Your solution does not work: it illustrates a simple problem actually, that many have stumbled upon.
Algorithms' descriptions do not, in general, take into account the finite memory representation that computers have.
In particular here,
int can only hold so many bits, and thus the addition may result in an overflow, which is undefined behavior (on x86, it wraps around, but on other processors it might trigger a hardware exception).
There are two correct (and simple) solutions to exchange two
int tmp = lhs; lhs = rhs; rhs = tmp;, also known as
lhs ^= rhs; rhs ^= lhs; lhs ^= rhs;, also known as the XOR trick
Both are obviously applicable in case of arrays.
Another solution, more efficient, would be to swap the arrays themselves.
Note: if the arrays are statically allocated, it's not possible to swap them directly, but you can perfectly only use pointers to the statically allocated arrays and thus swap the pointers
Caveat: objects that already have a reference to the arrays will not be notified of the swap, in this case you have no other choice than swapping their content.