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assembly - How does the GCC implementation of modulo (%) work, and why does it not use the div instruction?

I was trying to work out how to calculate modulo 10 in assembly so i compiled the following c code in gcc to see what it came up with.

unsigned int i=999;
unsigned int j=i%10;

To my surprise I got

movl    -4(%ebp), %ecx
movl    $-858993459, %edx
movl    %ecx, %eax
mull    %edx
shrl    $3, %edx
movl    %edx, %eax
sall    $2, %eax
addl    %edx, %eax
addl    %eax, %eax
movl    %ecx, %edx
subl    %eax, %edx
movl    %edx, %eax
movl    %eax, -12(%ebp)

Where -4(%ebp) or "i" is the input and -12(%ebp) or "j" is the answer. I've tested this and it does work no matter what number you make -4(%ebp).

My question is how does this code work and how is it better than using the div operand.

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Second question first: div is a very slow instruction (more than 20 clock cycles). The sequence above consists of more instructions, but they're all relatively fast, so it's a net win in terms of speed.

The first five instructions (up to and including the shrl) compute i/10 (I'll explain how in a minute).

The next few instructions multiply the result by 10 again, but avoiding the mul/imul instructions (whether this is a win or not depends on the exact processor you're targeting - newer x86s have very fast multipliers, but older ones don't).

movl    %edx, %eax   ; eax=i/10
sall    $2, %eax     ; eax=(i/10)*4
addl    %edx, %eax   ; eax=(i/10)*4 + (i/10) = (i/10)*5
addl    %eax, %eax   ; eax=(i/10)*5*2 = (i/10)*10

This is then subtracted from i again to obtain i - (i/10)*10 which is i % 10 (for unsigned numbers).

Finally, on the computation of i/10: The basic idea is to replace division by 10 with multiplication by 1/10. The compiler does a fixed-point approximation of this by multiplying with (2**35 / 10 + 1) - that's the magic value loaded into edx, though it's output as a signed value even though it's really unsigned - and right-shifting the result by 35. This turns out to give the right result for all 32-bit integers.

There's algorithms to determine this kind of approximation which guarantee that the error is less than 1 (which for integers means it's the right value) and GCC obviously uses one :)

Final remark: If you want to actually see GCC compute a modulo, make the divisor variable (e.g. a function parameter) so it can't do this kind of optimization. Anyway, on x86, you compute modulo using div. div expects the 64-bit dividend in edx:eax (high 32 bits in edx, low 32 bits in eax - clear edx to zero if you're working with a 32-bit number) and divides that by whatever operand you specify (e.g. div ebx divides edx:eax by ebx). It returns the quotient in eax and the remainder in edx. idiv does the same for signed values.


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