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I am looking over some code to review and have come across a busy wait as such:

int loop = us*32;
int x;
for(x = 0;x<loop;x++)
    /*do nothing*/      

I seem to recall reading that these empty loops can be optimized away. Is this what would happen here or can this work?

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yes............ –  Peter Miehle Apr 24 '12 at 14:42
us? if this code works that must be a really slow CPU. –  Karoly Horvath Apr 24 '12 at 14:45
@KarolyHorvath It's an embedded system and probably does have some really slow processors in (by todays standards). it's not something I am totally familiar with –  Firedragon Apr 24 '12 at 14:47

5 Answers 5

up vote 12 down vote accepted

You're at the mercy of the compiler. Indeed if it's smart it will detect it's a noop. Incidentally, Neil Butterworth has a nice post where he also touches on this subject.

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If you enable optimizations. –  Kevin Apr 24 '12 at 14:43
Thanks for the answer. It was something in the back of my mind saying this sort of thing could be a problem –  Firedragon Apr 24 '12 at 14:46
Not really, even when you can't emit inline assembly code the compiler won't (and can't) throw away expressions with local side-effects. –  Adriano Repetti Apr 26 '12 at 8:34

The answer is yes, the compiler can optimize out the loop.

Use the volatile qualifier to avoid the optimization:

int loop = us * 32;
volatile int x;
for (x = 0; x < loop; x++)
    /*do nothing*/      

If you are programming in the embedded world read the documentation of your compiler as they usually provide delay functions that wait for a certain number of cycles or microseconds passed in parameter.

For example, avr-gcc has the following function in util/delay.h:

void _delay_us(double __us);
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Very useful comment. Thank you –  Firedragon Apr 25 '12 at 8:45
Read a beautiful tutorial on why the volatile keyword should be used:… –  Prabhpreet Jun 16 '14 at 13:57

Some compilers, like gcc, will detect that it's an empty for loop and specifically pessimize for that, with the expectation that you put it in there as a delay loop. You can read more about that at

Mind you, this is compiler specific, so don't count on it with all compilers.

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Indeed, I've ran into this with mingw/msvc, where I had to debug code doing a busy wait on a variable modified by another thread, and the loop was 'optimized' (in the mingw case only with -O2) into a jmp statement jumping to itself (i.e. an infinite loop), much fun was had debugging that. :) –  aphax Oct 30 '12 at 22:23

It's something terribly non-portable.

In some compilers one of these may works (but you have to check with full optimization enabled, the empty instruction may be thrown away):

for (i = 0; i < spinCount; )
   ++i; // yes, HERE


for (i = 0; i < spinCount; ++i)

If you're lucky enough then your compiler may provide a macro or an intrinsic function that will compiled to the nop assembly instruction, something like __noop in MSVC.

As last resource you can simply add a single assembly instruction (it's compiler dependent, it may be __asm or something like that) to execute...nothing, like this:

for (i = 0; i < spinCount; ++i)
   __asm nop

or (check your compiler documentation):

for (i = 0; i < spinCount; ++i)

If you do not have a noop instruction and you can't add assembly code (I'm sorry, what kind of compiler you're using?) you can rely on the assumption that an instruction with a side effect won't be optimized away (or, as posted by @ouah, an access to a variable declared volatile).

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Nothing in the language standard forbids it, so compilers can do it if they are able.

Let's decompile GCC 4.8 to see what it does

Input code:

int main() {
    int i;
    for(i = 0; i < 16; i++)

Compile and decompile:

gcc -c -g -std=c99 -O0 a.c
objudmp -S a.o


a.o:     file format elf64-x86-64

Disassembly of section .text:

0000000000000000 <main>:
int main() {
   0:   55                      push   %rbp
   1:   48 89 e5                mov    %rsp,%rbp
    int i;
    for(i = 0; i < 16; i++)
   4:   c7 45 fc 00 00 00 00    movl   $0x0,-0x4(%rbp)
   b:   eb 04                   jmp    11 <main+0x11>
   d:   83 45 fc 01             addl   $0x1,-0x4(%rbp)
  11:   83 7d fc 0f             cmpl   $0xf,-0x4(%rbp)
  15:   7e f6                   jle    d <main+0xd>
  17:   b8 00 00 00 00          mov    $0x0,%eax
  1c:   5d                      pop    %rbp
  1d:   c3                      retq   

The loop is there: that jle jumps back.

With -O3:

0000000000000000 <main>:
   0:   31 c0                   xor    %eax,%eax
   2:   c3                      retq

which just returns 0. So it was completely optimized away.

The same analysis can be done for any compiler.

See also

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