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The interviewer asked - Can we instantiate an abstract class? I said, No. He told me - Wrong, we can.

I argued a bit on this. Then he told me to try this yourself at your home.

abstract class my {
    public void mymethod() {
        System.out.print("Abstract");
    }
}

class poly {
    public static void main(String a[]) {
        my m = new my() {};
        m.mymethod();
    }
}

Here, I'm creating instance of my class and calling method of abstract class. Can anyone please explain this to me? Was I really wrong during my interview?

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4  
possible duplicate stackoverflow.com/questions/4579305/… –  AsheeshR Dec 2 '12 at 16:04
78  
"Then, he told me to try yourself at your home" You should have said the exact same thing back to him. –  Phil K Dec 2 '12 at 16:06
1  
possible duplicate of Why would one declare a Java interface method as abstract? –  Peter O. Dec 2 '12 at 17:14
1  
Although only slightly related, one can perhaps instantiate an abstract class in C++: if you derive a non-abstract class B from an abstract one A, during the part of construction of B instance, which consist running A's constructor, the object's runtime type is actually A. Only temporary however. –  Vlad Dec 4 '12 at 20:21
5  
@jWeavers: The example he has given is totally wrong. You should have asked "then what is the use of abstract class" from him. If you are extending it, then why are you creating an instance of the extended class? It is a completely new object, where you end up with no data.. –  Sniper Feb 12 '13 at 8:42

12 Answers 12

up vote 353 down vote accepted

Here, i'm creating instance of my class

No, you are not creating the instance of your abstract class here. Rather you are creating an instance of an anonymous subclass of your abstract class. And then you are invoking the method on your abstract class reference pointing to subclass object.

This behaviour is clearly listed in JLS - Section # 15.9.1: -

If the class instance creation expression ends in a class body, then the class being instantiated is an anonymous class. Then:

  • If T denotes a class, then an anonymous direct subclass of the class named by T is declared. It is a compile-time error if the class denoted by T is a final class.
  • If T denotes an interface, then an anonymous direct subclass of Object that implements the interface named by T is declared.
  • In either case, the body of the subclass is the ClassBody given in the class instance creation expression.
  • The class being instantiated is the anonymous subclass.

Emphasis mine.

Also, in JLS - Section # 12.5, you can read about the Object Creation Process. I'll quote one statement from that here: -

Whenever a new class instance is created, memory space is allocated for it with room for all the instance variables declared in the class type and all the instance variables declared in each superclass of the class type, including all the instance variables that may be hidden.

Just before a reference to the newly created object is returned as the result, the indicated constructor is processed to initialize the new object using the following procedure:

You can read about the complete procedure on the link I provided.


To practically see that the class being instantiated is an Anonymous SubClass, you just need to compile both your classes. Suppose you put those classes in two different files:

My.java:

abstract class My {
    public void myMethod() {
        System.out.print("Abstract");
    }
}

Poly.java:

class Poly extends My {
    public static void main(String a[]) {
        My m = new My() {};
        m.myMethod();
    }
}

Now, compile both your source files:

javac My.java Poly.java

Now in the directory where you compiled the source code, you will see the following class files:

My.class
Poly$1.class  // Class file corresponding to anonymous subclass
Poly.class

See that class - Poly$1.class. It's the class file created by the compiler corresponding to the anonymous subclass you instantiated using the below code:

new My() {};

So, it's clear that there is a different class being instantiated. It's just that, that class is given a name only after compilation by the compiler.

In general, all the anonymous subclasses in your class will be named in this fashion:

Poly$1.class, Poly$2.class, Poly$3.class, ... so on

Those numbers denote the order in which those anonymous classes appear in the enclosing class.

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89  
@coders. Exact answer is: - You can't instantiate your abstract class, however you can instantiate a concrete subclass of your abstract class. –  Rohit Jain Dec 2 '12 at 16:06
6  
In one line you can say:- You can never instantiate an abstract class. That's the purpose of an abstract class. –  Rahul Tripathi Dec 2 '12 at 16:08
30  
So a simple "No" is the correct answer, too. –  AlexWien Dec 2 '12 at 16:09
31  
It's sounds like the interviewer was more invested in his answer than he was in yours... –  Neil T. Dec 2 '12 at 20:55
4  
According to another comment (with a JLS reference), "An object is said to be an instance of its class and of all superclasses of its class" - therefore, aren't we actually technically creating an instance of the abstract class here? i.e. instantiating the abstract class? –  arshajii Dec 14 '12 at 23:12

The above instantiates an anonymous inner class which is a subclass of the my abstract class. It's not strictly equivalent to instantiating the abstract class itself. OTOH, every subclass instance is an instance of all its superclasses and interfaces, so most abstract classes are indeed instanciated by instantiating one of their concrete subclass.

If the interviewer just said "wrong!" without explaining, and gave this example as a unique counter-example, I think he doesn't know what he's talking about, though.

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3  
Strictly speaking, the abstract superclass is not instantiated. It's constructor is called to initialize instance variables. –  Perception Dec 2 '12 at 16:20
3  
Yes it is: subclassInstance instanceof SuperClass would return true, so the object is an instance of the superclass, which means the superclass has been instanciated. But that's just semantic nitpicking. –  JB Nizet Dec 2 '12 at 16:23
2  
Could be semantics indeed. Java defines instantiation in terms of creating objects via the new keyword (which ofc you cannot do with an abstract class). But of course the concrete subclass will report correctly that its an instance of every member of its parent hierarchy. –  Perception Dec 2 '12 at 16:27
8  
@MarkoTopolnik: paragraph 4.12.6 of the JLS says: "An object is said to be an instance of its class and of all superclasses of its class.". –  JB Nizet Dec 2 '12 at 17:21
3  
I withdraw my comment :) I was convinced otherwise. Thanks for the reference. –  Marko Topolnik Dec 2 '12 at 17:25

= my() {}; means that there's an anonymous implementation, not simple instantiation of an object, which should have been : = my(). You can never instantiate an abstract class.

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Just observations you could make:

  1. Why poly extends my? This is useless...
  2. What is the results of the compilation? Three files: my.class, poly.class and poly$1.class
  3. If we can instantiate an abstract class like that, we can instantiate an interface too... weird...


Can we instantiate an abstract class?

No, we can't. What we can do is creating an anonymous class (that's the third file) and instantiate it.


What about a superclass instantiation?

The abstract superclass is not instantiate by us but by java.

EDIT: Ask him to test this

public static final void main(final String[] args) {
    final my m1 = new my() {
    };
    final my m2 = new my() {
    };
    System.out.println(m1 == m2);

    System.out.println(m1.getClass().toString());
    System.out.println(m2.getClass().toString());

}

output is:

false
class my$1
class my$2
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+1 for observation 3: e.g., we can do Serializable s = new Serializable() {}; (which is pretty useless) and if tagged onto your code would give class my$3 (or whatever enclosing class and number) –  iamnotmaynard Sep 27 '13 at 16:01

Abstract classes cannot be instantiated, but they can be subclassed. See This Link

The best example is

Although Calender class has a abstract method getInstance(), but when you say Calendar calc=Calendar.getInstance();

calc is referring to the class instance of class GregorianCalendar as "GregorianCalendar extends Calendar "

Infact annonymous inner type allows you to create a no-name subclass of the abstract class and an instance of this.

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You can simply answers, in just one line

No, you can never instance Abstract Class

But, interviewer still not agree, then you can tell him/her

all you can do is, you can create an Anonymous Class.

And, according to Anonymous class, class declared and instantiate at the same place/line

So, it might be possible that, interviewer would be interested to check your confidence level and how much you know about the OOPs .

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Technical Answer

Abstract classes cannot be instantiated - this is by definition and design.

From the JLS, Chapter 8. Classes:

A named class may be declared abstract (§8.1.1.1) and must be declared abstract if it is incompletely implemented; such a class cannot be instantiated, but can be extended by subclasses.

From JSE 6 java doc for Classes.newInstance():

InstantiationException - if this Class represents an abstract class, an interface, an array class, a primitive type, or void; or if the class has no nullary constructor; or if the instantiation fails for some other reason.

You can, of course, instantiate a concrete subclass of an abstract class (including an anonymous subclass) and also carry out a typecast of an object reference to an abstract type.

A Different Angle On This - Teamplay & Social Intelligence:

This sort of technical misunderstanding happens frequently in the real world when we deal with complex technologies and legalistic specifications.

"People Skills" can be more important here than "Technical Skills". If competitively and aggressively trying to prove your side of the argument, then you could be theoretically right, but you could also do more damage in having a fight / damaging "face" / creating an enemy than it is worth. Be reconciliatory and understanding in resolving your differences. Who knows - maybe you're "both right" but working off slightly different meanings for terms??

Who knows - though not likely, it is possible the interviewer deliberately introduced a small conflict/misunderstanding to put you into a challenging situation and see how you behave emotionally and socially. Be gracious and constructive with colleagues, follow advice from seniors, and follow through after the interview to resolve any challenge/misunderstanding - via email or phone call. Shows you're motivated and detail-oriented.

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It is a well-established fact that abstract class can not be instantiated as everyone answered.

When the program defines anonymous class, the compiler actually creates a new class with different name (has the pattern EnclosedClassName$n where n is the anonymous class number)

So if you decompile this Java class you will find the code as below:

my.class

abstract class my { 
    public void mymethod() 
    { 
        System.out.print("Abstract"); 
    }
} 

poly$1.class (the generated class of the "anonymous class")

class poly$1 extends my 
{
} 

ploly.cass

public class poly extends my
{
    public static void main(String[] a)
    {
        my m = new poly.1(); // instance of poly.1 class NOT the abstract my class

        m.mymethod();
    }
}
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No, you can't instantite an abstract class.We instantiate only anonymous class.In abstract class we declare abstract methods and define concrete methods only.

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It's impossible to instantiate an abstract class. What you realy can do, is implement some common methods in an abstract class and let others unimplemented (declaring them abstract) and let the concrete descenders implement them depending on theyr needs. Then you can make a factory, which returns an instance of this abstract class (actually his implementor). In the factory you then deside, which implementor to choose. This is known as factory design pattern:

   public abstract class AbstractGridManager {
        private LifecicleAlgorithmIntrface lifecicleAlgorithm;
        // ... more private fields

        //Method implemented in concrete Manager implementors 
        abstract public Grid initGrid();

        //Methods common to all implementors
        public Grid calculateNextLifecicle(Grid grid){
            return this.getLifecicleAlgorithm().calculateNextLifecicle(grid);
        }

        public LifecicleAlgorithmIntrface getLifecicleAlgorithm() {
            return lifecicleAlgorithm;
        }
        public void setLifecicleAlgorithm(LifecicleAlgorithmIntrface lifecicleAlgorithm) {
            this.lifecicleAlgorithm = lifecicleAlgorithm;
        }
        // ... more common logic and geter-seter pairs
    }

The concrete implementor only needs to implement the methods declared as abstract but will have acces to the logic implemented in those classes in abstract class, which are not declared absract:

public class FileInputGridManager extends AbstractGridManager {

private String filePath;

//Method implemented in concrete Manager implementors 
abstract public Grid initGrid();

public Grid initGrid(String filePath) {
    List<Cell> cells = new ArrayList<>();
    char[] chars;
    File file = new File(filePath); // for ex foo.txt
    // ... more logic
    return grid;
}

}

Then finally the factory looks something like this:

public class GridManagerFactory {
    public static AbstractGridManager getGridManager(LifecicleAlgorithmIntrface lifecicleAlgorithm, String... args){
        AbstractGridManager manager = null;

        // input from the command line
        if(args.length == 2){
            CommandLineGridManager clManager = new CommandLineGridManager();
            clManager.setWidth(Integer.parseInt(args[0]));
            clManager.setHeight(Integer.parseInt(args[1]));
            // possibly more configuration logic
            ...
            manager = clManager;
        } 
        // input from the file
        else if(args.length == 1){
            FileInputGridManager fiManager = new FileInputGridManager();
            fiManager.setFilePath(args[0]);
            // possibly more method calls from abstract class
            ...
            manager = fiManager ;
        }
        //... more possible concrete implementors
        else{
            manager = new CommandLineGridManager();
        }
        manager.setLifecicleAlgorithm(lifecicleAlgorithm);
        return manager;
    }
}

The receiver of AbstractGridManager would call the methods on him and get the logic, implemented in the concrete descenders (and partually in the abstract class methods) without knowing what is the concrete implementation he got. This is also know like inversion of control or dependency injection

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Extending a class doesn't mean that you are instantiating the class. Actually in your case what you are doing is creating an instance of the subclass, I am pretty sure that Abstract classes are made to not allow initiating , SO I say no you can't instantiate a Abstract class. All you can do is to extend it or inherit it.

You can't directly instantiate an Abstract class, But It doesn't mean that you can't get an instance of class(not actully an instace of original abstract class) Indirectly , I mean you can not instaintite the orginial abstract class but you can create an Empty class and inherit it from Abstract class then Instantiated the dervied class , so you get access to all the methods and properties in Abstract class via the derived class instance

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About Abstract Classes

can not create object of a abstract class

can create variables (can behave like datatypes)

if a child can not overide at least of one abstract method of the parent then child also becomes abstract

Abstract classes are useless without child classes.

Purpose of a abstract class is to behave like baseses. ( note: In inheritance hierachy you will see abstract classes at the top )

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protected by Rohit Jain Jul 2 '13 at 12:12

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