As far as the preprocessor is concerned, `0xFFFFFFFF`

is just a hexadecimal constant. Numbers in preprocessor expressions (which are relevant only in `#if`

and `#elif`

directives) are taken to be of the widest available integer type; the preprocessor will treat `0xFFFFFFFF`

as a signed integer constant with the value 2^{32}-1, or `4294967295`

(since, as of C99, there is always an integer type of at least 64 bits).

If it appears anywhere other than a `#if`

or `#elif`

directive, then the preprocessor is irrelevant. A hexadecimal constant's type is the first of:

`int`

`unsigned int`

`long int`

`unsigned long int`

`long long int`

`unsigned long long int`

For this particular constant, there are several possibilities:

- If
`int`

is narrower than 32 bits and `long`

is wider than 32 bits, then the type is `long`

;
- If
`int`

is narrower than 32 bits and `long`

is exactly 32 bits, then the type is `unsigned long`

;
- If
`int`

is 32 bits, then the type is `unsigned int`

;
- If
`int`

is wider than 32 bits, then the type is `int`

.

On modern systems, `unsigned int`

and `unsigned long`

are the most likely possibilities.

In *all* cases, the value of `0xFFFFFFFF`

is exactly 2^{32}-1, or `4294967295`

; it *never* has a negative value.

However, you can easily get a negative value (say, `-1`

) by *converting* (either explicitly or implicitly) the value of `0xFFFFFFFF`

to a signed type:

```
int n = 0xFFFFFFFF;
```

But this is not portable. If `int`

is wider than 32 bits, the stored value will be 2^{32}-1. And even if `int`

is exactly 32 bits, the result of converting an unsigned value to a signed type is implementation-defined; `-1`

is a common result, but it's not guaranteed.

As for `~0`

, that's an `int`

expression whose value has all its bits set to 1 -- which is *usually* `-1`

, but that's not guaranteed.

What exactly are you trying to do?

`4G-1`

is supposed to be?