Java's primitive integer types (i.e. byte, short, int and long) are all signed. But you can work around this.

To do (say) 32 bit unsigned arithmetic, just do the arithmetic pretending that 'int' is unsigned. For example, `2**31 - 1`

is the largest (signed) `int`

value. If you add one to it you will get `-2**31`

. But that bit pattern is the same as `+2**31`

if you think of the `int`

as being unsigned. This also works for subtraction and multiplication. (I'm not sure about division and remainder, but the chances are that doesn't matter for you).

Comparing unsigned 32 bit values is a bit more tricky. For example, `-1`

is less that `+1`

, but if you interpret `-1`

as an unsigned value you get `+2**32 - 1`

which should be greater than '+1'. You can compensate by translating the inequality (I'll leave it to the reader to figure it out) or by casting the `int`

values to `long`

, masking them with `0xffffffffL`

and comparing them as longs; e.g.

```
int u1 = ...
int u2 = ...
if ((((long) u1) & 0xffffffff) < (((long) u2) & 0xffffffff) {
// u1 represents a smaller unsigned value than u2
}
```

Converting 32 bit unsigned integers to Strings is easiest done using longs; e.g.

```
String str = Long.toString(((long) u1) & 0xffffffffL);
```

Now I'll freely admit that using `int`

to represent 32 bit unsigned values is tricky, and potentially error prone. A cleaner solution would be to use `long`

throughout, or if your application needs 64 bit unsigned values to use `BigInteger`

.

**UPDATE** - it looks Java 8 will have support (in the form of library methods) for treating `int`

and `long`

as unsigned types - see "Unsigned Integer Arithmetic API now in JDK 8" by Joseph Darcy @ Oracle.