Implement a sliding window in RxJava2

Question

I am trying to implement a simple sliding window function in RxJava2, but struggling to do what I want.

My goal is to take a stream of objects, i.e.

["a", "b", "c", "d", "e"]

and apply a sliding window which will return the elements adjacent to each element.

I.e resulting in:

["a", "b"]
["a", "b", "c"]
["b", "c", "d"]
["c", "d", "e"]
["d", "e"].

I.E.

a----------------b----------------c----------------d----------------e
↓                ↓                ↓                ↓                ↓
↓                ↓                ↓                ↓                ↓
↓                ↓                ↓                ↓                ↓
↓                ↓                ↓                ↓                ↓
["a", "b"]       ["a", "b", "c"]  ["b", "c", "d"]  ["c", "d", "e"]  ["d", "e"]

I can't seem to figure out how to make this happen. A Google Groups post seems like it is on the right track, but doesn't quite get the result I need: https://groups.google.com/forum/#!topic/rxjava/k-U5BijXinU

Any ideas?

Answer 1

Depending whether you want your observable to emit List<Item> or Observable<Item> you might use either buffer() or window() operators. The solution isn't that clean but it's pretty straightforward:

Observable.fromArray("a", "b", "c", "d", "e")
        .startWith("")
        .buffer(3, 1)
        .map(strings -> {
            strings.remove("");
            return strings;
        })
        .filter(strings -> strings.size() > 1)

returns

["a", "b"]
["a", "b", "c"]
["b", "c", "d"]
["c", "d", "e"]
["d", "e"]

Answer 2

Perhaps as @jrook said, this isn't the best fit for a standard windowing. The array size itself is not enough information to know which side of the element you are on anyways, so I wrapped in in a simple value class.

Here's the solution I went with. It definitely is not a good solution for larger streams, since it blocks to read the whole observable first, which obviously may not be okay for certain use cases (in mine, it is OK).

 public static <R> ObservableTransformer<R, AdjacentPairing<R>> pairWithAdjacents() {
    return upstream -> upstream
        .toList()
        .flatMapObservable(list -> {
          ArrayList<AdjacentPairing<R>> pairings = new ArrayList<>(list.size());
          for (int i = 0; i < list.size(); i++) {
            pairings.add(AdjacentPairing.from(
                i == 0 ? null : list.get(i - 1),
                list.get(i),
                i == list.size() -1 ? null : list.get(i + 1)));
          }
          return Observable.fromIterable(pairings);
        });
  }

  @AutoValue
  public static abstract class AdjacentPairing<T> {
    @Nullable
    public abstract T getPrevious();
    public abstract T getElement();
    @Nullable
    public abstract T getNext();

    public static <T> AdjacentPairing<T> from(@Nullable T previous, T element, @Nullable T next){
      return new AutoValue_RxUtils_AdjacentPairing<>(previous, element, next);
    }
  }