I found some exercises where you combine n-bit 2's complement values in different ways and simplify the output where possible. (Their practice exercises use 16-bit, but that's irrelevant).
!(!x&!y) == x|y
0 & y, negate the output == -1
I'm having no problem applying De Morgan's laws with the examples using AND, OR, and NOT but I am having difficulty using NOT with + and -
!(!x+y) == x-y
!(y-1) == -y
How does NOT distribute?
Edit: responding to comments: I realize this is a bitwise NOT. My question is: in algebraic terms, how does it distribute as per algebra? Example on Wikipedia