I need to get the difference of 2 signed integers. Is there an ABS() function in x86 assembly language so I can do this. Any help would be greatly appreciated.

You can compare and conditionally swap, then subtract. – Hamish Grubijan Apr 14 '10 at 16:33

What platform are you on? There's no such thing as "Assembly language", only "x86 assembly" or "ARM assembly", etc. – Stephen Canon Apr 14 '10 at 16:33

Is is x86 Assembly.. – Greg C. Apr 14 '10 at 16:35

How do I compare and conditionally swap, then subtract. Can you provide an example in x86.. – Greg C. Apr 14 '10 at 16:36

You mean distance, not difference. – Andreas Rejbrand Apr 15 '10 at 23:31
This is how the C library function abs()
does it in assembly without branching:
abs(x) = (x XOR y)  y
where y = x >>> 31
(assuming 32bit input), and >>>
is arithmetic right shift operator.
Explanation of the above formula:
We want to generate 2's complement of negative x
only.
y = 0xFFFF, if x is negative
0x0000, if x is positive
So when x
is positive x XOR 0x0000
is equal to x
. And when x
is negative x XOR 0xFFFF
is equal to 1's complement of x
. Now we just need to add 1
to get its 2's complement which is what expression y
is doing . Because 0xFFFF
is 1 in decimal.
Let's look at assembly generated for following code by gcc
(4.6.3 on my machine):
C code:
main()
{
int x;
int output = abs(x);
}
gcc 4.6.3 generated assembly snippet (AT&T syntax), with my comments:
movl 8(%rbp), %eax # 8(%rbp) is memory for x on stack
sarl $31, %eax # shift arithmetic right: x >>> 31, eax now represents y
movl %eax, %edx #
xorl 8(%rbp), %edx # %edx = x XOR y
movl %edx, 4(%rbp) # 4(%rbp) is memory for output on stack
subl %eax, 4(%rbp) # (x XOR y)  y
BONUS (from Hacker's Delight): If you have a fast multiply by +1 and 1, the following will give you abs(x)
:
((x >>> 30)  1) * x
If it is x86 assembly, the following according to the ever useful wikipedia should work. Subtract one value from the other and then use these instructions on the result:
cdq
xor eax, edx
sub eax, edx
If you want to handle all cases correctly, you can't just subtract and then take the absolute value. You will run into trouble because the difference of two signed integers is not necessarily representable as a signed integer. For example, suppose you're using 32 bit 2s complement integers, and you want to find the difference between INT_MAX
(0x7fffffff
) and INT_MIN
(0x80000000
). Subtracting gives:
0x7fffffff  0x80000000 = 0xffffffff
which is 1
; when you take the absolute value, the result you get is 1
, whereas the actual difference between the two numbers is 0xffffffff
interpreted as an unsigned integer (UINT_MAX
).
The difference between two signed integers is always representable as an unsigned integer. To get this value (with 2s complement hardware), you just subtract the smaller input from the larger and interpret the result as an unsigned integer; no need for an absolute value.
Here's one (of many, and not necessarily the best) way do this on x86, assuming that the two integers are in eax
and edx
:
cmp eax, edx // compare the two numbers
jge 1f
xchg eax, edx // if eax < edx, swap them so the bigger number is in eax
1: sub eax, edx // subtract to get the difference

1Using
jge
might cause thebranch predictor
in cpu tomisprediction
, that will slow down the cpu dramatically. So, if performance is in concern, it's better to use the answer from @bits or @Hal – Eric Wang Jun 7 '16 at 4:37
Old thread but if I surfed in here late you might have too... abs is a brilliant example so this should be here.
; abs(eax), with no branches.
; intel syntax (dest, src)
mov ebx, eax ;store eax in ebx
neg eax
cmovl eax, ebx ;if eax is now negative, restore its saved value

1This is really simple & efficient by avoiding
branch predictor
, definitely should be accepted as answer. – Eric Wang Jun 7 '16 at 4:39
Assuming that your integers are in MMX or XMM registers, use psubd
to compute the difference, then pabsd
to get the absolute value of the difference.
If your integers are in the plain, "normal" registers, then do a subtraction, then the cdq
trick to get the absolute value. This requires using some specific registers (cdq
signextends eax
into edx
, using no other register) so you may want to do things with other opcodes. E.g.:
mov r2, r1
sar r2, 31
computes in register r2
the signextension of r1
(0 if r1
is positive or zero, 0xFFFFFFFF if r1
is negative). This works for all 32bit registers r1
and r2
and replaces the cdq
instruction.
A short but straightforward way, using the conditional move instruction (available Pentium and up I think):
; compute ABS(r1r2) in eax, overwrites r2
mov eax, r1
sub eax, r2
sub r2, r1
cmovg eax, r2
The sub instruction sets the flags the same as the cmp instruction.

cmov was new with P6 (ppro/PII), but yes you can assume it these days. gcc does. – Peter Cordes Nov 20 '15 at 1:38
ABS(EAX)
test eax, eax ; Triger EFLAGS [CF, OF, PF, SF, and ZF]
jns AbsResult ; If (SF) is off, jmp AbsResult
neg eax ; If (SF) is on. (negation nullify by this opcode)
AbsResult:
If the flags are already set by whatever generated the value in eax, you don't need the test
. Branch mispredicts will make this slow if the input values are randomly distributed between positive and negative.
This works the same way for RAX, AX, AL.

1
or reg, reg
is always a worse choice thantest reg,reg
. stackoverflow.com/questions/33721204/…. Also, branches aren't "one clock". They're either ~zero (predicted correctly), or ~15 clocks (mispredict). – Peter Cordes Nov 20 '15 at 1:32