I thought the whole point of 2's complement was that operations could be implemented the same way for signed and unsigned numbers. Wikipedia even specifically lists multiply as one of the operations that benefits. So why does x86 have separate instructions for each, mul
and imul
? Is this still true for x8664?
3 Answers
Addition and subtraction are the same, as is the lowhalf of a multiply. A full multiply, however, is not. Simple example:
In 32bit twoscomplement, 1 has the same representation as the unsigned quantity 2**32  1. However:
1 * 1 = +1
(2**32  1) * (2**32  1) = (2**64  2**33 + 1)
(Note that the low 32bits of both results are the same; that's what I mean when I say the "lowhalf of the multiply" is the same).

9@JosephGarvin: No, as soon as you go even one bit over the original length, you need separate instructions. Consider e.g.
1 * 1 = 1
vs.0xFFFFFFFF * 1 = 0xFFFFFFFF
. Commented Dec 28, 2012 at 2:40 
3as the low half of the result is the same and C programs often produce results with the same size as the operands, modern x86 CPUs are often optimized for imul and it has many more forms (
imul rs, rd1[, rd2]
) while mul has only 1 formmul rx
– phuclvCommented Mar 6, 2014 at 14:44 
2the high half of the result is different in signed and unsigned version but they do have a relation so it's possible to get a high unsigned result from a high signed result and vice versa– phuclvCommented Dec 2, 2016 at 2:59

2

2@plasmacel: Correct, that answer you linked is assuming a nonwidening multiply like in C, which that question is tagged with. In C if you want a uint64_t product, you need
a * (uint64_t)b
if the inputs are narrower. It doesn't match reality for asm with widening multiply instructions. Commented May 22, 2022 at 18:31
Multiplication of two 16bit numbers yields a 32bit result. Even if one of the numbers is "1", the processor will effectively extend the other to 32 bits. The process of extending a number to a longer bit length is one of the operations which is different for signed and unsigned values (the other significant operation where sign matters is magnitude comparison, which is also an essential part of division).
The result will be the same for the 2 and 3 operand versions except that the mul and imul instructions differ in how they set the CF and OF flags (carry and overflow).
Think of the two cases: 1 * 1 versus 0xFFFFFFFF * 0xFFFFFFFF in terms of overflow and you'll get the idea.

1There isn't a 2 or 3operand version of
mul
. The only difference would be FLAGS setting, but that's needed rarely enough that Intel decided to only provide faster nonwidening multiply asimul
opcodes. Related: C unsigned long long and imulq hinges on this decision: if you want an overflowchecked unsigned multiply, you unfortunately want oneoperandmul
instead of trying to do something with FLAGS fromimul reg,reg
. Commented May 8, 2021 at 18:46
imul reg, r/m
instead of the oneoperand widening form. And also How many leastsignificant bits are the same for both an unsigned and a signed multiplication?