In order to make a page dirty (switching on the dirty bit in the page table entry), I touch the first bytes of the page like this:

pageptr[0] = pageptr[0];

But in practice, GCC will ignore the statement by dead store elimination. In order to prevent GCC optimizing it, I rewrite the statement as follows:

volatile int tmp;
tmp = pageptr[0];
pageptr[0] = tmp;

It seems the trick works, but somewhat ugly. I would like to know is there any directives or syntax which has the same effect? And I don't want to use a -O0 flag, since it will bring great performance penalty as well.

  • 9
    @Mark -O0 will stop the optimization, but also slows down program performance. I just want to prevent optimization of this code snippet :P
    – ZelluX
    Commented Feb 8, 2010 at 5:53
  • 2
    I would like to add that in the past, even using -O0 did not prevent dead code "optimization", e.g., when GCC detects some code has no effect, it simply removes it. AFAIK this is a stage even before -O0... But that's just my experience
    – smoothware
    Commented Mar 5, 2020 at 9:01

3 Answers 3


You can use

#pragma GCC push_options
#pragma GCC optimize ("O0")

your code

#pragma GCC pop_options

to disable optimizations since GCC 4.4.

See the GCC documentation if you need more details.


Instead of using the new pragmas, you can also use __attribute__((optimize("O0"))) for your needs. This has the advantage of just applying to a single function and not all functions defined in the same file.

Usage example:

void __attribute__((optimize("O0"))) foo(unsigned char data) {
    // unmodifiable compiler code
  • 3
    What if I am not using a-Oleveloption but I used the individuals options it turns on separetely? (In my case, I can't determine which is the individual optimization option which is breaking the code). Commented Apr 16, 2015 at 11:26
  • 1
    None of the recommendations around volatile work any more. GCC compiler headers cannot handle volatile + O0. While loops are optimized out as -faggressive-loop-optimization is default, only O0 blocks this. For these reasons, O0 and no volatile in the unoptimized function is now the correct answer. Commented Sep 16, 2020 at 21:03
  • To update for C23, you can also use the attribute specifier syntax introduced in the new standard: [[gnu::optimize("O0")]] void foo(). The same goes for C++11 and newer.
    – jaskij
    Commented Mar 8 at 3:55

Turning off optimization fixes the problem, but it is unnecessary. A safer alternative is to make it illegal for the compiler to optimize out the store by using the volatile type qualifier.

// Assuming pageptr is unsigned char * already...
unsigned char *pageptr = ...;
((unsigned char volatile *)pageptr)[0] = pageptr[0];

The volatile type qualifier instructs the compiler to be strict about memory stores and loads. One purpose of volatile is to let the compiler know that the memory access has side effects, and therefore must be preserved. In this case, the store has the side effect of causing a page fault, and you want the compiler to preserve the page fault.

This way, the surrounding code can still be optimized, and your code is portable to other compilers which don't understand GCC's #pragma or __attribute__ syntax.

  • 4
    I would say this is preferable to turning off optimizations. You can still benefit from other optimizations using this method.
    – Ben S
    Commented Feb 8, 2010 at 5:54
  • 3
    Dietrich Epp's solution is not working under ARM4.1 compiler. Even ZelluX's solution is not working. Alternative method to make this work for ARM4.1 is in ZelluX's solution, make 'temp' a global volatile variable. Commented Nov 30, 2011 at 11:15
  • 3
    That's pretty bad for said compiler. Commented Nov 30, 2011 at 11:25
  • 4
    @Shocker: GCC can still optimize out the variable without optimizing out the actual memory access. Those are different issues. Commented Aug 14, 2017 at 17:39
  • 5
    @jww: this usage fits with what is described in that blog post. volatile means that the memory access must occur as written, which is exactly what we want. In other words, we have thought carefully about it, and it means what we think it means. Commented Jan 13, 2018 at 19:37

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