Please refer to the following code that is in the same translation unit:

static int global_var; // file scope in C and global namespace scope in C++
                       // internal linkage
void f(void)
    static int local_var; // block scope in C and local scope in C++
                          // no linkage 

My understanding is this:

  • I can refer to global_var from anywhere in the translation unit because it has global scope.
  • I can refer to local_var only inside function f because it has local scope.

My questions:

  1. What is the difference beteen the two variables, in relation to linkage?
  2. Can you provide one example where internal and no linkage makes a difference, and the difference is derived not only from scope?


After the answer and comments of James Kanze, I am now able to construct an example that shows the difference between the internal and no linkage attributes:

static int i; // definition
              // static storage
              // internal linkage

void f(void)
    extern int i; // declaration
                  // refers to the static i at file scope
                  // note that even though the specifier is extern
                  // its linkage is intern (this is legal in both C/C++)
        int i; // definition
               // automatic storage
               // no linkage

Some articles that do a good job at explaining the concepts involved:
- Scope regions in C and C++
- Storage class specifiers and storage duration
- Linkage in C and C++

  • Internal linkage refers to everything only in scope of a translation unit – Rahul Tripathi Jul 21 '14 at 12:15
  • Looks like homework, right? – NirMH Jul 21 '14 at 12:17
  • @NirMH Actualy I would be very interested of where this type of homeworks are asked. The answer is no, this is not my homework. I asked this question to clarify my understanding of linkage and scope in C++. – zephon Jul 21 '14 at 12:34
  • Local scope implies no linkage, namespace scope can be either internal or external, class scope (at least in a non-local class) is always external. – James Kanze Jul 21 '14 at 13:17
  • @JamesKanze since c++11 there is no Local scope, only block scope. standard wording: a name declared at block scope (6.3.3) has no linkage – 陳 力 Dec 2 '17 at 4:09

First: in addition to type, variables have three other characteristics: linkage, scope and lifetime. All four attributes are sort of orthogonal, but linked in the way they are expressed in the language, and do interact in some ways.

With regards to linkage: linkage really affects the symbol which is being declared, and not the object itself. If there is no linkage, all declarations of the symbol bind to different objects, e.g.:

    int i;
        int i;

The symbol i has no linkage, and the two symbols i are bound to two different entities. Generally speaking, local variables (variables declared at block scope) and function arguments have no linkage, regardless of type and lifetime.

Internal and external linkage are similar, in that repeated declarations of the symbol bind to the same entity: internal linkage binds only within the translation unit, external accross the entire program. So given:

static int i;   //  internal linkage...

in several translation units, the i binds to a separate entity in each translation unit. Without the static, you have external linkage, and all of the i bind to the same entity.

Note that this only holds at namespace scope; all entities which are members of a non-local class have external linkage.

And that type has an impact: variables which are const implicitly have internal linkage:

int const i = 42;    //  same as static int const i...
extern int const j = 42;    //  external linkage.

Finally, all declarations which bind to the same entity must declare it to have the same type. If you violate this rule in a single translation unit (e.g.:

extern int i;
//   ...
double i;

in the same namespace scope), then the compiler should complain. If the two declarations are in different translation units, however, it is undefined behavior, and who knows what will happen. (In theory, the linker could complain, but most don't.)


One additional point: linkage is determined by the first declaration which can refer to the entity. So if I write:

static int i;

    extern int i;

Both i refer to the same entity, which has internal linkage. (Why one would ever write the second declaration is beyond me, but it is legal.)

  • @GradyPlayer sorry I did not asked the question that you wanted me to ask. I am not asking a general question about linkage, I am asking specificaly about internal and no linkage i.e. same translation unit. – zephon Jul 21 '14 at 13:36
  • @zephon, it is just semantics, what symbols go where in the object so they can be accessed... if that really is the question that you want answered it will have a different answer for a different ABI, and you can inspect the ASM output of a compiler to see what they are doing... it also has a semantic difference dealing with optimizations - but not a big one, because it only has to resolve the symbol within the one compilation unit before it can discard it if it isn't used. – Grady Player Jul 21 '14 at 13:40
  • @zephon I realized that later; you do seem to understand many of the differences. If you read carefully, you'll find that I did answer the question you asked, among many other things. Look at the first example and the very last one (after my edit). – James Kanze Jul 21 '14 at 14:05
  • You are sugesting that the two i sybols bind to different entities because they have internal linkage. Please refer to Example 2 of my post. Why is the second i a different entity? – zephon Jul 21 '14 at 14:06
  • @zephon Because the second i has no linkage. The language is not always orthogonal with regards to how linkage is determined; a variable declaration at block scope has no linkage unless it is declared extern, in which case it has external linkage if there is no preceding declaration at namespace scope, or the linkage of the preceding declaration if there is one. It's what I tried to say in my first paragraph: the four characteristics are sort of orthogonal, except that they do sometimes interact. – James Kanze Jul 21 '14 at 14:10

Generally static variables have internal linkage. You can't access the static variable or function in another file(in multiple file compilation situations), because its scope limited within this file(Internal linkage). Normally auto and register variables have no linkage.

As i said above auto and register variables have no linkage. You can't declare these variables in global scope. static variables has internal linkage, scope is based on declaration, but not possible to access in another file. extern variables has external linkage, its possible to access these variables in another file.

For more reference Storage classes

  • 1
    No, local_var has no linkage, since it's declared at block scope. Storage duration has nothing to do with linkage, which is (mostly) determined by scope. – Mike Seymour Jul 21 '14 at 12:36
  • The document you link to is completely wrong (with sections like "external storage class", which doesn't exist). – James Kanze Jul 21 '14 at 13:14

global_var could be accessed from void g() in the same compilation unit, that is the difference.

  • accessing global_var by using its name is a property of its scope, not linkage – zephon Jul 24 '14 at 14:32

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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