I'm trying to break a list into a list of lists. In groovy I can easily do this:

def letters = 'a'..'g'

assert letters.collate(3) == [['a', 'b', 'c'], ['d', 'e', 'f'], ['g']]

Is there an equivalent in Java 8? I've looked into Collectors, but it seems a bit complicated. I really just want to group the items in the list into x.

  • you want to turn a List<T> into a List<List<T>> where all inner lists except the last one is some constant size? Jun 15, 2017 at 15:44

4 Answers 4


You may look into the Partition API for lists by Guava :

public static <T> java.util.List<java.util.List<T>> partition(java.util.List<T> list, int size)

Returns consecutive sublists of a list, each of the same size (the final list may be smaller).


How about this?

char start = 'a';
char last = 'g';
int n = 3;

List<Character> letters = IntStream.rangeClosed(start, last)
                                   .mapToObj(it -> (char) it)

List<List<Character>> result = IntStream.range(0, (letters.size() + n - 1) / n)
               .map(i -> i * n)
               .mapToObj(i -> letters.subList(i, Math.min(i + n, letters.size())))


List<List<Character>> result = IntStream.range(0, letters.size()).boxed().
               groupingBy(i -> i / n, mapping(letters::get, toList())),
               map -> new ArrayList<>(map.values())

This has been discussed before but I can't find it right now, so here is a neat way to do it:

private static <T> Collector<T, ?, List<List<T>>> partitioning(int size) {
    class Acc {
        int count = 0;

        List<List<T>> list = new ArrayList<>();

        void add(T elem) {
            int index = count++ / size;
            if (index == list.size()) {
                list.add(new ArrayList<>());

        Acc merge(Acc right) {

            List<T> lastLeftList = list.get(list.size() - 1);
            List<T> firstRightList = right.list.get(0);
            int lastLeftSize = lastLeftList.size();
            int firstRightSize = firstRightList.size();

            // they are both size, simply addAll will work
            if (lastLeftSize + firstRightSize == 2 * size) {
                return this;

            // last and first from each chunk are merged "perfectly"
            if (lastLeftSize + firstRightSize == size) {
                System.out.println("Almost perfect");
                int x = 0;
                while (x < firstRightSize) {
                return this;

            return this;

        public List<List<T>> finisher() {
            return list;

    return Collector.of(Acc::new, Acc::add, Acc::merge, Acc::finisher);

And the usage:

List<List<Integer>> list = Arrays.asList(1, 3, 4, 5, 9, 8, 7)

The thing is the this does a good job for parallel streams via the combiner. Also less code does not mean better or more productive solutions.


Try my library AbacusUtil

CharStream.rangeClosed('a', 'g').split(3).println();
// print out: [[a, b, c], [d, e, f], [g]]

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