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I tried with below example, it is working fine.

I expected it to pick sub-class's value since object won't be created for super class (as it is abstract). But it is picking up super class's field value only.

Please help me understand what is the concepts behind this?

abstract class SuperAbstract {
    private int a = 2;
    public void funA() {
        System.out.println("In SuperAbstract: this.a " + a);

class SubClass extends SuperAbstract {
    private int a = 34;

I am calling new SubClass.funA();

I am expecting it to print 34, but it is printing 2.

P.S.: What I want to know is why using this in an abstract class not giving me an error?

As below text is emphasizing this would work on an instance and abstract classes won't have an instance.

Within an instance method or a constructor, this is a reference to the current object — the object whose method or constructor is being called. You can refer to any member of the current object from within an instance method or a constructor by using this. from:

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@aioobe hey guys have you got your answer of this above question ? If yes so please can you edit this question with updated answer because I also stuck in this question. – Vikas Verma Aug 31 '14 at 8:39
@VikasVerma My question is about usage of this keyword in the context of abstract class, not about access modifiers. – Reddy Aug 31 '14 at 11:37

A) You can't override fields in that sense. Fields "are not virtual" like methods.

From Java Quick Reference: Overloading, Overriding, Runtime Types and Object Orientation - Overriding Methods

  • fields cannot be overridden but they can be hidden ie if you declare a field in a subclass with the same name as one in the superclass, the superclass field can only be accessed using super or the superclasses type

B) If you could, the field would probably have had to be at least protected :-)

since object won't be created for super class (as it is abstract)

It is actually instantiated.

The abstract keyword only ensures that, when instantiated, it's instantiated in the form of a subclass. When instantiating a Dog, you're at the same time instantiating an Animal! The this reference in the context of an Animal will thus always refer to a Dog or a Cat or whatever, but in all cases it refers to some Animal. :-)

As the example below illustrates, the this reference makes sense even in an abstract class:

abstract class Animal {
    public String name;

    public Animal(String name) {
        System.out.println("Constructing an Animal"); = name;

    public abstract void speak();

class Dog extends Animal {
    public Dog(String name) {
        System.out.println("  Constructing a Dog");
    public void speak() {
        System.out.println("Bark! My name is " + name);

public class Test {
    public static void main(String... args) {
        new Dog("Woffy").speak();


Constructing an Animal
  Constructing a Dog
Bark! My name is Woffy

Update: The this reference refers to the same object in the super class as in the sub class.

You could try to add

public Animal getSuperThis() { return this; }

to the animal class, and do

System.out.println(this == getSuperThis());

in Dog.speak(). You would see that it prints true.

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Thanks aioobe. So, JVM actually instantiates two separate objects (one for super class, and one for sub class) and both will be stored separate in heap. Is my understanding right? – Reddy Jun 9 '10 at 8:07
No, it's the same object. See updated answer. – aioobe Jun 9 '10 at 8:32
Yes, it is printing true means both are same. But somehow distinction between super class and sub class is being maintained by JVM. I am saying this because in my program, super class's private variable (which won't be inherited) and it's value are just there for me to access them. – Reddy Jun 9 '10 at 13:45
I don't know if I understand your question, but private / public / protected etc are there only at compile time. These access modifiers play no role in runtime. The JVM does not make a distinction between superclass / subclass, it is just one instance. – aioobe Nov 23 '10 at 8:07
@Reddy: What you're actually seeing is a subclass instance with a field a and a second hidden field a inherited from the superclass. – Michael Borgwardt Nov 23 '10 at 8:08

Any field declared in a class is unique, even if it has the same name as a a field in a base class (i.e. only methods can be overridden, but not fields). Therefore, there are two distinct fields in the derived class: SuperAbstract.a and SubClass.a. The fact that the base class is abstract has no impact.

The abstract keyword simply signifies that a class cannot be instantiated, i.e. you cannot write new SuperAbstract(). You can only instantiate object of the subclass, which must override all methods marked abstract.

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The fact that the field is private has nothing to do with it. It would be two different fields, even if the field in the super class was public. – aioobe Jun 9 '10 at 7:11
Good call. I corrected my answer. – Tony the Pony Jun 9 '10 at 7:25

The code you provided contains variable a as private member of the SuperAbstract class. Since, you don't seem to override the function, it represents the code from the SuperAbstract class, and executing it will get access to the a declared in the class itself, regardless of the fact that it is being called from any inherited class. To access the value of the later variable, you need to override the function by defining the function again in the derived class. The final code looks like this:

abstract class SuperAbstract {
    protected int a = 2;
    public void funA() {
        System.out.println("In SuperAbstract:" + this.a);

class SubClass extends SuperAbstract {
    private int a = 34;
    //Overriding the above function
    public void funA() {
        System.out.println("In SubClass: " + a);
        //Or even check using the super keyword
        System.out.println("In SubClass with super: " + super.a);
        //Now call the function to display the value of a from SuperAbstract

In the above code I changed the a to protected, so that it could be accessed from the derived class too.

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