2

I'm new to using Java 8 Stream APIs but I'm looking to use it for the following problem. Say I have a POJO called InputRecord containing name, fieldA, and fieldB properties that can represent each row record of the following:

name | fieldA | fieldB
----------------------
A    | 100    | 1.1
A    | 150    | 2.0
B    | 200    | 1.5
A    | 120    | 1.3

InputRecord would look like:

public class InputRecord {
    private String name;
    private Integer fieldA;
    private BigDecimal fieldB;

    public String getName() {
        return name;
    }

    public void setName(String name) {
        this.name = name;
    }

    public Integer getFieldA() {
        return fieldA;
    }

    public void setFieldA(Integer fieldA) {
        this.fieldA = fieldA;
    }

    public BigDecimal getFieldB() {
        return fieldB;
    }

    public void setFieldB(BigDecimal fieldB) {
        this.fieldB = fieldB;
    }
}

Those four records above need to be combined into two records grouped by name, where:

  1. Property fieldA is summed
  2. Property fieldB is summed
  3. The combined records includes a fieldC property which is the result of multiplying the accumulating sums of both fieldA and fieldB.

Therefore the results for above would be:

name | sumOfFieldA | sumOfFieldB | fieldC (sumOfFieldA*sumOfFieldB)
-------------------------------------------------------------------
A    | 370         | 4.4         | 1628
B    | 200         | 1.5         | 300

A different POJO called OutputRecord would represent each row record of the combined records:

public class OutputRecord {
    private String name;
    private Integer sumOfFieldA;
    private BigDecimal sumOfFieldB;
    private BigDecimal fieldC;

    public String getName() {
        return name;
    }

    public void setName(String name) {
        this.name = name;
    }

    public Integer getSumOfFieldA() {
        return sumOfFieldA;
    }

    public void setSumOfFieldA(Integer sumOfFieldA) {
        this.sumOfFieldA = sumOfFieldA;
    }

    public BigDecimal getSumOfFieldB() {
        return sumOfFieldB;
    }

    public void setSumOfFieldB(BigDecimal sumOfFieldB) {
        this.sumOfFieldB = sumOfFieldB;
    }

    public BigDecimal getFieldC() {
        return fieldC;
    }

    public void setFieldC(BigDecimal fieldC) {
        this.fieldC = fieldC;
    }
}

What are some good approaches/solutions for transforming a list of InputRecords into a list of OutputRecords?

I was seeing if the following link would help but I got stuck trying to put collectors for fieldA and fieldB together in order to form a new collector for fieldC: Java 8 Stream: groupingBy with multiple Collectors

Collector<InputRecord, ?, Integer> fieldACollector = Collectors.summingInt(InputRecord::getFieldA);
Collector<InputRecord, ?, BigDecimal> fieldBCollector = Collectors.reducing(BigDecimal.ZERO, InputRecord::getFieldB, BigDecimal::add);

List<Collector<InputRecord, ?, ?>> collectors = Arrays.asList(fieldACollector, fieldBCollector); // need a fieldCCollector object in the list

The collectors object would then be used to create a complexCollector object (as per the accepted answer by Tagir Valeev in the above link).

  • Why would you need a fieldC when you could just calculate it on the fly? – shmosel Dec 5 '17 at 3:19
  • Can you include more information about your POJO? Is it mutable? Does it have getters? What does the constructor look like? – shmosel Dec 5 '17 at 3:21
  • Thanks I added more info. The POJOs can be mutable – Mark Dec 5 '17 at 3:45
  • Thanks Holger, I've added the actual question :) – Mark Dec 5 '17 at 12:38
3

To me the cleanest way is to build a custom collector for that. There are multiple lines of code here, but you can hide it under a method, so your ultimate operation would look like this:

Collection<OutputRecord> output = List.of(first, second, thrid, fourth)
            .stream()
            .parallel()
            .collect(toOutputRecords());

While the actual toOutputRecords would be:

 private static Collector<InputRecord, ?, Collection<OutputRecord>> toOutputRecords() {
    class Acc {

        Map<String, OutputRecord> map = new HashMap<>();

        void add(InputRecord elem) {
            String value = elem.getName();
            // constructor without fieldC since you compute it at the end
            OutputRecord record = new OutputRecord(value, elem.getFieldA(), elem.getFieldB());
            mergeIntoMap(map, value, record);
        }

        Acc merge(Acc right) {
            Map<String, OutputRecord> leftMap = map;
            Map<String, OutputRecord> rightMap = right.map;

            for (Entry<String, OutputRecord> entry : rightMap.entrySet()) {
                mergeIntoMap(leftMap, entry.getKey(), entry.getValue());
            }
            return this;
        }

        private void mergeIntoMap(Map<String, OutputRecord> map, String value, OutputRecord record) {

            map.merge(value, record, (left, right) -> {
                left.setSumOfFieldA(left.getSumOfFieldA() + right.getSumOfFieldA());
                left.setSumOfFieldB(left.getSumOfFieldB().add(right.getSumOfFieldB()));

                return left;
            });
        }

        public Collection<OutputRecord> finisher() {
            for (Entry<String, OutputRecord> e : map.entrySet()) {
                OutputRecord output = e.getValue();
                output.setFieldC(output.getSumOfFieldB().multiply(BigDecimal.valueOf(output.getSumOfFieldA())));
            }
            return map.values();
        }

    }
    return Collector.of(Acc::new, Acc::add, Acc::merge, Acc::finisher);
}
1

You can use Stream.reduce(..) to transform two records into a single one. It creates a bunch of temporary objects that needs to be garbage collected by the JVM.

Collection<InputRecord> input = Arrays.asList(
        new InputRecord("A", 100, new BigDecimal(1.1)),
        new InputRecord("A", 150, new BigDecimal(2.0)),
        new InputRecord("B", 200, new BigDecimal(1.5)),
        new InputRecord("A", 120, new BigDecimal(1.3)));

Collection<OutputRecord> output = input.stream()
        // group records for particular Name into a List
        .collect(Collectors.groupingBy(InputRecord::getName))
        .values().stream()
        // Reduce every List to a single records, performing summing
        .map(records -> records.stream()
                .reduce((a, b) ->
                        new InputRecord(a.getName(),
                                a.getFieldA() + b.getFieldA(),
                                a.getFieldB().add(b.getFieldB()))))
        .filter(Optional::isPresent)
        .map(Optional::get)
        // Finally transform the InputRecord to OutputRecord
        .map(record -> new OutputRecord(record.getName(),
                record.getFieldA(),
                record.getFieldB(),
                record.getFieldB().multiply(new BigDecimal(record.getFieldA()))))
        .collect(Collectors.toList());
  • you can probably use an identity InputRecord(0, BigDecimla.ZERO) here instead of filter(Optional::isPresent).map(Optional::get), also a mutable collector is much more advisable here as it creates way less objects. to make this even more nice, you can create two more methods: InputRecord join(InputRecord left, InputRecord right) ... and one more in the form OutputRecord transform (InputRecord in). As such this pipeline would become much shorter and much more readable. Still plus one – Eugene Dec 6 '17 at 15:55
0

You can can use combine and aggregate functions to generate the list of OutputRecords from List of InputRecords.

Map<String, OutputRecord> result = inputRecords.stream().collect(() -> new HashMap<>(),
                (HashMap<String, OutputRecord> map, InputRecord inObj) -> {
                    OutputRecord out = map.get(inObj.getName());
                    if (out == null) {
                        out = new OutputRecord();
                        out.setName(inObj.getName());
                        out.setSumOfFieldA(inObj.getFieldA());
                        out.setSumOfFieldB(inObj.getFieldB());
                    } else {

                        Integer s = out.getSumOfFieldA();
                        out.setSumOfFieldA(s + inObj.getFieldA());
                        BigDecimal bd = out.getSumOfFieldB();
                        out.setSumOfFieldB(bd.add(inObj.getFieldB()));
                    }
                    out.setFieldC(out.getSumOfFieldB().multiply(new BigDecimal(out.getSumOfFieldA())));
                    map.put(out.getName(), out);

                }, (HashMap<String, OutputRecord> out1, HashMap<String, OutputRecord> out2) -> {
                    out1.putAll(out2);
                });

        System.out.println(result);
0

Instead of defining the customized Collectors(which is I think it's complicated and difficult to maintain), I think a general utility method to combine multiple Collectors will be much better. For Example:

public static <T, A1, A2, R1, R2> Collector<T, Tuple2<A1, A2>, Tuple2<R1, R2>> combine(final Collector<? super T, A1, R1> collector1,
        final Collector<? super T, A2, R2> collector2) {
 ...
}

Working with the combine method, the solution will be:

Collector<InputRecord, ?, Integer> fieldACollector = MoreCollectors.summingInt(InputRecord::getFieldA);
Collector<InputRecord, ?, BigDecimal> fieldBCollector = MoreCollectors.reducing(BigDecimal.ZERO, InputRecord::getFieldB, BigDecimal::add);

inputRecords.stream().collect(MoreCollectors.groupingBy(InputRecord::getName, 
                            MoreCollectors.combine(fieldACollector, fieldBCollector)))
        .entrySet().stream()
        .map(e -> new OutputRecord(e.getKey(), e.getValue()._1, e.getValue()._2))
        .collect(Collectors.toList());

Here is the sample implementation for the combine in AbacusUtil

StreamEx.of(inputRecords)
        .groupBy(InputRecord::getName, MoreCollectors.combine(fieldACollector, fieldBCollector))
        .map(e -> new OutputRecord(e.getKey(), e.getValue()._1, e.getValue()._2)).toList();

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