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I asked this question before but I didn't get an appropriate answer.

How can non-final fields be used in a anonymous class class if their value can change?

class Foo{
    private int i;
    void bar(){
        i = 10
        Runnable runnable = new Runnable (){
            public void run (){
                System.out.println(i); //works fine
            }//end method run
        }//end Runnable
    }//end method bar
}//end class Foo 

If the local variables which are used inside an anonymous class must be final to enable the compiler inlining their values inside the anonymous class code like that:

Before:

public class Access1 {
  public void f() {
    final int i = 3;
    Runnable runnable = new Runnable() {
        public void run() {
            System.out.println(i);
        }//end method run
    };//end anonymous class
  }//end method f
}//end class Access1

After:

public class Access1 {
    public Access1() {}//end constructor

    public void f() {
        Access1$1 access1$1 = new Access1$1(this);
    }//end method f
}//end class Access1

And

class Access1$1 implements Runnable {
    Access1$1(Access1 access1) {
        this$0 = access1;
    }//end constructor

    public void run() {
        System.out.println(3);
    }//end method run
    private final Access1 this$0;
}//end class Access1$1

Then how can the compiler inline a value of a non-final field?

share|improve this question
    
The compiler can't inline fields that are not compile time constants. Are you sure you decompiled the right code? –  Joni Oct 12 '13 at 11:54
    
@Joni I'm not inlining a field value above. I'm just comparing between inline a local variable value and the way an anonymous class uses a non-final value of a field (which I don't know yet). –  Kareem Oct 12 '13 at 11:56

1 Answer 1

up vote 3 down vote accepted

There's a big difference between a method call's local variable (which must be final to be accessible to an inner class), and an instance's private data members.

The inner class has access to the containing instance, and to all of the members of that instance, final or not. There's no need for them to be final, because they're referenced through (in your case) Foo.this. So when accessing your i member, the inner class is really accessing Foo.this.i, it's just that Foo.this (like this) can be implied if a reference is unambiguous without it.

But the anonymous class's code can't access local variables that way, because they aren't (of course) instance members of the containing class. So instead, the compiler does a very funny thing: It creates an instance member of the anonymous class for each final local variable, and when creating the instance of the anonymous class, it initializes those members with the values of the local variables.

Let's watch it do that:

public class InnerEx {
    public static final void main(String[] args) {
        new InnerEx().test("hi");
    }

    private void test(String arg) {
        final String localVar = arg;

        Runnable r = new Runnable() {
            public void run() {
                System.out.println(localVar);
            }
        };
        r.run();
    }
}

When compiled, we get InnerEx.class and InnerEx$1.class. If we decompile InnerEx$1.class, we see this:

class InnerEx$1 implements java.lang.Runnable {
  final java.lang.String val$localVar;

  final InnerEx this$0;

  InnerEx$1(InnerEx, java.lang.String);
    Code:
       0: aload_0       
       1: aload_1       
       2: putfield      #1                  // Field this$0:LInnerEx;
       5: aload_0       
       6: aload_2       
       7: putfield      #2                  // Field val$localVar:Ljava/lang/String;
      10: aload_0       
      11: invokespecial #3                  // Method java/lang/Object."<init>":()V
      14: return        

  public void run();
    Code:
       0: getstatic     #4                  // Field java/lang/System.out:Ljava/io/PrintStream;
       3: aload_0       
       4: getfield      #2                  // Field val$localVar:Ljava/lang/String;
       7: invokevirtual #5                  // Method java/io/PrintStream.println:(Ljava/lang/String;)V
      10: return        
}

Note the instance member called val$localVar, which is the instance member created to stand in for the local variable in the call to InnerEx#test.

share|improve this answer
1  
@KareemMesbah: "So...the anonymous class I created inside class 'Foo' can refer to the private field 'i' without any constraints using the code Foo.this.i?" Yes, but the Foo.this. part of that is optional. i and Foo.this.i are exactly the same thing (you only need the Foo.this. part if i on its own is ambiguous to the compiler). "Considering the anonymous class is created in another file..." No it isn't, the anonymous class is created in the Foo.java file, right there in your bar method. It implements an interface defined elsewhere, but the class is defined within Foo. –  T.J. Crowder Oct 12 '13 at 12:14
1  
@KareemMesbah: I'm not following some random blind link off-site. If you're referring to a section in the JLS or one of the Java tutorials, refer to it directly. It's also best practice to actually quote what you're referring to. But again: No, the anonymous class is created in your Foo.java, inside your bar method, where you say = new Runnable() { ... };. –  T.J. Crowder Oct 12 '13 at 12:25
1  
@KareemMesbah: Again, there's a big difference between an object instance member (i in your Foo) and a local variable in a method call (i, a local variable in Access1's foo method). –  T.J. Crowder Oct 12 '13 at 12:32
1  
@KareemMesbah: Essentially. The compiler doesn't inline the values of the final local variables; instead (and this is much more surprising), it creates instance members on the anonymous class. I've added to the answer to show that. –  T.J. Crowder Oct 12 '13 at 13:33
1  
@KareemMesbah: It could have been designed that way, but then people would get really confused, because we have two independent things: The local variable, and the inner class's member with (effectively) the same name. Changing one wouldn't change the other. Imagine the resulting bugs, esp. if you think in terms of multiple inner classes interacting... So they went with final, since it wipes away that entire class of problems. –  T.J. Crowder Oct 12 '13 at 15:39

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