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file a.c

int a[10] = {1, 2, 3, 4, 5, 6, 7, 9, 10};
int *b = a;

file b.c version one

extern int a[];
extern int b[];
a[2] = 1; //works well
b[2] = 1; //works well

file b.c version two

extern int *a;
extern int b[];
a[2] = 1; // segfault
b[2] = 1; // works well

extern int b[] matches int *b, while extern int a[] matches int a[10], why int[] both matches int *b(a pointer) and int a[10] (an array) at the same time?

PS: int b[] will throw out an compile error in codeblocks, and a warning in gcc.

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i guess its a pointer, if my memory serves me right. – Viscocent May 13 '14 at 13:36
Why does everyone down vote and assume the world is an expert? – ojblass May 13 '14 at 13:42
[] and * are interchangeable when not used to declare a variable. – this May 13 '14 at 14:13

To begin with: expecting C to have type safety is dangerous practice. Using global variables is bad and dangerous practice. Your program is combining these two dangerous practices.

When you write

  extern int a[];
  extern int b[];

you tell the compiler that these two variables are allocated elsewhere and that it should not concern it's pretty head about where and how.

Then you declare these variables in another file, but not according to the specification you gave the compiler. Instead you changed one variable to a pointer instead of an array. But since C have non-existant type safety, this will compile still. Therefore it is your responsibility to ensure that a and b have the right types.

a[2]=1 will of course work just fine, because a is externally defined as an allocated array.

b[2]=1 will however not work at all, you'll invoke undefined behavior.

Because the compiler will treat the chunk of memory where you stored b as an array. But what's actually stored there is a pointer containing the address of a. At index [0] this might work, you'll simply destroy the pointer variable. But at index [1] you'll write at an invalid memory location.

The solution is to never use global variables and extern (unless the variable is const).

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a[2]=1 will of course work just... For what example are you talking about there? First or second. – this May 13 '14 at 14:05
+1 for "it should not concern it's pretty head about where and how" – bitmask May 13 '14 at 14:38
@self. There was only one example when I posted this, so the first one. – Lundin May 13 '14 at 19:57

A difference between

int a[]
int *b;

is that 'a' is a compiler name to access an array, where as, 'b' is an int pointer. 'b' can be reassigned to point to any int. One affect is that 'a' cannot be reassigned, but 'b' can be.

For example,

b = a; //Is Legal
int c[] = {1};
a = c; //Is NOT Legal

Also, in most contexts in later use, a mention of the variable 'a' is converted to a pointer to the first item in the array.

Next, the 'extern' key word simply tells the compiler not to allocate memory for the given variable because it is defined elsewhere. Therefore, the extern 'a' and 'b' in file b.c simply makes the variables 'a' and 'b' in file a.c available to file b.c.

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