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Will Java 8 support pattern matching like Scala and other functional programs do? I'm putting a presentation together of Java 8's Lambda features. I can't find anything on this particular Functional-programming concept.

I remember what got me interested in functional programming was the quicksort implementation you see here, especially compared to imperative programming's implementation.

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No, it won't support anything like that. – Marko Topolnik Jun 27 '12 at 5:22
Pattern matching has nothing to do with functional programming. It is nothing but a coincidence that it is mostly available in the functional languages. – SK-logic Jun 27 '12 at 8:38

3 Answers 3

up vote 20 down vote accepted

I suppose you are not talking about pattern matching in the sense of applying a regular expression on a string, but as applied in Haskell. For instance using wildcards:

head (x:_)  = x
tail (_:xs) = xs

Java 8 will not support that natively, with Lambda expression there are, however, ways to do so, like this for computing the factorial:

public static int fact(int n) {
     return ((Integer) new PatternMatching(
          inCaseOf(0, _ -> 1),
          otherwise(  _ -> n * fact(n - 1))

How to implement that you will find more information in this blog post: Towards Pattern Matching in Java.

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Thanks for the article! – edarroyo Aug 10 '12 at 19:03

It's possible to implement pattern matching as a library in Java 8 (taking advantage of lambda expressions), but unfortunately we will still be missing the compiler exhaustiveness check that languages such as Haskell or Scala have.

Cyclops has a fairly large Pattern Matching module, which offers powerful pattern matching for Java 8.

e.g. If we implement a Case class that implements the Matchable interface

 static class MyCase  implements Matchable{ int a; int b; int c;}

(btw, Lombok can come in very handy for creating sealed case class hierarchies)

We can match on it's internal values (recursively if neccessary, or by type among various other options).

  new MyCase(1,2,3).match(this::cases);

  private <I,T> CheckValues<Object, T> cases(CheckValues<I, T> c) {
    return c.with(1,2,3).then(i->"hello")

If we have an Object that doesn't implement Matchable, we can coerce it to Matchable anyway, our code would become

 As.asMatchable(new MyCase(1,2,3)).match(this::cases);
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Derive4J is a library aiming at supporting near-native support for sum types and structural pattern matching for java (and even more). Taking a small calculator DSL as an example, with Derive4J you are able to write the following code:

import java.util.function.Function;
import org.derive4j.Data;
import static org.derive4j.exemple.Expressions.*;

public abstract class Expression {

    interface Cases<R> {
        R Const(Integer value);
        R Add(Expression left, Expression right);
        R Mult(Expression left, Expression right);
        R Neg(Expression expr);

    public abstract <R> R match(Cases<R> cases);

    private static Function<Expression, Integer> eval = Expressions
            .Const(value        -> value)
            .Add((left, right)  -> eval(left) + eval(right))
            .Mult((left, right) -> eval(left) * eval(right))
            .Neg(expr           -> -eval(expr));

    public static Integer eval(Expression expression) {
        return eval.apply(expression);

    public static void main(String[] args) {
        Expression expr = Add(Const(1), Mult(Const(2), Mult(Const(3), Const(3))));
        System.out.println(eval(expr)); // (1+(2*(3*3))) = 19
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