Compiler memory barriers has the effect among other things to force the compiler to make sure all stack variables that are cached in registers are written to memory before the barrier.

For example, GCC has the following statement:

asm inline ("" : : : "memory");

Is there any way to tell a compiler (specifically GCC, but I'm interested in others as well) to do the same effect for only a specific variable? something like the following imagined construct:

int x;
asm inline ("" : : : "memory(x)");

With the expected behavior that the value of x and x only will be written to the corresponding memory location, if it happens to be cached in a register.

The reason for this is that I have a specific variable which I need to make sure is not cached in a register so that a hardware engine can read its value. However, a full compiler memory barrier will force the compiler to write to memory the value of all other variables that might be cached in register at that point in time as well which can amount to much more data then I need to write. I wondered if there something more specific.

Thanks in advance!


Try with { int y = x; *(volatile int*)&x = y; } and inspect the resulting assembly.

  • 1
    Right! and it seems that for my need even *(volatile int*)&x = x; works just as well. Thanks a bunch! :-)
    – gby
    Jan 17 '12 at 14:45
  • just liked simple sollution +1
    – Imposter
    Feb 26 '13 at 9:29
  • If x was in a register, it act as required. However, if x was already committed in memory, it will load/store it again. Apr 3 '20 at 12:49

Since you are willing to work with gcc extensions you could use the extensions for atomic instructions for that feature:

__sync_bool_compare_and_swap(&myvar, 0, 0)

would set the value of the variable to 0 if it is already 0 :) and in addition imply a full sequential consistency on that memory location.


Recollecting one of the threads on lkml, one of the methods for single variable compiler-only barrier is:

#define forget(x) __asm__ __volatile__("":"=m"(x):"m"(x))
  • A side note: this is a full barrier (that force store to memory and force reload from memory). You can obtain a write barrier with __asm__ __volatile__(""::"m"(x)) and a read barrier with __asm__ __volatile__("":"=m"(x)) Apr 7 '20 at 8:12

I guess you can achieve it by specifying your variable in the list of output values of asm:

__asm__ __volatile__ ("" : "=r" (x) : : )

See Extended Asm for some information.


It may be better to use "g" constraint instead of "r" as more permissive.

__asm__ __volatile__ ("" : "=g" (x) : : )

Also, I've found another great howto for inline assembly.

  • 1
    Nope, first of all neither g or r constraint will work because they allow to put the value in a register. I thought an "m" constraint on the address of x might work but gcc emits an error about memory input 0 not being directly addressable. Thanks for trying though :-)
    – gby
    Jan 17 '12 at 14:58

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