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Let's say we have an array defined as a global variable.

int array[] = {16, 25, 36, 49, 64};

If this is compiled as a shared library, compiler will produce a binary with a symbol "array" pointing to the location in memory of the array.

Is it possible to add a global variable that will represent a memory location that is inside of the array.

int elem;

Can it be some how made that elem represents the same location as array[2]? Is that even possible with just C?


Can it be done without involving pointers? I am interested into making elem being the location in memory at witch array[2] resides. With int* elem = &array[2] memory is set aside for a pointer and elem becomes a symbol for that pointer, and then the memory adress of array[2] is put in there. I would like that elem becomes a symbol for a location of array[2], so that assert(elem == array[2]) would pass always. Like an identity in math (≡).

Does anybody know is the thing I am interested in possible in plain C, or only in assembly.

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:D Is that even possible with just C? – paislee Feb 16 '12 at 22:16

6 Answers 6

up vote 0 down vote accepted

This is impossible in plain C without using a pointer.

You can, however, use some linker trickery to achieve this (beware that this is not portable and very, very hacky): Get your default linker script from ld -verbose and edit it to include something like elem = (array) + 4 * 2;, then compile with -Wl,-Tyour_script.ld. elem should now occupy the same memory address as array + 8 Bytes (which is array[2] assuming sizeof(int) == 4):

 $ cat a.c
 #include <stdio.h>

 int foo[4] = {1,2,3,4};

 int bar;

 int main() {
    printf("%p %p\n", &foo[2], &bar);
    return 0;
 $ gcc -Wl,-Ta.ld a.c
 $ ./a.out
 0x6008e8 0x6008e8
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This is the kind of answer I was looking for. I'll vote you up when I get the rep for it. :) – irpbc Feb 16 '12 at 22:58
@iRasic or you could click the check mark beside this answer to mark it as the answer for the question (which you should do on some answer anyway) – Seth Carnegie Feb 16 '12 at 23:04


// lib.c

int array[] = { 1, 2, 3 };
int * const p = array + 2;
// lib.h

extern int array[];
extern int * const p;
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+1 for constant pointer – Joe Feb 16 '12 at 22:18
int array[] = {16, 25, 36, 49, 64};

int *elem = array + n;
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An ugly preprocessor hack allows you to use ELEM2 just like array[2]. In fact it is array[2] :

int array[] = {16, 25, 36, 49, 64};
#define ELEM2 (array[2])

Now ELEM2 is even an lvalue:

ELEM2 = 42;

int *p = &ELEM2;

/* don't try this at home */

BTW Though this is ugly, it is basically how stdin, stdout and stderr are #defined in most implementations (in fact: all the implementations I have seen)

UPDATE: although it is an ugly hack, it does enable the compiler to catch aliasing problems like this:

array[2] = ELEM2++ * array[2]; /* no intervening sequence points here */
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This kind of thing is how errno is usually defined, too - a macro that behaves like an lvalue. There's nothing wrong with this - it should work just as well as the linker trick (except that array has to be visible to the code using ELEM2), and is portable. – caf Feb 17 '12 at 3:26
Well, actually it is more robust than the linker trick (aliasing ...). – wildplasser Feb 17 '12 at 8:52
Agreed, a good point. – caf Feb 17 '12 at 9:33

Something like this:

int * elem = &array[2];
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Yes you can

int array[] = {16, 25, 36, 49, 64};
int * elem = &array[2];

int main()
    printf("array: %p elem: %p", array, elem);
    return 0;
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