Well, to be honest this is actually my homework where I have to implement an algorithm which has to be able to divide two values without taking the absolute values of them to do the division. It also has to find out the remainder.

The dividend is the one with bigger absolute value and the divider has smaller absolute value.

I have done a lot of Googling but most of the examples only cover unsigned values.

I tried to implement it by the scheme mentioned in the first reply: implement division with bit wise operator That didn't get me very far for some reason.

Then I found this: http://www4.wittenberg.edu/academics/mathcomp/shelburne/comp255/notes/BinaryDivision.pdf I got it working when I wrote the code below using the example in the end of the document.

This one gets it right if the first value is positive and the second isn't.

I have worked on it for at least 2 days now. Maybe somebody can say where am I going wrong.

Here is the code I managed to put together with the help of @Dysaster. It doesn't work when both values are either negative or positive but I managed to get 20 points out of 25 for it at the protection.

```
#include <stdio.h>
#include <stdlib.h>
char *bits(char Rg) {
unsigned char bit = 0x80;
int i;
char *bits;
bits = (char*) malloc(9);
for (i=0; i < 8; i++) {
*(bits+i) = Rg & bit ? '1' : '0';
bit >>= 1;
}
*(bits+i) = '\0';
return bits;
}
int divide(char Rg1, char Rg2) {
char Rg3, r=0;
int i;
printf("Rg1 : %s (%2d)\n", bits(Rg1), Rg1);
printf("Rg2 : %s (%2d)\n", bits(Rg2), Rg2);
Rg3 = Rg1;
printf("Rg3 : %s (%2d) <- copy of Rg1\n", bits(Rg3), Rg3);
if (Rg1 < 0) {
r = 0xff;
}
printf("rem : %s (%2d) <- remainder after sign check\n", bits(r), r);
for (i = 0; i < 8; i++) {
printf("\n ------------ %d. ITERATION ------------\n", i+1);
if (Rg3 & 0x80) {
printf(" - left shift r and Rg3, carry\n");
Rg3 <<= 1;
r <<= 1;
r += 1;
printf(" > %s (%2d) | %s (%2d)\n", bits(r), r, bits(Rg3), Rg3);
} else {
printf(" - left shift r and Rg3\n");
Rg3 <<= 1;
r <<= 1;
printf(" > %s (%2d) | %s (%2d)\n", bits(r), r, bits(Rg3), Rg3);
}
printf(" - add in the divisor\n");
r += Rg2;
printf(" > %s (%2d) | %s (%2d)\n", bits(r), r, bits(Rg3), Rg3);
if (Rg1 < 0 && Rg2 > 0 && r >= 0 || Rg1 > 0 && Rg2 < 0 && r < 0) { // real ugly, I know
printf(" - subtract the divisor and set the lowest bit of Rg3 to 1\n");
r -= Rg2;
Rg3 |= 0x01;
printf(" > %s (%2d) | %s (%2d)\n", bits(r), r, bits(Rg3), Rg3);
} else {
printf(" - lowest bit of Rg3 stays 0\n");
printf(" > %s (%2d) | %s (%2d)\n", bits(r), r, bits(Rg3), Rg3);
}
}
// post division sign check
if ((Rg1 < 0 && Rg2 > 0) || (Rg1 > 0 && Rg2 < 0)) {
Rg3++;
}
printf("\n%s (%d) / %s (%d) = %s (%d) r %s (%d)\n\n", bits(Rg1), Rg1, bits(Rg2), Rg2, bits(Rg3), Rg3, bits(r), r);
}
int main(int argc, char *argv[]) {
divide(-13, -4); // buggy
divide(-29, 4); // OK
divide(19, -8); // OK
divide(17, 5); // buggy
return 0;
}
```