Seems a very basic question. I've an ArrayList<Integer> al and I would like to iterate over it. Normally,

for(int i : al) {
    // some code

does the trick. But my requirement is to iterate not in sequence but randomly.

5 Answers 5


You can use Collections.shuffle() on the list.

Note that this will shuffle the list itself, so if order is important you should make a copy of it (and shuffle the copy).

List<Customer> newList = new ArrayList<>( oldList ) ;
Collections.shuffle( newList ) ;

Alternatively you could create a random array which has elements 0 - List.size()-1 and using those as indices to access "random" elements in the List.

  • Interesting that you got the 'answer' even though it's not solving the question. I think the poster is ok with a shuffled list which will give random order Mar 27, 2015 at 20:41
  • That doesn't work: Collections.shuffle(Collections.unmodifiableList(new ArraysList<>()); The poster may actually be ok with the answer you gave because he actually WANTED that. But the question as stated is not answered here. And, I can break your solution. Not all List are modifiable. and iteration is a read-only operation Mar 27, 2015 at 21:58
  • 1
    @ChristianBongiorno Didn't I state in the answer this operation will shuffle the list itself, and they should make a copy of it and shuffle the copy if that was necessary? Your objection is unnecessarily pedantic. Mar 27, 2015 at 22:41
  • The question was: "Random Iteration" -- I will give back my vote. On more carefully looking at it you alternate does describe, more-or-less my approach. That is a general answer I suppose. Collection.shuffle just isn't an answer to the question. But then again, maybe that was ultimately what the poster wanted. Too funny though: The question is like 4+ years old Mar 27, 2015 at 23:26
  • @ChristianBongiorno Your approach is basically what the last sentence of my answer describes. It's really a matter of preference. The OP seemed satisfied enough with my answer. Apr 2, 2015 at 0:31

Use the following class:

import java.util.Enumeration;
import java.util.Random;

public class RandomPermuteIterator implements Enumeration<Long> {
    int c = 1013904223, a = 1664525;
    long seed, N, m, next;
    boolean hasNext = true;

    public RandomPermuteIterator(long N) throws Exception {
        if (N <= 0 || N > Math.pow(2, 62)) throw new Exception("Unsupported size: " + N);
        this.N = N;
        m = (long) Math.pow(2, Math.ceil(Math.log(N) / Math.log(2)));
        next = seed = new Random().nextInt((int) Math.min(N, Integer.MAX_VALUE));

    public static void main(String[] args) throws Exception {
        RandomPermuteIterator r = new RandomPermuteIterator(100);
        while (r.hasMoreElements()) System.out.print(r.nextElement() + " ");
        //output:50 52 3 6 45 40 26 49 92 11 80 2 4 19 86 61 65 44 27 62 5 32 82 9 84 35 38 77 72 7 ...

    public boolean hasMoreElements() {
        return hasNext;

    public Long nextElement() {
        next = (a * next + c) % m;
        while (next >= N) next = (a * next + c) % m;
        if (next == seed) hasNext = false;
        return  next;
  • 1
    I would be much interested in an explanation of why this works. And, a test that shows variance of < 1%. This is interesting if it's actually correct Mar 27, 2015 at 18:22
  • 1
    This is an adaptation of LCGs (en.wikipedia.org/wiki/Linear_congruential_generator). By choosing parameters that guarantee full-periodicity you can randomly enumerate numbers within a range without repetition.
    – aykutfirat
    Mar 28, 2015 at 18:25
  • Although this kind of takes the question off-topic, reference to an interesting algorithm won't pass software quality muster. After all, the algorithm can be perfectly sound but the devil is in the details. Witness why crypto functions are routinely hacked via side channels (en.wikipedia.org/wiki/Side-channel_attack) -- How would you how implementation correctness? You would basically have to show that, after applying the central limit theorem you have a p value < .01. I vote to re-ask this question on codereview and let it grow from there. Thoughts? Mar 31, 2015 at 17:27
  • I am absolutely sure that crypto implementations get owned via side-channels. I am a seasoned software veteran and worked for Amazon right in their checkout pipeline; downtime was measured in $1Ms/min of loss. Your code might produce what look to be visually correct results but no one at Amazon or Google would just accept this without a test. On that matter I definitely know my subject. I would welcome your feedback and education in a direct channel. This being the internet you don't need to care if I am offended. If your intent is to educate and not insult then contact me (first.last@gmail) Mar 31, 2015 at 18:07

How about this way (more functional); it even includes a main() to demonstrate. Basically, generate random numbers in the range of your list size until you have 1 of them all. We use HashSet to take care of duplicate random numbers in our range. Then, delegate iteration to the iterator of your index hashset. Logic of "hasNext()" becomes trivial through delegate.

public class RandomIterator<T> implements Iterator<T> {

    private Iterator<Integer> indicies;

    List<T> delegate;

    public static void main(String[] args) {
        Random r = new Random();

        List<Integer> numbers = IntStream.generate(r::nextInt).limit(10).boxed().collect(toCollection(ArrayList::new));
        List<Integer> results = new ArrayList<>();

        for(RandomIterator<Integer> test = new RandomIterator<>(numbers); test.hasNext(); ) {
        System.out.println("In list: " + numbers);
        System.out.println("random iteration " + results);
        if(results.containsAll(numbers) && results.size() == numbers.size())
            System.out.println("Everything accounted for");
            System.out.println("Something broke!");


    public RandomIterator(List<T> delegate) {
        Random r = new Random();
        this.delegate = delegate;
        Set<Integer> indexSet = new LinkedHashSet<>();
        while(indexSet.size() != delegate.size())

        indicies = indexSet.iterator();

    public boolean hasNext() {
        return indicies.hasNext();

    public T next() {
        return delegate.get(indicies.next());

If you just want an print 100 random numbers:


if you want an iterator (for whatever reason:)

  • This solution is not space efficient. You might as well put all the numbers in an array, and shuffle.
    – aykutfirat
    Mar 28, 2015 at 18:32
  • You're right. @aykutfirat but it's easier to maintain and understand. Mar 31, 2015 at 16:21
  • I was thinking on your phrase "space efficient" -- that's academic speak for sure. Mar 31, 2015 at 17:17

Here is a shuffling iterator that is very space&time-efficient when requesting only a few elements. It's very reasonable in all other cases too; runtime and space are both O(n). The only dynamic structure is a HashMap with up to half the size of the input list (although it will be much smaller near the beginning and the end) and Integer keys.

static <A> Iterator<A> shuffledIterator(final List<A> l) {
  return new Iterator<A>() {
    Random randomizer = new Random();
    int i = 0, n = l.size();
    HashMap<Integer, A> shuffled = new HashMap();

    public boolean hasNext() { return i < n; }

    public A next() {
      int j = i+randomizer.nextInt(n-i);
      A a = get(i), b = get(j);
      shuffled.put(j, a);
      return b;

    A get(int i) {
      return shuffled.containsKey(i) ? shuffled.get(i) : l.get(i);
public class RandomIterator<T> implements Iterator<T> {

  private static final SecureRandom RANDOM = new SecureRandom();

  private final int[] order;

  private final List<T> elements;

  public RandomIterator(List<T> elements) {
     this.elements = elements;
     this.order = generateRandomOrder(elements.size());

  private int[] generateRandomOrder(int size) {
     int[] index = new int[size];
     for (int i = 0; i < size; i++) {
        index[i] = i;

     int swap;
     for (int i = 0; i < size; i++) {
        int randomIndex = getRandomInt(0, size);
        swap = index[i];
        index[i] = index[randomIndex];
        index[randomIndex] = swap;

     return index;

  private int currentIndex = 0;

  private int getRandomInt(int lowerBound, int upperBound) {
     return RANDOM.nextInt(upperBound - lowerBound) + lowerBound;

  public boolean hasNext() {
     return currentIndex != elements.size();

  public T next() {
     return elements.get(order[currentIndex++]);

This only works if you guarantee that the elements in the list are placed in positions exactly between indexes [0,size).

You can use the normal Random if you are concerned about the performance penalty of SecureRandom (I prefer secure, yeah 8 times slower than normal random but secure!).

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