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What is the difference between static in C and static in C++??

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I am not asking about the class member (data or func) static part. Is there any difference in semantics in static variables defined in file scope in C and C++?? –  sourabh jaiswal Jun 3 '09 at 6:18
    
Then no difference. –  Loki Astari Jun 3 '09 at 7:36
    
Dup: stackoverflow.com/questions/620024/… –  ephemient Jun 3 '09 at 18:34

4 Answers 4

The static keyword serves the same purposes in C and C++.

  1. When used at file level (outside of a function), it sets the visibility of the item it's applied to. Static items are not visible outside of their compilation unit (e.g., to the linker). Their duration is the same as the duration of the program.

    These file-level items (functions and data) should be static unless there's a specific need to access them from outside (and there's always never a need to give access to data since that breaks the central tenet of encapsulation).

    If (as your comment to the question indicates) this is the only use of static you're concerned with then, no, there is no difference between C and C++.

  2. When used within a function, it sets the duration of the item. Again, the duration is the same as the program and the item continues to exist between invocations of that function.

    It does not affect the visibility of that item since it's visible only within the function. An example is a random number generator that needs to keep its seed value between invocations but doesn't want that value visible to other functions.

  3. C++ has one more use, static within a class. When used there, it becomes a single class variable that's common across all objects of that class. One classic example is to store the number of objects that have been instantiated for a given class.

As others have pointed out, the use of file-level static has been deprecated in favour of unnamed namespaces. However, I believe it'll be a cold day in a certain warm place before it's actually removed from the language - there's just too much code using it at the moment. And ISO C have only just gotten around to removing gets() despite the amount of time we've all known it was a dangerous function.

And even though it's deprecated, that doesn't change its semantics now.

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2  
While static at the file level serves the same purposes as unnamed namespaces with regard to limiting visibility to a file, there is a difference. Static's have internal linkage, while unnamed namespace have external linkage (but are, due to name mangling, still not accessible externally) The external linkage of unnamed namespaces is necessary to allow types declared in an unnamed namespace to be used as template parameters. –  Pieter Jun 3 '09 at 8:07
    
3/ could be written like: "Static sets the duration of class variable to the same as the program. Static doesn't affect visibility of the variable since it's already visible only within the class." I figured this common characteristics of static in all 3 enumerations thanks to your post. Didn't see this before. +1 –  anon Jun 3 '09 at 8:26
1  
One point i have to 2/ - in C++ function level static variables that are not PODs or that aren't initialized with constants do not live until control passes through their declaration. This is important, because unlike in C where only constants are allowed to initialize them, in C++ this is not the case, and here, also constructors may cause other side effects. –  Johannes Schaub - litb Jun 3 '09 at 14:31

The use of static at the file scope to restrict access to the current translation unit is deprecated in C++, but still acceptable in C.

Instead, use an unnamed namespace

namespace
{
    int file_scope_x;
}

Variables declared this way are only available within the file, just as if they were declared static.

The main reason for the deprecation is to remove one of the several overloaded meanings of the static keyword.

Originally, it meant that the variable, such as in a function, would be given storage for the lifetime of the program in an area for such variables, and not stored on the stack as is usual for function local variables.

Then the keyword was overloaded to apply to file scope linkage. It's not desirable to make up new keywords as needed, because they might break existing code. So this one was used again with a different meaning without causing conflicts, because a variable declared as static can't be both inside a function and at the top level, and functions didn't have the modifier before. (The storage connotation is totally lost when referring to functions, as they are not stored anywhere.)

When classes came along in C++ (and in Java and C#) the keyword was used yet again, but the meaning is at least closer to the original intention. Variables declared this way are stored in a global area, as opposed to on the stack as for function variables, or on the heap as for object members. Because variables cannot be both at the top level and inside a class definition, extra meaning can be unambiguously attached to class variables. They can only be referenced via the class name or from within an object of that class.

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It's worth reading up on the "export" keyword. An unexpected side-effect of export is that an exported template in one translation unit can refer to objects and functions in unnamed namespaces! It actually raises the possibility that the C++ Committee will have to re-instate static on namespace objects, since wihtout it, there's no way to ensure that these variables are not visible to other translation units. –  Richard Corden Jun 3 '09 at 8:04
    
It shall be noted that the file scope static deprecation was removed as of C++11, though it still cannot be used on types. More changes are possible in future, though. –  stan423321 Apr 12 at 16:02

Note that the use of static to mean "file scope" (aka namespace scope) is only deoprecated by the C++ Standard for objects, not for functions. In other words,:

// foo.cpp  
static int x = 0;               // deprecated
static int f() { return 1; }    // not deprecated

To quote Annex D of the Standard:

The use of the static keyword is deprecated when declaring objects in namespace scope.

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It has the same meaning in both languages.

But C++ adds classes. In the context of a class (and thus a struct) it has the extra meaning of making the method/variable class members rather members of the object.

class Plop
{
    static int x; // This is a member of the class not an instance.

    public:
    static int getX() // method is a member of the class.
    {
        return x;
    }
};

int Plop::x  = 5;
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But using static at the top level is deprecated in C++. It is fine in C. –  UncleO Jun 3 '09 at 6:52
1  
It's definitely deprecated (Annex D.2), however, it's only deprecated for objects in namespace scope. –  Richard Corden Jun 3 '09 at 8:00
    
Check out Pax post. This extra meaning is analogical to all meanings of static. The keyword affects visibility and duration of a variable in all scenarios, either file, function or class. There is the same rule behind all these scenarios. –  anon Jun 3 '09 at 8:24

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