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Here is the function that finds the greater of two numbers:

int larger(int a,int b)
{
    int c=a-b;
    int k=c>>31&1;
    int max=a-k*c;
    return max;
 }

To find the greatest of three numbers, call it such as:

larger(a,larger(b,c));

How does this work?

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1  
Note, this works for Java and C#. It might work for C and C++, but shifting a negative number is technically undefined behavior for those two. Don't blame anyone but yourself if a demon flies out of your nose. –  cHao Nov 27 '11 at 6:24
1  
The behavior is implementation-defined, not undefined. Nose-demons will not be observed. –  user97370 Nov 27 '11 at 11:45

2 Answers 2

up vote 17 down vote accepted
int c=a-b;

cwill be negative if a < b else it will positive. Now a negative number will have its most significant bit(MSB) set.

int k=c>>31&1;

This step assumes that sizeof(int) is 4 bytes and extracts the MSB of c in k. So k is either 0 or 1

int max=a-k*c;

replacing c = a-b in this we get max = a-k*(a-b). So when

k = 0, max = a-0*(a-b)
           = a

k = 1, max = a-1*(a-b)
           = b
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c will be negative when a<b IF AND ONLY IF a-b doesn't result in a signed integer overflow (that is, when the a-b is mathematically negative but c receives a positive value because of being to short to contain the correct sign bit of the difference in bit 31, when it needs to be at least 33-bit long). Also, signed integer overflows fall into the category of undefined behavior in C/C++, although in practice most of the time it's OK. Right shifts of negative (or is it signed?) integers is also undefined behavior. –  Alexey Frunze Nov 27 '11 at 8:38

This only works for 32-bit integers, of course.

k=c>>31&1 isolates the sign bit, which is 0 or 1.

If k is 0, then a>=b and max = a - 0*(a-b) = a.

If k is 1, then a<b and max = a - 1*(a-b) = a-a+b = b.

Historically, instruction pipelining was the main reason for using code that avoids an if test. If the pipeline is deep and the processor doesn't use branch prediction, a half-dozen integer operations can take less time to do than the time lost due to pipeline refilling and dealing with speculative stores, if any. With branch prediction, code with an if (or equivalent) might be faster. Either way, the cost of the nanoseconds saved or lost might never exceed the program-maintainance costs for that code.

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