I'm writing some procedures in x86 assembler that modify ZF as a means to return boolean values, so I can do something like this:

call is_value_correct
jz not_correct

I'm wondering if this is considered bad practice since some coding standards say that simple values should be returned in the AX register.

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    If you don't have to follow a calling convention, and the callers are written in assembly, then I think it's perfectly acceptable. BIOS services did it a lot and I found it very useful (they spared me a test). Jan 22, 2018 at 12:11
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    no, it's not bad practice. A while ago even OSes (e.g. CP/M or DOS) used to return errors in flags ( e.g. DOS 21h function 03ch indicates an error in the CarryFlag)
    – Tommylee2k
    Jan 22, 2018 at 12:42
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    as long you just call this function inside your code it is fine, libary functions are usually programmed in and for high-level-languages, where you usually have only one return-value usually in eax/rax. You could use the carry-flag too.
    – sivizius
    Jan 22, 2018 at 13:29
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    gcc inline assembly can use flag registers to return values (since gcc 6 I believe).
    – EOF
    Jan 22, 2018 at 17:54
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    It is fine. I've used this many times across many assembler languages over the last 50 years. The key point is to document the API carefully and accurately to reflect what registers/condition bits return in what state.
    – Ira Baxter
    Feb 24, 2022 at 7:32

1 Answer 1


Do it if it makes your code run faster and/or be smaller overall. It's not bad practice.

One of the advantages of writing in asm by hand is being able to use custom calling conventions functions, even when they're not private helper functions or macros. This includes being able to "return" multiple values in different registers, and basically do whatever you want.

As with any custom calling convention, all you need to do is document it with comments. Here's an example of how you might write such comments, with a specific and intentionally non-standard set of things.

# inputs:   foo in EAX (zero-extended into RAX), bar in EDI
# pre-requisites: DF=0
# clobbers: RCX, RDX, AL (but not the rest of EAX)
# returns:  AL = something,  ZF = something else
   setc al
   something that sets ZF

If you're willing to sacrifice efficiency for style or readability, you probably shouldn't be writing in asm in the first place in 2018 when compilers are capable of generating good asm most of the time, and you rarely need to write your own boot sector or whatever. (i.e. performance is the main use-case left for hand-written asm, and it's only appropriate if you're going all out for performance.)

Yes it's possible for hand-written asm to become an unreadable / unmaintainable mess, but if done carefully when it has a reasonable semantic meaning, this optimization won't make your code a mess.

There is even precedent for doing this: x86-64 OS X system calls use CF as the error/no-error status, separate from the rax return value. Unlike Linux where errors are indicated by RAX return values from -4095 to -1, although otherwise they use the same x86-64 System V ABI / calling convention.

Some DOS int 0x21 system calls and PC BIOS int 0x10 functions have a similar flag-return system. It lets the caller branch on error, so it saves code-size (a test or cmp) and avoids needing in-band signaling of errors.

Inline asm

BTW, in inline assembly, not writing a whole function, you can and should output something in FLAGS instead of wasting instructions materializing a boolean in a register, especially if the compiler is just going to test it again. Condition-code output constraints are supported since GCC6, see this answer for an example.

But it's not easy to safely call a function from inside an asm statement if you want to use C to call a function with a custom calling convention. You need to tell the compiler that every call-clobbered register is clobbered. Including st0..7, mm0..7, x/y/zmm0..31, and k0..7 (if AVX-512 is supported, otherwise the compiler won't even know those reg names). Or only the ones your hand-written asm function actually clobbers, if you want to commit to maintaining the constraints in sync with the function's actual implementation.

And call itself does a push which steps on the red zone. See Calling printf in extended inline ASM for an example that should be safe.

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    I wonder why ABIs simply aren't such that returning _Bool is done via setting a flag. Using a register for _Bool returns seems like a waste to me. May 27, 2019 at 12:25
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    @PSkocik: That would be interesting. Many functions need to add or sub to clean up a stack frame, but they could LEA. Or defer an actual flag-setting operation until right before returning, after running destructors. But the biggest problem is: which flag would you pick? CF is the obvious choice (because it has special instructions to use it, like adc / sbb), and some special instructions set it (bt / bts etc, rdrand). But if your _Bool comes from ZF from an instruction like bsr or bsr or an == compare, or SF + OF signed compare, you prob. need sete/le + cmp. May 27, 2019 at 17:10
  • I'd like to point out that as of GCC 6.1 (April 2016), it's possible to directly return a value in the flags register from inline assembly. Which I know thanks to this answer.
    – Deadcode
    Feb 23, 2022 at 17:22
  • @Deadcode: yes, true, but this question is about whole functions, not inline asm. If you do have a hand-written function that ends with ret that doesn't follow the standard calling convention exactly, it's still a big pain to call it from C. If you use asm("call foo" : "=@ccc", "+D"(arg)) you still need to declare clobbers on every call-clobbered register (including x/y/zmm0..31), and compile with -mno-redzone or otherwise work around it. So yeah, if you're using inline asm, probably better to transplant the actual important part into inline asm, not wrap a call Feb 23, 2022 at 22:15
  • Not sure why you're talking about wrapping a call; I never suggested that. I've been trying to spread the word but some still don't know about it. I thought maybe you didn't know (you didn't mention it in that thread). You reply in asm threads more often than I; perhaps you too could tell people of this feature.
    – Deadcode
    Feb 24, 2022 at 1:19

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