You're effectively looking for a random permutation of the integers from `0`

to `n-1`

.

You could put the numbers from `0`

to `n-1`

into an `ArrayList`

, then call `Collections.shuffle()`

on that list, and then fetch the numbers from the list one by one:

```
final int n = 4;
final ArrayList<Integer> arr = new ArrayList<Integer>(n);
for (int i = 0; i < n; i++) {
arr.add(i);
}
Collections.shuffle(arr);
for (Integer val : arr) {
System.out.println(val);
}
```

`Collectons.shuffle()`

guarantees that all permutations occur with equal likelihood.

If you wish, you could encapsulate this into an `Iterable`

:

```
public class ChooseUnique implements Iterable<Integer> {
private final ArrayList<Integer> arr;
public ChooseUnique(int n) {
arr = new ArrayList<Integer>(n);
for (int i = 0; i < n; i++) {
arr.add(i);
}
Collections.shuffle(arr);
}
public Iterator iterator() {
return arr.iterator();
}
}
```

When you iterate over an instance of this class, it produces a random permutation:

```
ChooseUnique ch = new ChooseUnique(4);
for (int val : ch) {
System.out.println(val);
}
```

On one particular run, this printed out `1 0 2 3`

.