You've already got a lot of answers, but I'll add one more to cover one other possible point of confusion.

In C & Obj-C the boolean (and character) types are treated as *integer* types, which is not the case in call languages. So expressions like `'z' * true`

make perfect sense!

(Modern) C uses the type `_Bool`

for boolean, which is defined to be large enough to hold `0`

& `1`

. Cocoa uses the type `BOOL`

for boolean, which is defined as `signed char`

. CoreFoundation uses the type `Boolean`

which is defined as `unsigned char`

. All three define `YES`

/`true`

as `1`

and `NO`

/`false`

as `0`

, while C itself treats any non-zero value as `true`

.

The relation operators such as `<`

, `<=`

etc. are defined to return the `int`

(yes, none of the booleans, not even `_Bool`

) value `0`

if the relation is false, and the `int`

value `1`

if the relation is true.

Given this and the left-to-right associativity of relational operators your:

```
if (100 <= x <= 149)
```

is parsed as:

```
if ((100 <= x) <= 149)
```

then `100 <= x`

evaluates to the `int`

value `1`

if `x`

is greater than or equal to 100, otherwise it evaluates to the `int`

value `0`

, so we get:

```
if (1 <= 149)
```

or

```
if (0 <= 149)
```

both of these evaluate to `1`

so we get:

```
if (1)
```

and the `if`

statement branches to the "then" branch if it's expression is non-zero.

It may be surprising, but the whole statement is evaluated without any use of booleans at all - it is all done with integers.

To achieve what you intended you need:

```
if((100 <= x) && (x <= 149))
```

etc. - which also doesn't use any booleans (`&&`

is defined in terms of integers).