((x + 2^{31}) mod 2^{32}) - 2^{31}

Is this what you're looking for? That should be the result of *any* mathematical operation on a machine that uses 32-bit signed 2's complement integers. That is, if the mathematical value of an operation returns x, the above formula gives the integer that would actually be stored (if the operation doesn't fault, and it's not a "saturating" operation).

Note that I'm using "mod" with a mathematical definition, not the way the `%`

operator works in Java or C. That is, A mod B, where A and B are integers and B > 0, always returns an integer in the range 0 .. B-1, e.g. (-1) mod 5 = 4. More specifically, A mod B = A - B*floor(A/B).

`long`

instead. – AntonH May 5 '14 at 20:21`Integer.MAX_VALUE + 1 == Integer.MIN_VALUE`

. – Boris the Spider May 5 '14 at 20:22`(INTEGER.MAX_VALUE * 10 - INTEGER.MIN_VALUE) * randomNumber;`

? – Luiggi Mendoza May 5 '14 at 20:23`main`

method and print the output. – Boris the Spider May 5 '14 at 20:24