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I need to multiply a number by 3/16, rounding to zero using only bitwise operations such as ! ~ & ^ | + << >>. So far I have the following, the only problem is it doesn't work when the number is negative, it always rounds down rather than to zero. I know there should be bitwise if statement that if x is negative then add 15. But I dont know how to implement it, any help is appreciated.

int ezThreeSixteenths(int x) {
    int times_two = x << 1;
    int times_three = times_two + x;
    int divide_eight = times_three >> 4;
    int a = 0b11111111;
    int a1 = a << 8;
    int a2 = a << 16;
    int a3 = 0b11111 << 24;
    int mask = a | a1 | a2 | a3;
    int final = divide_eight & mask;
    return final;
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marked as duplicate by Fredrik Pihl, Dan Fego, Jens, abligh, Aki Suihkonen Mar 4 at 17:07

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>> 4 doesn't divide by 8, it divides by 16. Note that bit shifting works best for unsigned integers. Right shifting signed numbers is implementation-defined (i.e. the sign bit may be kept or it may not). –  Jens Mar 4 at 16:06
A non-negative int &-ed with a bitmask where only the sign bit is 1 produces 0. –  trutheality Mar 4 at 16:09
check this link –  LearningC Mar 4 at 16:11
This is an impossible endeavor, since "If E1 has a signed type and a negative value, the resulting value is implementation-defined". So while it might be possible to get it "working", it won't necessarily work on any other compiler or even on a different version of the same compiler. Don't mix shifts with signed values. –  Damon Mar 4 at 16:12
Friend of yours? stackoverflow.com/questions/22077554/… –  Fredrik Pihl Mar 4 at 16:12

2 Answers 2

If you have a function that you are satisfied works when it's positive, test the MSB to detect a negative bit, if so take the two's complement (you don't say whether you can use - as well as + but you can use ^ and +), run your function, then take the two's complement again.

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Use twos complement to convert a negative number to a positive number. Then when you're done convert the positive number back to a negative one?

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