I have a List<Item> collection. I need to convert it into Map<Integer, Item> The key of the map must be the index of the item in the collection. I can not figure it out how to do this with streams. Something like:


Any help?

As this question is identified as possible duplicate I need to add that my concrete problem was - how to get the position of the item in the list and put it as a key value

  • 7
    Maybe or maybe or maybe – MadProgrammer Sep 30 '15 at 6:15
  • 3
    EntryStream.of(items).toMap(); using my free StreamEx library. JavaDoc is here. – Tagir Valeev Sep 30 '15 at 6:35
  • 1
    doing a little research for this question, I learned that there is amazingly no zip in java 8 streams. – njzk2 Sep 30 '15 at 14:51
  • @njzk2, that's simply because you cannot parallelize zipped stream. Having random access sources (for example, two ArrayList) it's not very difficult to zip them via IntStream.range(0,list1.size()).mapToObj(idx -> doSomethingWith(list1.get(idx), list2.get(idx))) and the result will be parallel-friendly – Tagir Valeev Oct 1 '15 at 3:41

You can create a Stream of the indices using an IntStream and then convert them to a Map :

Map<Integer,Item> map = 
             .collect(Collectors.toMap (i -> i, i -> items.get(i)));
  • that stops working as soon as items is no longer a List. And is highly inefficient if items is, for example, a LinkedList instead of an ArrayList. – njzk2 Sep 30 '15 at 15:03
  • @njzk2 See my answer if you don't have a List or if it's expensive to access by index. – Stuart Marks Oct 3 '15 at 1:34

One more solution just for completeness is to use custom collector:

public static <T> Collector<T, ?, Map<Integer, T>> toMap() {
    return Collector.of(HashMap::new, (map, t) -> map.put(map.size(), t), 
            (m1, m2) -> {
                int s = m1.size();
                m2.forEach((k, v) -> m1.put(k+s, v));
                return m1;


Map<Integer, Item> map = items.stream().collect(toMap());

This solution is parallel-friendly and does not depend on the source (you can use list without random access or Files.lines() or whatever).

  • this works iff a/ the combiner is guaranteed to be called with m1 and m2 in the right order b/ each accumulating map is called on a continuous sequence of items. This breaks if for example, odd values are accumulated in a map and even values in another one. I haven't found any source that suggests this could not happen. – njzk2 Sep 30 '15 at 15:12
  • 1
    @njzk2, nevertheless this could not happen if your stream is ordered. This way all the existing collectors (like toList()) actually work. – Tagir Valeev Sep 30 '15 at 15:16
  • I guess that makes sense. I will be researching into how collectors guarantee the order of the stream after parallelization happens. – njzk2 Sep 30 '15 at 15:28
  • @njzk2, the Collector contract is described in API docs. I fulfill the contract. When correct map and new element is passed to the accumulator, it produces new correct map. When two correct maps are passed to combiner, it produces new correct map. Just fulfill the contract, and you'll get the correct result. That's the beauty of interfaces. – Tagir Valeev Sep 30 '15 at 15:47
  • thanks. It appears that the stream is partitioned in substrings, not subsequences, so that works indeed! – njzk2 Sep 30 '15 at 16:00

Don't feel like you have to do everything in/with the stream. I would just do:

AtomicInteger index = new AtomicInteger();
items.stream().collect(Collectors.toMap(i -> index.getAndIncrement(), i -> i));

As long as you don't parallelise the stream this will work and it avoids potentially expensive and/or problematic (in the case of duplicates) get() and indexOf() operations.

(You cannot use a regular int variable in place of the AtomicInteger because variables used from outside a lambda expression must be effectively final. Note that when uncontested (as in this case), AtomicInteger is very fast and won't pose a performance problem. But if it worries you you can use a non-thread-safe counter.)

  • 4
    You call List.get() expensive but recommend using an AtomicInteger? – Holger Sep 30 '15 at 10:09
  • 4
    @Holger No. I call List.get() potentially expensive. AtomicInteger is O(1), List.get() could be anything up to O(n). – Pepijn Schmitz Sep 30 '15 at 10:12
  • 3
    Only if you use LinkedList which is not really useful. On the other hand, AtomicInteger being O(1) isn’t really relevant when it comes to the hidden cost of thread safety in an operation that you admit yourself, doesn’t work in parallel. If you start your answer with “Don't feel like you have to do everything in/with the stream”, why don’t you provide a stream-less alternative, like a straight-forward loop? That would be better than presenting a discouraged stream usage… – Holger Sep 30 '15 at 10:18
  • 2
    @Holger The OP doesn't specify the List implementation. You seem to be prejudiced against LinkedList, but of course in reality there is nothing wrong with it and the List could easily be one, or possibly even another implementation which is even more expensive. Why second guess it? This way will always be the fastest. – Pepijn Schmitz Sep 30 '15 at 10:27
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    I’m not prejudicing against LinkedList as it already exists for more than fifteen years now, which is enough time to determine that it is not useful in real life. The theoretical advantage is only one operation, inserting at an arbitrary index, but since it has to allocate memory for that and update half a dozen node references, that advantage doesn’t really materialize. It would require very large lists to outplay an ArrayList, however for large lists, the insane memory overhead of LinkedList will counter-act it. LinkedList wins only in O(…) comparisons which ignore memory effects – Holger Sep 30 '15 at 10:45

This is updated answer and has none of the problems mentioned in comments.

Map<Integer,Item> outputMap = IntStream.range(0,inputList.size()).boxed().collect(Collectors.toMap(Function.identity(), i->inputList.get(i)));
  • 5
    This will fail if an Item is repeated in the list. – Misha Sep 30 '15 at 7:06
  • 11
    Don’t do this with large lists. Unless you want to learn by example, what O(n²) means… – Holger Sep 30 '15 at 8:37
  • list.indexOf(i) is slow. I wouldn't suggest this approach. – Boris the Spider Sep 30 '15 at 13:54
  • there are too many constraints and inefficiencies with this approach for it to be a useful solution – njzk2 Sep 30 '15 at 15:05

Using a third party library (protonpack for example, but there are others) you can zip the value with its index and voila:

    .collect(Collectors.toMap(Indexed::getIndex, Indexed::getValue));

although getIndex returns a long, so you may need to cast it using something similar to:

i -> Integer.valueOf((int) i.getIndex())
  • 1
    Using @TagirValeev 's library, it would be as simple as : EntryStream.of(items).toMap();. – Jean-François Savard Sep 30 '15 at 15:57
  • 1
    @Jean-FrançoisSavard, not to mention that zipWithIndex creates the stream which cannot be parallelized at all. – Tagir Valeev Oct 1 '15 at 1:22
  • @TagirValeev and you are confident that EntryStream can? – njzk2 Oct 1 '15 at 1:29
  • 1
    @njzk2, surely it is. It however relies on fast random access as documentation says. Internally it's similar to Eran solution (which is also parallelizable and works with reasonable speed only for random access source). In contrast protonpack solution need no random access (roughly speaking it's closer to Pepijn Schmitz answer). – Tagir Valeev Oct 1 '15 at 2:04
  • @TagirValeev the same comment applies, then: it only works with List, and its complexity depends on the access time of get(i) of the list's implementation. – njzk2 Oct 1 '15 at 2:09

Eran's answer is usually the best approach for random-access lists.

If your List isn't random access, or if you have a Stream instead of a List, you can use forEachOrdered:

Stream<Item> stream = ... ;
Map<Integer, Item> map = new HashMap<>();
AtomicInteger index = new AtomicInteger();
stream.forEachOrdered(item -> map.put(index.getAndIncrement(), item));

This is safe, if the stream is parallel, even though the destination map is thread-unsafe and is operated upon as a side effect. The forEachOrdered guarantees that items are processed one-at-a-time, in order. For this reason it's unlikely that any speedup will result from running in parallel. (There might be some speedup if there are expensive operations in the pipeline before the forEachOrdered.)

  • 1
    Why so complex? With forEachOrdered you don't need AtomicInteger, simply use stream.forEachOrdered(item -> map.put(map.size(), item)). Reading non-volatile field HashMap.size which is updated anyways is no worse than using CAS in AtomicInteger. – Tagir Valeev Oct 3 '15 at 2:30
  • @TagirValeev I suppose so. My main point is the use of forEachOrdered which hadn't been mentioned. – Stuart Marks Oct 3 '15 at 4:33
  • Sure it's quite short solution, though using the Collector proposed in my version is more conceptually correct. Actually the best solution would be to use toList() and write a special adapter (based on AbstractMap<Integer, T>) which adapts a List<T> to Map<Integer, T>. Storing them into HashMap is just a waste of time and memory. – Tagir Valeev Oct 3 '15 at 7:24

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