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public class A { //some fields (may not only primitive types) and methods here}

   public class B {// some fields (may not only primitive types) and methods here, may also have a class A reference }

Questions are followed :

    public class Test{ 

public static void main(String[] args){ 

A a = new A();//1. it will allocate memory for one object of A and a is the reference points to that space? 

ArrayList<B> bList = new ArrayList<B>(10);//2. it will allocate memory for 10 objects of B?

ArrayList<B> bList2 = bList;//3. bList2 reference to the same location as bList?

ArrayList<B> bList3 = new ArrayList<B>(20);//4. bList3 points to a memory location which can hold 20 objects of B?

bList3 = bList;//5. bList3 now points to the same location as bList, and the space allocated in question 4 will be cleaned by  garbage collector later?

ArrayList<B> bList4 = new ArrayList<B>(10);
bList4.addAll(bList);//6. it is the same as bList4 = bList;? and the memory created in above line will be cleaned by garbage collector later?

method1(bList3);//7.after this function call bList3 will point to memory space created for bLista inside the method1? and we can modify the content of that space via bList3

} 

public void method1(ArrayList<B> list){
//do something here
ArrayList<B> bLista = new ArrayList<B>();
list = bLista;
}

}
  • 5
    Surely most of these questions are things you can easily test by running the code and checking where the references point. Why ask when you can experiment? – Ry4an Brase Aug 26 '09 at 21:59
  • 1
    I don't think you can meaningfully "check where the references point" and correctly understand the results unless you already have a basic understanding what references and objects are and what the difference between them is - which is exactly what the OP is apparently lacking and trying to get a grip on through these questions. – Michael Borgwardt Aug 26 '09 at 22:12
5
  1. Yes.
  2. No.
  3. Yes.
  4. Sort of. Not really. Is this a trick question?
  5. Yes!
  6. No.
  7. No.

Okay, here are some real answers.

  1. The new operator allocates memory unless there isn't enough available. Even if the constructor of the object fails, and the allocated memory is quickly garbage collected, room for the new object is allocated temporarily.
  2. This allocates space for the fields of an ArrayList, which don't depend on the number of elements in the ArrayList, and in addition, it will create enough space for references to 10 objects, which don't depend on the size of the objects themselves; the pointers will be 32 bits on a 32-bit system, and 64 bits (or maybe compressed to something less by a really smart VM someday) on a 64-bit system.
  3. This is a simple assignment. Both variables have been assigned the same value.
  4. Memory has been allocated initially for 20 object references. However, if more than 20 objects are added to the list, ArrayList will automatically reallocate the necessary storage.
  5. Yes. In this case, one can see that no references to the object originally assigned to bList3 can "escape" to be strongly referenced. That unreferenced object is now eligible for garbage collection.
  6. bList4 still points to the same object, and that object cannot be garbage collected. That list references all the elements referenced by bList, but they aren't the same. In particular, changes to one list won't affect the other, but changes to the contents of the lists will be visible through either list.
  7. No, Java passes references by value, so a method can't cause a caller's reference to refer to a different object.
  • +1. Love the "sort of. not really" answer :-) – ChssPly76 Aug 26 '09 at 22:03
  • B[] bArray = new B[10]; is the same as ArrayList<B> = new ArrayList<B>() which only allocate space for references but not for objects? – 5YrsLaterDBA Aug 27 '09 at 1:17
  • They are similar; when you create an object array (like creating an ArrayList), the space required for the array itself depends only on the system you are running. It is completely independent of the component type of the array. new ReallyHugeObject[10] allocates the same amount of memory as new ReallyTinyObject[10]`—enough for 10 object references. – erickson Aug 27 '09 at 15:25
1
  1. Yes.

  2. No. It will allocate memory for 10 references to B objects, and possibly more (since ArrayList can grow and have more space internally than is currently needed for its contents).

  3. Yes.

  4. See 2.

  5. Yes.

  6. No. You created two separate ArrayList objects in this case, meaning that if you add another element to bList4 or remove one of its elements, the change will not be visible in bList and vice versa (which it would if you assigned bList4 = bList;

  7. No, because you overwrite a copy of the reference bList3 inside method1 - which has no effect outside the method. If, however, you modified the list object or its contents, the changes would be visible outside.

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