# What is the reverse operation of bitwise AND?

How can I get `a` from `b` and `c`? What would be the reverse operation?

Here is the code:

``````class  s
{
public static void main(String ar[])
{

int a = 20;

int b = 5;

int c = 0;

c = (a & b) ;

System.out.println(c);

int d = (c & b);

System.out.println(d);
}
}
``````
-

You can't. If a bit in `c` is 0 and the corresponding bit in `b` is 0, it's impossible to know whether the corresponding bit in `a` was 0 or 1. By a similar argument, bitwise OR (the `|` operator) is also irreversible. On the other hand, bitwise XOR (the `^` operator) is reversible.
As a concrete example, if for 1-bit numbers, `c` is 1 and `a` is 1, then `b` could be either 0 or 1. More generally, when `c == a`, the fact that `c = a | b` gives you no information about `b` : `P(b == n ┃ ((a == c && (c == a | b))) == P(b == n)`. –  Mike Samuel Mar 16 '11 at 20:07
If you look at the truth table of the `and` logical operation, you can see that it contains three falses and one true. Therefore it can't be reversed.
Only `equals` and `xor` have balanced truth tables, and they are the two reversible boolean operators.