I have a class Foo with these fields:

id:int / name;String / targetCost:BigDecimal / actualCost:BigDecimal

I get an arraylist of objects of this class. e.g.:

new Foo(1, "P1", 300, 400), 
new Foo(2, "P2", 600, 400),
new Foo(3, "P3", 30, 20),
new Foo(3, "P3", 70, 20),
new Foo(1, "P1", 360, 40),
new Foo(4, "P4", 320, 200),
new Foo(4, "P4", 500, 900)

I want to transform these values by creating a sum of "targetCost" and "actualCost" and grouping the "row" e.g.

new Foo(1, "P1", 660, 440),
new Foo(2, "P2", 600, 400),
new Foo(3, "P3", 100, 40),
new Foo(4, "P4", 820, 1100)

What I have written by now:


How can I do that?

5 Answers 5


Using Collectors.groupingBy is the right approach but instead of using the single argument version which will create a list of all items for each group you should use the two arg version which takes another Collector which determines how to aggregate the elements of each group.

This is especially smooth when you want to aggregate a single property of the elements or just count the number of elements per group:

  • Counting:

      .collect(Collectors.groupingBy(foo -> foo.id, Collectors.counting()))
  • Summing up one property:

      .collect(Collectors.groupingBy(foo -> foo.id,

In your case when you want to aggregate more than one property specifying a custom reduction operation like suggested in this answer is the right approach, however, you can perform the reduction right during the grouping operation so there is no need to collect the entire data into a Map<…,List> before performing the reduction:

(I assume you use a import static java.util.stream.Collectors.*; now…)

list.stream().collect(groupingBy(foo -> foo.id, collectingAndThen(reducing(
  (a,b)-> new Foo(a.id, a.ref, a.targetCost+b.targetCost, a.actualCost+b.actualCost)),

For completeness, here a solution for a problem beyond the scope of your question: what if you want to GROUP BY multiple columns/properties?

The first thing which jumps into the programmers mind, is to use groupingBy to extract the properties of the stream’s elements and create/return a new key object. But this requires an appropriate holder class for the key properties (and Java has no general purpose Tuple class).

But there is an alternative. By using the three-arg form of groupingBy we can specify a supplier for the actual Map implementation which will determine the key equality. By using a sorted map with a comparator comparing multiple properties we get the desired behavior without the need for an additional class. We only have to take care not to use properties from the key instances our comparator ignored, as they will have just arbitrary values:

  ()->new TreeMap<>(
    // we are effectively grouping by [id, actualCost]
  ), // and aggregating/ summing targetCost
.forEach((group,targetCostSum) ->
    // take the id and actualCost from the group and actualCost from aggregation
  • 2
    Nice, I actually never used those methods of Collectors. That should be the accepted anwser
    – Dici
    Oct 13, 2014 at 20:00
  • @Holger How to do that in Java 7 please ?
    – hamza-don
    Jun 1, 2015 at 19:14
  • 2
    @don-kaotic: that’s an entirely different question
    – Holger
    Jun 2, 2015 at 8:32
  • 1
    @hamza-don I believe by now you know it is not possible in Java 7
    – Sayantan
    Nov 23, 2017 at 19:20
  • 1
    @doga I think you should ask a new question, including what you have tried and a backlink to this Q&A if you like, to provide more context.
    – Holger
    Apr 17, 2018 at 14:39

Here is one possible approach :

public class Test {
    private static class Foo {
        public int id, targetCost, actualCost;
        public String ref;

        public Foo(int id, String ref, int targetCost, int actualCost) {
            this.id = id;
            this.targetCost = targetCost;
            this.actualCost = actualCost;
            this.ref = ref;

        public String toString() {
            return String.format("Foo(%d,%s,%d,%d)",id,ref,targetCost,actualCost);

    public static void main(String[] args) {
        List<Foo> list = Arrays.asList(
            new Foo(1, "P1", 300, 400), 
            new Foo(2, "P2", 600, 400),
            new Foo(3, "P3", 30, 20),
            new Foo(3, "P3", 70, 20),
            new Foo(1, "P1", 360, 40),
            new Foo(4, "P4", 320, 200),
            new Foo(4, "P4", 500, 900));

        List<Foo> transform = list.stream()
            .collect(Collectors.groupingBy(foo -> foo.id))
            .map(e -> e.getValue().stream()
                .reduce((f1,f2) -> new Foo(f1.id,f1.ref,f1.targetCost + f2.targetCost,f1.actualCost + f2.actualCost)))
                .map(f -> f.get())

Output :

[Foo(1,P1,660,440), Foo(2,P2,600,400), Foo(3,P3,100,40), Foo(4,P4,820,1100)]
  • If I understand correctly, you need to create a new Foo object on each reduce operation because otherwise, the reduction is not good for parallel operation. This is, however, a waste of resources, as we could modify the foo object in place. What do you think? Could reduce((f1,f2) -> { f1.targetCost += f2.targetCost; f1.actualCost += f2.actualCost; return f1;}) work?
    – Sobvan
    Jul 19, 2017 at 6:57
  • 1
    The general rule when using functional style is that functions should be pure, which means without any side-effect. Creating a new reference every time has a small cost, which should be negligible for the vast majority of applications. If you're really concerned about performance, don't use streams as they introduce an overhead compared to a simple loop.
    – Dici
    Jul 19, 2017 at 10:23
  • Thanks @Dici. After reading a bit more about this topic, I have found that stream().collect() instead of stream().reduce() is I do not want to spawn a new object on each iterateion. This article is quite useful for understaning collect(): javabrahman.com/java-8/…
    – Sobvan
    Jul 19, 2017 at 11:46
data.stream().collect(toMap(foo -> foo.id,
                       (a, b) -> new Foo(a.getId(),
                               a.getNum() + b.getNum(),

just use toMap(), very simple


Doing this with the JDK's Stream API only isn't really straightforward as other answers have shown. This article explains how you can achieve the SQL semantics of GROUP BY in Java 8 (with standard aggregate functions) and by using jOOλ, a library that extends Stream for these use-cases.


import static org.jooq.lambda.tuple.Tuple.tuple;

import java.util.List;
import java.util.stream.Collectors;

import org.jooq.lambda.Seq;
import org.jooq.lambda.tuple.Tuple;
// ...

List<Foo> list =

// FROM Foo
    new Foo(1, "P1", 300, 400),
    new Foo(2, "P2", 600, 400),
    new Foo(3, "P3", 30, 20),
    new Foo(3, "P3", 70, 20),
    new Foo(1, "P1", 360, 40),
    new Foo(4, "P4", 320, 200),
    new Foo(4, "P4", 500, 900))

// GROUP BY f1, f2
    x -> tuple(x.f1, x.f2),

// SELECT SUM(f3), SUM(f4)
        Collectors.summingInt(x -> x.f3),
        Collectors.summingInt(x -> x.f4)

// Transform the Map<Tuple2<Integer, String>, Tuple2<Integer, Integer>> type to List<Foo>
.map(e -> new Foo(e.getKey().v1, e.getKey().v2, e.getValue().v1, e.getValue().v2))



Will then yield

[Foo [f1=1, f2=P1, f3=660, f4=440],
 Foo [f1=2, f2=P2, f3=600, f4=400], 
 Foo [f1=3, f2=P3, f3=100, f4=40], 
 Foo [f1=4, f2=P4, f3=820, f4=1100]]
  • Just a tip, if you already have a list then you cam pass Seq.of(yourList.toArray()).ofType(YourListType.class) ... Mar 27, 2020 at 11:57
  • @RodolfoFaquin: Why would you do that?
    – Lukas Eder
    Mar 27, 2020 at 16:57
  • For example, if you have a List<YourListType> that are filled by a request and you need to group that, them you could to do like my example. Have you other advice how to do that? Mar 28, 2020 at 0:36
  • @RodolfoFaquin Just use Seq.seq(list)
    – Lukas Eder
    Mar 28, 2020 at 9:35
public  <T, K> Collector<T, ?, Map<K, Integer>> groupSummingInt(Function<? super T, ? extends K>  identity, ToIntFunction<? super T> val) {
    return Collectors.groupingBy(identity, Collectors.summingInt(val));

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