# How to calculate division reminder in SPARC Assembly?

Here is the pseudo code which computes division of two positive integers.
HR register saves reminder, and LR saves dividend. (and eventually saves root)
However I think this algorithm has some problem.
Because this algorithm sometimes don't recover subtracion.(Division is a continuation of subtraction.)
For example 6 / 3 (0110 / 011)
This algorithm subtract -3 one more time. (This situation never occur when we calculate this division by hand)
So I think this algorithm has some problem.
Don't you agree with me? How to calculate division reminder in Assembly?

for i = 1 to num_of_bits do
(HR LR) << 1
if (HR >= 0) then
HR = HR - DIVISOR
else
HR = HR + DIVISOR
endif
if (HR > 0) then LR(lsb) = 1 endif
endfor
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This is assembly?! For what chip? – Matt Phillips Oct 10 '11 at 4:13
in SPARC. I must have written what architecture is.. – manutd Oct 10 '11 at 4:53
stackoverflow.com/questions/5189631/…. As originally asked, the question was about the 6800, but the answer is about eqally applicable to any processor without a divide instruction. – Jerry Coffin Oct 10 '11 at 5:34
@JerryCoffin Wow, That's so awesome! – manutd Oct 10 '11 at 8:24

I don't speak SPARC asm, but I do speak C. Here's a sample implementation of the algorithm for 16/8=8,8 division:

#include <stdio.h>

typedef unsigned char uint8;
typedef unsigned int uint;

int u8div(uint8* dividendh, uint8* dividendl, uint8 divisor)
{
int i;

if (*dividendh >= divisor)
return 0; // overflow

for (i = 0; i < 8; i++)
{
if (*dividendh >= 0x80)
{
*dividendh = (*dividendh << 1) | (*dividendl >> (8 - 1));
*dividendl <<= 1;

*dividendh -= divisor;
*dividendl |= 1;
}
else
{
*dividendh = (*dividendh << 1) | (*dividendl >> (8 - 1));
*dividendl <<= 1;

if (*dividendh >= divisor)
{
*dividendh -= divisor;
*dividendl |= 1;
}
}
}

return 1;
}

int u8div2(uint8* dividendh, uint8* dividendl, uint8 divisor)
{
uint dividend = (*dividendh << 8) | *dividendl;

if (*dividendh >= divisor)
return 0; // overflow

*dividendl = dividend / divisor;
*dividendh = dividend % divisor;

return 1;
}

int main(void)
{
uint dividendh, dividendl, divisor;

for (dividendh = 0; dividendh <= 0xFF; dividendh++)
for (dividendl = 0; dividendl <= 0xFF; dividendl++)
for (divisor = 0; divisor <= 0xFF; divisor++)
{
uint8 divh = dividendh, divl = dividendl, divr = divisor;
uint8 divh2 = dividendh, divl2 = dividendl;

printf("0x%04X/0x%02X=", (divh << 8) | divl, divr);

if (u8div(&divh, &divl, divr))
printf("0x%02X.0x%02X", divl, divh);
else
printf("ovf");

printf(" ");

if (u8div2(&divh2, &divl2, divr))
printf("0x%02X.0x%02X", divl2, divh2);
else
printf("ovf");

if ((divl != divl2) || (divh != divh2))
printf(" err"); // "err" will be printed if u8div() computes incorrect result

printf("\n");
}

return 0;
}
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I think that if (*dividendh >= 0x80) { *dividendh = (*dividendh << 1) | (*dividendl >> (8 - 1)); *dividendl <<= 1; *dividendh -= divisor; *dividendl |= 1; } is not necessary – manutd Oct 10 '11 at 10:30
@manutd: if you remove that part, the code won't always work correctly. I'm going to update the answer with more code to demonstrate it. – Alexey Frunze Oct 10 '11 at 10:49
I agree with you in case of that dividendh has some initial value (!= 0) But If dividendh has initial value as 0, The result of two function is same. – manutd Oct 10 '11 at 11:47
Could you tell me Why did you put non-zero value in dividendh? Isn't it a reminder? If it is reminder, Wouldn't it be better to set the initial value of dividendh to zero? – manutd Oct 10 '11 at 11:51
@manutd: many CPUs's division instructions divide 2N bits by N bits (and return N bits of quotient and N bits of remainder) basically doing the opposite of multiplication where you multiply N bits by N bits and get 2N bits. That's what I did. The calculations are done in-place (the remainder appears in dividendh and quotient in dividendl), which is also very typical of those divide instructions and division subroutines. – Alexey Frunze Oct 10 '11 at 11:56

Several implementation of the division algorithm (that also computes the remainder) can be found in appendix E of the SPARC architecture manual.

Newer version of the SPARC architecture include the division operators UDIV and SDIV.

A furhter implemenation can be found here.

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