... using any comparison operators... and without using if, else, etc.

max: // Will put MAX(a,b) into a
And: int a, b; min: // Will put MIN(a,b) into a
from here. 


http://wwwgraphics.stanford.edu/~seander/bithacks.html#IntegerMinOrMax
You can have fun with arithmetically shifting 


I think I've got it.
Would this not work? Basically, you take the difference of the two, and then return one or the other based on the sign bit. (This is how the processor does greater than or less than anyway.) So if the sign bit is 0, return a, since a is greater than or equal to b. If the sign bit is 1, return b, because subtracting b from a caused the result to go negative, indicating that b was greater than a. Just make sure that your ints are 32bits signed. 


In the math world: max(a+b) = ( (a+b) + (ab) ) / 2 min(ab) = ( (a+b)  (ab) ) / 2 Apart from being mathematically correct it is not making assumptions about the bit size as shitfting operations need to do.  x  stands for the absolute value of x. Comment: You are right, the absolute value was forgotten. This should be valid for all a,b positive or negative 


return (a > b ? a : b); or


not as snazzy as the above... but...



Since this is a puzzle, solution will be slightly convoluted:
This is Haskell, but it will be the same in any other language. C/C# folks should use "sgn" (or "sign"?) instead of signum. Note that this will work on ints of arbitrary size and on reals as well. 


From z0mbie's (famous virii writer) article "Polymorphic Games", maybe you'll find it useful:
cheers 


This is kind of cheating, using assembly language, but it's interesting nonetheless:
If you want to be strict about the rules and say that the





