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I want to write a C code firmware for Atmel AVR microcontrollers. I will compile it using GCC. Also, I want to enable compiler optimizations (-Os or -O2), as I see no reason to not enable them, and they will probably generate a better assembly way faster than writing assembly manually.

But I want a small piece of code not optimized. I want to delay the execution of a function by some time, and thus I wanted to write a do-nothing loop just to waste some time. No need to be precise, just wait some time.

/* How to NOT optimize this, while optimizing other code? */
unsigned char i, j;
j = 0;
while(--j) {
    i = 0;

Since memory access in AVR is a lot slower, I want i and j to be kept in CPU registers.

Update: I just found util/delay.h and util/delay_basic.h from AVR Libc. Although most times it might be a better idea to use those functions, this question remains valid and interesting.

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Maybe there's some sort of a "Sleep" syscall? Maybe you can just embed some assembly logic? – George Aug 16 '11 at 18:57
Why not to insert something like volatile asm ("rep; nop;") to busy-pause by wasting CPU cycles that do nothing? – user405725 Aug 16 '11 at 18:59
Why not putting this piece of code in a function and compiling it with '-O0' separately from the rest of your '-O2' code? And linking them together obviously. – stnr Aug 16 '11 at 19:00
@George: Just checked. avr-libc has no sleep function that just waits some time. Instead, it maps to CPU sleep instruction, which starts one of the low-power modes (effectively stopping the CPU). Good idea, nevertheless. – Denilson Sá Aug 16 '11 at 19:04
People, you are giving solutions in the comments! Add them as answers! :) – Denilson Sá Aug 16 '11 at 19:05
up vote 51 down vote accepted

I developed this answer after following a link from dmckee's answer, but it takes a different approach than his/her answer.

Function Attributes documentation from GCC mentions:

noinline This function attribute prevents a function from being considered for inlining. If the function does not have side-effects, there are optimizations other than inlining that causes function calls to be optimized away, although the function call is live. To keep such calls from being optimized away, put asm ("");

This gave me an interesting idea... Instead of adding a nop instruction at the inner loop, I tried adding an empty assembly code in there, like this:

unsigned char i, j;
j = 0;
while(--j) {
    i = 0;

And it worked! That loop has not been optimized-out, and no extra nop instructions were inserted.

What's more, if you use volatile, gcc will store those variables in RAM and add a bunch of ldd and std to copy them to temporary registers. This approach, on the other hand, doesn't use volatile and generates no such overhead.

Update: If you are compiling code using -ansi or -std, you must replace the asm keyword with __asm__, as described in GCC documentation.

In addition, you can also use __asm__ __volatile__("") if your assembly statement must execute where we put it, (i.e. must not be moved out of a loop as an optimization).

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You should mark this as accepted – Foo Bah Aug 16 '11 at 20:21
+1! Worked like a charm! – S.C. Madsen Jan 16 '14 at 11:13
How would you do this in visual studio? __asm{""} will not work – woosah Jul 15 '15 at 23:04

Declare i and j variables as volatile. This will prevent compiler to optimize code involving these variables.

unsigned volatile char i, j;
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Although this works, it has a side-effect of forcing those variables into memory. Thus, GCC will read and write them on every loop iteration, adding quite a lot of overhead. (anyway, if I want extremely fine-grained control, I should write assembly directly) – Denilson Sá Aug 30 '11 at 3:05
@DenilsonSá On the other hand, forcing a memory access will ensure the wait always takes the same time, independently if the value is 16bits encodable or not. – Oswin Apr 15 at 11:46
@Oswin, can you please elaborate? What do you mean by "if the value is 16bits encodable or not". What is the "value" you are talking about? And encodable into what? – Denilson Sá Apr 15 at 13:03

I don't know off the top of my head if the avr version of the compiler supports the full set of #pragmas (the interesting ones in the link all date from gcc version 4.4), but that is where you would usually start.

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Do you happen to know which GCC option enables/disables optimizing-out that do-nothing loop? I tried using #pragma GCC optimize 0 (followed by #pragma GCC reset_options after the function), but it disabled ALL optimizations (as expected). It would have been better to disable just that one. – Denilson Sá Aug 16 '11 at 20:04
pragma only works for subsequently defined functions (and works at the function level). – Foo Bah Aug 16 '11 at 20:21
I mean... optimize 0 was too much, it didn't even store those variables in registers (they were kept in memory). So, if I knew which gcc -f option disables the removing of that do-nothing loop, I could disable only that option for that function. That would be great! – Denilson Sá Aug 16 '11 at 22:13

put that loop in a separate .c file and do not optimize that one file. Even better write that routine in assembler and call it from C, either way the optimizer wont get involved.

I sometimes do the volatile thing but normally create an asm function that simply returns put a call to that function the optimizer will make the for/while loop tight but it wont optimize it out because it has to make all the calls to the dummy function. The nop answer from Denilson Sá does the same thing but even tighter...

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Nice idea. Can you show example how to do it? I never understood these makefiles... – Kamil Jan 27 '13 at 1:42
@Kamil, a very short explanation, run gcc -c [your flags here] -o foo.o foo.c to compile the source into an object, then run gcc [other flags here] -o foo.elf foo.o bar.o to link all object files together. Feel free to check the Makefiles from my AVR projects: atmega8-blinking-leds, atmega8-hidkeys-helloworld, atmega8-magnetometer-usb-mouse – Denilson Sá Nov 7 '13 at 19:26

Putting volatile asm should help. You can read more on this here:-


If you are working on Windows, you can even try putting the code under pragmas, as explained in detail below:-


Hope this helps.

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As mentioned in a comment on this answer, usiing volatile has the side effect of forcing these variables into memory, with LD and ST instructions. – einpoklum Jan 14 at 20:20

I'm not sure why it hasn't been mentioned yet that this approach is completely misguided and easily broken by compiler upgrades, etc. It would make a lot more sense to determine the time value you want to wait until and spin polling the current time until the desired value is exceeded. On x86 you could use rdtsc for this purpose, but the more portable way would be to call clock_gettime (or the variant for your non-POSIX OS) to get the time. Current x86_64 Linux will even avoid the syscall for clock_gettime and use rdtsc internally. Or, if you can handle the cost of a syscall, just use clock_nanosleep to begin with...

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For me, on GCC 4.7.0, empty asm was optimized away anyways with -O3 (didnt try with -O2). and using a i++ in register or volatile resulted in a big performance penalty (in my case).

What i did was linking with another empty function which the compiler couldnt see when compiling the "main program"

Basically this:

Created "helper.c" with this function declared (empty function)

void donotoptimize(){}

Then compiled "gcc helper.c -c -o helper.o" and then

while (...) { donotoptimize();}

This gave me best results (and from my belief, no overhead at all, but can't test because my program won't work without it :) )

I think it should work with icc too. Maybe not if you enable linking optimizations, but with gcc it does.

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You can also use the register keyword. Variables declared with register are stored in CPU registers.

In your case:

register unsigned char i, j;
j = 0;
while(--j) {
    i = 0;
share|improve this answer
Reserving 2 of 32 microcontroller registers for silly loop is bad idea. – Kamil Jan 27 '13 at 1:40

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