Please explain

(cont) not not not not not not not not not not not not not is_odd(4) not not not not not not not not not not not not not not is_even(4) not not not not not not not not not not not not not not is_odd(3) not not not not not not not not not not not not not not not is_even(3) not not not not not not not not not not not not not not not is_odd(2) not not not not not not not not not not not not not not not not is_even(2) not not not not not not not not not not not not not not not not is_odd(1) not not not not not not not not not not not not not not not not not is_even(1) not not not not not not not not not not not not not not not not not is_odd(0) not not not not not not not not not not not not not not not not not not is_even(0) not not not not not not not not not not not not not not not not not not True True

Handtrace it. is_odd(17) not is_even(17) not is odd(16) not not is_even(16) not not is_odd(15) not not not is_even(15) not not not is odd(14) not not not not is_even(14) not not not not is_odd(13) not not not not not is_even(13) not not not not not is_odd(12) not not not not not not is_even(12) not not not not not not is_odd(11) not not not not not not not is_even(11) not not not not not not not is_odd(10) not not not not not not not not is_even(10) not not not not not not not not is_odd(9) not not not not not not not not not is_even(9) not not not not not not not not not is_odd(8) not not not not not not not not not not is_even(8) not not not not not not not not not not is_odd(7) not not not not not not not not not not not is_even(7) not not not not not not not not not not not is_odd(6) not not not not not not not not not not not not is_even(6) not not not not not not not not not not not not is_odd(5) not not not not not not not not not not not not not is_even(5)

Rei Remarkable resilience 👏 I'm not the asker, fortunately 😁

So imagine k to be an even number. When you do is_even(k), it will be is_odd(k - 1) and that's going to be not is_even(k - 1) which is not is_odd(k - 2), that being not not is_even(k - 2) and that's just is_even(k - 2). So if you keep on doing that you will eventually reach is_even(0) which yields True, because you can take an integer amount of 2 out of k since it's even and that's what even numbers do. This time, take k to be odd. Following the same logic: is_even(k) = is_odd(k - 1) = not is_even(k - 1). Now we know how is_even() works so is_even(k - 1) is True and and hence not is_even(k - 1) which is is_even(k) shall be False as intended. You can expect to see similar behaviour regarding is_odd(). Sorry for the long reply! All in all you're better off doing x % 2 == 0 😜