# How does this code work to find the largest of three numbers without using any comparison operator?

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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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
The behavior is implementation-defined, not undefined. Nose-demons will not be observed. –  user97370 Nov 27 '11 at 11:45

## 3 Answers

``````int c=a-b;
``````

`c`will 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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try this.. it is lengthy, sorry :P

``````while(x && y && z)
{
x--;y--;z--;c++;
}

if(x && y)
{
while(x && y)
{
x--;y--;c++;
}
if(x) c+=x;
if(y) c+=y;
}

if(z && y)
{
while(z && y)
{
z--;y--;c++;
}
if(z) c+=z;
if(y) c+=y;
}

if(x && z)
{
while(x && z)
{
x--;z--;c++;
}
if(x) c+=x;
if(z) c+=z;
}

return c;
``````
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