinction, feel free to cover that too. – Clifford Sep 14 '10 at 16:09
@Clifford: I'm sorry I overlooked those last words. However, this revealed a misunderstanding on your part: In C++, file scope is namespace scope. If you declare anything out side of any namespace, it will simply belong to the global namespace (and is accessible through a prefixed :: with no identifier in front). I'm not aware of any meaningful differences between the global namespace and any namespace nested in it. There certainly isn't any regarding static objects. – sbi Sep 14 '10 at 18:04
linkage is different from visibility, by using them interchangeably you're going to confuse the people you talk to and probably also yourself. – Ben Voigt Sep 15 '10 at 0:48
@Ben, @sbi: I did not intend to suggest that file scope and static linkage were the same, merely that static linkage implies file scope. In this sense scope (or visibility) is an attribute of static and external linkage, not a synonym for either. I feel that the original question remains clear and well formed, and that we are merely discussing the comments made in response to sbi's somewhat condescending remark. We are discussing imprecise semantics of English here rather than my understanding, so I think we can stop. – Clifford Sep 15 '10 at 11:10

1 Answer 1

up vote 66 down vote accepted

At file scope, no difference in C++. const makes internal linkage the default, and all global variables have static lifetime. But the first variant has the same behavior in C, so that may be a good reason to use it.

Within a function, the second version can be computed from parameters, in C or C++ it doesn't have to be a compile-time constant like some other languages require.

Within a class, basically the same thing as for functions, an instance const value can be computed in the ctor-initializer-list. A static const is set during startup initialization and remains unchanged for the rest of the program. (Note: the code for static members looks a little different because declaration and initialization are separated.)

Remember, in C++, const means read-only, not constant. If you have a pointer-to-const then other parts of the program may change the value while you're not looking. If the variable was defined with const, then no one can change it after initialization but initialization can still be arbitrarily complex.

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Is there anything called file scope? I was just checking $3.3 and I think the closest is 'namespace scope'. Is my understanding right? The C++03 standard mentions file scope only in the Appendices – Chubsdad Sep 15 '10 at 0:31
+1 for the phrase "const means read-only, not constant", i.e., "Compiler, if you see someone trying to modify this const thing, bark very loudly." This is the reason something can be const & volatile at the same time. – Dan Sep 16 '10 at 16:07
It's more "Compiler, if you see me try to modify this const thing (or give someone else permission to do so)", bark very loudly. In most context, const applies to a view of the variable and not the variable itself, someone else can have a non-const view of the same variable, and the compiler will be quite silent when they modify it. – Ben Voigt Sep 16 '10 at 16:26
@Ben: Just to be clear, C++0x doesn't remove that particular use of const, but the new constexpr can be used instead (and in other scenarios as well). Actually, the C++0x standard expands the ability to use const in that scenario to non-integral "literal types" as well. I think I'd prefer using constexpr for those cases, since you'd be breaking backward compatibility with pre-C++0x compilers anyway. – Michael Burr Jan 7 '11 at 18:26
@MichaelBurr: Yes absolutely. What I meant to say was that C++11 removed the need to use the special-cased behavior, as it's now possible to use constexpr consistently through the code. – Ben Voigt Mar 17 '14 at 22:09

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