I'm porting a piece of code from .NET to Java and stumbled upon a scenario where I want to use stream to map & reduce.

class Content
  private String propA, propB, propC;
  Content(String a, String b, String c)
    propA = a; propB = b; propC = c;
  public String getA() { return propA; }
  public String getB() { return propB; }
  public String getC() { return propC; }

List<Content> contentList = new ArrayList();
contentList.add(new Content("A1", "B1", "C1"));
contentList.add(new Content("A2", "B2", "C2"));
contentList.add(new Content("A3", "B3", "C3"));

I want to write a function that can stream through the contents of contentlist and return a class with result

content { propA = "A1, A2, A3", propB = "B1, B2, B3", propC = "C1, C2, C3" }

I'm fairly new to Java so you might find some code that resembles more like C# than java

  • 1
    Good problem description. But now, what have you tried? StackOverflow is not a community for getting other people to write code for you. Rather, you need to post a minimal reproducible example showing what you tried, what you got, and what you expected, and the StackOverflow community might try to help determine where you went wrong and point out solutions. – AJNeufeld Mar 22 '16 at 18:32
  • @AJNeufeld thanks for the suggestion. This being also the first time me trying to post a question on SO though use it every day. I have it working with a basic for loop with a variable to append the content. And I tried using the forEach on the stream then realized that Java anonymous functions don't allow modifying variable inside the foreach block. Also I contemplated on writing a collect for reach one but realized it wouldnt be efficient either. – Vedanth Mar 22 '16 at 18:43

You can use proper lambda for BinaryOperator in reduce function.

Content c = contentList
            .reduce((t, u) -> new Content(
                                  t.getA() + ',' + u.getA(),
                                  t.getB() + ',' + u.getB(), 
                                  t.getC() + ',' + u.getC())
  • 1
    That works, but it creates many temporary Content objects. – AJNeufeld Mar 22 '16 at 18:50
  • 1
    @AJNeufeld agreed, but it's the choice between space & time. – Mrinal Mar 22 '16 at 19:06
  • 1
    With only 3 properties, I'm partial to my implementation. But in a more general case -- with more properties, more complex properties, private properties, etc. -- the best might be reduce((t, u) -> new Content(t, u); delegating the merging to the Content object itself with a specialized constructor, or actually writing a ContentCollector which accumulates the information efficiently. – AJNeufeld Mar 22 '16 at 19:12

The most generic way to deal with such tasks would be to combine the result of multiple collectors into a single one.

Using the jOOL library, you could have the following:

Content content = 
         Collectors.mapping(Content::getA, Collectors.joining(", ")),
         Collectors.mapping(Content::getB, Collectors.joining(", ")),
         Collectors.mapping(Content::getC, Collectors.joining(", "))

This creates a Seq from the input list and combines the 3 given collectors to create a Tuple3, which is simply a holder for 3 values. Those 3 values are then mapped into a Content using the constructor new Content(a, b, c). The collector themselves are simply mapping each Content into its a, b or c value and joining the results together separated with a ", ".

Without third-party help, we could create our own combiner collector like this (this is based of StreamEx pairing collector, which does the same thing for 2 collectors). It takes 3 collectors as arguments and performs a finisher operation on the result of the 3 collected values.

public interface TriFunction<T, U, V, R> {
    R apply(T t, U u, V v);

public static <T, A1, A2, A3, R1, R2, R3, R> Collector<T, ?, R> combining(Collector<? super T, A1, R1> c1, Collector<? super T, A2, R2> c2, Collector<? super T, A3, R3> c3, TriFunction<? super R1, ? super R2, ? super R3, ? extends R> finisher) {

    final class Box<A, B, C> {
        A a; B b; C c;
        Box(A a, B b, C c) {
            this.a = a;
            this.b = b;
            this.c = c;

    EnumSet<Characteristics> c = EnumSet.noneOf(Characteristics.class);

    return Collector.of(
            () -> new Box<>(c1.supplier().get(), c2.supplier().get(), c3.supplier().get()),
            (acc, v) -> {
                c1.accumulator().accept(acc.a, v);
                c2.accumulator().accept(acc.b, v);
                c3.accumulator().accept(acc.c, v);
            (acc1, acc2) -> {
                acc1.a = c1.combiner().apply(acc1.a, acc2.a);
                acc1.b = c2.combiner().apply(acc1.b, acc2.b);
                acc1.c = c3.combiner().apply(acc1.c, acc2.c);
                return acc1;
            acc -> finisher.apply(c1.finisher().apply(acc.a), c2.finisher().apply(acc.b), c3.finisher().apply(acc.c)),
            c.toArray(new Characteristics[c.size()])

and finally use it with

Content content = contentList.stream().collect(combining(
    Collectors.mapping(Content::getA, Collectors.joining(", ")),
    Collectors.mapping(Content::getB, Collectors.joining(", ")),
    Collectors.mapping(Content::getC, Collectors.joining(", ")), 
static Content merge(List<Content> list) {
    return new Content(
            list.stream().map(Content::getA).collect(Collectors.joining(", ")),
            list.stream().map(Content::getB).collect(Collectors.joining(", ")),
            list.stream().map(Content::getC).collect(Collectors.joining(", ")));

EDIT: Expanding on Federico's inline collector, here is a concrete class dedicated to merging Content objects:

class Merge {

    public static Collector<Content, ?, Content> collector() {
        return Collector.of(Merge::new, Merge::accept, Merge::combiner, Merge::finisher);

    private StringJoiner a = new StringJoiner(", ");
    private StringJoiner b = new StringJoiner(", ");
    private StringJoiner c = new StringJoiner(", ");

    private void accept(Content content) {

    private Merge combiner(Merge second) {
        return this;

    private Content finisher() {
        return new Content(a.toString(), b.toString(), c.toString());

Used as:

Content merged = contentList.stream().collect(Merge.collector());

If you don't want to iterate 3 times over the list, or don't want to create too many Content intermediate objects, then you'd need to collect the stream with your own implementation:

public static Content collectToContent(Stream<Content> stream) {
    return stream.collect(
            () -> new StringBuilder[] {
                    new StringBuilder(),
                    new StringBuilder(),
                    new StringBuilder() },
            (StringBuilder[] arr, Content elem) -> {
                arr[0].append(arr[0].length() == 0 ? 
                        elem.getA() : 
                        ", " + elem.getA());
                arr[1].append(arr[1].length() == 0 ? 
                        elem.getB() : 
                        ", " + elem.getB());
                arr[2].append(arr[2].length() == 0 ? 
                        elem.getC() : 
                        ", " + elem.getC());
            (arr1, arr2) -> {
                arr1[0].append(arr1[0].length() == 0 ?
                        arr2[0].toString() :
                        arr2[0].length() == 0 ?
                                "" :
                                ", " + arr2[0].toString());
                arr1[1].append(arr1[1].length() == 0 ?
                        arr2[1].toString() :
                        arr2[1].length() == 0 ?
                                "" :
                                ", " + arr2[1].toString());
                arr1[2].append(arr1[2].length() == 0 ?
                        arr2[2].toString() :
                        arr2[2].length() == 0 ?
                                "" :
                                ", " + arr2[2].toString());
                return arr1;
            arr -> new Content(

This collector first creates an array of 3 empty StringBuilder objects. Then defines an accumulator that appends each Contentelement's property to the corresponding StringBuilder. Then it defines a merge function that is only used when the stream is processed in parallel, which merges two previously accumulated partial results. Finally, it also defines a finisher function that transforms the 3 StringBuilder objects into a new instance of Content, with each property corresponding to the accumulated strings of the previous steps.

Please check Stream.collect() and Collector.of() javadocs for further reference.

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