43

I have a List<Foo> and want a Multimap<String, Foo> where we've grouped the Foo's by their getId() function.

I am using Java 8 and its almost awesome in that you can do:

List<Foo> foos = ...
Map<String, List<Foo>> foosById = foos.stream().collect(groupingBy(Foo::getId));

However, I have a good amount of code that wants a MultiMap<String, Foo> so this doesnt save me anything and I'm back to using a for-loop to create my MultiMap. Is there a nice "functional" way that I am missing?

marked as duplicate by Ryan Kempt, Peter O., ntalbs, Riser, Soner Gönül Sep 15 '14 at 6:31

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  • 3
    This is not a duplicate as the other question is indexing the Foo's by a property of theirs that is an arrays (Tags) instead of a property with a single value (id) – Scott B Mar 23 '15 at 16:31
  • 6
    As of Guava 21.0, there is a builtin Multimaps#toMultimap and flatteningToMultimap methods that return collectors. – Daniel Bickler Jul 7 '17 at 15:56
79

You can just use the Guava Multimaps factory:

Multimaps.index(foos, Foo::getId);

or wrap a call to Multimaps.index with a Collector interface (shown below, in an unoptimized naive implementation).

Multimap<String, Foo> collect = foos.stream().collect(MultimapCollector.toMultimap(Foo::getId));

and the Collector:

public class MultimapCollector<T, K, V> implements Collector<T, Multimap<K, V>, Multimap<K, V>> {

    private final Function<T, K> keyGetter;
    private final Function<T, V> valueGetter;

    public MultimapCollector(Function<T, K> keyGetter, Function<T, V> valueGetter) {
        this.keyGetter = keyGetter;
        this.valueGetter = valueGetter;
    }

    public static <T, K, V> MultimapCollector<T, K, V> toMultimap(Function<T, K> keyGetter, Function<T, V> valueGetter) {
        return new MultimapCollector<>(keyGetter, valueGetter);
    }

    public static <T, K, V> MultimapCollector<T, K, T> toMultimap(Function<T, K> keyGetter) {
        return new MultimapCollector<>(keyGetter, v -> v);
    }

    @Override
    public Supplier<Multimap<K, V>> supplier() {
        return ArrayListMultimap::create;
    }

    @Override
    public BiConsumer<Multimap<K, V>, T> accumulator() {
        return (map, element) -> map.put(keyGetter.apply(element), valueGetter.apply(element));
    }

    @Override
    public BinaryOperator<Multimap<K, V>> combiner() {
        return (map1, map2) -> {
            map1.putAll(map2);
            return map1;
        };
    }

    @Override
    public Function<Multimap<K, V>, Multimap<K, V>> finisher() {
        return map -> map;
    }

    @Override
    public Set<Characteristics> characteristics() {
        return ImmutableSet.of(Characteristics.IDENTITY_FINISH);
    }
}
  • 5
    Multimaps.index returns an immutable Multimap, which may not be what you want. – dkarp Dec 24 '15 at 4:26
  • Agree, multimap itself is immutable, but it does NOT mean the objects contained in them automatically are. If we can get a reference to an object in an immutable collection, then there's nothing to stop us changing any mutable state on that object. So for some use-case, Multimaps.index is still good. My 2 cents. – Leon li Mar 25 '16 at 17:41
  • 6
    An immutable multimap is exactly what you should want in most cases. – Svante May 10 '16 at 18:51
  • 2
    I wrote an ImmutableMultimapCollector: medium.com/@robertmassaioli/… – Robert Massaioli Nov 3 '16 at 23:55

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