Should be a simple question, but I'm unable to find an answer anywhere. The `~`

operator in python is a documented as a bitwise inversion operator. Fine. I have noticed seemingly schizophrenic behavior though, to wit:

```
~True -> -2
~1 -> -2
~False -> -1
~0 -> -1
~numpy.array([True,False],dtype=int) -> array([-2,-1])
~numpy.array([True,False],dtype=bool) -> array([False,True])
```

In the first 4 examples, I can see that python is implementing (as documented) `~x = -(x+1)`

, with the input treated as an int *even if it's boolean*. Hence, for a scalar boolean, `~`

is not treated as a logical negation. Not that the behavior is identical on a numpy array defined with boolean values by with an int type.

Why does `~`

then work as a logical negation operator on a boolean array (Also notice: `~numpy.isfinite(numpy.inf) -> True`

?)?

It is extremely annoying that I must use `not()`

on a scalar, but `not()`

won't work to negate an array. Then for an array, I must use `~`

, but `~`

won't work to negate a scalar...