I have a large list of elements that I want to iterate in random order. However, I cannot modify the list and I don't want to create a copy of it either, because 1) it is large and 2) it can be expected that the iteration is cancelled early.

```
List<T> data = ...;
Iterator<T> shuffled = shuffle(data);
while (shuffled.hasNext()) {
T t = shuffled.next();
if (System.console().readLine("Do you want %s?", t).startsWith("y")) {
return t;
}
}
System.out.println("That's all");
return t;
```

I am looking for an algorithm were the code above would run in `O(n)`

(and preferably require only `O(log n)`

space), so caching the elements that were produced earlier is not an option. I don't care if the algorithm is biased (as long as it's not obvious).

(I uses pseudo-Java in my question, but you can use other languages if you wish)

Here is the best I got so far.

```
Iterator<T> shuffle(final List<T> data) {
int p = data.size();
while ((data.size() % p) == 0) p = randomPrime();
return new Iterator<T>() {
final int prime = p;
int n = 0, i = 0;
public boolean hasNext() { return i < data.size(); }
public T next() {
i++; n += prime;
return data.get(n);
}
}
}
```

Iterating all elements in `O(n)`

, constant space, but obviously biased as it can produce only `data.size()`

permutations.