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How does creating a instance of class inside of the class itself works?

What makes it possible to create a instance of class inside of the class itself?

public class My_Class  {        My_Class new_class= new My_Class();  } 

I know it is possible and have done it myself but I cannot still make myself believe that this is not something like " who was first--Chicken or egg ?" type of problem. I could be glad to receive an answer that will clarify this from programming perspective as well as from JVM/ compiler perspective. I think understanding this will help me clear some very important bottleneck concepts of OO programming.

I have received some answers but none are clear to the degree I expected.

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Jack_of_All_Trades Avatar asked Aug 21 '13 14:08

Jack_of_All_Trades


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1 Answers

There is absolutely no problem in creating instances of a class in the class itself. The apparent chicken-or-egg problem is solved in different ways while the program is being compiled and when it is being run.

Compile-time

When a class that creates an instance of itself is being compiled, the compiler finds that the class has a circular dependency on itself. This dependency is easy to solve: the compiler knows that the class is already being compiled so it won't try to compile it again. Instead, it pretends that the class already exists generates code accordingly.

Run-time

The biggest chicken-or-egg problem with a class creating an object of itself is when the class does not even exist yet; that is, when the class is being loaded. This problem is resolved by breaking class loading into two steps: first the class is defined and then it is initialized.

Defining means registering the class with the runtime system (JVM or CLR), so that it knows the structure that objects of the class have, and what code should be run when its constructors and methods are called.

Once the class has been defined it is initialized. This is done by initializing static members and running static initializer blocks and other things defined in the particular language. Recall that the class is already defined at this point, so the runtime knows what objects of the class look like and what code should be run to create them. This means there's no problem whatsoever to create objects of the class when initializing it.

Here's an example that illustrates how class initialization and instantiation interact in Java:

class Test {     static Test instance = new Test();     static int x = 1;      public Test() {         System.out.printf("x=%d\n", x);     }      public static void main(String[] args) {         Test t = new Test();     } } 

Let's step through how the JVM would run this program. First the JVM loads the Test class. This means that the class is first defined, so that the JVM knows that

  1. a class called Test exists and that it has a main method and a constructor, and that
  2. the Test class has two static variables, one called x and another called instance, and
  3. what is the object layout of the Test class. In other words: what an object looks like; what attributes it has. In this case Test doesn't have any instance attributes.

Now that the class is defined, it is initialized. First of all, the default value 0 or null is assigned to every static attribute. This sets x to 0. Then the JVM executes the static field initializers in the source code order. There are two:

  1. Create an instance of the Test class and assign it to instance. There are two steps to instance creation:
    1. First memory is allocated for the object. The JVM can do this because it already knows the object layout from the class definition phase.
    2. The Test() constructor is called to initialize the object. The JVM can do this because it already has the code for the constructor from the class definition phase. The constructor prints out the current value of x, which is 0.
  2. Set static variable x to 1.

Only now the class has finished loading. Notice that the JVM created an instance of the class, even though it was not fully loaded yet. You have proof of this fact because the constructor printed out the initial default value 0 for x.

Now that the JVM has loaded this class, it calls the main method to run the program. The main method creates another object of class Test - the second in the execution of the program. Again the constructor prints out the current value of x, which is now 1. The full output of the program is:

x=0 x=1 

As you can see there is no chicken-or-egg problem: the separation of class loading into definition and initialization phases avoids the problem completely.

What about when an instance of the object wants to create another instance, like in the code below?

class Test {     Test buggy = new Test(); } 

When you create an object of this class, again there is no inherent problem. The JVM knows how the object should be laid out in memory so it can allocate memory for it. It sets all the attributes to their default values, so buggy is set to null. Then the JVM starts initializing the object. In order to do this it must create another object of class Test. Like before, the JVM already knows how to do that: it allocates the memory, sets the attribute to null, and starts initializing the new object... which means it must create a third object of the same class, and then a fourth, a fifth, and so on, until it either runs out of stack space or heap memory.

There is no conceptual problem here mind you: this is just a common case of an infinite recursion in a badly written program. The recursion can be controlled for example using a counter; the constructor of this class uses recursion to make a chain of objects:

class Chain {     Chain link = null;     public Chain(int length) {         if (length > 1) link = new Chain(length-1);     } } 
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Joni Avatar answered Sep 22 '22 13:09

Joni