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I've always believed that GCC would place a static const variable to .rodata segments (or to .text segments for optimizations) of an ELF or such file. But it seems not that case.

I'm currently using gcc (GCC) 4.7.0 20120505 (prerelease) on a laptop with GNU/Linux. And it does place a static constant variable to .bss segment:

 * this is a.c, and in its generated asm file a.s, the following line gives:
 *   .comm a,4,4 
 * which would place variable a in .bss but not .rodata(or .text)
static const int a;

int main()
    int *p = (int*)&a;
    *p = 0;  /* since a is in .data, write access to that region */
             /* won't trigger an exception */
    return 0;

So, is this a bug or a feature? I've decided to file this as a bug to bugzilla but it might be better to ask for help first.

Are there any reasons that GCC can't place a const variable in .rodata?


As tested, a constant variable with an explicit initialization(like const int a = 0;) would be placed into .rodata by GCC, while I left the variable uninitialized. Thus this question might be closed later -- I didn't present a correct question maybe.

Also, in my previous words I wrote that the variable a is placed in '.data' section, which is incorrect. It's actually placed into .bss section since not initialized. Text above now is corrected.

share|improve this question
In C++, you can initialize a const variable from a value that is not a compile-time constant. But I checked, and GCC doesn't allow that as an extension in C mode. – Potatoswatter May 30 '12 at 14:59
@Potatoswatter In C you could also write this legally: void test(int a){ const int b = a; /* ... */ }. I'm actually wondering whether a global constant variable shall be places into a readonly memory region. – starrify May 30 '12 at 15:14
FWIW, it does go into a read-only section if you initialize it explicitly. – Mat May 30 '12 at 15:16
@Mat Oh.. I'm.. so stupid, and, greatly grateful to you! – starrify May 30 '12 at 15:19
Well there's still something fishy. AFAICT, initializing to 0 doesn't change the program at all, that static var should be initialized to zero if you don't explicitly do so. So something is going on. (clang puts it in a RO section regardless of initialization.) – Mat May 30 '12 at 15:23

The compiler has made it a common, which can be merged with other compatible symbols, and which can go in bss (taking no space on disk) if it ends up with no explicitly initialized definition. Putting it in rodata would be a trade-off; you'd save memory (commit charge) at runtime, but would use more space on disk (potentially a lot for a huge array).

If you'd rather it go in rodata, use the -fno-common option to GCC.

share|improve this answer
-fno-common is passed to the assembler but not the compiler I think, since after -fno-common it still generates .comm a,4,4 in the asm file. Also, though this time the assembler merges .bss into .data, write access to a still successes, which means a is placed into .data but not .rodata. The problem I think is that it's not initialized. – starrify May 30 '12 at 16:04

writing to an object that has been declared const qualified is undefined behavior: anything can happen, even that.

There is no way in C to declare the object itself to be unmutable, you only forbid it to be mutable through the particular access that you have to it. Here you have an int*, so modification is "allowed" in the sense that the compiler is not forced to issue a diagnostic. Doing a cast in C means that you suppose to know what you are doing.

share|improve this answer
Actually, the code above did NOT explicitly write to the const qualified variable a. See @Mat's comment above, which I think shall be the exact answer I need. – starrify May 30 '12 at 15:23
@PengyuCHEN: Jens is right, what you're doing is undefined behavior. Why GCC doesn't put that var in a RO section when you don't initialize it, but does when you do, is a mystery to me. – Mat May 30 '12 at 15:29
@Mat Yes I believe Jens is right about that undefined behavior, what I mean was, effect of that undefined behavior shall be at run-time but not compile-time. – starrify May 30 '12 at 15:36
@PengyuCHEN. it explicitly writes to that object, only that the result of that write operation is not observable in this particular program, because the object is never evaluated afterwards. So the compiler would be allowed to optimize that out if the variable would not be const qualified. – Jens Gustedt May 30 '12 at 15:50

Are there any reasons that GCC can't place a const variable in .rodata?

Your program is optimized by the compiler (even in -O0 some optimizations are done). Constant propagation is done:

Try to deceive the compiler like this (note that this program is still technically undefined behavior):

#include <stdio.h>

static const int a;

int main(void)
    *(int *) &a = printf("");  // compiler cannot assume it is 0

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

    return 0;
share|improve this answer
Remove all the code since line 4, and gcc still gives variable a in .data. I don't think it depends on the way how we access it, but on how we declare it. See @Mat's comment above, which I think shall be the exact answer I need. – starrify May 30 '12 at 15:25
I'm seeing a write through that pointer in the assembly with -O0, it's not optimized out for me. – Mat May 30 '12 at 15:28
@Mat an implementation has the right to optimized out all the lines in Pengyu's program (i.e., equivalent to int main(void) {}) as the observable behavior of the program is not changed. Actually in my compilation of Pengyu's program a is even put in .bss as it takes less space in the final binary than in .rodata. – ouah May 30 '12 at 15:37
@ouah Thank you for point this out. I said .data only because I see that.comm derective, and in this case since I didn't initialize a, it shall be put into .bss. My words was wrong about that. – starrify May 30 '12 at 15:39
I don't think that the fact that the value is known (and constant) triggers the optimization. In fact the compiler can even deduce that the value is never read, so the assignment can be optimized out. This is what changes with the printf. – Jens Gustedt May 30 '12 at 15:52

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