expr bit-wise "xor" operator
Arguments must be integers, result is an integer.
Bit n of the result is 1 if bit n of the two arguments differ. Otherwise, bit n of the result is 0.
To evaluate $a^$b when either $a or $b is negative, we make use of the following reasoning:
Case | Result |
---|
| $a>=0, $b>=0 | Bitwise operation | | $a>=0, $b<0 | $a^$b == ~($a ^ ~$b) Contrapositive law | | | == ~($a ^ (-1-$b)) Extended definition of [~] | | | == -1-~($a ^ (-1-$b)) Extended definition of [~] | | | Since $a and (-1-$b) are both positive, the [^] in the | | | last expression can be evaluated in bitwise fashion | | $a<0, $b>=0 | Commute to ($b^$a) and evaluate as above. | | $a<0, $b<0 | $a^$b == (~$a) ^ (~$b) Contrapositive law | | | == (-1-$a) ^ (-1-$b) Extended definition of [~] | | | Since (-1-$a) and (-1-$b) are both positive, the [^] | | | in the last expression can be evaluated in bitwise | | | fashion. |%
% expr 0b010 | 0b000 2
[So, what do I need to add to this example so the result is binary as well? Some sort of format - but I don't see a binary conversion sequence in the docs...]