division / multiplication instructions in x86 ... there's a few things wrong in this code:
You're using signed operands with the unsigned
div operations. The operations that you really perform therefore are:
- the signed
0xfffffdca as 2-complement 32bit) is interpreted as unsigned
- this is multiplied by
4096 resulting in
EDX:EAX). Notice the lower 32bit of that convert to
-2318336 as you "expect"
- The full 64bit value is divided by
400 but due to the fact that the upper 32bit are
4095), the result exceeds
UINT32_MAX and the exception is raised.
If you clear the upper 32bits by inserting an
xor %%edx,%%edx before the
divl, the operation will succeed but it'll return you something you don't expect - namely, it divides
400 resulting in
EAX and the remainder,
That's "correct" as far as what you instructed the machine to do, but not what you expect. If you want to use signed numbers, you need
The assembly can ultimately be simplified into the following:
__asm__ __volatile__ (
"imull %3 \n"
"idivl %4 \n"
: "=a" (nRet),
: "a" (nNumber),
That's because gcc allows to specify which registers to use as input / output, so no data moves are necessary at all here. Also, the
"m" constraint alone creates suboptimal code on 64bit as it forces the arguments onto the stack; give it an alternative and the generated code will be better.
Edit: just changed the
nMod constraint to
"=&d"(nMod); it needs to be what gcc calls an "early clobber". This means that the specified output register is overwritten before all input operands are consumed/used, and tells the compiler not to pass inputs (the
(nDenominator), in particular) in
EDX. Otherwise, were that to happen, it would cause an "interesting" failure mode. This is not an issue if you only use the
nDenominator but once registers are allowed, one better be careful.
Edit2: Also note that the above code isn't proof against overflow exceptions of course. You can still call it like
MulDivRound(INT32_MAX, 4, 2) to trigger those. Legitimately / by the way these instructions are designed. If you must make sure that doesn't happen, you've got to add code which compares the denominator against
RDX before the
[i]div and handle the case where it's smaller.