Don't forget that the '++' post-increment operator returns the value of j before the increment happened. That is, if 'j' is 7, then 'j++' sets j to 8, but returns 7. ~7 is then the output that you saw, the number ending in three 0 bits.
The '++' post-increment operator can only operate on so-called "L-values". An L-value is a value that actually exists somewhere that code can logically reference -- a variable, or an array element, a parameter or a class field. As soon as you take the value of of an L-value and you apply some numerical operation to it, you get an R-value. R-values are just the value, and they don't refer to any persistent storage where a result could be put. You can assign to L-values but not to R-values -- and so if you tried to '++' an R-value, you would get a compile error.
If the '~' operator went first, then you'd be ++-ing an R-value, as in (~j)++. This would not compile. The fact that the code compiles at all means that the precedence is the other way: ~(j++).
Parentheses like this is the simplest way I know of that you can sort out precedence whenever there is any confusion: Just write three test cases:
- The original way that you're uncertain about.
- With parentheses forcing one order of operations.
- With parentheses forcing the other order of operations.
Run it and see whether #2 or #3 produces the same result as #1. :-)