In C# you can define delegates anonymously (even though they are nothing more than syntactic sugar). For example, I can do this:

public string DoSomething(Func<string, string> someDelegate)
{
     // Do something involving someDelegate(string s)
} 

DoSomething(delegate(string s){ return s += "asd"; });
DoSomething(delegate(string s){ return s.Reverse(); });

Is it possible to pass code like this in Java? I'm using the processing framework, which has a quite old version of Java (it doesn't have generics).

up vote 55 down vote accepted

Pre Java 8:

The closest Java has to delegates are single method interfaces. You could use an anonymous inner class.

interface StringFunc {
   String func(String s);
}

void doSomething(StringFunc funk) {
   System.out.println(funk.func("whatever"));
}

doSomething(new StringFunc() {
      public String func(String s) {
           return s + "asd";
      }
   });


doSomething(new StringFunc() {
      public String func(String s) {
           return new StringBuffer(s).reverse().toString();
      }
   });

Java 8 and above:

Java 8 adds lambda expressions to the language.

    doSomething((t) -> t + "asd");
    doSomething((t) -> new StringBuilder(t).reverse().toString());

Not exactly like this but Java has something similar.

It's called anonymous inner classes.

Let me give you an example:

DoSomething(new Runnable() {
   public void run() {
       // "delegate" body
   }
});

It's a little more verbose and requires an interface to implement, but other than that it's pretty much the same thing

Your example would look like this in Java, using anomymous inner classes:

interface Func {
    String execute(String s);
}

public String doSomething(Func someDelegate) {
    // Do something involving someDelegate.execute(String s)
}

doSomething(new Func() { public String execute(String s) { return s + "asd"; } });
doSomething(new Func() { public String execute(String s) { return new StringBuilder(s).reverse().toString(); } } });

Is it possible to pass code like this in Java? I'm using the processing framework, which has a quite old version of Java (it doesn't have generics).

Since the question asked about the Processing-specific answer, there is no direct equivalent. But Processing uses the Java 1.4 language level, and Java 1.1 introduced anonymous inner classes, which are a rough approximation.

For example :

public class Delegate
{
    interface Func
    {
        void execute(String s);
    }

    public static void doSomething(Func someDelegate) {
        someDelegate.execute("123");
    }

    public static void main(String [] args)
    {

        Func someFuncImplementation = new Func() 
        {
            @Override
            public void execute(String s) {
                System.out.println("Bla Bla :"  + s);
            }
        };

        Func someOtherFuncImplementation = new Func() 
        {
            @Override
            public void execute(String s) {
                System.out.println("Foo Bar:"  + s);
            }
        };


        doSomething(someFuncImplementation);
        doSomething(someOtherFuncImplementation);
    }
}

Output :

Bla Bla :123

Foo Bar:123

You have all forgotten here that a C# delegate first of all - is thread safe. These examples are just for a single thread App..

Most of the contemporary Apps are written on multithreaded concept.. So no one answer is the answer.

There is not an equivalent in Java

  • It isn't that what you are saying is wrong. It's correct. The problem is, this does not actually answer the question being asked---it just says all the other answers are wrong. Are you saying that there is not an equivalent in Java? – Cody Gray Aug 13 '17 at 13:59
  • yes, i'm saying what i'm saying.. – user8404505 Aug 13 '17 at 14:04
  • The difference here would for most users be small. I'd even argue that the lack of multicast is a bigger difference between the two. As far as the question is phrased I believe the answers above are correct. All are clear that they are talking about the closest Java has. – Michael Lloyd Lee mlk Apr 25 at 10:46
  • As references are atomic, the Java version will not crash, but you could have stale data. To make it thread safe all you need to do is add the keyword "volatile". – Michael Lloyd Lee mlk Apr 25 at 10:55

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

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