I am wondering if IntStream and lambdas can be used somehow to quickly (one-line) create an array containing a random subset of an existing array of elements.

For example, say I have a pool of players:

Player[] allPlayers;

And I want to get a random subset of those players, given the dimension of the required subset. Traditionally I would do something like:

List<Player> players = new ArrayList<Player>(Arrays.asList(allPlayers));

int subsetSize = 8;
Player[] subset = new Player[subsetSize];
for (int i = 0; i < subsetSize; i++) {
  int randIndex = new Random().nextInt(players.size());
  subset[i] = players[randIndex];


return subset;

But can this process be done with Java 8 features? Which I assume would make it more condensed, which is what I am trying to achieve. I am still getting the hang of these new Java 8 features, like IntStream and lambdas and I wouldn't know how to use them for this particular case.


In this case, you want to select streamSize distinct elements from an input array.

You can use the Random#ints(randomNumberOrigin, randomNumberBound) method:

Returns an effectively unlimited stream of pseudorandom int values, each conforming to the given origin (inclusive) and bound (exclusive).

This returns a stream of random integers in the specified range. To ensure distinct values, distinct() is called and limit(...) allows to only keep the number of elements we want.

Random random = new Random();
Player[] subset = random.ints(0, allPlayers.length)
                        .mapToObj(i -> allPlayers[i])

I would note however, that, even if this is a one-liner, it is not as efficient as JB Nizet's solution since this continues generating integers until a distinct one is found.

  • 2
    Although this looks nice, I find this strategy suboptimal. If the size is 1000 for example and you want a subset of 999 elements, it will have to generate a whole lot of random integers until finding one that hasn't been generated yet. Collections.shuffle doesn't have this problem. For a small subset, it's probably faster, though. – JB Nizet Apr 1 '16 at 13:17
  • Beautiful, this is precisely what I was looking for. I really need to start using lambda's potential. Btw, would you care to explain how mapToObj work here? – dabadaba Apr 1 '16 at 13:17

You could use the following, which doesn't use a Stream, isn't a one-liner, but is already more condensed.

List<Player> copy = new ArrayList<>(Arrays.asList(allPlayers));
return copy.subList(0, subsetSize).toArray(new Player[0]);
  • Right. My question was targeted into figuring out how to do this with IntStream and lambdas, but I didn't think of this solution either, so thanks! – dabadaba Apr 1 '16 at 13:18

An efficient way to do this is:

List<String> players = Arrays.asList("a", "b", "c", "d", "e");
int subsetSize = 3;
for (int i = 0; i < subsetSize; i++)
    Collections.swap(players, i, ThreadLocalRandom.current().nextInt(i, players.size()));
System.out.println(players.subList(0, subsetSize)); 

This doesn't require an inefficient search for unused indices if subsetSize is large. It doesn't require calling shuffle on the entire list, so is more appropriate if subsetSize is small. It also avoids calling ArrayList.remove which has linear time complexity.

This code does not use Stream operations, but I do not think it is possible to write a simple, efficient solution using Stream without using a lambda that modifies state (considered bad practice).

  • Can you explain your last statement? – dabadaba Apr 1 '16 at 14:19
  • @dabadaba If you were to turn this into a streams solution it would be something like IntStream.range(0, subsetSize).forEach(i -> Collections.swap(players, i, ...). While this works and is far quicker than Tunaki's answer (try that answer with allPlayers.length == subsetSize == 10_000_000 to see just how slow it is), it modifies the state of players inside the lambda, which is not how they're intended to be used. – Paul Boddington Apr 1 '16 at 14:42

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