The Enum class is Serializable so there is no problem to serialize object with enums. The other case is where class has fields of java.util.Optional class. In this case the following exception is thrown: java.io.NotSerializableException: java.util.Optional

How to deal with such classes, how to serialize them? Is it possible to send such objects to Remote EJB or through RMI?

This is the example:

import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.util.Optional;

import org.junit.Test;

public class SerializationTest {

    static class My implements Serializable {

        private static final long serialVersionUID = 1L;
        Optional<Integer> value = Optional.empty();

        public void setValue(Integer i) {
            this.i = Optional.of(i);

        public Optional<Integer> getValue() {
            return value;

    //java.io.NotSerializableException is thrown

    public void serialize() {
        My my = new My();
        byte[] bytes = toBytes(my);

    public static <T extends Serializable> byte[] toBytes(T reportInfo) {
        try (ByteArrayOutputStream bstream = new ByteArrayOutputStream()) {
            try (ObjectOutputStream ostream = new ObjectOutputStream(bstream)) {
            return bstream.toByteArray();
        } catch (IOException e) {
            throw new RuntimeException(e);
  • If Optional was marked as Serializable, then what would happen if get() returned something that was not serializable?
    – WW.
    Jul 3, 2014 at 7:39
  • 11
    @WW. You would get a NotSerializableException, of course.
    – user207421
    Jul 3, 2014 at 7:40
  • 8
    @WW. It's just like collections. Most of the collection classes are serializable, but a collection instance can actually only be serialized if every object contained in the collection is also serializable. Jul 3, 2014 at 23:21
  • My personal take here: it isnt in to remind people to properly unit test even serialization of objects. Just ran into java.io.NotSerializableException(java.util.Optional) myself ;-(
    – GhostCat
    Dec 11, 2017 at 12:20
  • Gaaaaaaa. Lost 3 hours on this today and getting sonar to pass "Fields in a "Serializable" class should either be transient or serializable". rules.sonarsource.com/java/RSPEC-1948 Oct 9, 2020 at 17:11

8 Answers 8


This answer is in response to the question in the title, "Shouldn't Optional be Serializable?" The short answer is that the Java Lambda (JSR-335) expert group considered and rejected it. That note, and this one and this one indicate that the primary design goal for Optional is to be used as the return value of functions when a return value might be absent. The intent is that the caller immediately check the Optional and extract the actual value if it's present. If the value is absent, the caller can substitute a default value, throw an exception, or apply some other policy. This is typically done by chaining fluent method calls off the end of a stream pipeline (or other methods) that return Optional values.

It was never intended for Optional to be used other ways, such as for optional method arguments or to be stored as a field in an object. And by extension, making Optional serializable would enable it to be stored persistently or transmitted across a network, both of which encourage uses far beyond its original design goal.

Usually there are better ways to organize the data than to store an Optional in a field. If a getter (such as the getValue method in the question) returns the actual Optional from the field, it forces every caller to implement some policy for dealing with an empty value. This will likely lead to inconsisent behavior across callers. It's often better to have whatever code sets that field apply some policy at the time it's set.

Sometimes people want to put Optional into collections, like List<Optional<X>> or Map<Key,Optional<Value>>. This too is usually a bad idea. It's often better to replace these usages of Optional with Null-Object values (not actual null references), or simply to omit these entries from the collection entirely.

  • 27
    Well done Stuart. I must say it's an extraordinary chain if reasoning, and it's an extraordinary things do to design a class that isn't intended to be used as an instance member type. Especially when that isn't stated in the class contract in the Javadoc. Maybe they should have designed an annotation instead of a class.
    – user207421
    Jul 3, 2014 at 23:56
  • 2
    Good thing I dont need to use serializable fields. This would be a disaster otherwise
    – Kurru
    Jul 18, 2015 at 6:39
  • 62
    Interesting answer, to me that design choice was completely unacceptable and misguided. You say "Usually there are better ways to organize the data than to store an Optional in a field", sure, maybe, why not, but that should be the designer's choice, not the language's. It's another one of these cases where I deeply miss Scala optionals in Java (Scala optionals are Serializable, and they follow Monad's guidelines)
    – Guillaume
    Jan 11, 2016 at 16:59
  • 44
    "the primary design goal for Optional is to be used as the return value of functions when a return value might be absent.". Well, it seems you cannot use them for return values in a remote EJB. Great...
    – Thilo
    Jul 31, 2016 at 10:21
  • 3
    I don't really understand the reasoning here. This post is predicated on the idea that the library designer's intentions behind an introduction of a type has relevance to how the type should be used. I don't see that to be the case at all. The inventors of computers intended to speed up some arithmetic, and break some encryption, yet here we are, using it to do fluid physics simulations to optimize the aerodynamics of our cars. If I'm not interested in Java's serialization mechanism (which is broken as hell), why shouldn't I use Optional where it serves me, like in a field or parameter?
    – Alexander
    Jan 29, 2020 at 15:21

A lot of Serialization related problems can be solved by decoupling the persistent serialized form from the actual runtime implementation you operate on.

/** The class you work with in your runtime */
public class My implements Serializable {
    private static final long serialVersionUID = 1L;

    Optional<Integer> value = Optional.empty();

    public void setValue(Integer i) {
        this.value = Optional.ofNullable(i);

    public Optional<Integer> getValue() {
        return value;
    private Object writeReplace() throws ObjectStreamException
        return new MySerialized(this);
/** The persistent representation which exists in bytestreams only */
final class MySerialized implements Serializable {
    private final Integer value;

    MySerialized(My my) {
    private Object readResolve() throws ObjectStreamException {
        My my=new My();
        return my;

The class Optional implements behavior which allows to write good code when dealing with possibly absent values (compared to the use of null). But it does not add any benefit to a persistent representation of your data. It would just make your serialized data bigger…

The sketch above might look complicated but that’s because it demonstrates the pattern with one property only. The more properties your class has the more its simplicity should be revealed.

And not to forget, the possibility to change the implementation of My completely without any need to adapt the persistent form…

  • 3
    +1, but with more fields there will be more boilerplate to copy them. Jul 3, 2014 at 17:25
  • 1
    @Marko Topolnik: at most, a single line per property and direction. However, by providing an appropriate constructor for class My, which you usually do as it’s handy for other uses as well, readResolve could be a single-line implementation thus reducing the boilerplate to a single line per property. Which is not much given the fact that each mutable property has at least seven lines of code in class My anyway.
    – Holger
    Jul 3, 2014 at 18:29
  • I wrote a post covering the same topic. It is essentially the long text version of this answer: Serialize Optional Sep 15, 2016 at 22:19
  • Downside is: you need to do that for any bean/pojo that uses optionals. But still, nice idea.
    – GhostCat
    Dec 11, 2017 at 12:21

If you would like a serializable optional, consider instead using guava's optional which is serializable.


The Vavr.io library (former Javaslang) also have the Option class which is serializable:

public interface Option<T> extends Value<T>, Serializable { ... }

It's a curious omission.

You would have to mark the field as transient and provide your own custom writeObject() method that wrote the get() result itself, and a readObject() method that restored the Optional by reading that result from the stream. Not forgetting to call defaultWriteObject() and defaultReadObject() respectively.

  • If I own the code of a class it is more convenient to store mere object in a field. Optional class in such case would be restricted for interface of the class (get method would return Optional.ofNullable(field)). But for the internal representation it’s not possible to use Optional to clearly intent that value is optional.
    – vanarchi
    Jul 3, 2014 at 8:01
  • I've just shown that it is possible. If you think otherwise for some reason, what exactly is your question about?
    – user207421
    Jul 3, 2014 at 8:04
  • Thank you for your answer, it adds an option for me. In my comment I wanted to show further thoughts on this topic, consider Pro and contra of each solution. In usage writeObject/readObject methods we have clear intent of Optional in state representation, but the implementation of serialization become more complicated. If field is used intensively in calculation/streams - is more convenient to use writeObject/readObject.
    – vanarchi
    Jul 3, 2014 at 8:36
  • Comments should be relevant to the answers they appear under. The relevance of your musings escapes me frankly.
    – user207421
    Jul 3, 2014 at 23:57

Just copy Optional class to your project and create your own custom Optional that implements Serializable. I am doing it because I just realized this sh*t too late.


If you want to maintain a more consistent type list and avoid using null there's one kooky alternative.

You can store the value using an intersection of types. Coupled with a lambda, this allows something like:

private final Supplier<Optional<Integer>> suppValue;
List<Integer> temp = value
        .map(v -> v.map(Arrays::asList).orElseGet(ArrayList::new))
this.suppValue = (Supplier<Optional<Integer>> & Serializable)() -> temp==null ? Optional.empty() : temp.stream().findFirst();

Having the temp variable separate avoids closing over the owner of the value member and thus serialising too much.


the problem is you have used variables with optional. the basic solution to avoid this, provide the variable without optional and get them as optional when you call the getter like below. Optional<Integer> value = Optional.empty(); to Integer value = null;

public class My implements Serializable {

        private static final long serialVersionUID = 1L;
        //Optional<Integer> value = Optional.empty(); //old code
        Integer value = null; //solution code without optional.

        public void setValue(Integer value ) {
           //this.value  = Optional.of(value); //old code with Optional
           this.value  = value ; //solution code without optional.

        public Optional<Integer> getValue() {
            //solution code - return the value by using Optional.
            return Optional.ofNullable(value);

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