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When I compile and run following C program on my Linux x86_64 machine, compiled by GCC :

#include <stdio.h>

int main(void)
    char *p1 = "hello";               // Pointers to strings
    char *p2 = "hello";               // Pointers to strings
    if (p1 == p2) {                   // They are equal
    printf("equal %p %p\n", p1, p2);  // equal 0x40064c 0x40064c
                                      // This is always the output on my machine
    else {
    printf("NotEqual %p %p\n", p1, p2);

I always get the output as:

equal 0x40064c 0x40064c

I understand that strings are stored in a constant table but address are too low when compared to dynamically allocated memory.

Compare with following program:

#include <stdio.h>

int main(void)
    char p1[] = "hello";                // char arrar
    char p2[] = "hello";                // char array
    if (p1 == p2) {
    printf("equal %p %p\n", p1, p2);
    else {                              // Never equal
    printf("NotEqual %p %p\n", p1, p2); // NotEqual 0x7fff4b25f720 0x7fff4b25f710
                                        // Different pointers every time
                                        // Pointer values too large

The two pointers are not equal, because these are two arrays which can be independently manipulated.

I want to know how GCC generates the code for these two programs and how are they mapped to memory during execution. Since this would be already documented do so many times any links to documentation are welcome as well.

share|improve this question
You could always just peak at the disassembly. It's a good skill to develop, you'll need to do it again in the future. – Ed S. Sep 12 '12 at 18:19
There are only two strings in your example code: equal %p %p\n and NotEqual %p %p\n. p1 and p2 are just character array variables initialized to some value, which is then used as a string. In particular, you can still do p1[0] = 'H'; p2[0] = 'J'; for example, without any issues. If you wanted p1 and p2 to be string constants, use static const char p1[] = "Hello";. At least GCC-4.6.3 treats local const arrays as variables, not true read-only constants, so the static is needed. And it does not coalesce strings, so the two have distinct pointers. Which compiler are you using? – Nominal Animal Sep 12 '12 at 23:21
up vote 10 down vote accepted

In both cases the compiler emits the actual bytes of the string "hello" just once, in the .rodata section of the program (rodata stands for read only data).

They are actually mapped directly from the executable file into memory, somewhat similar to the code section. That's why they are far apart from the dynamically allocated ones.


char *p = "hello";

Simply initializes p to the address of this (read-only) data. And obviously:

char *q = "hello";

Gets the very same address. This is called string pooling and is an optional popular optimization of the compiler.

But when you write:

char p[] = "hello";

It will probably generate something like this:

char p[6];
memcpy(p, "hello", 6);

Being the "hello" actually the address of the read-only pooled string.

The call to memcpy is for illustration purposes only. It may very well to the copy inline, instead than with a function call.

If later you do:

char q[] = "hello";

It will define another array and another memcpy(). So same data, but different addresses.

But where these array variables will reside? Well, that depends.

  • If they are local, non static, variables: in the stack.
  • If they are global variables: then they will be in the .data section of the executable, and they will be saved there with the correct characters already in there, so no memcpy is needed in run time. Which is nice, because that memcpy would have to be executed before main.
  • If they are local static variables: exactly the same than with global variables. They both together are called variables of static duration or something like that.

About the documentation links, sorry, I don't know of any.

But who needs documentation if you can do the experiments yourself? For that the best tool around is objdump, it can disassemble the program, dump the data sections and much more!

I hope this answer your questions...

share|improve this answer
There is much simpler than objdump, just use -S instead of -c to produce the assembler. – Jens Gustedt Sep 12 '12 at 19:03
@JensGustedt: Granted. I'm just used to the output of objdump. – rodrigo Sep 12 '12 at 19:30
It may also not need to memcpy and rather store the "hello" directly as stack words. – oldrinb Sep 12 '12 at 20:41

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