Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

Why does extern int n not compile when n is declared (in a different file) static int n, but works when declared int n? (Both of these declarations were at file scope.) Basically, why is int n in file scope not the same as static int n in the same scope? Is it only in relation to extern? If so, what about extern am I missing?

share|improve this question

4 Answers 4

up vote 53 down vote accepted

The whole and entire purpose of static is to declare that a variable is private to the source file that it is declared in. Thus, it is doing precisely its job in preventing a connection from an extern.

Keep in mind that there are four flavors of file-scope variable definition:

  1. int blah = 0; — blah is defined in this file and accessible from other files. Definitions in other files are duplicates and will lead to errors.
  2. extern int blah; — blah must be defined elsewhere and is referenced from this file.
  3. int blah; — This is the moral equivalent of FORTRAN COMMON. You can have any number of these in files, and they are all resolved by the linker to one shared int. (*)
  4. static int blah; (optionally with an initializer) — This is static. It is completely private to this file. It is not visible to externs in other files, and you can have many different files that all declare static TYPE blah;, and they are all different.

For the purists in the audience: 'file' = compilation unit.

Note that static inside functions (not at file scope) are even more tightly scoped: if two functions declare static int bleh = 0; even in the same file, they are unrelated.

(*): for those of you not familiar: in the usual pattern, one compilation unit has to define a global variable, and others can reference it. It 'lives' in that compilation unit. In case (3), above, no file (or all the files) defines it. If two files say int blah = 0;, the linker will complain of multiple definitions. If two files say int blah; the linker cheerfully creates a single global int and causes all the code to refer to it.

share|improve this answer
what then would 'int n' be called (in file scope), in terms of storage specifiers? –  Jared Pochtar May 15 '10 at 21:15
@bmargulies: At file scope, you mean? Because at function scope, a static var is one that retains its value after the functions returns, and at class scope, a static member has a single instance available to all objects. –  mingos May 15 '10 at 21:16
Clarified by the edit, I trust. –  bmargulies May 15 '10 at 21:17
@Jared -- I call it 'common'. In my recollection, the language does not define a keyword for making this explicit. If I'm wrong, I trust that someone would correct me. –  bmargulies May 15 '10 at 21:19
@bmargulies: OK, I thought in C++ terms instead of C. Thx. –  mingos May 15 '10 at 21:21

In standard C, there are two scopes for variables declared outside of a function. A static variable is only visible inside the compilation unit (i.e., file) that declared it, and non-static variables are visible across the whole program. An extern declaration says that the variable's location isn't known yet, but will be sorted out by the linker; it's compatible with non-static variables, but extern static is just crazy talk!

Of course, in practice there are other visibilities these days. In particular, there are now scoping levels between that of a single source file and a whole program; the level of a single shared library is a useful one (settable through mechanisms like GCC function attributes). But that's just a variation on the theme of non-static variables; static keeps the same interpretation it had before.

share|improve this answer

According to MSND documentation:

When modifying a variable, the static keyword specifies that the variable has static duration (it is allocated when the program begins and deallocated when the program ends) and initializes it to 0 unless another value is specified. When modifying a variable or function at file scope, the static keyword specifies that the variable or function has internal linkage (its name is not visible from outside the file in which it is declared).

http://msdn.microsoft.com/en-us/library/s1sb61xd(v=vs.80).aspx: June 2013

share|improve this answer

An extern var is already "static" because there's only one instance of it. Declaring it as static is a redundancy.

An extern is a single instance of a var (or any other object) that's available globally; its scope ends when main() returns.

EDIT: OK, the people commenting on my answer are right to point out that my answer is confusing. I used the word "static" thinking about static class members in C++, which isn't obvious. Sorry for that and check the answer by bmargulies :)

share|improve this answer
huh? An extern variable is not static. –  bmargulies May 15 '10 at 21:13
You are confused. A static member (in C++) has one instance, a local static variable has one instance, file static means "invisible outside the translation unit". –  Stephen May 15 '10 at 21:18
Notice the quotation marks :). "Static", as opposed to static. It behaves like a static class member, just in a global scope. And yes, that's just my personal interpretation of the behaviour, so you're right to complain, I guess :/ –  mingos May 15 '10 at 21:18

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.