How do you do the XOR bitwise operation if you only have available the AND and the OR operations?
Creating my own scriting language  ChrisScript  you just need something like:
Even without NOT, it can be emulated like this. But this is the best solution you're going to get without having some form of inverter. I find it hard to believe you don't have some form of inverter availble  what scripting environment are you using? 


Truth table for AND A B AND T T T T F F F T F F F F Truth table for OR A B OR T T T T F T F T T F F F Truth table for XOR A B XOR T T F T F T F T T F F F So, XOR is just like OR, except it's false if A and B are true. So, (A OR B) AND (NOT (A AND B)), which is (A OR B) AND (A NAND B) A B OR AND NAND [(A OR B) AND (A NAND B)] T T T T F F T F T F T T F T T F T T F F F F T F Not sure if it can be done without NOT or NAND 


If you have arithemtic operators such as
The reason this works is that we are doing a full add, which is equivalent to XOR when the sum for amy given bit position is <= 1, and then we're correcting for the case where a carry is generated (1 + 1) by subtracting Note that this works even when the intermediate terms overflow, assuming we have "normally behaved" integers (2's complement, modulo 2 wraparound for overflow, etc). 


Wikipedia's entry on XOR goes over this in detail. Probably a good first place to check before aksing a SO question. If you already have bits you don't care about masked off, it seems to me the easiest way to do it (as far as writing the code goes anyway) is to just use your not equal operator. 


In C: 


i am pretty sure that the formula below is correct: a xor b = not((a and b) or not(a+b)) 


Best advice is to look up XOR in reference manuals and encyclopedia sites on the net and then write code or script which does the same as the description of what a XOR builtin function does and use your own return or status values. We can not tell you how to do that type of bit compares from within the software community. 


if (x == 0) x = 1
, then it should be straightforward. – Chris J Jan 17 '11 at 16:18