I've seen the word static used in different places in C code; is this like a static function/class in C# (where the implementation is shared across objects)?

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    Related: Static (keyword) @ Wikipedia – Palec Feb 6 '15 at 13:31
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    What is the reason to remove "in a C program" from the end of the title, @Lundin? It is slightly redundant in the presence of tag c, but it lets me see the categorization more quickly, without inspecting the tags. This redundance is very comfortable when I reach the question from a direction that may contain questions about other languages, too, e.g. static or Google search. – Palec May 22 '17 at 14:55
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    @Palec There's a SO policy that items that are present in the tag list are redundant in the title. The site will automatically append C to the actual web site. A Google for "C static" gives this answer as top hit. The reason why this was changed is because this question is now part of the SO C language FAQ and all posts that are added get polished a bit. – Lundin May 23 '17 at 6:32
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    @Lundin I prefer to keep "C" in the title, because SO only appends one tag to the title (the most common?). What if some day "syntax" reaches more questions than C (since it is a cross language thing)? I'd rather use the explicit behavior :-) Edit: ah but there is a meta question saying otherwise: meta.stackexchange.com/questions/19190/… – Ciro Santilli 新疆改造中心996ICU六四事件 Jun 17 '17 at 10:46
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    This is an explanation I found on Quora. Definitely worth reading! – nalzok Aug 27 '17 at 13:45

18 Answers 18

  1. A static variable inside a function keeps its value between invocations.
  2. A static global variable or a function is "seen" only in the file it's declared in

(1) is the more foreign topic if you're a newbie, so here's an example:

#include <stdio.h>

void foo()
    int a = 10;
    static int sa = 10;

    a += 5;
    sa += 5;

    printf("a = %d, sa = %d\n", a, sa);

int main()
    int i;

    for (i = 0; i < 10; ++i)

This prints:

a = 15, sa = 15
a = 15, sa = 20
a = 15, sa = 25
a = 15, sa = 30
a = 15, sa = 35
a = 15, sa = 40
a = 15, sa = 45
a = 15, sa = 50
a = 15, sa = 55
a = 15, sa = 60

This is useful for cases where a function needs to keep some state between invocations, and you don't want to use global variables. Beware, however, this feature should be used very sparingly - it makes your code not thread-safe and harder to understand.

(2) Is used widely as an "access control" feature. If you have a .c file implementing some functionality, it usually exposes only a few "public" functions to users. The rest of its functions should be made static, so that the user won't be able to access them. This is encapsulation, a good practice.

Quoting Wikipedia:

In the C programming language, static is used with global variables and functions to set their scope to the containing file. In local variables, static is used to store the variable in the statically allocated memory instead of the automatically allocated memory. While the language does not dictate the implementation of either type of memory, statically allocated memory is typically reserved in data segment of the program at compile time, while the automatically allocated memory is normally implemented as a transient call stack.

See here and here for more details.

And to answer your second question, it's not like in C#.

In C++, however, static is also used to define class attributes (shared between all objects of the same class) and methods. In C there are no classes, so this feature is irrelevant.

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    Being a little pedantic, it's compilation unit, not file. – paxdiablo Feb 21 '09 at 7:03
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    Pax, the OP doesn't know about static, so you suggest plunging him into the difference between compilation units and files ? :-) – Eli Bendersky Feb 21 '09 at 7:08
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    Wait, what's a compilation unit? – David Feb 21 '09 at 7:09
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    A compilation unit is a single file the compiler sees. Your .c file may include other .c files, but after the preprocessor sorting out the includes, the compiler eventually sees just a single "compilation unit". – Eli Bendersky Feb 21 '09 at 7:12
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    @robUK: the compiler doesn't even know about the .h files - these are combined into the .c files in the pre-processor. So yes you can say that the .c file, with all the headers included into it, are a single compilation unit. – Eli Bendersky Feb 16 '10 at 4:44

There is one more use not covered here, and that is as part of an array type declaration as an argument to a function:

int someFunction(char arg[static 10])

In this context, this specifies that arguments passed to this function must be an array of type char with at least 10 elements in it. For more info see my question here.

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    I didn't think C had array arguments? Linus Torvalds rants angrily about people doing this. – suprjami Sep 29 '15 at 11:02
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    @jamieb: C doesn't have array arguments, but this specific syntax means that the function expects arg[0] through to arg[9] to have values (which also implies that the function does not accept a null pointer). Compilers could utilise this information somehow for optimisation, and static analysers can utilise this information to ensure that the function is never given a null pointer (or if it can tell, an array with fewer elements than specified). – dreamlax Sep 29 '15 at 21:16
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    @Qix -- This was a new overloaded meaning given to static in C99. It is more than a decade and a half old, but not all compiler writers have embraced all of C99 features -- so C99 as a whole largely remains unknown. – Happy Green Kid Naps Dec 22 '15 at 16:42
  • @suprjami I'm not 100% sure what you mean by "array arguments", but if you mean int arr[n];, then that is a VLA (variable-length array), which was added in C99. Is that what you meant? – RastaJedi May 1 '16 at 4:58

Short answer ... it depends.

  1. Static defined local variables do not lose their value between function calls. In other words they are global variables, but scoped to the local function they are defined in.

  2. Static global variables are not visible outside of the C file they are defined in.

  3. Static functions are not visible outside of the C file they are defined in.

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    So does "static function" and "private function" means the same thing ? Similarly are "static global variables" and "private global variables" the same thing ? – user1599964 Jan 20 '13 at 8:56
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    This is about C. There is no private/public in C. – chris Feb 14 '13 at 7:34
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    @user1599964 although there is no private in C, your analogy is good: static makes things "private" to a given file. And files in C often map to classes in C++. – Ciro Santilli 新疆改造中心996ICU六四事件 Apr 23 '15 at 15:02

Multi-file variable scope example

Here I illustrate how static affects the scope of function definitions across multiple files.


#include <stdio.h>

Undefined behavior: already defined in main.
Binutils 2.24 gives an error and refuses to link.
/*int i = 0;*/

/* Works in GCC as an extension: https://stackoverflow.com/a/3692486/895245 */
/*int i;*/

/* OK: extern. Will use the one in main. */
extern int i;

/* OK: only visible to this file. */
static int si = 0;

void a() {
    printf("i = %d\n", i);
    printf("si = %d\n", si);


#include <stdio.h>

int i = 0;
static int si = 0;

void a();    

void m() {
    printf("i = %d\n", i);
    printf("si = %d\n", si);

int main() {
    return 0;

GitHub upstream.

Compile and run:

gcc -c a.c -o a.o
gcc -c main.c -o main.o
gcc -o main main.o a.o


i = 1
si = 1

i = 2
si = 2

i = 3
si = 1

i = 4
si = 2


  • there are two separate variables for si, one for each file
  • there is a single shared variable for i

As usual, the smaller the scope, the better, so always declare variables static if you can.

In C programming, files are often used to represent "classes", and static variables represent private static members of the class.

What standards say about it

C99 N1256 draft 6.7.1 "Storage-class specifiers" says that static is a "storage-class specifier".

6.2.2/3 "Linkages of identifiers" says static implies internal linkage:

If the declaration of a file scope identifier for an object or a function contains the storage-class specifier static, the identifier has internal linkage.

and 6.2.2/2 says that internal linkage behaves like in our example:

In the set of translation units and libraries that constitutes an entire program, each declaration of a particular identifier with external linkage denotes the same object or function. Within one translation unit, each declaration of an identifier with internal linkage denotes the same object or function.

where "translation unit is a source file after preprocessing.

How GCC implements it for ELF (Linux)?

With the STB_LOCAL binding.

If we compile:

int i = 0;
static int si = 0;

and disassemble the symbol table with:

readelf -s main.o

the output contains:

Num:    Value          Size Type    Bind   Vis      Ndx Name
  5: 0000000000000004     4 OBJECT  LOCAL  DEFAULT    4 si
 10: 0000000000000000     4 OBJECT  GLOBAL DEFAULT    4 i

so the binding is the only significant difference between them. Value is just their offset into the .bss section, so we expect it to differ.

STB_LOCAL is documented on the ELF spec at http://www.sco.com/developers/gabi/2003-12-17/ch4.symtab.html:

STB_LOCAL Local symbols are not visible outside the object file containing their definition. Local symbols of the same name may exist in multiple files without interfering with each other

which makes it a perfect choice to represent static.

Variables without static are STB_GLOBAL, and the spec says:

When the link editor combines several relocatable object files, it does not allow multiple definitions of STB_GLOBAL symbols with the same name.

which is coherent with the link errors on multiple non static definitions.

If we crank up the optimization with -O3, the si symbol is removed entirely from the symbol table: it cannot be used from outside anyways. TODO why keep static variables on the symbol table at all when there is no optimization? Can they be used for anything? Maybe for debugging.

See also

C++ anonymous namespaces

In C++, you might want to use anonymous namespaces instead of static, which achieves a similar effect, but further hides type definitions: Unnamed/anonymous namespaces vs. static functions


It depends:

int foo()
   static int x;
   return ++x;

The function would return 1, 2, 3, etc. --- the variable is not on the stack.


static int foo()

It means that this function has scope only in this file. So a.c and b.c can have different foo()s, and foo is not exposed to shared objects. So if you defined foo in a.c you couldn't access it from b.c or from any other places.

In most C libraries all "private" functions are static and most "public" are not.

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    +1 for mentioning x not on stack or heap. It's on the static memory space. – Gob00st Nov 5 '12 at 11:51
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    @Gob00st static memory space? you meant "Data Segment"...? – Yousha Aleayoub Mar 12 '18 at 10:12

People keep saying that 'static' in C has two meanings. I offer an alternate way of viewing it that gives it a single meaning:

  • Applying 'static' to an item forces that item to have two properties: (a) It is not visible outside the current scope; (b) It is persistent.

The reason it seems to have two meanings is that, in C, every item to which 'static' may be applied already has one of these two properties, so it seems as if that particular usage only involves the other.

For example, consider variables. Variables declared outside of functions already have persistence (in the data segment), so applying 'static' can only make them not visible outside the current scope (compilation unit). Contrariwise, variables declared inside of functions already have non-visibility outside the current scope (function), so applying 'static' can only make them persistent.

Applying 'static' to functions is just like applying it to global variables - code is necessarily persistent (at least within the language), so only visibility can be altered.

NOTE: These comments only apply to C. In C++, applying 'static' to class methods is truly giving the keyword a different meaning. Similarly for the C99 array-argument extension.


From Wikipedia:

In the C programming language, static is used with global variables and functions to set their scope to the containing file. In local variables, static is used to store the variable in the statically allocated memory instead of the automatically allocated memory. While the language does not dictate the implementation of either type of memory, statically allocated memory is typically reserved in data segment of the program at compile time, while the automatically allocated memory is normally implemented as a transient call stack.


static means different things in different contexts.

  1. You can declare a static variable in a C function. This variable is only visible in the function however it behaves like a global in that it is only initialized once and it retains its value. In this example, everytime you call foo() it will print an increasing number. The static variable is initialized only once.

    void foo ()
    static int i = 0;
    printf("%d", i); i++
  2. Another use of static is when you implement a function or global variable in a .c file but don't want its symbol to be visible outside of the .obj generated by the file. e.g.

    static void foo() { ... }

If you declare a variable in a function static, its value will not be stored on the function call stack and will still be available when you call the function again.

If you declare a global variable static, its scope will be restricted to within the file in which you declared it. This is slightly safer than a regular global which can be read and modified throughout your entire program.


I hate to answer an old question, but I don't think anybody has mentioned how K&R explain it in section A4.1 of "The C Programming Language".

In short, the word static is used with two meanings:

  1. Static is one of the two storage classes (the other being automatic). A static object keeps its value between invocations. The objects declared outside all blocks are always static and cannot be made automatic.
  2. But, when the static keyword (big emphasis on it being used in code as a keyword) is used with a declaration, it gives that object internal linkage so it can only be used within that translation unit. But if the keyword is used in a function, it changes the storage class of the object (the object would only be visible within that function anyway). The opposite of static is the extern keyword, which gives an object external linkage.

Peter Van Der Linden gives these two meanings in "Expert C Programming":

  • Inside a function, retains its value between calls.
  • At the function level, visible only in this file.
  • There's a third storage class, register. Some people also make the case for a fourth storage class, allocated, for the storage returned by malloc and friends. – Jens Jun 1 '18 at 7:47

In C, static has two meanings, depending on scope of its use. In the global scope, when an object is declared at the file level, it means that that object is only visible within that file.

At any other scope it declares an object that will retain its value between the different times that the particular scope is entered. For example, if an int is delcared within a procedure:

void procedure(void)
   static int i = 0;


the value of 'i' is initialized to zero on the first call to the procedure, and the value is retained each subsequent time the procedure is called. if 'i' were printed it would output a sequence of 0, 1, 2, 3, ...


If you declare this in a mytest.c file:

static int my_variable;

Then this variable can only be seen from this file. The variable cannot be exported anywhere else.

If you declare inside a function the value of the variable will keep its value each time the function is called.

A static function cannot be exported from outside the file. So in a *.c file, you are hiding the functions and the variables if you declare them static.


It is important to note that static variables in functions get initialized at the first entry into that function and persist even after their call has been finished; in case of recursive functions the static variable gets initialized only once and persists as well over all recursive calls and even after the call of the function has been finished.

If the variable has been created outside a function, it means that the programmer is only able to use the variable in the source-file the variable has been declared.


Static variables in C have the lifetime of the program.

If defined in a function, they have local scope, i.e. they can be accessed only inside those functions. The value of static variables is preserved between function calls.

For example:

void function()
    static int var = 1;
    printf("%d", var);

int main()
    function(); // Call 1
    function(); // Call 2

In the above program, var is stored in the data segment. Its lifetime is the whole C program.

After function call 1, var becomes 2. After function call 2, var becomes 3.

The value of var is not destroyed between functions calls.

If var had between non static and local variable, it would be stored in the stack segment in the C program. Since the stack frame of the function is destroyed after the function returns, the value of var is also destroyed.

Initialized static variables are stored in the data segment of the C program whereas uninitialized ones are stored in the BSS segment.

Another information about static: If a variable is global and static, it has the life time of the C program, but it has file scope. It is visible only in that file.

To try this:


static int x;

int main()
    printf("Accessing in same file%d", x):


    extern int x;
        printf("accessing in different file %d",x); // Not allowed, x has the file scope of file1.c

run gcc -c file1.c

gcc -c file2.c

Now try to link them using:

gcc -o output file1.o file2.o

It would give a linker error as x has the file scope of file1.c and the linker would not be able to resolve the reference to variable x used in file2.c.


  1. http://en.wikipedia.org/wiki/Translation_unit_(programming)
  2. http://en.wikipedia.org/wiki/Call_stack
  • I understand that the data is persistent, meaning that it won't be lost after each function call, but why doesn't static int var = 1; change the value back to one each time – Eames Nov 7 '17 at 23:00

A static variable is a special variable that you can use in a function, and it saves the data between calls, and it does not delete it between calls. For example:

void func(){
    static int count; // If you don't declare its value, the value automatically initializes to zero
    printf("%d, ", count);

void main(){

The output:

0, 1, 2, 3, 4, 5, ...

  • You can replace printf("%d, ", count); count++; with `printf("%d, ", count++) (not that it matters :P). – RastaJedi May 1 '16 at 4:59

A static variable value persists between different function calls andits scope is limited to the local block a static var always initializes with value 0


There are 2 cases:

(1) Local variables declared static: Allocated in data segment instead of stack. Its value retains when you call the function again.

(2) Global variables or functions declared static: Invisible outside compilation unit (i.e. are local symbols in symbol table during linking).


In C programming, static is a reserved keyword which controlling both lifetime as well as visibility. If we declare a variable as static inside a function then it will only visible throughout that function. In this usage, this static variable's lifetime will start when a function call and it will destroy after the execution of that function. you can see the following example:

int counterFunction() 
  static int count = 0; 
  return count; 

int main() 
  printf("First Counter Output = %d\n", counterFunction()); 
  printf("Second Counter Output = %d ", counterFunction()); 
  return 0; 

Above program will give us this Output:
First Counter Output = 1
Second Counter Output = 1
Because as soon as we call the function it will initialize the count = 0. And while we execute the counterFunction it will destroy the count variable.

protected by styvane Apr 27 '16 at 15:16

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