I have a a bit manipulation method which multiplies a number toward five eighths and if there is a remainder rounds toward 0. The method works, and I understand almost all of it. When I was reviewing it, however, I realized I'm not certain how anding 7 (00000111) accounts for rounding error, in which it would round toward a more negative number instead of 0, and I need to understand why that line works. As far as I can see, shifting multiplyByFive 31 bits to the right will just check the sign of the variable and yield all ones if negative, so anding it with 7 will either yield all zeroes if positive, or y in binary if negative. If my understanding is correct, why does adding that to multiplyFiveEighths and dividing the sum by 8 round a negative number down, without error.

```
int multFiveEights(int x) {
```

break it down into multiplying by 5 and then dividing by 8 shifting it two to the left multiplies it by four, plus x makes it by 5

```
int multiplyByFive = (x << 2) + x;
```

if the result is negative, and 2^3 - 1 = 7 before right shift

```
int addNumber = 7 & (multiplyByFive >> 31);
```

11111111 (if you right shift by 31 when negative you get all 1s)

will return all 0s if positive and 1 in the LSB if negative

adding 7 to multiplyByFive accounts for error

if its negative it will try to round down which goes toward the more negative number, so anding it with 7 accounts for this error/ tests for a remainder

```
int fiveEigths = (multiplyByFive + addNumber) >> 3;
return fiveEigths;
```

`x`

is positive, then do you understand why`x/8`

rounds down but`(x+7)/8`

rounds up? – immibis Feb 9 '17 at 3:18