I have a List of Integer say list1, and I want to get another list list2 which will contain the cumulative sum up until the current index from start. How can I do this using Stream API java 8 ?

List<Integer> list1 = new ArrayList<>();
list1.addAll(Arrays.asList(1, 2, 3, 4));
List<Integer> list2 = new ArrayList<>();
// initialization
for(int i=1;i<list1.size();i++) {
// increment step
    list2.add(list2.get(i-1) + list1.get(i));

How can I change above imperative style code into declarative one ?

list2 should be [1, 3, 6, 10]
  • 11
    You'll notice from the answers that any solution using streams is going to be inefficient. Streams aren't really intended for this use case. (In general, streams aren't intended to replace all imperative code.) – Louis Wasserman Mar 20 at 16:48
  • @LouisWasserman I agree. But in this case I do not care about efficiency (probably should have mentioned it in the question). I wanted to write the same thing with something other than above mentioned imperative style. I could not do it myself, as I was stuck because the solution is kind of mixture of map and reduce operation – run_time_error Mar 20 at 17:17
  • Man, the lack of tuples really hurts here. – Alexander Mar 20 at 22:19
  • 2
    An extremely similar question was asked yesterday: stackoverflow.com/questions/55230261/… – Jacob G. Mar 21 at 0:41

Streams are not suited for this kind of task, as there is state involved (the cumulative partial sum). Instead, you could use Arrays.parallelPrefix:

Integer[] arr = list1.toArray(Integer[]::new);

Arrays.parallelPrefix(arr, Integer::sum);

List<Integer> list2 = Arrays.asList(arr);

This first copies list1 to an array by using Collection.toArray, which is available since JDK 11. If you are not on Java 11 yet, you could replace the first line with the traditional toArray call:

Integer[] arr = list1.toArray(new Integer[0]);

This solution doesn't use streams, yet it's declarative, because Arrays.parallelPrefix receives the cumulative operation as an argument (Integer::sum in this case).

Time complexity is O(N), though there might be some non-minor constant costs involved associated with setting up the infrastructure needed for parallel processing. However, according to the docs:

Parallel prefix computation is usually more efficient than sequential loops for large arrays

So it seems it's worth giving this approach a try.

Also, it's worth mentioning that this approach works because Integer::sum is an associative operation. This is a requirement.


For every index: iterate from zero to that index, get each element, and get the sum
Box the ints to Integers
Collect to a list

IntStream.range(0, list1.size())
    .map(i -> IntStream.rangeClosed(0, i).map(list1::get).sum())

You're adding every number together every time, rather than reusing the previous cumulative result, but streams do not lend themselves to looking at results from previous iterations.

You could write your own collector but at this point, honestly why are you even bothering with streams?

            (a, b) -> a.add(a.isEmpty() ? b : b + a.get(a.size() - 1)),
            (a, b) -> { throw new UnsupportedOperationException(); }
  • 5
    That's O(n^2) !! (as opposed to the O(n) of the OP) – DodgyCodeException Mar 20 at 16:42
  • 1
    @DodgyCodeException Yes. – Michael Mar 20 at 16:44
  • @Michael thanks for your elaborate response. I have learnt that I can write my own collector. I know this is overkill. But good to know that there are other ways. – run_time_error Mar 20 at 17:24

You can use sublist to sum up until the current index from start:

List<Integer> list = IntStream.range(0, list1.size())
        .mapToObj(i -> list1.subList(0, i + 1).stream().mapToInt(Integer::intValue).sum())

An O(n) (works only sequentially) solution would be the following, but I don't find it very elegant. I guess it is a matter of taste

AtomicInteger ai = new AtomicInteger();
List<Integer> collect = list1.stream()
System.out.println(collect); // [1, 3, 6, 10]
  • 7
    This solution only works as long as the stream is sequential. Parallelising it would break this completely. – Ben R. Mar 20 at 17:30
  • @ben In parallel stream you couldn't have cumulative sum right? – Venkataraghavan Yanamandram Mar 21 at 8:40
  • Ruslan's answer allows for parallel streaming. The only stateful operation is over the original list itself, which we can probably assume with relative safety is read-only. Each item in the list in his solution could query over the list independently of the other stream elements. – Ben R. Mar 21 at 9:21
  • @VenkataraghavanYanamandram with other solutions yes, but they are O(n^2) – Yassin Hajaj Mar 21 at 9:22

You can just use Stream.collect() for that:

List<Integer> list1 = Arrays.asList(1, 2, 3, 4);
List<Integer> list2 = list1.stream()
        .collect(ArrayList::new, (sums, number) -> {
            if (sums.isEmpty()) {
            } else {
                sums.add(sums.get(sums.size() - 1) + number);
        }, (sums1, sums2) -> {
            if (!sums1.isEmpty()) {
                int sum = sums1.get(sums1.size() - 1);
                sums2.replaceAll(num -> sum + num);

This solution also works for parallel streams. Use list1.parallelStream() or list1.stream().parallel() instead of list1.stream().

The result in both cases is: [1, 3, 6, 10]

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.