Can somebody please help me in optimising the code below. I don't want to stream on same list 3 times. I have to iterate on same list and apply different mapping functions. Can somebody suggest any better solution for doing this-

List<Dummy> dummy = getDummyData(); //Assume we are getting data from some source
List<NewDummy> newDummyList = dummy.stream().map(eachDummy -> mapper.map(eachDummy, NewDummy.class)).collect(Collectors.toList());

if(someCondition) {
  final BigDecimal amount1 = dummy.stream().filter(eachDummy -> Optional.ofNullable(eachDummy.getAmount1()).isPresent())
                                  .map(Dummy::getAmount1).reduce(BigDecimal.ZERO, BigDecimal::add);
  final BigDecimal amount2 = dummy.stream().filter(eachDummy -> Optional.ofNullable(eachDummy.getAmount2()).isPresent())
                                  .map(Dummy::getAmount2).reduce(BigDecimal.ZERO, BigDecimal::add);

  return new DummyObject(newDummyList, amount1, amount2);
} else {
    return new DummyObject(newDummyList);
  • Your eachDummy::getAmount1 and eachDummy::getAmount2 should be Dummy::getAmount1 and Dummy::getAmount1, respectively. Sep 6, 2018 at 19:48
  • @TomaszLinkowski yes..thats correct.. Will update
    – dubpp
    Sep 6, 2018 at 21:18

2 Answers 2


This seems like the ideal use case for a custom collector. But before that, I think you can simplify the sums of the amounts as follows:

BigDecimal amount1 = dummy.stream()

Now, the custom collector. You could accumulate instances of Dummy into an instance of a dedicated local class inside a static utility method:

static Collector<Dummy, ?, DummyObject> toDummyObject(
        Function<Dummy, NewDummy> mapper, 
        boolean someCondition) {

    class Accumulator {
        List<NewDummy> newDummyList = new ArrayList<>();
        BigDecimal amount1 = BigDecimal.ZERO;
        BigDecimal amount2 = BigDecimal.ZERO;

        public void add(Dummy dummy) {

        public void addAndSum(Dummy dummy) {
            if (dummy.getAmount1() != null) amount1 = amount1.add(dummy.getAmount1());
            if (dummy.getAmount2() != null) amount2 = amount2.add(dummy.getAmount2());

        public Accumulator merge(Accumulator another) {
            return this;

        public Accumulator mergeAndSum(Accumulator another) {
            amount1 = amount1.add(another.amount1);
            amount2 = amount2.add(another.amount2);
            return merge(another);

        public DummyObject finish() {
            return someCondition ?
                new DummyObject(newDummyList, amount1, amount2) :
                new DummyObject(newDummyList);

    return Collector.of(
        someCondition ? Accumulator::addAndSum : Accumulator::add,
        someCondition ? Accumulator::mergeAndSum : Accumulator::merge,

Now we're ready to go:

    eachDummy -> mapper.map(eachDummy, NewDummy.class), 
  • @federico thanks for suggesting a great alternative. In terms of performance, dont you think use to Reduce to calculate the sum in original method will outperform the code you have suggested here. Basically, if i want to compare your suggested method vs the one in question, how should i do it?
    – dubpp
    Sep 6, 2018 at 21:11
  • @prats thanks for your words. Search for jmh microbenchmark here, you'll find very useful info. I believe (theoretically) that my version will behave slightly better than yours, only just a bit. Both versions have the same time complexity. I think that it's OK to have 3 separate loops or streams, maybe you could refactor the sum of the amounts to a private method.
    – fps
    Sep 6, 2018 at 21:47
  • After debugging the code, I realised that combiner (mergeAndSum or merge) will never be called since this is a sequential stream. So we might change it to parallel stream to take advantage of combiners
    – dubpp
    Sep 7, 2018 at 14:01
  • @prats you can try that and measure, but I doubt you'll find any improvement
    – fps
    Sep 7, 2018 at 14:17

I agree with Federico that a Collector seems the best choice here.

However, instead of implementing a very specialized Collector, I prefer to implement only some generic "building blocks", and then use those blocks to compose the Collector that I need in a given case.


interface Mapper<T> {
    T map(Dummy dummy, Class<T> type);

this is how the construction of DummyObject looks like when using my solution:

Collector<Dummy, ?, DummyObject> dummyObjectCollector = someCondition
        ? toDummyObjectWithSums(mapper)
        : toDummyObjectWithoutSums(mapper);
return dummy.stream().collect(dummyObjectCollector);

Here is how I compose the use-case-specific Collectors:

private static Collector<Dummy, ?, DummyObject> toDummyObjectWithoutSums(Mapper<NewDummy> mapper) {
    return Collectors.collectingAndThen(toNewDummyList(mapper), DummyObject::new);

private static Collector<Dummy, ?, List<NewDummy>> toNewDummyList(Mapper<NewDummy> mapper) {
    return Collectors.mapping(dummy -> mapper.map(dummy, NewDummy.class), Collectors.toList());

private static Collector<Dummy, ?, DummyObject> toDummyObjectWithSums(Mapper<NewDummy> mapper) {
    return ExtraCollectors.collectingBoth(
            (newDummyList, amountSumPair) -> new DummyObject(
                    newDummyList, amountSumPair.getAmountSum1(), amountSumPair.getAmountSum2()

private static Collector<Dummy, ?, AmountSumPair> sumGroupCollector() {
    return ExtraCollectors.collectingBoth(

static Collector<Dummy, ?, BigDecimal> summingAmount(Function<Dummy, BigDecimal> getter) {
    return Collectors.mapping(getter,

private static class AmountSumPair {
    private final BigDecimal amountSum1;
    private final BigDecimal amountSum2;

    // constructor + getters

Finally, we come to the generic "building blocks" (which I placed inside ExtraCollectors class):

  • summingBigDecimal: quite obvious
  • filtering: also rather obvious (corresponds to Stream.filter)
  • collectingBoth: this is the most interesting one:
    1. it takes two Collectors (both operating on T but returning different results, i.e. Collector<T, ?, R1> and Collector<T, ?, R2>)
    2. and it combines them using a BiFunction<R1, R2, R> into a single Collector<T, ?, R>

Here is the ExtraCollectors class:

final class ExtraCollectors {

    static Collector<BigDecimal, ?, BigDecimal> summingBigDecimal() {
        return Collectors.reducing(BigDecimal.ZERO, BigDecimal::add);

    static <T, A, R> Collector<T, A, R> filtering(
            Predicate<T> filter, Collector<T, A, R> downstream) {
        return Collector.of(
                (A acc, T t) -> {
                    if (filter.test(t)) {
                        downstream.accumulator().accept(acc, t);
                downstream.characteristics().toArray(new Collector.Characteristics[0])

    static <T, R1, R2, R> Collector<T, ?, R> collectingBoth(
            Collector<T, ?, R1> collector1, Collector<T, ?, R2> collector2, BiFunction<R1, R2, R> biFinisher) {
        return collectingBoth(new BiCollectorHandler<>(collector1, collector2), biFinisher);

    // method needed to capture A1 and A2
    private static <T, A1, R1, A2, R2, R> Collector<T, ?, R> collectingBoth(
            BiCollectorHandler<T, A1, R1, A2, R2> biCollectorHandler, BiFunction<R1, R2, R> biFinisher) {
        return Collector.<T, BiCollectorHandler<T, A1, R1, A2, R2>.BiAccumulator, R>of(
                biAccumulator -> biAccumulator.finish(biFinisher)

And here is the BiCollectorHandler class (used internally by ExtraCollectors.collectingBoth):

final class BiCollectorHandler<T, A1, R1, A2, R2> {

    private final Collector<T, A1, R1> collector1;
    private final Collector<T, A2, R2> collector2;

    BiCollectorHandler(Collector<T, A1, R1> collector1, Collector<T, A2, R2> collector2) {
        this.collector1 = collector1;
        this.collector2 = collector2;

    BiAccumulator newBiAccumulator() {
        return new BiAccumulator(collector1.supplier().get(), collector2.supplier().get());

    final class BiAccumulator {

        final A1 acc1;
        final A2 acc2;

        private BiAccumulator(A1 acc1, A2 acc2) {
            this.acc1 = acc1;
            this.acc2 = acc2;

        void accept(T t) {
            collector1.accumulator().accept(acc1, t);
            collector2.accumulator().accept(acc2, t);

        BiAccumulator combine(BiAccumulator other) {
            A1 combined1 = collector1.combiner().apply(acc1, other.acc1);
            A2 combined2 = collector2.combiner().apply(acc2, other.acc2);
            return new BiAccumulator(combined1, combined2);

        <R> R finish(BiFunction<R1, R2, R> biFinisher) {
            R1 result1 = collector1.finisher().apply(acc1);
            R2 result2 = collector2.finisher().apply(acc2);
            return biFinisher.apply(result1, result2);
  • 3
    +1 for the work (I bet it took quite some time to write) and btw BiCollector might be coming to jdk-12.
    – Eugene
    Sep 7, 2018 at 12:42
  • 2
    @Eugene Ha, Tagir Valeev came up with this before me ;) Good to know, thanks for the information! I hope this feature makes it to the JDK 12. And yes, it took a while to write - a bit longer than I expected, but this is the problem with SO: solving problems like the one here gets addictive once you start ;) Sep 7, 2018 at 12:52
  • This is a great work, Tomasz, and I agree in that having these building blocks is a much better approach. I also liked your initial anser very much, I think that it showed the other side of the coin, i.e. you don't need a specialized collector for this, just refactor the sums of the amounts into a private method and you will be OK streaming 3 times over the list.
    – fps
    Sep 7, 2018 at 15:28
  • 2
    @FedericoPeraltaSchaffner Thank you! :) About my initial answer: it was actually wrong because I misunderstood the question and was streaming List<Dummy> only once and List<NewDummy> twice. Of course, triple streaming of List<Dummy> might also be an option, but since the OP wrote "assume we are getting data from some source", I assume such streaming is to be considered expensive. Sep 7, 2018 at 15:48
  • Update: the "BiCollector" functionality is coming to JDK12 as Collectors.teeing: JDK-8209685. Nov 12, 2018 at 6:42

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