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class A{
     A aob;
     public static void main(String args[]){
          A a=new A();
          A b=new A();
          A c=new A();
          A d=new A().aob=new A();  //tricky assignement
          c=b;                      //one object eligible GC

There is two objectcs eligible for garbage collection but one is difficult to understand.

A d=new A().aob=new A();

1) This line I thing that it would make this

A d = new A().aob = new A();
          ^             ^
          O1            O2

      O1 --> O2 --> null
d ----| 

2) But what really is doing is this (so one eligible object) WHY IS LIKE THIS?

A d = new A().aob = new A();
          ^             ^
          O1            O2

      O1 --> O2 --> null
d -----------| 

because the assignements are associative right to left.

A d = ( new A().aob = new A() );

Could anyone explain it otherwise? Thanks

Two points: First, your second diagram should have O2 --> O1 --> null. Second, the other object eligible for gc is the original instance of A assigned to c in A c = new A();. Presumably you knew this one, but it wasn't mentioned so I thought I'd mention it. :) –  Ted Hopp Mar 7 '12 at 20:53

3 Answers 3

up vote 6 down vote accepted

It starts from right to left. First new A() is executed and a new object is created. Then it is assigned to the field aob of another new object A. Finally d is referencing the property aob. This means the second object A is eligible for garbage collection.

It is like:

A firstA = new A();
A secondA = new A();
secondA.aob = firstA;
A d = secondA.aob;

But the secondA object is created inline so there are no references to it and it is eligible for garbage collection.

A d = new A().aob = new A(); ---- will be the same as --- A d = new A(); new A().aob = d; –  Joe Mar 7 '12 at 22:09

In this example what would you expect?

A a = new A();
A b = new A();
a.aob = b;
A d = a.aob;

would d be the instance a or the instance b?

Would you expect it to be different just because you are creating the objects inline?

in this example surely d must be object b, and so object a is not referenced and can be garbage collected.

A d = new A().aob = new A();

In Java, the assignment operator is right-associative, i.e. they are evaluated from right-to-left. But also, they are in the least precedence operators group.

So the second new operator (right of the second equality) is evaluated first and we get a new A object; let's say 'a'. Now we have:

new A().aob = a;

The trick here is to recognize the operator precedence. Take a look at here: http://pages.cs.wisc.edu/~willb/cs302/spring-07/java-operator-precedence.pdf

The 'new' operator and the '.' method call operator have the same precedence but their associative quality are reversed: 'new' is right-associative and '.' is left-associative.

So the compiler first applies the new operator on the 'right operand' which is here 'A()' (before the next operand comes into place). Let's call the new object b; and we have:

A d = b.aob = a;

The compiler now needs to apply the '.' operator first (as '.' has higher precedence than '=' operator). Let's call the object referred by 'b.aob' as c:

A d = c = a;

Finally all that is left are the assignment operators and they are right-associative (evaluated from right-to-left). So, a is assigned to c (b.aob) first, and then c is assigned to d.


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