I've been working with C# for a while and trying to get more familiar with Java. So I'm trying to migrate some of the basic patterns I use on daily basis in C# even only to understand the gap between JVM and dotnet and figure out how to deal with them. Here is the first problem I encountered - an option type - somethiong which is quite easy to achieve in many languages i.e. Koltlin:

sealed class Option<out T : Any> {
    object None : Option<Nothing>()
    data class Some<out T : Any>(val value: T) : Option<T>()}

so I can easily create a map functor:

fun <T : Any, B : Any> Option<T>.map(f: (T) -> B): Option<B> =
    when (this) {
        is Option.None -> Option.None
        is Option.Some -> Option.Some(f(this.value))} 

Is this something I can achieve in Java? Im not concerned about the lack of extentions methods, I can live without that, but how to perform the actual type matching without having to rely on an unchecked cast? At least thats what IntelliJ is complaining about...

  • 1
    You are asking about Java, but show no Java code. I feel this isn't right. Mar 26, 2018 at 12:44
  • 2
    Neither C# nor Java have union types, and any workarounds will be awkward to use at best. For a .NET language that does have union types, please look at F#.
    – dumetrulo
    Mar 26, 2018 at 13:00
  • 1
    Looks perhaps like you are looking for java.util.Optional from Java 8. Mar 26, 2018 at 13:06
  • 1
    There isn't anything exactly equivalent - but why do you need a Java solution, when you already have one in Kotlin, which has perfectly working interop?
    – Salem
    Mar 26, 2018 at 13:15
  • 1
    @OldCurmudgeon, I seems like the java.util.Optional should do the job in case of the Option/Maybe type. Thanks for the suggestion. Mar 26, 2018 at 13:56

2 Answers 2


in the specific case you mentioned, the following would work:

Java doesn't have pattern matching. The closest you can get to pattern matching in Java is with the visitor pattern.


UnionType unionType = new TypeA();
Integer count = unionType.when(new UnionType.Cases<Integer>() {
    public Integer is(TypeA typeA) {
        // TypeA-specific handling code

    public Integer is(TypeB typeB) {
        // TypeB-specific handling code

boilerplate code:

interface UnionType {
    <R> R when(Cases<R> c);
    interface Cases<R> {
        R is(TypeA typeA);
        R is(TypeB typeB);
class TypeA implements UnionType {

    // ... TypeA-specific code ...

    public <R> R when(Cases<R> cases) {
        return cases.is(this);
class TypeB implements UnionType {

    // ... TypeB-specific code ...

    public <R> R when(Cases<R> cases) {
        return cases.is(this);
  • Strikes me as hard to read and reason with, compared to some syntactic union type support.
    – dlamblin
    Nov 23, 2021 at 0:24
  • @dlamblin , i agree. I wrote this up a while ago when Java didn't have native union type support. I'm not sure if Java has union type support not or not now though
    – Eric
    Nov 26, 2021 at 20:53
  • I was trying to find out, it seems not as yet no.
    – dlamblin
    Nov 29, 2021 at 20:46
  • 1
    There is a preview feature to get pattern matching in Java, based on switch expressions: openjdk.java.net/jeps/406 - seems quite comprehensive for the time being. Jan 12, 2022 at 14:02

When I bumped into this, my function needed to handle double[] or String[]. So I always passed both (setting the non-existing one to null) and the function was something like

public void myFunc(String[] valuesCategorical, double[] valuesNumeric){
    if (valuesCategorical == null){
    } else {
  • 1
    Why not use overloads in such case?
    – solru
    Sep 18, 2022 at 10:13
  • @solru Do you mean defining doSomething(String[] values) and doSomething(double[] values)? In my case, completely valid solution, but both do-something methods were different enough to deserve different names (IMO). However, if you mean defining myFunc(String[] values) and myFunc(double[] values), that was undesirable, because I would end-up with "two copies" of the same function (my acual myFunc does more than just the if-else above)
    – Antoine
    Sep 19, 2022 at 8:00
  • 1
    I fail to understand how this solves the problem. You will still need to know what you are working with beforehand... And in any case, this function is really bad design-wise since it aggregates multiple responsibilities of different actions into one method (which makes it harder to use, extend, and change in the future)
    – nir shahar
    Mar 3 at 23:05

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.