In C++ (and I suspect in C as well), `bool`

s compare exactly as if
`false`

were `0`

and `true`

were `1`

. And if the type is `bool`

, no
values other than `true`

and `false`

are possible.

When comparing `bool`

to other numeric types, it will convert to `int`

,
again with `false`

converting to `0`

and `true`

converting to `1`

.

**Edit:** Both C++ and `stdbool.h`

in C99 also force boolean values to be either 0 (false) or 1 (true) - `bool b = -1;`

sets the value of `b`

to 1. Since `1 < 1`

and `1 < 0`

are both false, the inequalities in the question are correct.

**Edit:** (by James) Except that the above edit isn't really correct, at
least for C++. A `bool`

doesn't have a value of 0 or 1, it has a value
of `false`

or `true`

. It's only when it is promoted to `int`

that the
conversion creates the values of `0`

and `1`

.

And as Konrad has pointed out, there is no conparison of `bool`

values.
The "usual arithmetic conversions" occur for the comparison operators,
which means integral promotion on both of the operands, which means
`bool`

converts to `int`

(as does `char`

or `short`

... or an enum).

All of which is rather technical. In practice, you can remember that
`false`

< `true`

, or you can consider `false`

is 0 and `true`

is 1,
whichever works best for you. The only important thing to remember is
that a `bool`

can have *no* other values.

(Interestingly, I don't think that the bit patterns of a `bool`

are
imposed by the standard. An implementation could use the bit patterns
`0x55`

and `0xAA`

, for example, as long as all conversions to an
integral type gave 0 and 1, conversion to `bool`

always gave the
appropriate value, etc. Including zero initialization of static
variables.)

And one final note: `bool b = -1;`

sets `b`

to `-1 != 0`

(which is
`true`

, not `1`

, but of course, `true`

will convert to `1`

in any
numeric context.