When browsing the source code of Guava, I came across the following piece of code (part of the implementation of `hashCode`

for the inner class `CartesianSet`

):

```
int adjust = size() - 1;
for (int i = 0; i < axes.size(); i++) {
adjust *= 31;
adjust = ~~adjust;
// in GWT, we have to deal with integer overflow carefully
}
int hash = 1;
for (Set<E> axis : axes) {
hash = 31 * hash + (size() / axis.size() * axis.hashCode());
hash = ~~hash;
}
hash += adjust;
return ~~hash;
```

Both of `adjust`

and `hash`

are `int`

s. From what I know about Java, `~`

means bitwise negation, so `adjust = ~~adjust`

and `hash = ~~hash`

should leave the variables unchanged. Running the small test (with assertions enabled, of course),

```
for (int i = Integer.MIN_VALUE; i < Integer.MAX_VALUE; i++) {
assert i == ~~i;
}
```

confirms this. Assuming that the Guava guys know what they are doing, there must be a reason for them to do this. The question is what?

**EDIT** As pointed out in the comments, the test above doesn't include the case where `i`

equals `Integer.MAX_VALUE`

. Since `i <= Integer.MAX_VALUE`

is always true, we will need to check that case outside the loop to prevent it from looping forever. However, the line

```
assert Integer.MAX_VALUE == ~~Integer.MAX_VALUE;
```

yields the compiler warning "Comparing identical expressions", which pretty much nails it.

`Integer.MAX_VALUE`

. Contrast with`-(-Integer.MIN_VALUE) != Integer.MIN_VALUE`

.`-Integer.MIN_VALUE`

wraps around to`Integer.MIN_VALUE`

, so negating that again simply produces`Integer.MIN_VALUE`

again.`-x = (~x) + 1`

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