I am looking for a java equivalent to the C# extension methods feature. Now I have been reading about Java 8's default methods, but as far as I can see, I can only add these to interfaces...

...is there any language feature that will allow me to write an extension method for a final class that doesn't implement an interface? (I'd rather not have to wrap it...)


4 Answers 4


Java doesn't have extension methods. Default methods are not extension methods. Let's look at each feature.

Default methods

Both Java and C# support this feature

Problems solved:

  1. Many objects may implement the same interface and all of them may use the same implementation for a method. A base class could solve this issue but only if the interface implementors don't already have a base class as neither java nor C# support multiple inheritance.
  2. An API would like to add a method to an interface without breaking the API consumers. Adding a method with a default implementation solves this.

Java's or C#'s default methods are a feature to add a default implementation to an interface. So objects that extend an interface don't have to implement the method, they could just use the default method.

interface IA { default public int AddOne(int i) { return i + 1; } }

Any object that implements IA doesn't have to implement AddOne because there is a default method that would be used.

public class MyClass implements IA { /* No AddOne implementation needed */ } 

C# now has this feature in C# 8 (or .Net 5)

C#'s Extension Method

Problems solved:

  1. Ability to add methods to sealed classes.
  2. Ability to add methods to classes from third-party libraries without forcing inheritance.
  3. Ability to add methods to model classes in environments where methods in model classes are not allowed for convention reasons.
  4. The ability for IntelliSense to present these methods to you.

Example: The type string is a sealed class in C#. You cannot inherit from string as it is sealed. But you can add methods you can call from a string.

var a = "mystring";

Java lacks this feature and would be greatly improved by adding this feature.


There is nothing even similar about Java's default methods and C#'s extension method features. They are completely different and solve completely different problems.


C# extension methods are static and use-site, whereas Java's default methods are virtual and declaration-site.

What I believe you are hoping for is the ability to "monkey-patch" a method into a class you do not control, but Java does not give you that (by design; it was considered and rejected.)

Another benefit of default methods over the C# approach is that they are reflectively discoverable, and in fact from the outside, don't look any different from "regular" interface methods.

One advantage of C#'s extension methods over Java's default methods is that with C#'s reified generics, extension methods are injected into types, not classes, so you can inject a sum() method into List<int>.

Above all, the main philosophical difference between Java's default methods and C#'s extension methods is that C# lets you inject methods into types you do not control (which is surely convenient for developers), whereas Java's extension methods are a first-class part of the API in which they appear (they are declared in the interface, they are reflectively discoverable, etc.) This reflects several design principles; library developers should be able to maintain control of their APIs, and library use should be transparent -- calling method x() on type Y should mean the same thing everywhere.

  • 7
    Magic 8 ball says: "don't count on it." Jan 22, 2016 at 15:26
  • 8
    @TWiStErRob Many reasons, One big one is: API designers should be in control of their APIs. Another is transparency; when someone reading code sees x.m(), they should be able to find m() in the documentation for X, not some random monkeypatch in one of a dozen scopes (this is action-at-a-distance). Relatedly, there's context-freedom; X.m() should mean the same thing in any scope that share the same definition of X, but with use-site extension methods, it doesn't. "It would be convenient" doesn't come remotely close to overcoming these significant obstacles. Apr 3, 2016 at 14:48
  • 3
    That's a good one, but I feel it restricts freedom of library users. I agree "API designers should be in control of their APIs", but to me it doesn't equate that users of those API can't extend them the way they want. I agree C#-style extensions can be abused (e.g. ((X)null).m() may not throw NPE :), just as static imports can be used excessively. I think these features help development if used in a reasonable way. IDE support can hide that "where did that come from?" complexity.
    – TWiStErRob
    Apr 3, 2016 at 16:06
  • 5
    Personally I would use it to extend built-ins and libraries with frequently used trivial methods. 1. Polyfill while the API catches up: String.isEmpty() (10 years late), Comparator.reversed() (16 years late). 2. Add methods which won't be added by the designer because it would "pollute" the API: Collection.groupBy(v->k), InputStream.copyTo(OutputStream). Don't get me wrong, I like that Java is KISS, it's amazing how few classes it is actually built on, but sometimes I would need a little bit more.
    – TWiStErRob
    Apr 3, 2016 at 16:06
  • 7
    >> "whereas Java follows the principle that library developers should be able to maintain control of their APIs" This line of reasoning is invalid. An extension method no more changes the API than does a static utility method. Extension methods simply make utility methods more accessible, essentially giving the illusion of an extended API for the sake of convenience from the perspective of the extension user.
    – Scott
    Apr 12, 2018 at 19:08

C# extension methods are just syntactic sugar for static methods that take the extended type as first argument. Java default methods are something completely different. To mimic C# extension methods, just write usual static methods. You will not have the syntatic sugar, however; Java does not have this feature.

Java default methods are real virtual methods. For example, they can be overridden. Consider a class X inheriting from an interface I that declares a default foo() method. If X or any of its super classes declares no own foo() method, then X will get the foo() implementation of I. Now, a subclass Y of X can override X.foo() like a usual method. Thus, default methods are not only syntactic sugar. They are real extensions of the method overriding and inheritance mechanism that cannot be mimicked by other language features.

Default methods even require special VM support, so they are not even a compiler only feature: During class loading, the hierarchy of a class has to be checked to determine which default methods it will inherit. Thus, this decision is made at runtime, not at compile time. The cool thing about it is that you do not have to recompile a class when an interface it inherits gets a new default method: The VM will, at class load time, assign that new method to it.

  • Whilst I understand your answer, I don't get why default methods are something "completely different"...what properties mean they aren't just "syntactic sugar" for interfaces?
    – Cheetah
    Jun 7, 2014 at 14:57
  • 6
    @Cheetah: No, they are far from being syntactic sugar. They are real extensions that even need VM support. See my edit.
    – gexicide
    Jun 7, 2014 at 17:29
  • 1
    @SoManyGoblins: Feel free to propose an edit then or at least explain what you think is wrong about my answer (and what would be correct instead). Your comment is not actionable.
    – gexicide
    Oct 11, 2018 at 11:38
  • You're right @gexicide, I deleted my comment, I was probably having a bad day, I apologise. Oct 20, 2018 at 5:33
  • 1
    Default methods seem like multiple inheritance in disguise.
    – Shameer
    Oct 31, 2018 at 15:10

It is possible to have extension methods with some tricks.

You may give a try to Lombok or XTend. Although extension methods don't come with the out of the box Java implementation, both Lombok and XTend offers a fully working solution.

Lombok is a simple standalone code processing framework, which makes most of the criticized Java specific hassle less painful, including extension methods: https://projectlombok.org/features/experimental/ExtensionMethod.html

Xtend http://www.eclipse.org/xtend/ goes a few lightyears forward, and implements a language which is a combination of the best parts of modern languages such as Scala on top of Java and Java type system. This allows implementing some classes in Xtend and others in Java within the same project. The Xtend code complies to valid Java code, so no JVM magic happens under the hood. On the other hand, it is a little too much if you have only extension methods missing.

JPropel https://github.com/nicholas22/jpropel-light implements LINQ style extension methods in Java using Lombok. It may worth of a peek :)

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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