Is there a concise way to iterate over a stream whilst having access to the index in the stream?

String[] names = {"Sam","Pamela", "Dave", "Pascal", "Erik"};

List<String> nameList;
Stream<Integer> indices = intRange(1, names.length).boxed();
nameList = zip(indices, stream(names), SimpleEntry::new)
        .filter(e -> e.getValue().length() <= e.getKey())
        .map(Entry::getValue)
        .collect(toList());

which seems rather disappointing compared to the LINQ example given there

string[] names = { "Sam", "Pamela", "Dave", "Pascal", "Erik" };
var nameList = names.Where((c, index) => c.Length <= index + 1).ToList();

Is there a more concise way?

Further it seems the zip has either moved or been removed...

  • 2
    What is intRange()? Haven't come accross this method in Java 8 till now. – Rohit Jain Aug 31 '13 at 19:42
  • @RohitJain Probably an IntStream.rangeClosed(x, y). – assylias Aug 31 '13 at 19:43
  • 2
    As a side comment, challenge 4 looks better (IMO) with List<String> allCities = map.values().stream().flatMap(list -> list.stream()).collect(Collectors.toList()); – assylias Aug 31 '13 at 19:51
  • 3
    Yes, zip was removed, along with experimental two-valued streams variously called BiStream or MapStream. The main problem is that to do this effectively Java really needs a structurally-typed pair (or tuple) type. Lacking one, it's easy to create a generic Pair or Tuple class -- it's been done many times -- but they all erase to the same type. – Stuart Marks Sep 1 '13 at 22:10
  • 3
    Oh, another problem with a generic Pair or Tuple class is that it requires all primitives to be boxed. – Stuart Marks Sep 1 '13 at 22:39

17 Answers 17

up vote 323 down vote accepted

The cleanest way is to start from a stream of indices:

String[] names = {"Sam", "Pamela", "Dave", "Pascal", "Erik"};
IntStream.range(0, names.length)
         .filter(i -> names[i].length() <= i)
         .mapToObj(i -> names[i])
         .collect(Collectors.toList());

The resulting list contains "Erik" only.


One alternative which looks more familiar when you are used to for loops would be to maintain an ad hoc counter using a mutable object, for example an AtomicInteger:

String[] names = {"Sam", "Pamela", "Dave", "Pascal", "Erik"};
AtomicInteger index = new AtomicInteger();
List<String> list = Arrays.stream(names)
                          .filter(n -> n.length() <= index.incrementAndGet())
                          .collect(Collectors.toList());

Note that using the latter method on a parallel stream could break as the items would not necesarily be processed "in order".

  • 22
    Using atomics this way is problematic with parallel streams. First, the order of processing of elements won't necessarily the same as the order in which elements occur in the initial array. Thus, the "index" assigned using the atomic probably won't match the actual array index. Second, while atomics are thread-safe, you may encounter contention among multiple threads updating the atomic, degrading the amount of parallelism. – Stuart Marks Sep 1 '13 at 22:29
  • 1
    I developed a solution similar to the one by @assylias. To circumvent the problematic with parallel stream @StuartMarks mentioned, I first make a given parallel stream sequential, perform the mapping and restore the parallel state. public static <T> Stream<Tuple2<Integer, T>> zipWithIndex(Stream<T> stream) { final AtomicInteger index = new AtomicInteger(); final Function<T, Tuple2<Integer, T>> zipper = e -> Tuples.of(index.getAndIncrement(), e); if (stream.isParallel()) { return stream.sequential().map(zipper).parallel(); } else { return stream.map(zipper); } } – Daniel Dietrich Aug 15 '14 at 20:15
  • 4
    @DanielDietrich If you think it solves the question you should post it as an answer rather than a comment (and the code will be more readable too!). – assylias Aug 15 '14 at 20:58
  • 3
    @DanielDietrich Sorry, if I'm reading that code correctly, it won't work. You can't have different segments of a pipeline running in parallel vs sequential. Only the last of parallel or sequential is honored when the terminal operation commences. – Stuart Marks Aug 15 '14 at 22:03
  • 4
    For the sake of justice, "the cleanest way" was stolen from @Stuart's answer. – Vadzim Jul 9 '15 at 10:43

The Java 8 streams API lacks the features of getting the index of a stream element as well as the ability to zip streams together. This is unfortunate, as it makes certain applications (like the LINQ challenges) more difficult than they would be otherwise.

There are often workarounds, however. Usually this can be done by "driving" the stream with an integer range, and taking advantage of the fact that the original elements are often in an array or in a collection accessible by index. For example, the Challenge 2 problem can be solved this way:

String[] names = {"Sam", "Pamela", "Dave", "Pascal", "Erik"};

List<String> nameList =
    IntStream.range(0, names.length)
        .filter(i -> names[i].length() <= i)
        .mapToObj(i -> names[i])
        .collect(toList());

As I mentioned above, this takes advantage of the fact that the data source (the names array) is directly indexable. If it weren't, this technique wouldn't work.

I'll admit that this doesn't satisfy the intent of Challenge 2. Nonetheless it does solve the problem reasonably effectively.

EDIT

My previous code example used flatMap to fuse the filter and map operations, but this was cumbersome and provided no advantage. I've updated the example per the comment from Holger.

  • 7
    How about IntStream.range(0, names.length).filter(i->names[i].length()<=i).mapToObj(i->names[i])? It does work without boxing… – Holger Mar 3 '14 at 22:38
  • 1
    Hm, yeah, why did I think I needed to use flatMap anyway? – Stuart Marks Mar 4 '14 at 6:42
  • 2
    Finally revisiting this ... I probably used flatMap because it sort-of fuses a filtering and mapping operation into a single operation, but this really provides no advantage. I'll edit the example. – Stuart Marks Apr 1 '14 at 16:47
  • Stream.of( Array ) will create a stream interface for an array. Effectively making it into Stream.of( names ).filter( n -> n.length() <= 1).collect( Collectors.toList() ); Less unboxing, and less memory allocation; as we're not creating a range stream anymore. – Code Eyez Jun 5 at 17:26

Since guava 21, you can use

Streams.mapWithIndex()

Example (from official doc):

Streams.mapWithIndex(
    Stream.of("a", "b", "c"),
    (str, index) -> str + ":" + index)
) // will return Stream.of("a:0", "b:1", "c:2")

I've used the following solution in my project. I think it is better than using mutable objects or integer ranges.

import java.util.*;
import java.util.function.*;
import java.util.stream.Collector;
import java.util.stream.Collector.Characteristics;
import java.util.stream.Stream;
import java.util.stream.StreamSupport;
import static java.util.Objects.requireNonNull;


public class CollectionUtils {
    private CollectionUtils() { }

    /**
     * Converts an {@link java.util.Iterator} to {@link java.util.stream.Stream}.
     */
    public static <T> Stream<T> iterate(Iterator<? extends T> iterator) {
        int characteristics = Spliterator.ORDERED | Spliterator.IMMUTABLE;
        return StreamSupport.stream(Spliterators.spliteratorUnknownSize(iterator, characteristics), false);
    }

    /**
     * Zips the specified stream with its indices.
     */
    public static <T> Stream<Map.Entry<Integer, T>> zipWithIndex(Stream<? extends T> stream) {
        return iterate(new Iterator<Map.Entry<Integer, T>>() {
            private final Iterator<? extends T> streamIterator = stream.iterator();
            private int index = 0;

            @Override
            public boolean hasNext() {
                return streamIterator.hasNext();
            }

            @Override
            public Map.Entry<Integer, T> next() {
                return new AbstractMap.SimpleImmutableEntry<>(index++, streamIterator.next());
            }
        });
    }

    /**
     * Returns a stream consisting of the results of applying the given two-arguments function to the elements of this stream.
     * The first argument of the function is the element index and the second one - the element value. 
     */
    public static <T, R> Stream<R> mapWithIndex(Stream<? extends T> stream, BiFunction<Integer, ? super T, ? extends R> mapper) {
        return zipWithIndex(stream).map(entry -> mapper.apply(entry.getKey(), entry.getValue()));
    }

    public static void main(String[] args) {
        String[] names = {"Sam", "Pamela", "Dave", "Pascal", "Erik"};

        System.out.println("Test zipWithIndex");
        zipWithIndex(Arrays.stream(names)).forEach(entry -> System.out.println(entry));

        System.out.println();
        System.out.println("Test mapWithIndex");
        mapWithIndex(Arrays.stream(names), (Integer index, String name) -> index+"="+name).forEach((String s) -> System.out.println(s));
    }
}
  • +1 -- was able to implement a function that "inserts" an element every N indexes using StreamSupport.stream() and a custom iterator. – ach Aug 26 '14 at 19:11

In addition to protonpack, jOOλ's Seq provides this functionality (and by extension libraries that build on it like cyclops-react, I am the author of this library).

Seq.seq(Stream.of(names)).zipWithIndex()
                         .filter( namesWithIndex -> namesWithIndex.v1.length() <= namesWithIndex.v2 + 1)
                         .toList();

Seq also supports just Seq.of(names) and will build a JDK Stream under the covers.

The simple-react equivalent would similarly look like

 LazyFutureStream.of(names)
                 .zipWithIndex()
                 .filter( namesWithIndex -> namesWithIndex.v1.length() <= namesWithIndex.v2 + 1)
                 .toList();

The simple-react version is more tailored for asynchronous / concurrent processing.

Just for completeness here's the solution involving my StreamEx library:

String[] names = {"Sam","Pamela", "Dave", "Pascal", "Erik"};
EntryStream.of(names)
    .filterKeyValue((idx, str) -> str.length() <= idx+1)
    .values().toList();

Here we create an EntryStream<Integer, String> which extends Stream<Entry<Integer, String>> and adds some specific operations like filterKeyValue or values. Also toList() shortcut is used.

  • great work; is there a shortcut for .forEach(entry -> {}) ? – Steve Oh Mar 28 at 13:43
  • 2
    @SteveOh if I understand you question correctly, then yes, you can write .forKeyValue((key, value) -> {}). – Tagir Valeev Mar 29 at 10:16

There isn't a way to iterate over a Stream whilst having access to the index because a Stream is unlike any Collection. A Stream is merely a pipeline for carrying data from one place to another, as stated in the documentation:

No storage. A stream is not a data structure that stores elements; instead, they carry values from a source (which could be a data structure, a generator, an IO channel, etc) through a pipeline of computational operations.

Of course, as you appear to be hinting at in your question, you could always convert your Stream<V> to a Collection<V>, such as a List<V>, in which you will have access to the indexes.

  • This is available in other languages/tools. It is simply an incrementing value passed to the map function – Lee Campbell Mar 26 at 4:22

With https://github.com/poetix/protonpack u can do that zip:

String[] names = {"Sam","Pamela", "Dave", "Pascal", "Erik"};

List<String> nameList;
Stream<Integer> indices = IntStream.range(0, names.length).boxed(); 

nameList = StreamUtils.zip(indices, stream(names),SimpleEntry::new)
        .filter(e -> e.getValue().length() <= e.getKey()).map(Entry::getValue).collect(toList());                   

System.out.println(nameList);

If you don't mind using a third-party library, Eclipse Collections has zipWithIndex and forEachWithIndex available for use across many types. Here's a set of solutions to this challenge for both JDK types and Eclipse Collections types using zipWithIndex.

String[] names = { "Sam", "Pamela", "Dave", "Pascal", "Erik" };
ImmutableList<String> expected = Lists.immutable.with("Erik");
Predicate<Pair<String, Integer>> predicate =
    pair -> pair.getOne().length() <= pair.getTwo() + 1;

// JDK Types
List<String> strings1 = ArrayIterate.zipWithIndex(names)
    .collectIf(predicate, Pair::getOne);
Assert.assertEquals(expected, strings1);

List<String> list = Arrays.asList(names);
List<String> strings2 = ListAdapter.adapt(list)
    .zipWithIndex()
    .collectIf(predicate, Pair::getOne);
Assert.assertEquals(expected, strings2);

// Eclipse Collections types
MutableList<String> mutableNames = Lists.mutable.with(names);
MutableList<String> strings3 = mutableNames.zipWithIndex()
    .collectIf(predicate, Pair::getOne);
Assert.assertEquals(expected, strings3);

ImmutableList<String> immutableNames = Lists.immutable.with(names);
ImmutableList<String> strings4 = immutableNames.zipWithIndex()
    .collectIf(predicate, Pair::getOne);
Assert.assertEquals(expected, strings4);

MutableList<String> strings5 = mutableNames.asLazy()
    .zipWithIndex()
    .collectIf(predicate, Pair::getOne, Lists.mutable.empty());
Assert.assertEquals(expected, strings5);

Here's a solution using forEachWithIndex instead.

MutableList<String> mutableNames =
    Lists.mutable.with("Sam", "Pamela", "Dave", "Pascal", "Erik");
ImmutableList<String> expected = Lists.immutable.with("Erik");

List<String> actual = Lists.mutable.empty();
mutableNames.forEachWithIndex((name, index) -> {
        if (name.length() <= index + 1)
            actual.add(name);
    });
Assert.assertEquals(expected, actual);

If you change the lambdas to anonymous inner classes above, then all of these code examples will work in Java 5 - 7 as well.

Note: I am a committer for Eclipse Collections

With a List you can try

List<String> strings = new ArrayList<>(Arrays.asList("First", "Second", "Third", "Fourth", "Fifth")); // An example list of Strings
strings.stream() // Turn the list into a Stream
    .collect(HashMap::new, (h, o) -> h.put(h.size(), o), (h, o) -> {}) // Create a map of the index to the object
        .forEach((i, o) -> { // Now we can use a BiConsumer forEach!
            System.out.println(String.format("%d => %s", i, o));
        });

Output:

0 => First
1 => Second
2 => Third
3 => Fourth
4 => Fifth
  • Actually a nice idea, but strings::indexOf might be a bit expensive. My suggestion is to use instead: .collect(HashMap::new, (h, s) -> h.put(h.size(), s), (h, s) -> {}) . You can simply use the size() method to create the index. – gil.fernandes May 31 '17 at 13:48
  • @gil.fernandes Thank you for the suggestion. I'll make the edits. – V0idst4r Jun 20 '17 at 19:29

I found the solutions here when the Stream is created of list or array (and you know the size). But what if Stream is with unknown size? In this case try this variant:

public class WithIndex<T> {
    private int index;
    private T value;

    WithIndex(int index, T value) {
        this.index = index;
        this.value = value;
    }

    public int index() {
        return index;
    }

    public T value() {
        return value;
    }

    @Override
    public String toString() {
        return value + "(" + index + ")";
    }

    public static <T> Function<T, WithIndex<T>> indexed() {
        return new Function<T, WithIndex<T>>() {
            int index = 0;
            @Override
            public WithIndex<T> apply(T t) {
                return new WithIndex<>(index++, t);
            }
        };
    }
}

Usage:

public static void main(String[] args) {
    Stream<String> stream = Stream.of("a", "b", "c", "d", "e");
    stream.map(WithIndex.indexed()).forEachOrdered(e -> {
        System.out.println(e.index() + " -> " + e.value());
    });
}

Here is code by AbacusUtil

Stream.of(names).indexed()
      .filter(e -> e.value().length() <= e.index())
      .map(Indexed::value).toList();

Disclosure: I'm the developer of AbacusUtil.

If you happen to use Vavr(formerly known as Javaslang), you can leverage the dedicated method:

Stream.of("A", "B", "C")
  .zipWithIndex();

If we print out the content, we will see something interesting:

Stream((A, 0), ?)

This is because Streams are lazy and we have no clue about next items in the stream.

You can create a static inner class to encapsulate the indexer as I needed to do in example below:

static class Indexer {
    int i = 0;
}

public static String getRegex() {
    EnumSet<MeasureUnit> range = EnumSet.allOf(MeasureUnit.class);
    StringBuilder sb = new StringBuilder();
    Indexer indexer = new Indexer();
    range.stream().forEach(
            measureUnit -> {
                sb.append(measureUnit.acronym);
                if (indexer.i < range.size() - 1)
                    sb.append("|");

                indexer.i++;
            }
    );
    return sb.toString();
}

This question (Stream Way to get index of first element matching boolean) has marked the current question as a duplicate, so I can not answer it there; I am answering it here.

Here is a generic solution to get the matching index that does not require an external library.

If you have a list.

public static <T> int indexOf(List<T> items, Predicate<T> matches) {
        return IntStream.range(0, items.size())
                .filter(index -> matches.test(items.get(index)))
                .findFirst().orElse(-1);
}

And call it like this:

int index = indexOf(myList, item->item.getId()==100);

And if using a collection, try this one.

   public static <T> int indexOf(Collection<T> items, Predicate<T> matches) {
        int index = -1;
        Iterator<T> it = items.iterator();
        while (it.hasNext()) {
            index++;
            if (matches.test(it.next())) {
                return index;
            }
        }
        return -1;
    }

If you are trying to get an index based on a predicate, try this:

If you only care about the first index:

OptionalInt index = IntStream.range(0, list.size())
    .filter(i -> list.get(i) == 3)
    .findFirst();

Or if you want to find multiple indexes:

IntStream.range(0, list.size())
   .filter(i -> list.get(i) == 3)
   .collect(Collectors.toList());

Add .orElse(-1); in case you want to return a value if it doesn't find it.

One possible way is to index each element on the flow:

AtomicInteger index = new AtomicInteger();
Stream.of(names)
  .map(e->new Object() { String n=e; public i=index.getAndIncrement(); })
  .filter(o->o.n.length()<=o.i) // or do whatever you want with pairs...
  .forEach(o->System.out.println("idx:"+o.i+" nam:"+o.n));

Using an anonymous class along a stream is not well-used while being very useful.

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