1. a can only be final here. Why? How can I reassign a in onClick() method without keeping it as private member?

    private void f(Button b, final int a){
        b.addClickHandler(new ClickHandler() {
    
            @Override
            public void onClick(ClickEvent event) {
                int b = a*5;
    
            }
        });
    }
    
  2. How can I return the 5 * a when it clicked? I mean,

    private void f(Button b, final int a){
        b.addClickHandler(new ClickHandler() {
    
            @Override
            public void onClick(ClickEvent event) {
                 int b = a*5;
                 return b; // but return type is void 
            }
        });
    }
    
  • 1
    I don't think that Java anonymous classes provide the kind of lambda closure that you'd expect, but someone please correct me if I'm wrong... – Mehrdad Jan 19 '11 at 7:00
  • 4
    What are you trying to achieve? Click handler could be executed when "f" is finished. – Ivan Dubrov Jan 19 '11 at 7:02
  • @Lambert if you want to use a in the onClick method it have to be final @Ivan how can f() method behaves like onClick() method return int when clicked – user467871 Jan 19 '11 at 7:08
  • 2
    That's what I mean -- it doesn't support full closure because it doesn't allow access to non-final variables. – Mehrdad Jan 19 '11 at 7:10
  • 4
    Note: as of Java 8, your variable only needs to be effectively final – Peter Lawrey Feb 24 '16 at 12:41

13 Answers 13

up vote 446 down vote accepted

As noted in comments, some of this becomes irrelevant in Java 8, where final can be implicit. Only an effectively final variable can be used in an anonymous inner class or lambda expression though.


It's basically due to the way Java manages closures.

When you create an instance of an anonymous inner class, any variables which are used within that class have their values copied in via the autogenerated constructor. This avoids the compiler having to autogenerate various extra types to hold the logical state of the "local variables", as for example the C# compiler does... (When C# captures a variable in an anonymous function, it really captures the variable - the closure can update the variable in a way which is seen by the main body of the method, and vice versa.)

As the value has been copied into the instance of the anonymous inner class, it would look odd if the variable could be modified by the rest of the method - you could have code which appeared to be working with an out-of-date variable (because that's effectively what would be happening... you'd be working with a copy taken at a different time). Likewise if you could make changes within the anonymous inner class, developers might expect those changes to be visible within the body of the enclosing method.

Making the variable final removes all these possibilities - as the value can't be changed at all, you don't need to worry about whether such changes will be visible. The only ways to allow the method and the anonymous inner class see each other's changes is to use a mutable type of some description. This could be the enclosing class itself, an array, a mutable wrapper type... anything like that. Basically it's a bit like communicating between one method and another: changes made to the parameters of one method aren't seen by its caller, but changes made to the objects referred to by the parameters are seen.

If you're interested in a more detailed comparison between Java and C# closures, I have an article which goes into it further. I wanted to focus on the Java side in this answer :)

  • 2
    Yeah. Basically, full closures support could be implemented by moving all variables that are referenced in a special auto-generated class. – Ivan Dubrov Jan 19 '11 at 7:14
  • 4
    @Ivan: Like C#, basically. It comes with a fair degree of complexity though, if you want the same sort of functionality as C# where variables from different scopes can be "instantiated" different numbers of times. – Jon Skeet Jan 19 '11 at 7:15
  • 2
  • 10
    This was all true for Java 7, keep in mind that with Java 8, closures have been introduced and now it is indeed possible to access a non-final field of a class from its inner class. – Mathias Bader Oct 24 '14 at 14:41
  • 17
    @MathiasBader: Really? I thought it is still essentially the same mechanism, the compiler is now just clever enough to infer final (but it still needs to be effectively final). – Thilo Mar 4 '16 at 7:56

There is a trick that allows anonymous class to update data in the outer scope.

private void f(Button b, final int a) {
    final int[] res = new int[1];
    b.addClickHandler(new ClickHandler() {
        @Override
        public void onClick(ClickEvent event) {
            res[0] = a * 5;
        }
    });

    // But at this point handler is most likely not executed yet!
    // How should we now res[0] is ready?
}

However, this trick is not very good due to the synchronization issues. If handler is invoked later, you need to 1) synchronize access to res if handler was invoked from the different thread 2) need to have some sort of flag or indication that res was updated

This trick works OK, though, if anonymous class is invoked in the same thread immediately. Like:

// ...

final int[] res = new int[1];
Runnable r = new Runnable() { public void run() { res[0] = 123; } };
r.run();
System.out.println(res[0]);

// ...
  • 2
    thanks for your answer. I know all of this and my solution is better than this. my question is "why only final" ? – user467871 Jan 19 '11 at 7:10
  • 5
    The answer then is that is how they are implemented :) – Ivan Dubrov Jan 19 '11 at 7:12
  • 1
    Thanks. I had used the trick above on my own. I was not sure if it is a good idea. If Java does not allow it, there might be a good reason. Your answer clarifies that my List.forEach code is safe. – RuntimeException Oct 30 '15 at 11:54
  • Read stackoverflow.com/q/12830611/2073130 for a good discussion of the rationale behind "why only final". – lcn Dec 8 '15 at 23:24
  • 3
    You may also use e.g. AtomicReference or AtomicInt for the same purpose... – csharpfolk Aug 6 '17 at 12:35

An anonymous class is an inner class and the strict rule applies to inner classes (JLS 8.1.3):

Any local variable, formal method parameter or exception handler parameter used but not declared in an inner class must be declared final. Any local variable, used but not declared in an inner class must be definitely assigned before the body of the inner class.

I haven't found a reason or an explanation on the jls or jvms yet, but we do know, that the compiler creates a separate class file for each inner class and it has to make sure, that the methods declared on this class file (on byte code level) at least have access to the values of local variables.

(Jon has the complete answer - I keep this one undeleted because one might interested in the JLS rule)

You can create a class level variable to get returned value. I mean

class A {
    int k = 0;
    private void f(Button b, int a){
        b.addClickHandler(new ClickHandler() {
        @Override
        public void onClick(ClickEvent event) {
            k = a * 5;
        }
    });
}

now you can get value of K and use it where you want.

Answer of your why is :

A local inner class instance is tied to Main class and can access the final local variables of its containing method. When the instance uses a final local of its containing method, the variable retains the value it held at the time of the instance's creation, even if the variable has gone out of scope (this is effectively Java's crude, limited version of closures).

Because a local inner class is neither the member of a class or package, it is not declared with an access level. (Be clear, however, that its own members have access levels like in a normal class.)

  • I mentioned that "without keeping it as private member" – user467871 Jan 19 '11 at 7:11

Well, in Java, a variable can be final not just as a parameter, but as a class-level field, like

public class Test
{
 public final int a = 3;

or as a local variable, like

public static void main(String[] args)
{
 final int a = 3;

If you want to access and modify a variable from an anonymous class, you might want to make the variable a class-level variable in the enclosing class.

public class Test
{
 public int a;
 public void doSomething()
 {
  Runnable runnable =
   new Runnable()
   {
    public void run()
    {
     System.out.println(a);
     a = a+1;
    }
   };
 }
}

You can't have a variable as final and give it a new value. final means just that: the value is unchangeable and final.

And since it's final, Java can safely copy it to local anonymous classes. You're not getting some reference to the int (especially since you can't have references to primitives like int in Java, just references to Objects).

It just copies over the value of a into an implicit int called a in your anonymous class.

  • 3
    I associate "class-level variable" with static. Maybe it is more clear if you use "instance variable" instead. – eljenso Jan 19 '11 at 12:23
  • 1
    well, I used class-level because the technique would work with both instance and static variables. – Zach L Jan 19 '11 at 17:01

The reason why the access has been restricted only to the local final variables is that if all the local variables would be made accessible then they would first required to be copied to a separate section where inner classes can have access to them and maintaining multiple copies of mutable local variables may lead to inconsistent data. Whereas final variables are immutable and hence any number of copies to them will not have any impact on the consistency of data.

  • This is not how it is implemented in languages like C# that support this feature. In fact, the compiler changes the variable from a local variable to an instance variable, or it creates an extra data structure for these variables that can outlife the scope of the outer class. However, there are no "multiple copies of local variables" – Mike76 Aug 27 '16 at 13:13
  • Mike76 I haven't had a look at C#'s implementation, but Scala does the second thing you mentioned I think: If an Int is being reassigned to inside a closure, change that variable to an instance of IntRef (essentially a mutable Integer wrapper). Every variable access is then rewritten accordingly. – Adowrath Sep 15 '17 at 7:30

Methods within an anonomyous inner class may be invoked well after the thread that spawned it has terminated. In your example, the inner class will be invoked on the event dispatch thread and not in the same thread as that which created it. Hence, the scope of the variables will be different. So to protect such variable assignment scope issues you must declare them final.

When an anonymous inner class is defined within the body of a method, all variables declared final in the scope of that method are accessible from within the inner class. For scalar values, once it has been assigned, the value of the final variable cannot change. For object values, the reference cannot change. This allows the Java compiler to "capture" the value of the variable at run-time and store a copy as a field in the inner class. Once the outer method has terminated and its stack frame has been removed, the original variable is gone but the inner class's private copy persists in the class's own memory.

(http://en.wikipedia.org/wiki/Final_%28Java%29)

private void f(Button b, final int a[]) {

    b.addClickHandler(new ClickHandler() {

        @Override
        public void onClick(ClickEvent event) {
            a[0] = a[0] * 5;

        }
    });
}

To understand the rationale for this restriction, consider the following program:

public class Program {

    interface Interface {
        public void printInteger();
    }
    static Interface interfaceInstance = null;

    static void initialize(int val) {
        class Impl implements Interface {
            @Override
            public void printInteger() {
                System.out.println(val);
            }
        }
        interfaceInstance = new Impl();
    }

    public static void main(String[] args) {
        initialize(12345);
        interfaceInstance.printInteger();
    }
}

The interfaceInstance remains in memory after the initialize method returns, but the parameter val does not. The JVM can’t access a local variable outside its scope, so Java makes the subsequent call to printInteger work by copying the value of val to an implicit field of the same name within interfaceInstance. The interfaceInstance is said to have captured the value of the local parameter. If the parameter weren’t final (or effectively final) its value could change, becoming out of sync with the captured value, potentially causing unintuitive behavior.

As Jon has the implementation details answer an other possible answer would be that the JVM doesn't want to handle write in record that have ended his activation.

Consider the use case where your lambdas instead of being apply, is stored in some place and run later.

I remember that in Smalltalk you would get an illegal store raised when you do such modification.

Try this code,

Create Array List and put value inside that and return it :

private ArrayList f(Button b, final int a)
{
    final ArrayList al = new ArrayList();
    b.addClickHandler(new ClickHandler() {

         @Override
        public void onClick(ClickEvent event) {
             int b = a*5;
             al.add(b);
        }
    });
    return al;
}
  • OP is asking for reasons as to why something is required. Hence you should point out how your code is addressing it – NitinSingh Jul 18 at 10:21

Maybe this trick gives u an idea

Boolean var= new anonymousClass(){
    private String myVar; //String for example
    @Overriden public Boolean method(int i){
          //use myVar and i
    }
    public String setVar(String var){myVar=var; return this;} //Returns self instane
}.setVar("Hello").method(3);

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