Is there an equivalent of Scala's Either in Java 8?

Question

Just like java.util.Optional<T> in Java 8 is (somewhat) equivalent to Scala's Option[T] type, is there an equivalent to Scala's Either[L, R]?

Answer 1

There is no Either type is Java 8, so you need to create one yourself or use some third-party library.

You may build such a feature using the new Optional type (but read to the end of this answer):

final class Either<L,R>
{
    public static <L,R> Either<L,R> left(L value) {
        return new Either<>(Optional.of(value), Optional.empty());
    }
    public static <L,R> Either<L,R> right(R value) {
        return new Either<>(Optional.empty(), Optional.of(value));
    }
    private final Optional<L> left;
    private final Optional<R> right;
    private Either(Optional<L> l, Optional<R> r) {
      left=l;
      right=r;
    }
    public <T> T map(
        Function<? super L, ? extends T> lFunc,
        Function<? super R, ? extends T> rFunc)
    {
        return left.<T>map(lFunc).orElseGet(()->right.map(rFunc).get());
    }
    public <T> Either<T,R> mapLeft(Function<? super L, ? extends T> lFunc)
    {
        return new Either<>(left.map(lFunc),right);
    }
    public <T> Either<L,T> mapRight(Function<? super R, ? extends T> rFunc)
    {
        return new Either<>(left, right.map(rFunc));
    }
    public void apply(Consumer<? super L> lFunc, Consumer<? super R> rFunc)
    {
        left.ifPresent(lFunc);
        right.ifPresent(rFunc);
    }
}

Example use case:

new Random().ints(20, 0, 2).mapToObj(i -> (Either<String,Integer>)(i==0?
  Either.left("left value (String)"):
  Either.right(42)))
.forEach(either->either.apply(
  left ->{ System.out.println("received left value: "+left.substring(11));},
  right->{ System.out.println("received right value: 0x"+Integer.toHexString(right));}
));

In retrospective, the Optional based solution is more like an academic example, but not a recommended approach. One problem is the treatment of null as “empty” which contradicts the meaning of “either”.

The following code shows an Either that considers null a possible value, so it’s strictly “either”, left or right, even if the value is null:

abstract class Either<L,R>
{
    public static <L,R> Either<L,R> left(L value) {
        return new Either<L,R>() {
            @Override public <T> T map(Function<? super L, ? extends T> lFunc,
                                       Function<? super R, ? extends T> rFunc) {
                return lFunc.apply(value);
            }
        };
    }
    public static <L,R> Either<L,R> right(R value) {
        return new Either<L,R>() {
            @Override public <T> T map(Function<? super L, ? extends T> lFunc,
                                       Function<? super R, ? extends T> rFunc) {
                return rFunc.apply(value);
            }

        };
    }
    private Either() {}
    public abstract <T> T map(
      Function<? super L, ? extends T> lFunc, Function<? super R, ? extends T> rFunc);

    public <T> Either<T,R> mapLeft(Function<? super L, ? extends T> lFunc) {
        return this.<Either<T,R>>map(t -> left(lFunc.apply(t)), t -> (Either<T,R>)this);
    }
    public <T> Either<L,T> mapRight(Function<? super R, ? extends T> lFunc) {
        return this.<Either<L,T>>map(t -> (Either<L,T>)this, t -> right(lFunc.apply(t)));
    }
    public void apply(Consumer<? super L> lFunc, Consumer<? super R> rFunc) {
        map(consume(lFunc), consume(rFunc));
    }
    private <T> Function<T,Void> consume(Consumer<T> c) {
        return t -> { c.accept(t); return null; };
    }
}

It’s easy to change that to a strict rejection of null by simply inserting an Objects.requireNonNull(value) at the beginning of both factory methods. Likewise, adding support for an empty either would be imaginable.

Answer 2

At the time of writing, vavr (formerly javaslang) is probably the most popular functional Java 8 library. It is pretty similar to lambda-companion's Either in my other answer.

Either<String,Integer> value = compute().right().map(i -> i * 2).toEither();

Answer 3

There is no Either in the Java Standard Library. However there is an implementation of Either in FunctionalJava, along with many other nice classes.

Answer 4

cyclops-react has a 'right' biased either implementation called Xor.

 Xor.primary("hello")
    .map(s->s+" world")

 //Primary["hello world"]

 Xor.secondary("hello")
    .map(s->s+" world")

 //Secondary["hello"]

 Xor.secondary("hello")
    .swap()
    .map(s->s+" world")

 //Primary["hello world"]

Xor.accumulateSecondary(ListX.of(Xor.secondary("failed1"),
                                 Xor.secondary("failed2"),
                                 Xor.primary("success")),
                                 Semigroups.stringConcat)

//failed1failed2

There is also a related type Ior which can act as an either or a tuple2.

• disclosure I am the author of cyclops-react.

Answer 5

No, there is none.

Java language developers explicitly state that types like Option<T> are intended to be used only as temporary values (e.g. in stream operations results), so while they are the same thing as in other languages, they are not supposed to be used as they are used in other languages. So it is not surprising that there is no such thing as Either because it does not arise naturally (e.g. from stream operations) like Optional does.

Answer 6

There is a stand-alone implementation of Either in a small library, "ambivalence": http://github.com/poetix/ambivalence

You can get it from Maven central:

<dependency>
    <groupId>com.codepoetics</groupId>
    <artifactId>ambivalence</artifactId>
    <version>0.2</version>
</dependency>

Answer 7

lambda-companion has an Either type (and a few other functional types e.g. Try)

<dependency>
    <groupId>no.finn.lambda</groupId>
    <artifactId>lambda-companion</artifactId>
    <version>0.25</version>
</dependency>

Using it is easy:

final String myValue = Either.right("example").fold(failure -> handleFailure(failure), Function.identity())

Answer 8

NOTE: For an enhanced and fully documented version of the Either class shown below (including equals, hashCode, flatMap, and other miscellaneous helper functions), please visit this Gist.

---

I have taken the implementation @Holger provided in his (currently top voted) Answer, and polished it a bit to eliminate all the null issues I could find.

I refactored it to be more naming convention aligned with the OpenJDK.

I then read through the comments, and made tweaks and adjustments to further improve the quality of the implementation.

I have also added state validation to the constructor, and added a couple of helper methods, isLeft(), isRight(), getLeft(), and getRight().

/**
 * Implementation of Either<L, R> via a pair of Optionals which explicitly
 * reject null values.
 * <p>
 * Inspired by the (first) solution presented in this StackOverflow Answer:
 * <a href="https://stackoverflow.com/a/26164155/501113">...</a>
 **/
public static final class Either<L, R> {

  public static <L, R> Either<L, R> left(L value) {
    return new Either<>(Optional.of(value), Optional.empty());
  }

  public static <L, R> Either<L, R> right(R value) {
    return new Either<>(Optional.empty(), Optional.of(value));
  }

  private final Optional<L> left;
  private final Optional<R> right;

  private Either(Optional<L> left, Optional<R> right) {
    if (left.isEmpty() == right.isEmpty()) {
      throw new IllegalArgumentException(
          "left.isEmpty() and right.isEmpty() cannot be equal");
    }
    this.left = left;
    this.right = right;
  }

  public boolean isLeft() {
    return this.left.isPresent();
  }

  public boolean isRight() {
    return this.right.isPresent();
  }

  public L getLeft() {
    return this.left.get();
  }

  public R getRight() {
    return this.right.get();
  }

  public <T> T map(
      Function<? super L, ? extends T> leftFunction,
      Function<? super R, ? extends T> rightFunction
  ) {
    return this.left
        .<T>map(l -> Objects.requireNonNull(leftFunction.apply(l)))
        .orElseGet(() ->
            this.right
                .map(r -> Objects.requireNonNull(rightFunction.apply(r)))
                .orElseThrow(() ->
                    new IllegalStateException(
                        "should never get here")));
  }

  public <T> Either<T, R> mapLeft(
    Function<? super L, ? extends T> leftFunction
  ) {
    return new Either<>(
        this.left.map(l ->
            Objects.requireNonNull(leftFunction.apply(l))),
        this.right);
  }

  public <T> Either<L, T> mapRight(
    Function<? super R, ? extends T> rightFunction
  ) {
    return new Either<>(
        this.left,
        this.right.map(r -> 
            Objects.requireNonNull(rightFunction.apply(r))));
  }

  public void forEach(
    Consumer<? super L> leftAction,
    Consumer<? super R> rightAction
  ) {
    this.left.ifPresent(leftAction);
    this.right.ifPresent(rightAction);
  }
}

---

NOTE: For an enhanced and fully documented version of the Either class shown below (including equals, hashCode, flatMap, and other miscellaneous helper functions), please visit this Gist.