225

I am looking to implement a functionality in a list of object as I would in C# using an extension method.

Something like this:

List<DataObject> list;
// ... List initialization.
list.getData(id);

How do I do that in Java?

13
  • 8
    Check this one: github.com/nicholas22/jpropel, example:new String[] { "james", "john", "john", "eddie" }.where(startsWith("j")).distinct(); It uses lombok-pg which provides the extension method goodness.
    – NT_
    Oct 7, 2011 at 20:30
  • 7
    Microsoft definitely got it right when they allowed extensions. Subclassing to add new functionality doesn't work if I need the function in a class returned to me elsewhere. Like adding methods to String and Date.
    – tggagne
    Jan 13, 2012 at 20:32
  • 4
    i.e. java.lang.String is a final class,so you can't extend it. Using static methods is a way but it shows code unreadable sometimes.I think C# left an age as a computer lang. Extension methods,partial classes,LINQ and so on.. Jul 27, 2012 at 13:04
  • 7
    @Roadrunner, rofl! The best retort to a missing language feature is that said missing language feature is evil and unwanted. This is known.
    – Kirk Woll
    Aug 8, 2013 at 18:42
  • 7
    Extension methods are not "evil". They greatly improve code readability. Just one more of the many poor design decisions in Java.
    – csauve
    Jul 29, 2015 at 3:29

15 Answers 15

257

Java does not support extension methods.

Instead, you can make a regular static method, or write your own class.

23
  • 86
    Im spoiled after using extension methods - but static methods will do the trick as well. Feb 4, 2012 at 2:13
  • 41
    But the syntax is so nice, and makes the program easier to understand :) I also like how Ruby allows you to do almost the same thing, except you can actually modify the built in classes and add new methods. Jan 17, 2013 at 19:15
  • 29
    @Ken: Yes, and that's the whole point! Why do you write in Java and not directly in JVM byte code? Isn't it "just a matter of syntax"? Nov 1, 2013 at 15:34
  • 37
    Extension methods can make code much more elegant compared to extra static methods from some other class. Almost all more modern languages allow for some kind existing class extension: C#, php, objective-c, javascript. Java surely shows its age here. Imagine you want to write a JSONObject to disk. Do you call jsonobj.writeToDisk() or someunrelatedclass.writeToDisk(jsonobj) ?
    – woens
    Oct 3, 2014 at 21:32
  • 27
    Reasons to hate Java keep growing. And I stopped looking for them a couple of years ago...... Oct 18, 2015 at 17:26
56

Extension methods are not just static method and not just convenience syntax sugar, in fact they are quite powerful tool. The main thing there is ability to override different methods based on different generic’s parameters instantiation. This is similar to Haskell’s type classes, and in fact, it looks like they are in C# to support C#’s Monads (i.e. LINQ). Even dropping LINQ syntax, I still don’t know any way to implement similar interfaces in Java.

And I don’t think it is possible to implement them in Java, because of Java’s type erasure semantics of generics parameters.

9
  • 2
    They also allow you to inherit multiple behaviors (sans polymorphism). You can implement multiple interfaces, and with that comes their extension methods. They also allow you to implement behavior you want to attach to a type without having it globally associated with the type system-wide. Apr 13, 2016 at 21:39
  • 53
    This whole answer is wrong. Extension methods in C# are just syntactic sugar that the compiler rearranges a little to move the target of the method call to the first argument of the static method. You can not override existing methods. There is no requirement that an extension method be a monad. Its literally just a more convenient way to call a static method, which gives the appearance of adding instance methods to a class. Please read this if you agree with this answer
    – Matt Klein
    Jun 7, 2017 at 15:46
  • 3
    well, in this case, define what syntax sugar is, I would call a syntax sugar to be internal macro syntax, for extension methods compiler must at least look up the static class the extension method is located to substitute. There is nothing in the answer about the method should be monad which is non-sense. Also, you can use it for overloading, but it is not extension methods feature, it is a plain parameter type based overloading, the same way it would work if the method is called directly, and it will not work in many interesting cases in Java because of generics type arguments erasure. Jul 3, 2017 at 7:46
  • 2
    @user1686250 It possible to implement in Java (by "Java" I assume you mean bytecode that runs on a JVM)... Kotlin, which compiles to bytecode has extensions. It is just syntactic sugar over static methods. You can use the decompiler in IntelliJ to see what the equivalent Java looks like. Dec 5, 2018 at 0:22
  • 4
    People who say its just syntax sugar may never had to manage a lot of code or do reviews. Readability is the most important thing in programming today, unless you are doing heavy performance things at assembler or GPU level. I have so many codes to maintain and i have no time to follow all those unreadable static method calls. If you combine those with java lambda your code will look awful. Some lambdas look so bad and complicated you better use old foreach instead. In future i will even change stack from java to C# if java does not improve.
    – djmj
    Nov 6, 2020 at 18:32
38

Project Lombok provides an annotation @ExtensionMethod that can be used to achieve the functionality you are asking for.

0
18

Technically C# Extension have no equivalent in Java. But if you do want to implement such functions for a cleaner code and maintainability, you have to use Manifold framework.

package extensions.java.lang.String;

import manifold.ext.api.*;

@Extension
public class MyStringExtension {

  public static void print(@This String thiz) {
    System.out.println(thiz);
  }

  @Extension
  public static String lineSeparator() {
    return System.lineSeparator();
  }
}
0
14

There is no extension methods in Java, but you can have it by manifold as below,

You define "echo" method for strings by below sample,

@Extension
public class MyStringExtension {
    public static void echo(@This String thiz) {
        System.out.println(thiz);
    }
}

And after that, you can use this method (echo) for strings anywhere like,

"Hello World".echo();   //prints "Hello World"
"Welcome".echo();       //prints "Welcome"
String name = "Jonn";
name.echo();            //prints "John"


You can also, of course, have parameters like,

@Extension
public class MyStringExtension {
    public static void echo(@This String thiz, String suffix) {
        System.out.println(thiz + " " + suffix);
    }
}

And use like this,

"Hello World".echo("programming");   //prints "Hello World programming"
"Welcome".echo("2021");              //prints "Welcome 2021"
String name = "John";
name.echo("Conor");                  //prints "John Conor"

You can take a look at this sample also, Manifold-sample

9

The XTend language — which is a super-set of Java, and compiles to Java source code1 — supports this.

4
  • When that code which is not Java is compiled to Java, do you have an extension method? Or the Java code is just a static method? Apr 16, 2014 at 22:06
  • @Bomboca As others have noted, Java doesn't have extension methods. So XTend code, compiled to Java, doesn't somehow create a Java extension method. But if you work in XTend exclusively you won't notice or care. But, to answer your question, you don't necessarily have a static method either. The principal author of XTend has a blog entry about this at blog.efftinge.de/2011/11/… Feb 15, 2015 at 21:34
  • Yes, don't know why I didn't think that too. Thanks! Feb 16, 2015 at 22:43
  • @Sam Thanks for introducing me to XTend -- I'd never heard of it.
    – jpaugh
    Dec 22, 2015 at 18:14
8

Another option is to use ForwardingXXX classes from google-guava library.

5

It looks like there is some small chance that Defender Methods (i.e. default methods) might make it into Java 8. However, as far as I understand them, they only allow the author of an interface to retroactively extend it, not arbitrary users.

Defender Methods + Interface Injection would then be able to fully implement C#-style extension methods, but AFAICS, Interface Injection isn't even on the Java 8 road-map yet.

3

Java does not have such feature. Instead you can either create regular subclass of your list implementation or create anonymous inner class:

List<String> list = new ArrayList<String>() {
   public String getData() {
       return ""; // add your implementation here. 
   }
};

The problem is to call this method. You can do it "in place":

new ArrayList<String>() {
   public String getData() {
       return ""; // add your implementation here. 
   }
}.getData();
7
  • 122
    That is utterly useless.
    – SLaks
    Dec 5, 2010 at 17:11
  • 3
    @Slaks: Why exactly? This is a "write your own class" suggested by yourself. Dec 5, 2010 at 17:47
  • 27
    @Goran: All this allows you to do is define a method, then call it immediately, once.
    – SLaks
    Dec 5, 2010 at 21:44
  • 4
    @Slaks: All right, point taken. Compared with that limited solution, writing a named class would be better. Dec 6, 2010 at 17:40
  • There is a big, big difference between C# extension methods and Java anonymous classes. In C# an extension method is syntactic sugar for what is really just a static method. The IDE and compiler make an extension method appear as though it is an instance method of the extended class. (Note: "extended" in this context does not mean "inherited" as it normally would in Java.) Nov 5, 2013 at 17:40
2

Bit late to the party on this question, but in case anyone finds it useful I just created a subclass:

public class ArrayList2<T> extends ArrayList<T> 
{
    private static final long serialVersionUID = 1L;

    public T getLast()
    {
        if (this.isEmpty())
        {
            return null;
        }
        else
        {       
            return this.get(this.size() - 1);
        }
    }
}
4
  • 4
    Extension methods are usually for code that cannot be modified or inherited like final/sealed classes and its main power is the the extension of Interfaces e.g. extending IEnumerable<T>. Of course, they are only syntactic sugar for static methods. The purpose is, that the code is much more readable. Cleaner code means better maintanability/evolvability.
    – mbx
    Aug 11, 2012 at 13:25
  • 1
    That's not just it @mbx. Extension methods are also useful to extend class functionality of non-sealed classes but which you cannot extend because you don't control whatever is returning instances, e.g. HttpContextBase which is an abstract class. Aug 20, 2012 at 19:51
  • @FabioMilheiro I generously included abstract classes as "interfaces" in that context. Auto generated classes (xsd.exe) are of the same kind: you could but shouldn't extend them by modifying the generated files. You normally would extend them by using "partial" which requires them to reside in the same assembly. If they are not, extension methods are a pretty looking alternative. Ultimately, they are only static methods (there is no difference if you look at the generated IL Code).
    – mbx
    Aug 20, 2012 at 20:58
  • Yes... HttpContextBase is an abstraction although I understand your generosity. Calling an interface an abstraction might have seemed somewhat more natural. Regardless of that, I didn't mean it had to be an abstraction. I just gave an example of a class for which I wrote many extension methods. Aug 20, 2012 at 22:45
2

One could be use the decorator object-oriented design pattern. An example of this pattern being used in Java's standard library would be the DataOutputStream.

Here's some code for augmenting the functionality of a List:

public class ListDecorator<E> implements List<E>
{
    public final List<E> wrapee;

    public ListDecorator(List<E> wrapee)
    {
        this.wrapee = wrapee;
    }

    // implementation of all the list's methods here...

    public <R> ListDecorator<R> map(Transform<E,R> transformer)
    {
        ArrayList<R> result = new ArrayList<R>(size());
        for (E element : this)
        {
            R transformed = transformer.transform(element);
            result.add(transformed);
        }
        return new ListDecorator<R>(result);
    }
}

P.S. I'm a big fan of Kotlin. It has extension methods and also runs on the JVM.

2

We can simulate the implementation of C# extension methods in Java by using the default method implementation available since Java 8. We start by defining an interface that will allow us to access the support object via a base() method, like so:

public interface Extension<T> {

    default T base() {
        return null;
    }
}

We return null since interfaces cannot have state, but this has to be fixed later via a proxy.

The developer of extensions would have to extend this interface by a new interface containing extension methods. Let's say we want to add a forEach consumer on List interface:

public interface ListExtension<T> extends Extension<List<T>> {

    default void foreach(Consumer<T> consumer) {
        for (T item : base()) {
            consumer.accept(item);
        }
    }

}

Because we extend the Extension interface, we can call base() method inside our extension method to access the support object we attach to.

The Extension interface must have a factory method which will create an extension of a given support object:

public interface Extension<T> {

    ...

    static <E extends Extension<T>, T> E create(Class<E> type, T instance) {
        if (type.isInterface()) {
            ExtensionHandler<T> handler = new ExtensionHandler<T>(instance);
            List<Class<?>> interfaces = new ArrayList<Class<?>>();
            interfaces.add(type);
            Class<?> baseType = type.getSuperclass();
            while (baseType != null && baseType.isInterface()) {
                interfaces.add(baseType);
                baseType = baseType.getSuperclass();
            }
            Object proxy = Proxy.newProxyInstance(
                    Extension.class.getClassLoader(),
                    interfaces.toArray(new Class<?>[interfaces.size()]),
                    handler);
            return type.cast(proxy);
        } else {
            return null;
        }
    }
}

We create a proxy that implements the extension interface and all the interface implemented by the type of the support object. The invocation handler given to the proxy would dispatch all the calls to the support object, except for the "base" method, which must return the support object, otherwise its default implementation is returning null:

public class ExtensionHandler<T> implements InvocationHandler {

    private T instance;

    private ExtensionHandler(T instance) {
        this.instance = instance;
    }

    @Override
    public Object invoke(Object proxy, Method method, Object[] args)
            throws Throwable {
        if ("base".equals(method.getName())
                && method.getParameterCount() == 0) {
            return instance;
        } else {
            Class<?> type = method.getDeclaringClass();
            MethodHandles.Lookup lookup = MethodHandles.lookup()
                .in(type);
            Field allowedModesField = lookup.getClass().getDeclaredField("allowedModes");
            makeFieldModifiable(allowedModesField);
            allowedModesField.set(lookup, -1);
            return lookup
                .unreflectSpecial(method, type)
                .bindTo(proxy)
                .invokeWithArguments(args);
        }
    }

    private static void makeFieldModifiable(Field field) throws Exception {
        field.setAccessible(true);
        Field modifiersField = Field.class.getDeclaredField("modifiers");
        modifiersField.setAccessible(true);
        modifiersField
                .setInt(field, field.getModifiers() & ~Modifier.FINAL);
    }

}

Then, we can use the Extension.create() method to attach the interface containing the extension method to the support object. The result is an object which can be casted to the extension interface by which we can still access the support object calling the base() method. Having the reference casted to the extension interface, we now can safely call the extension methods that can have access to the support object, so that now we can attach new methods to the existing object, but not to its defining type:

public class Program {

    public static void main(String[] args) {
        List<String> list = Arrays.asList("a", "b", "c");
        ListExtension<String> listExtension = Extension.create(ListExtension.class, list);
        listExtension.foreach(System.out::println);
    }

}

So, this is a way we can simulate the ability to extend objects in Java by adding new contracts to them, which allow us to call additional methods on the given objects.

Below you may find the code of the Extension interface:

import java.lang.reflect.Field;
import java.lang.reflect.InvocationHandler;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.lang.reflect.Proxy;
import java.util.ArrayList;
import java.util.List;

public interface Extension<T> {

    public class ExtensionHandler<T> implements InvocationHandler {

        private T instance;

        private ExtensionHandler(T instance) {
            this.instance = instance;
        }

        @Override
        public Object invoke(Object proxy, Method method, Object[] args)
                throws Throwable {
            if ("base".equals(method.getName())
                    && method.getParameterCount() == 0) {
                return instance;
            } else {
                Class<?> type = method.getDeclaringClass();
                MethodHandles.Lookup lookup = MethodHandles.lookup()
                    .in(type);
                Field allowedModesField = lookup.getClass().getDeclaredField("allowedModes");
                makeFieldModifiable(allowedModesField);
                allowedModesField.set(lookup, -1);
                return lookup
                    .unreflectSpecial(method, type)
                    .bindTo(proxy)
                    .invokeWithArguments(args);
            }
        }

        private static void makeFieldModifiable(Field field) throws Exception {
            field.setAccessible(true);
            Field modifiersField = Field.class.getDeclaredField("modifiers");
            modifiersField.setAccessible(true);
            modifiersField.setInt(field, field.getModifiers() & ~Modifier.FINAL);
        }

    }

    default T base() {
        return null;
    }

    static <E extends Extension<T>, T> E create(Class<E> type, T instance) {
        if (type.isInterface()) {
            ExtensionHandler<T> handler = new ExtensionHandler<T>(instance);
            List<Class<?>> interfaces = new ArrayList<Class<?>>();
            interfaces.add(type);
            Class<?> baseType = type.getSuperclass();
            while (baseType != null && baseType.isInterface()) {
                interfaces.add(baseType);
                baseType = baseType.getSuperclass();
            }
            Object proxy = Proxy.newProxyInstance(
                    Extension.class.getClassLoader(),
                    interfaces.toArray(new Class<?>[interfaces.size()]),
                    handler);
            return type.cast(proxy);
        } else {
            return null;
        }
    }

}
1
0

You can create a C# like extension/helper method by (RE) implementing the Collections interface and adding- example for Java Collection:

public class RockCollection<T extends Comparable<T>> implements Collection<T> {
private Collection<T> _list = new ArrayList<T>();

//###########Custom extension methods###########

public T doSomething() {
    //do some stuff
    return _list  
}

//proper examples
public T find(Predicate<T> predicate) {
    return _list.stream()
            .filter(predicate)
            .findFirst()
            .get();
}

public List<T> findAll(Predicate<T> predicate) {
    return _list.stream()
            .filter(predicate)
            .collect(Collectors.<T>toList());
}

public String join(String joiner) {
    StringBuilder aggregate = new StringBuilder("");
    _list.forEach( item ->
        aggregate.append(item.toString() + joiner)
    );
    return aggregate.toString().substring(0, aggregate.length() - 1);
}

public List<T> reverse() {
    List<T> listToReverse = (List<T>)_list;
    Collections.reverse(listToReverse);
    return listToReverse;
}

public List<T> sort(Comparator<T> sortComparer) {
    List<T> listToReverse = (List<T>)_list;
    Collections.sort(listToReverse, sortComparer);
    return listToReverse;
}

public int sum() {
    List<T> list = (List<T>)_list;
    int total = 0;
    for (T aList : list) {
        total += Integer.parseInt(aList.toString());
    }
    return total;
}

public List<T> minus(RockCollection<T> listToMinus) {
    List<T> list = (List<T>)_list;
    int total = 0;
    listToMinus.forEach(list::remove);
    return list;
}

public Double average() {
    List<T> list = (List<T>)_list;
    Double total = 0.0;
    for (T aList : list) {
        total += Double.parseDouble(aList.toString());
    }
    return total / list.size();
}

public T first() {
    return _list.stream().findFirst().get();
            //.collect(Collectors.<T>toList());
}
public T last() {
    List<T> list = (List<T>)_list;
    return list.get(_list.size() - 1);
}
//##############################################
//Re-implement existing methods
@Override
public int size() {
    return _list.size();
}

@Override
public boolean isEmpty() {
    return _list == null || _list.size() == 0;
}
0

Many approaches introduced so far but, in case of String class, you can define your own custom transformers and apply it to get as close as C# extensions.

For example you can apply and chain together your extension methods as follows;

"fooString".strip() // native
           .transformer(new ToTitleCaseTransformer()) // custom transformer
           .transformer(new LeftPadTransformer('0', 13)); // custom transformer

Define your custom transformers as follows:

public class LeftPadTransformer implements Function<String, String> {

  private final int length;
  private final char padChar;

  public LeftPadTransformer(int length, char padChar) {
    this.length = length;
    this.padChar = padChar;
  }

  @Override
  public String apply(String s) {
    return StringUtils.leftPad(s, padChar, length); // your own implementation
  }

  @Override
  public <V> Function<V, String> compose(Function<? super V, ? extends String> before) {
    return Function.super.compose(before);
  }

  @Override
  public <V> Function<String, V> andThen(Function<? super String, ? extends V> after) {
    return Function.super.andThen(after);
  }
}
-8

Java 8 now supports default methods, which are similar to C#'s extension methods.

8
  • 9
    Wrong; the example in this question is still impossible.
    – SLaks
    Mar 19, 2014 at 19:38
  • @SLaks what is the difference between Java and C# extensions? Mar 20, 2014 at 9:38
  • 3
    Default methods can only be defined within the interface. docs.oracle.com/javase/tutorial/java/IandI/defaultmethods.html
    – SLaks
    Mar 20, 2014 at 14:10
  • DarVar, This comment thread was the only place where default methods were mentioned, which I was desperately trying to remember. Thanks for mentioning them, if not by name! :-) (Thanks @SLaks for the link)
    – jpaugh
    Dec 22, 2015 at 18:15
  • I would upvote that answer, cause the final result from a static method in interface would provide the same use as C# extension methods, however, you still need to implement the interface in your class unlike C# you pass (this) keyword as a parameter
    – zaPlayer
    Jan 10, 2017 at 8:35

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