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gcc complains about this:

#include <stdio.h>
static const int YY = 1024;
extern int main(int argc, char*argv[])
  static char x[YY];

$ gcc -c test1.c test1.c: In function main': test1.c:5: error: storage size of x' isn't constant test1.c:5: error: size of variable `x' is too large

Remove the “static” from the definition of x and all is well.

I'm not exactly clear what's going on here: surely YY is constant?

I had always assumed that the "static const" approach was preferable to "#define". Is there any way of using "static const" in this situation?

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The variable is actually not created on the stack by virtue of the static in static char x[YY] – Dirk Sep 25 '09 at 12:01

In C, a const variable isn't a "real" compile-time constant... it's really just a normal variable that you're not allowed to modify. Because of this, you can't use a const int variable to specify the size of an array.

Now, gcc has an extension that allows you to specify the size of an array at runtime if the array is created on the stack. This is why, when you leave off the static from the definition of x, the code compiles. However, this would still not be legal in standard C.

The solution: Use a #define.

Edit: Note that this is a point in which C and C++ differ. In C++, a const int is a real compile-time constant and can be used to specify the size of arrays and the like.

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I'd like to comment out that g++ does compile the code. – Pavel Shved Sep 25 '09 at 12:06
That's correct... in C++, const produces a "real" compile-time constant. I'll edit the answer to point out this distinction. – Martin B Sep 25 '09 at 12:14
C99 allows variable-length arrays (VLAs) on the stack. It's not limited just to gcc. – David R Tribble Sep 25 '09 at 20:23

You may use 'enum' or 'define' to declare the size:

#define          XX   1024 
static int const YY = 1024;
           enum{ ZZ = 1024 };

extern int main(void){

  static char x[XX]; // no error
  *(int*)&XX = 123;  // error: lvalue required as unary ‘&’ operand

  static char y[YY]; // error: storage size of ‘y’ isn’t constant
  *(int*)&YY = 123;  // no error, the value of a const may change

  static char z[ZZ]; // no error
  *(int*)&ZZ = 123;  // error: lvalue required as unary ‘&’ operand
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enum here is rather ugly, though. It thwarts enum's meaning completely. – Metiu Sep 25 '09 at 14:06
Very ugly, but it works, and has fewer side affects than #define. It's the C equivalent of the C++ "const int foo = 1024;". – David Thornley Sep 25 '09 at 14:21
@Metiu: Why would using enum be considered any uglier than #define? – Michael Burr Sep 25 '09 at 16:20
@sambowry: your comment "the value of a const may change" is not quite correct. The syntax of that statement is fine, since YY is an lvalue; however, the sematics are not. Changing an actual const object results in undefined behavior (but changing a non-const object through a re-cast const pointer or reference is OK). – Michael Burr Sep 25 '09 at 16:24
Since an enum is just an int constant with a name, it seems to me that it is appropriate to use in this situtation. Just be sure to give it a good name, like NAME_SIZE. – David R Tribble Sep 25 '09 at 20:24

To follow on from Martin B's answer, you could do this:

#include <stdio.h>

#define XSIZE 1024

static const int YY = XSIZE;

int main(int argc, char*argv[])
    static char x[XSIZE];
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// .h

class C {
   static const int kSIZE;
   int a[kSIZE]; // error: array bound is not an integer constant

// .cc

const int C::kSIZE = 1;

/*  WORKS FINE */    
// .h

class C {
   enum eCONST { kSIZE = 1 };
   int a[kSIZE];
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Just call it a const int instead of a static const int, and you'll be fine. The problem with the static const int is that C::kSIZE is initialized in the .cc file -- so how should a different .cc (which sees only the header file) know what sizeof(C) is? – Martin B Sep 25 '09 at 13:47
aha... ok cool. seems a bit silly to have another 4 bytes per object just for the constant though... seems that the static const should be able to be initialized in the header. thank you! – jbishop Sep 25 '09 at 13:55

Because you declared x as 'static' that makes it a global variable. Its just known only to the main() function in which it is declared. By declaring YY outside of any function, you have made it global. 'static' also makes it a global, but known only to this file.

If you declared YY as just 'const int YY = 1024', the compiler might treat it like a #define, but with a type. That depends on the compiler.

At this point 2 things might be wrong.


All globals are initialized at runtime, before main() is called.

Since both x and YY are globals, they are both initialized then.

So, the runtime initialization of global x will have to allocate space according to the value in YY. If the compiler is not treating YY like #define with a type, it has to make a compile-time judgement about runtime values. It may be assuming the largest possible value for an int, which really would be too big. (Or possibly negative since you left it signed.)

It may be interesting to see what happens if you only change YY to a short, preferably an unsigned short. Then its max would be 64K.


The size of global space may be limited on your system. You didn't specify the target platform and OS, but some have only so much.

Since you declared x as size YY, you have set it to take YY chars from global space. Every char in it would essentially be a global. If the global space on your system is limited, then 1024 chars of it may be too much.

If you declared x as a pointer to char, then it would take sizeof(char*) bytes. (4 bytes is the size of a pointer on most systems.) With this, you would need to set the pointer to the address of properly malloc'd space.

By declaring x without 'static', it becomes a local variable and is only initialized once the owning function is executed. And its space is taken from the stack, not global space. (This can still be a problem for systems or threads with very limited stack.) YY's value has long since been set by this point, so there is no problem.


I don't recall if there is any guarantee that globals are initialized in any order. If not, then x could be initialized before YY. If that happened then YY would just contain the random contents of RAM.

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