The reason WHY it works is because XOR doesn't lose information. You could do the same thing with ordinary addition and subtraction if you could ignore overflow. For example, if the variable pair A,B originally contains the values 1,2, you could swap them like this:
// A,B = 1,2
A = A+B // 3,2
B = A-B // 3,1
A = A-B // 2,1
BTW there's an old trick for encoding a 2-way linked list in a single "pointer".
Suppose you have a list of memory blocks at addresses A, B, and C. The first word in each block is , respectively:
// first word of each block is sum of addresses of prior and next block
0 + &B // first word of block A
&A + &C // first word of block B
&B + 0 // first word of block C
If you have access to block A, it gives you the address of B. To get to C, you take the "pointer" in B and subtract A, and so on. It works just as well backwards. To run along the list, you need to keep pointers to two consecutive blocks. Of course you would use XOR in place of addition/subtration, so you wouldn't have to worry about overflow.
You could extend this to a "linked web" if you wanted to have some fun.