How can I set or clear overflow flag in x86 assembly?

Question

I want to write a simple code (or algorithm) to set/clear overflow flag. For setting OF, I know that I can use signed values. But how can I clear that?

Answer 1

There are many possible solutions.

For instance, test al, al will clear the OF flag without affecting register contents.

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Or, if you don't want to affect the other flags, you can just directly modify the *FLAGS register. For example, in 32-bit, this would look like:

pushfd                   ; Push EFLAGS onto the stack
and dword [esp], ~0x800  ; Clear bit 11 (OF)
popfd                    ; Pop the modified result back into EFLAGS

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_{Edit: Changed or al, al to test al, al per Peter Cordes' recommendation. (The effects are the same but the latter is better for performance reasons)}

Answer 2

Provided:

• you have a register whose content you don't care about,
• you must to preserve CF-Flag

Best solution to clear OF (sar):

Say register is al. (setc only with byte registers r/8)

; clear OF-Flag, preserve CF
setc al
sar al, 1

Note: this is good because it has no partial flag updates, which may cause stalls. (sar xx, 1 writes all flags, not leaving any unmodified, unlike inc/dec) c.f. Intel Optimization Guide, 3.5.2.6: Partial Flag Register Stalls, but note that modern Intel CPUs don't have partial-flag stalls or flag-merging at all: instructions that read FLAGS just read either or both of CF or the SPAZO group as 2 separate inputs. (That's why cmovbe is still 2 uops on Broadwell and later: it needs CF and ZF. https://uops.info/)

Source:Intel Documentation SAR p.1234

General solution (inc/dec):

Say register is al. (works with r/8, r/16, r/32, r/64)

; set OF-Flag, preserve CF
mov al, 0x7F
inc al

; clear OF-Flag, preserve CF
mov al, 0x0
inc al

Source:Intel Documentation INC p.551

Alternatively (adox):

Different apporach, if you can assume:

• an adx enabled processor (You check cpu flags with grep adx /proc/cpuinfo)

Say register is eax. (need r64/r32)

; clear OF-Flag, preserve CF
mov eax, 0x0
adox eax, eax

; set OF-Flag, preserve CF
mov eax, 0xFFFFFFFF
adox eax, eax 

Note: Don't try to replace mov with xor (or similar) since that will clear CF

Source:Intel Documentation ADOX p.150

Answer 3

popf is quite slow (like one per 20 cycles on Skylake); if you need to clear or set OF then ideally do it as a side-effect of an ALU instruction, especially one you were going to use anyway for a useful computation you know won't or will overflow. (One that will overflow is usually harder to find, unlike for CF where you can always just sub instead of add with a constant that wraps almost all the way around for all inputs except a very small range).

If you need to set/clear just OF without affecting other condition-codes for some reason, then yes, pushf/popf is the way to go. lahf / sahf doesn't get OF, because OF is bit 11 in EFLAGS, outside the low 8.

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test al,al (or any same,same register) clears OF and CF, just like comparing / subtracting zero. Other flags are usefully set according to the value.

xor eax,eax clears EAX, and clears OF/SF/CF, sets ZF/PF. You often need a zeroed register anyway, so if you need OF clear (e.g. for the start of an adox extended-precision chain), then kill 2 birds with one stone and arrange your code so the last flag-setting instruction is the xor-zeroing.

In x86-64, you can also trust that using add on a pointer + length doesn't cross over the middle of unsigned virtual address space, and thus clears OF. But that assumption could break on future CPUs with fully 64-bit virtual addresses, because then there'd be no hole in virtual address space around the signed-wraparound boundary, so a single contiguous array could span it. And that can already happen in 32-bit code, running under a 64-bit kernel or a 32-bit kernel that doesn't use a 2G:2G kernel:user split of virtual address space.

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xor eax, eax / cmp al, -128 sets OF, and only takes 4 bytes of code. It's is probably the cheapest way, and unlike sub or whatever, it doesn't write any partial registers (or any full registers). It still leaves EAX zeroed.

0 - -128 wraps to -128, i.e. signed OF. An 8-bit 2's complement integer can only represent values from -128..+127. The most-negative number is a special case, and has no proper inverse. It's its own absolute value / negative, or more properly those functions overflow. (Or you could treat the absolute value operation as having signed input and unsigned output, so the result is +128, i.e. 0x80. x86 doesn't have an integer abs instruction (prepare a -x, then test/cmov), but with SSSE3 it does have vector integer pabsb)

For any known value in AL other than -1, there's a cmp al, imm8 that will set OF. For any value from 0..127, cmp al, -128 wraps. For any value from -2..-128, cmp al, +127 wraps and thus sets OF. For -1, subtracting 127 will only take you to -128. Subtracting -128 takes you up to +127. Unfortunately I don't think there's a single-instruction way to set OF without a known value in a register.

It doesn't have to be al, but there's a 2-byte special encoding of cmp al,imm8. Other 8 or 32-bit registers can use the normal 3-byte encoding.

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Without clobbering any registers, and no known constants, this is 6 bytes:

push   rax
xor    eax,eax
cmp    al, -128
pop    rax

This does clobber the other condition codes, but it's faster than pushf/popf. Normally you can clobber something, though, or else you can't clobber the stack.

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Toggle OF

setno al              # OF=0 -> AL=1           OF=1 -> AL=0
cmp   al, -127        # 1 - -127 = 128 = -128     0 - -127 = +127