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I am very very sorry. I didn't know my incomplete code attachment would create such a mess. I am very glad to see so many sincere helps.

This code will compile:

int myadd(int, int);
static int main_stat = 5;

int main()
    int i, j;
    main_stat = 13;
    j = myadd(-1,7);
    i = main_stat;

    cout << j << i;     //  3  and 13
    return 0;



extern int main_stat = -3;
int myadd(int x,int y)
    int t = main_stat;
    t = x + y;
    y = t +main_stat;
    return y;    // will return 3

See I defined and extern linking main_stat. Why is that legal? I thought you could only link and not define.

Is storage allocated in the stack frame of myadd function call? Global static are allocated on heap, I believe, right?


I am sorry, but I think this time I will narrow down my questions:

From C++ Primer 4ed

An extern declaration may include an initializer (when combined becomes definition) only if it appears outside a function.

I am clear about one-definition rule.

Q1. Which copy of main_stat does myadd(int,int) uses when it is called? The same copy as the main has, but with a different value (which I can test) ? Or does each function has its own static global copy?

Q2. Is memory allocated on the heap for these global static variables? I know many things are up to implementation, but isn't heap used for static variables?

Q3. I know the followings two are valid

extern int x;    // means int x is defined elsewhere
extern int x = 3;  // declared and defined 

Why do we want the second one if we can just declare a static global variable within the namespace of myadd ? How does it make things clear like aschepler said?

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I think you a word –  Mehrdad Nov 9 '11 at 18:28
@Mehrdad, hmm, excuses me? I don't get it :x –  CppLearner Nov 9 '11 at 18:31
@mehrdad, I see what you there. –  JoeFish Nov 9 '11 at 18:32
@CppLearner: You accidentally part of the question title –  Lightness Races in Orbit Nov 9 '11 at 18:33
Not sure what the confusion is. Please show a simple example of "main function in another file". –  aschepler Nov 9 '11 at 18:37

6 Answers 6

All variable declarations with an initializer are also definitions; that's an overriding rule. Regardless of extern. There are even cases where you need an extern on a definition: you can only instantiate a template using a variable which has external linkage. And const variables have internal linkage by default, so you need something like:

extern int const i = 42;

if you want to use it to instantiate a template<int const*>.

share|improve this answer
Holy Goat!! never knew this. SO \m/ –  Ramadheer Singh Nov 9 '11 at 18:47
+1: Summed it up far more concisely than I could! With some tasty extra tidbits to boot. –  Lightness Races in Orbit Nov 9 '11 at 18:48
@Nasgul: Pick up a copy of Josutils Template book.If I remember correctly.Covered in chapter 5, which is introduction to Templates.James: +1 Nicely correlated. –  Alok Save Nov 9 '11 at 18:49
In C, a global const by default has external linkage; in C++ it does not and must be initialized, unless explicitly declared extern (§5.4). - CPP STROUSTRUP –  Ramadheer Singh Nov 9 '11 at 18:51
Very nice example and good definition. But, where is the allocation? Are we still referring to the same static main_stat in main.cpp ? Thanks. –  CppLearner Nov 9 '11 at 19:00
extern int main_stat=-3;  

declares and defines main_stat, While:

extern int main_stat;      

just declares the variable main_stat.

You can have as many declarations as you want but you can have only one Definition.

The keyword extern, indicates External Linkage. Without it main_stat would be static and have Internal linkage and you cannot not use main_stat from another translation unit.

Is storage allocated in the stack frame of myadd ?

No definitely not on the stackframe of add.
Where the memory is allocated is implementation defined but you have the assurance that the object will be alive throughout the duration of the program.

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I think that you may have misunderstood the question. –  Lightness Races in Orbit Nov 9 '11 at 18:33
@TomalakGeret'kal: Perhaps...In that case,What is the real Question? –  Alok Save Nov 9 '11 at 18:37
I think, "how come extern can be used on a variable definition, and what happens then? Where is the storage? I thought extern always meant that storage is elsewhere" –  Lightness Races in Orbit Nov 9 '11 at 18:46
While it is true that the purpose pf extern keyword is to give external linkage, the variable main_stat in the above example has external linkage by defualt. So, from the linkage point of view extern is redundant in this case. –  AnT Nov 9 '11 at 18:49
@AndreyT: In C the extern is redundant but not in C++. –  Alok Save Nov 9 '11 at 18:53

The following is a declaration and definition:

int x;

Adding extern says "make it a declaration only, please".

But when you are providing a value, the line has to be a definition, so the variable gets extern storage class and you just happen to be defining it right in place anyway:

extern int x = 3;

The linkage semantics are as they usually are for extern, and the storage location is just as it would be for a normal definition int x = 3 — i.e. in that TU at namespace scope. myadd is not relevant at all.

It's a hard one to "prove", because it's a case of "there's no rule against it".

Here's the best quote:

[n3290: 3.1/2]: A declaration is a definition unless it declares a function without specifying the function’s body (8.4), it contains the extern specifier (7.1.1) or a linkage-specification25 (7.5) and neither an initializer nor a function-body, [..]

And some other pertinent information:

[n3290: 3.5/2]: A name is said to have linkage when it might denote the same object, reference, function, type, template, namespace or value as a name introduced by a declaration in another scope:

  • When a name has external linkage, the entity it denotes can be referred to by names from scopes of other translation units or from other scopes of the same translation unit.
  • When a name has internal linkage, the entity it denotes can be referred to by names from other scopes in the same translation unit.
  • When a name has no linkage, the entity it denotes cannot be referred to by names from other scopes.

[n3290: 3.5/12]:The name of a function declared in block scope and the name of a variable declared by a block scope extern declaration have linkage. If there is a visible declaration of an entity with linkage having the same name and type, ignoring entities declared outside the innermost enclosing namespace scope, the block scope declaration declares that same entity and receives the linkage of the previous declaration. If there is more than one such matching entity, the program is ill-formed. Otherwise, if no matching entity is found, the block scope entity receives external linkage. [..]

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The question apparently stems from some misconception.

Some people believe that extern keyword always turns a definition into a non-defining declaration. This is simply not true.

The keyword extern simply gives the declared entity external linkage. It can be applied to declarations. It can be applied to definitions (and remember that definitions are declarations as well).

So, saying that one can't define an extern entity is absolutely incorrect. One can. There's no problem with that at all.

The confusion is usually caused by the fact that when you apply extern to a definition like

int x; // no initializer

that definition suddenly turns into a non-defining declaration. This is true, but this is is no more than a one-off quirk of extern keyword that has to be remembered. If you take a definition like

int x = 42;

then applying the extern keyword to it will still preserve it as a definition, i.e. no quirks in this case.

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Thanks for the help. So let me collect my understanding here. Sorry if I am wrong again. So if we have int x declared in main.cpp, and then extern int x = 30, we would get linker error, because there is not memory allocation, right? –  CppLearner Nov 9 '11 at 18:57
@CppLearner: Without the static, you would get the linker error because you have violated the One Definition Rule by supplying two definitions for the single variable main_stat. –  aschepler Nov 9 '11 at 19:00

First, according to your comment, the file containing the main function has the definition static int main_stat = 10;. You should be aware that this is not the same variable as you defined in the file containing myadd because as static variable its scope is restricted to that file. Indeed, thanks to that static variable with the same name, main is not able to access the variable you defined in this file.

But that doesn't mean that either variable was created on the stack. Both are separate global variables, it's just that the variable main_stat in the file containing main (I'll call that file main file for short, and this one myadd file) is not available in any other file, while the variable main_stat you defined here can be accessed from any file which contains the declaration extern main_stat; (note: without initializer!). The main file cannot contain this declaration, however, because it would conflict with the static variable of the same name.

Note that giving an initializer makes your declaration of the variable a definition, that is, it's the same as if you had omitted the extern (note however that if a variable is declared constant, the extern may not be omitted because constants are by default static). The only global extern declarations which are not also definitions are those with extern, but without initializer.

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celtschk Thank you. You answered almost everything I asked. But a few things confused me: (1) so we do have two separate main_stat at runtime, am I correct? (2) The unique main_stat in myadd function can be accessed by other files, right? (3) Finally, when extern is a declaration, we will use the definition elsewhere in the program, if I have another program calling myadd, and in that program I also have extern, I am still using main file's main_stat, am I right? Thank you. –  CppLearner Nov 10 '11 at 1:42
(1) Yes. (2) Yes. (3) No. The main_stat from main is not accessible (by name) from any other translation unit under any circumstance. If other translation units declare main_stat with extern but none defines it as extern variable (either by omitting extern or by giving an initializer), the linker will complain that the variable doesn't exist. The static one in the main file is just not visible elsewhere. –  celtschk Nov 10 '11 at 1:53
@CppLearner: I forgot the "at-part", therefore this comment to notice you that I answered to your question in the above comment (the comment edit time for that other comment already has passed). –  celtschk Nov 10 '11 at 2:03

Everyone else has covered this pretty well, but just to show the variants in one place:

int x;                    // #1

is a declaration and definition. The initial value of x is zero.

int x = 3;                // #2

is a declaration and definition.

const int cx;             // #3

is illegal in C++.

const int cx = 3;         // #4

is a declaration and definition, but cx has internal linkage if this is its first declaration in the translation unit.

extern int x;             // #5

is a declaration but NOT a definition. There must be a definition of x somewhere else in the program.

extern int x = 3;         // #6

is a declaration and a definition. The extern is unnecessary, but makes things clear.

extern const int cx;      // #7

is a declaration but NOT a definition. There must be a definition of cx somewhere else in the program.

extern const int cx = 3;  // #8

is a declaration and a definition. The extern is needed unless the previous declaration above was already seen.

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Thank you. How does it make things clear? I updated my post. Why do we want #6 to happen at all when #5 means definition of x exist elsewhere in the program? To keep things short, in the case of #6, I would have two different copies of stat variables named main_stat, one for main function, and one for myadd, am I correct? –  CppLearner Nov 10 '11 at 1:37
I meant that though #6 means the same as #2, typing extern makes it more obvious that the variable will have external linkage. The situation where two variables have the same name is a result of the static definition, not a result of the extern definition. –  aschepler Nov 10 '11 at 2:32
Thank you. But main's static main_stat variable is not accessible by myadd if we didn't have extern. So how is "extern int x = 3" equivalent to #2 ? If myadd has its own copy of main_stat, then the the keyword extern is pretty much ignored, right? Thanks. –  CppLearner Nov 10 '11 at 6:55

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