How can I elegantly serialize a lambda?

For example, the code below throws a NotSerializableException. How can I fix it without creating a SerializableRunnable "dummy" interface?

public static void main(String[] args) throws Exception {
    File file = Files.createTempFile("lambda", "ser").toFile();
    try (ObjectOutput oo = new ObjectOutputStream(new FileOutputStream(file))) {
        Runnable r = () -> System.out.println("Can I be serialized?");

    try (ObjectInput oi = new ObjectInputStream(new FileInputStream(file))) {
        Runnable  r = (Runnable) oi.readObject();

6 Answers 6


Java 8 introduces the possibility to cast an object to an intersection of types by adding multiple bounds. In the case of serialization, it is therefore possible to write:

Runnable r = (Runnable & Serializable)() -> System.out.println("Serializable!");

And the lambda automagically becomes serializable.

  • 4
    Very interesting - this feature seems to be quite powerful. Is there any use of such a cast expression outside of casting lambdas? E.g. is it now also possible to do something similar with an ordinary anonymous class?
    – Balder
    Apr 2, 2014 at 10:50
  • 6
    @Balder The facility to cast to an intersection type was added in order to provide a target type for type inference of lambdas. Since AICs have a manifest type (i.e., its type is not inferred) casting an AIC to an intersection type isn't useful. (It is possible, just not useful.) To have an AIC implement multiple interfaces, you have to create a new subinterface that extends all of them, and then instantiate that. Apr 2, 2014 at 17:19
  • 2
    Will this produce a compiler warning, saying no serialVersionUID is defined? Apr 6, 2014 at 13:09
  • 16
    Note: this only works if you apply the cast during construction. The following will throw a ClassCastException: Runnable r = () -> System.out.println("Serializable!"); Runnable serializableR = (Runnable & Serializable)r;
    – bcody
    Oct 9, 2015 at 7:36
  • 3
    @bcody Yes see also: stackoverflow.com/questions/25391656/…
    – assylias
    Oct 9, 2015 at 8:55

Very ugly cast. I prefer to define a Serializable extension to the functional interface I'm using

For example:

interface SerializableFunction<T,R> extends Function<T,R>, Serializable {}
interface SerializableConsumer<T> extends Consumer<T>, Serializable {}

then the method accepting the lambda can be defined as such :

private void someFunction(SerializableFunction<String, Object> function) {

and calling the function you can pass your lambda without any ugly cast:

someFunction(arg -> doXYZ(arg));
  • 4
    I like this answer because then any external caller you don't write will automatically also be serializable. If you want objects submitted to be serializable, your interface should be serializable, which is kind of the point of an interface. However, the question did say "without creating a SerializableRunnable 'dummy' interface"
    – slevin
    Nov 1, 2017 at 20:42

The same construction can be used for method references. For example this code:

import java.io.Serializable;

public class Test {
    static Object bar(String s) {
        return "make serializable";

    void m () {
        SAM s1 = (SAM & Serializable) Test::bar;
        SAM s2 = (SAM & Serializable) t -> "make serializable";

    interface SAM {
        Object action(String s);

defines a lambda expression and a method reference with a serializable target type.


In case someone falls here while creating Beam/Dataflow code :

Beam has his own SerializableFunction Interface so no need for dummy interface or verbose casts.


If you are willing to switch to another serialization framework like Kryo, you can get rid of the multiple bounds or the requirement that the implemented interface must implement Serializable. The approach is to

  1. Modify the InnerClassLambdaMetafactory to always generate the code required for serialization
  2. Directly call the LambdaMetaFactory during deserialization

For details and code see this blog post


To add to other answers, you can create a serializable lambda by using the cast expression or by using a new interface that extends Serializable as shown in other answers. Notice that the resulting objects don't necessarily play nice with default methods of the functional interfaces (for example). The third solution, far from ideal because it does not ensure that the right hand side operand is serializable, does generate a serializable object.

public void testCasetExpression() {
    Predicate<Integer> p1 = (Predicate<Integer> & Serializable)i -> true;
    Predicate<Integer> p2 = (Predicate<Integer> & Serializable)i -> true;
    Predicate<Integer> p3 = p1.and(p2);
    Assertions.assertFalse(p3 instanceof Serializable); // Notice false

interface SerializablePredicateV1<T> extends Predicate<T>, Serializable {}

public void testInterfaceV1() {
    Predicate<Integer> p1 = (SerializablePredicateV1)i -> true;
    Predicate<Integer> p2 = (SerializablePredicateV1)i -> true;
    Predicate<Integer> p3 = p1.and(p2);
    Assertions.assertFalse(p3 instanceof Serializable); // Notice false

interface SerializablePredicateV2<T> extends Predicate<T>, Serializable {
    default SerializablePredicateV2<T> and(Predicate<? super T> other) {
        return (t) -> test(t) && other.test(t);


public void testInterfaceV2() {
    Predicate<Integer> p1 = (SerializablePredicateV2)i -> true;
    Predicate<Integer> p2 = (SerializablePredicateV2)i -> true;
    Predicate<Integer> p3 = p1.and(p2);
    Assertions.assertTrue(p3 instanceof Serializable); // Notice true
    Predicate<Integer> p4 = i -> true; // Not serializable
    Predicate<Integer> p5 = p1.and(p4);
    // true but will fail because p4 is not serializable
    Assertions.assertTrue(p5 instanceof Serializable);  

// Not a Predicate anymore :(
interface SerializablePredicateV3<T> extends Serializable {

    boolean test(T t);

    default SerializablePredicateV3<T> and(SerializablePredicateV3<? super T> other) {
        return (t) -> test(t) && other.test(t);

public void testInterfaceV3() {
    SerializablePredicateV3<Integer> p1 = (SerializablePredicateV3)i -> true;
    SerializablePredicateV3<Integer> p2 = (SerializablePredicateV3)i -> true;
    SerializablePredicateV3<Integer> p3 = p1.and(p2);

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