Suppose I have a group of bumper cars, which have a size, a color and an identifier ("car code") on their sides.

class BumperCar {
    int size;
    String color;
    String carCode;

Now I need to map the bumper cars to a List of DistGroup objects, which each contains the properties size, color and a List of car codes.

class DistGroup {
    int size;
    Color color;
    List<String> carCodes;

    void addCarCodes(List<String> carCodes) {

For example,

    BumperCar(size=3, color=yellow, carCode=Q4M),
    BumperCar(size=3, color=yellow, carCode=T5A),
    BumperCar(size=3, color=red, carCode=6NR)

should result in:

    DistGroup(size=3, color=yellow, carCodes=[ Q4M, T5A ]),
    DistGroup(size=3, color=red, carCodes=[ 6NR ])

I tried the following, which actually does what I want it to do. But the problem is that it materializes the intermediate result (into a Map) and I also think that it can be done at once (perhaps using mapping or collectingAndThen or reducing or something), resulting in more elegant code.

List<BumperCar> bumperCars = ...
Map<SizeColorCombination, List<BumperCar>> map = bumperCars.stream()
    .collect(groupingBy(t -> new SizeColorCombination(t.getSize(), t.getColor())));

List<DistGroup> distGroups = map.entrySet().stream()
    .map(t -> {
        DistGroup d = new DistGroup(t.getKey().getSize(), t.getKey().getColor());
        return d;

How can I get the desired result without using a variable for an inntermediate result?

Edit: How can I get the desired result without materializing the intermediate result? I am merely looking for a way which does not materialize the intermediate result, at least not on the surface. That means that I prefer not to use something like this:

    .collect(...) // Materializing
    .collect(...); // Materializing second time

Of course, if this is possible.

Note that I omitted getters and constructors for brevity. You may also assume that equals and hashCode methods are properly implemented. Also note that I'm using the SizeColorCombination which I use as group-by key. This class obviously contains the properties size and color. Classes like Tuple or Pair or any other class representing a combination of two arbitrary values may also be used.
Edit: Also note that an ol' skool for loop can be used instead, of course, but that is not in the scope of this question.

  • 2
    Just as a side note, groupingBy() does group the values into a List by default so toList() may be omitted – Lino Jan 18 '19 at 12:35
  • 1
    The idea of using streams is to make code more readable, more self-explanatory (at the cost of performance), or massively parallelizable without boilerplate code. It's not a modern one-solution-fits-all replacement of the old ways. The code you provided is cryptic at best. I suggest using a classic for-loop which is much cleaner in this case. – Mark Jeronimus Jan 18 '19 at 12:37
  • @Lino You're right. I removed it. – MC Emperor Jan 18 '19 at 12:53
  • @MarkJeronimus That's right, that's why I'm not satisfied with my current solution and looking for an elegant way to achieve just the same result—if it exists. Otherwise I will gladly revert to the classic loop. – MC Emperor Jan 18 '19 at 12:58

If we assume that DistGroup has hashCode/equals based on size and color, you could do it like this:

    .map(x -> {
        List<String> list = new ArrayList<>();
        return new SimpleEntry<>(x, list);
    .map(x -> new DistGroup(x.getKey().getSize(), x.getKey().getColor(), x.getValue()))
        (left, right) -> {
            return left;
    .values(); // Collection<DistGroup>
  • Thanks, this code works for me. Note that I, after using this code, have tweaked the code a little, so the bumper cars are directly mapped to a DistGroup using .map(t -> new DistGroup(t.getSize(), t.getColor(), new ArrayList<>(Arrays.asList(t.getCarCode())))). Then I collect it with toMap with the same arguments as your code, but with the first argument being t -> new SimpleEntry<>(t.getColor(), t.getSize()) instead of Function.identity(). – MC Emperor Jan 21 '19 at 9:04


Just merging the two steps into one:

List<DistGroup> distGroups = bumperCars.stream()
        .collect(Collectors.groupingBy(t -> new SizeColorCombination(t.getSize(), t.getColor())))
        .map(t -> {
            DistGroup d = new DistGroup(t.getKey().getSize(), t.getKey().getColor());
            return d;


Your intermediate variable would be much better if you could use groupingBy twice using both the attributes and map the values as List of codes, something like:

Map<Integer, Map<String, List<String>>> sizeGroupedData = bumperCars.stream()
                        Collectors.mapping(BumperCar::getCarCode, Collectors.toList()))));

and simply use forEach to add to the final list as:

List<DistGroup> distGroups = new ArrayList<>();
sizeGroupedData.forEach((size, colorGrouped) ->
        colorGrouped.forEach((color, carCodes) -> distGroups.add(new DistGroup(size, color, carCodes))));

Note: I've updated your constructor such that it accepts the card codes list.

DistGroup(int size, String color, List<String> carCodes) {
    this.size = size;
    this.color = color;

Further combining the second solution into one complete statement(though I would myself favor the forEach honestly):

List<DistGroup> distGroups = bumperCars.stream()
                        Collectors.mapping(BumperCar::getCarCode, Collectors.toList()))))
        .flatMap(a -> a.getValue().entrySet()
                .stream().map(b -> new DistGroup(a.getKey(), b.getKey(), b.getValue())))

You can collect by by using BiConsumer that take (HashMap<SizeColorCombination, DistGroup> res, BumperCar bc) as parameters

Collection<DistGroup> values = bumperCars.stream()
        .collect(HashMap::new, (HashMap<SizeColorCombination, DistGroup> res, BumperCar bc) -> {
                SizeColorCombination dg = new SizeColorCombination(bc.color, bc.size);
                DistGroup distGroup = res.get(dg);
                if(distGroup != null) {
                }else {
                    List<String> codes = new ArrayList();
                    distGroup = new DistGroup(bc.size, bc.color, codes);
                    res.put(dg, distGroup);

Check out my library AbacusUtil:

         .groupBy(c -> Tuple.of(c.getSize(), c.getColor()), BumperCar::getCarCode)
         .map(e -> new DistGroup(e.getKey()._1, e.getKey()._2, e.getValue())

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