The expression `(kHit >= kForeground)`

yields a boolean that has value `true`

or `false`

. When the unary `-`

is applied, the `bool`

gets promoted to an `int`

, and the conversion yields `1`

for `true`

or `0`

for `false`

. After the promotion, the sign is changed into `-1`

or `0`

and then it is converted to `uchar`

by the outer cast.

Note that the important bit of information is that the unary `operator-`

is not applied to a boolean, but the boolean is converted to `int`

and it is then applied. That can be tested with a bit of template magic:

```
template <typename T, typename U>
struct same_type {
static const bool value = false;
};
template <typename T>
struct same_type<T,T> {
static const bool value = true;
};
template <typename T>
void f( T value ) {
std::cout << "Is int? " << std::boolalpha << same_type<T, int>::value << "\n";
std::cout << "Is bool? " << same_type<T, bool>::value << "\n";
}
int main() {
f(-true);
}
```

The `f`

template tests the type of the passed argument against `int`

and `bool`

by using the `same_type`

templates above (trivial enough to understand). If we call the `f`

template with `-true`

as argument type deduction will set `T`

to be the type of the expression `-true`

. If you run the program, you will see that it prints `Is int? true\nIs bool? false`

.