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This question was taken from Kathy Sierra SCJP 1.6. And the question is how many objects are eligible for garbage collections? According to Kathy Sierra answer, It is C that means two objects are eligible for garbage collection. I have given the explanation of the answer. But why is c3 not eligible for Gargbage collection?

class CardBoard {
Short story = 200;
CardBoard go(CardBoard cb) {
cb = null;
return cb;
public static void main(String[] args) {
CardBoard c1 = new CardBoard();
CardBoard c2 = new CardBoard();
CardBoard c3 = c1.go(c2);
c1 = null;
// do Stuff
} }

When // doStuff is reached, how many objects are eligible for GC?

  • A: 0
  • B: 1
  • C: 2
  • D: Compilation fails
  • E: It is not possible to know
  • F: An exception is thrown at runtime


  • C is correct. Only one CardBoard object (c1) is eligible, but it has an associated Short wrapper object that is also eligible.
  • A, B, D, E, and F are incorrect based on the above. (Objective 7.4)
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Strictly speaking c3 can't be eligible for GC, because it is not an object. It is a variable could point to an object. – Joachim Sauer Jul 19 '12 at 15:35
up vote 6 down vote accepted

No object ever existed that c3 points to. The constructor was only called twice, two objects, one each pointed to by c1 and c2. c3 is just a reference, that has never been assigned anything but the null pointer.

The reference c3, that currently points to null, won't go out of scope and be removed from the stack until the closing brace at the end of the main method is crossed.

The object originally assigned to c1 is unreachable because the c1 reference was set to null, but the c2 reference has not been changed, so the object assigned to it is still reachable from this scope via the c2 reference.

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c3 is null, so there is clearly no Object there eligible for garbage collection.

Note that only two CardBoard objects are created, the two on these lines:

CardBoard c1 = new CardBoard();
CardBoard c2 = new CardBoard();

and after the reference juggling, only one of them is without references.

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If you notice there are only two objects created in the code. c3 is never initialized to an object, it is a null reference. Hence, only one "object" eligible for garbage collection.

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Let's break this down line by line:

CardBoard c1 = new CardBoard();

We now have two objects, the CardBoard c1 points at and the Short c1.story. Neither is available for GC as c1 points at the CardBoard and the story variable of the CardBoard points at the Short...

CardBoard c2 = new CardBoard();

Similar to above, we now have four objects, none of which are available for GC.

CardBoard c3 = c1.go(c2);

We invoke the method go on the CardBoard pointed at by c1, passing the value of c2 which is a reference to a CardBoard Object. We null the parameter, but Java is pass by value meaning that the c2 variable itself is unaffected. We then return the nulled parameter. c3 is null, c1 and c2 are unaffected. We still have 4 objects, none of which can be GC'd.

c1 = null;

We null c1. The CardBoard object which c1 previously pointed at now has nothing pointing to it, and it can be GC'd. Because the story variable inside that CardBoard object is the only thing pointing at the Short, and because that CardBoard object is eligible for GC, the Short also becomes eligible for GC. This gives us 4 objects, 2 of which can be GC'd. The objects eligible for GC are the ones formerly referenced by c1 and c1.story.

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