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So I need to remove constness from some variables in C (I know what I'm doing). So I wrote a little macro (UNCONST) which lets me assign an new value to a const value. This works just fine for normal variables of types like int. But this doesn't work for pointers. So I can't let a pointer point to a different position using my macro UNCONST without getting an compiler warning.

Here a little test program unconst.c:

#include <stdio.h>

#define UNCONST(type, var, assign) do { \
  type* ptr = (type*)&(var); \
  *ptr = (assign); \
} while(0)

struct mystruct {
  int value;
  char *buffer;

int main() {
  // this works just fine when we have an int
  const struct mystruct structure;
  UNCONST(int, structure.value, 6);
  printf("structure.value = %i\n", structure.value);

  // but it doesn't when we have an char *
  char *string = "string";
  UNCONST(char *, structure.buffer, string);
  printf("structure.buffer = %s\n", structure.buffer);

  // this doesn't work either, because whole struct is const, not the pointer.
  structure.buffer = string;
  printf("structure.buffer = %s\n", structure.buffer);

compiling & executing

$ LANG=en gcc -o unconst unconst.c
unconst.c: In function ‘main’:
unconst.c:21:3: warning: assignment discards ‘const’ qualifier from pointer target type [enabled by default]
unconst.c:25:3: error: assignment of member ‘buffer’ in read-only object

Is there a way to optimize my macro so this warning doesn't show up?

share|improve this question
Do you realize that you can just write string1 = string2 ? – Kylo Nov 15 '12 at 21:09
@Kylo I didn't but it seems like I simplified my code too much, I need to edit the question. – MarcDefiant Nov 15 '12 at 21:11
The first segment using int invokes undefined behaviour. The compiler might legitimately place i in readonly memory, and then you probably get a crash, or other unexpected result (like the printf() printing 5 instead of 6). You're relying on a peculiarity of your implementation there. So, expect problems when you switch platforms or compilers. – Jonathan Leffler Nov 15 '12 at 21:13
my 2c: if you need so often to "unconst" and then planned that macro... couldn't it be that there's something odd somewhere else? – ShinTakezou Nov 15 '12 at 21:13
Stack Overflow Rule of Thumb #4: The the OP says "I know what I'm doing", they don't. – Kerrek SB Nov 15 '12 at 21:25
up vote 4 down vote accepted

The problem in:

const char *string1 = "string1";
UNCONST(char *, string1, string2);

is that string1 is not really const, it can be assigned to, but points to an array of const characters.

Actually, doing:

string1 = string2;

compiles just fine.

Other thing is if you want to copy the array. Then I'd write your macro as this:

#define UNCONST(type, var) (*(type*)&(var))

And so:

UNCONST(int, i) = 42;

To copy the array of chars you could do:

strcpy(UNCONST(char**,string1), string2);

FOOTNOTE: actually I find this macro rather useless: I find:

*(int*)&i = 42;

as cumbersome as this kind of operation should be.

share|improve this answer
nice answer but the I used a code example which was simplified to much. So I edited the question. The char pointer is in reality inside of a const struct – MarcDefiant Nov 15 '12 at 21:22
FreeBSD uses this macro: #define __DECONST(type, var) ((type)(uintptr_t)(const void *)(var)) – eric_lagergren May 17 '15 at 20:40

If string1 is supposed to be a const pointer (instead of a non-const pointer to const data), write it like this:

char * const ptr = "foo";


const char * const ptr = "foo";

Maybe (I haven't tested it) your UCONST macro would work as you expected if you declared your pointer correctly.

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