I have the following 3 files,


class A {

    private float b;    

    public A(float b) {
        this.b = b;

    public float getB() {
        return b;



import java.util.Arrays;

class C {

    private A[] d;
    private int i = 0;

    public C() {
        d = new A[2];

    public float totalB() {
        return Arrays.stream(d).reduce((e, f) -> e.getB() + f.getB()).get();

    public void addB(A b) {
        d[i++] = b;



class D {

    public static void main(String[] args) {
        C c = new C();
        c.addB(new A(3));
        c.addB(new A(5));


I was expecting the last line in D.java to output 8, however I get this error:

error: incompatible types: bad return type in lambda expression return Arrays.stream(d).reduce((e, f) -> e.getB() + f.getB()).get(); ^ float cannot be converted to A Why does this happen? I don't see where I'm converting the floats to the object A.

  • 1
    Is it intended that your totalB() method returns an int instead of a float? – Joakim Danielson Nov 15 '18 at 14:10

The single argument reduce() variant expects the final result of the reduce operation to be of the same type as the Stream elements.

You need a different variant:

<U> U reduce(U identity,
             BiFunction<U, ? super T, U> accumulator,
             BinaryOperator<U> combiner);

which you can use as follows:

public float totalB() {
    return Arrays.stream(d).reduce(0.0f,(r, f) -> r + f.getB(), Float::sum);
  • 3
    or Arrays.stream(d).reduce(0,(r, f) -> r + (int)f.getB(), Integer::sum); – Ankur Chrungoo Nov 15 '18 at 14:08
  • @AnkurChrungoo good point – Eran Nov 15 '18 at 14:10
  • Thanks, this works. Could you also please link the appropriate documentation for this? – newbie Nov 15 '18 at 14:15
  • 1
    @newbie You're welcome. Added a link to the Javadoc – Eran Nov 15 '18 at 14:17
  • 1
    @Eran, yes, but I mean't another way, i.e. probably using map() to map it to int/float based stream, and then using reduce() on it. – Ankur Chrungoo Nov 15 '18 at 14:25

I prefer utilizing the "sum" method as it's more readable than the general reduce pattern. i.e.

return (float)Arrays.stream(d)

This is the more idiomatic, readable and efficient approach as opposed to your approach of Arrays.stream(d).reduce(...)...

  • Yeah I was thinking to use it but had to use maptodouble which I didn’t quite like :) – Ankur Chrungoo Nov 15 '18 at 15:02
  • And I hope there was a method mapToFloat, making this more intuitive and probably more efficient. – Ankur Chrungoo Nov 15 '18 at 15:17
  • 1
    @AnkurChrungoo where’s the problem with mapToDouble? Doing the arithmetic in double instead of Float will be much faster. And no, calculating in float is unlikely to be more efficient, as all real life FPUs calculate in double (or with even higher precision) and forcing a lower precision (truncating the result after each step) may cost even more time. – Holger Nov 15 '18 at 15:17
  • @Holger oh is it? Is this more efficient space and time complexity wise? Would appreciate if you could share some detailed insight. Thanks! – Ankur Chrungoo Nov 15 '18 at 15:20
  • 4
    @AnkurChrungoo keep in mind that streams are not about storage, but only calculations. Once the JIT/HotSpot optimizer did its work, all intermediate values reside in CPU registers anyway, and the CPU registers always have the same width. The only drawback is that there is no way to create a float[] array from a stream as a result. But here, we get only one final value which we can just cast anyway. One of the API developers once said in a comment on SO that they even considered omitting the IntStream in favor of LongStream but felt that “the developers are not ready for that (yet)”… – Holger Nov 15 '18 at 15:23

As mentioned in my comment above, posting another alternative where you don't need the second version of the reduce method.

public float totalB() {
    return Arrays.stream(d).map(i -> i.getB()).reduce(Float::sum).get();
  • 4
    or better --> return Arrays.stream(d).map(A::getB).reduce(Float::sum).orElse(0f); – Aomine Nov 15 '18 at 14:56
  • 4
    @Aomine or … .reduce(0f, Float::sum) – Holger Nov 15 '18 at 17:05

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