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I know what is deep copy, shallow copy, and how to deep copy etc, but my major doubt is When to deep copy an object reference? or How often?

Scenario 1 :
Consider a code, for full code please see

class Box{
        Position pos;
        Box(Position p){ 
           pos = p;      
        Position getPosition(){
          return pos;

And a main() like:

public class Sample{
      public static void main(String args[]){
        Position pos = new Position(3,5);
        Box box = new Box(pos);     
        System.out.println( box.getPosition().getX()); 
            // Will print 5, but I want Box to retain its value

I have achieved the above requirement by:

 Box(Position p){ 
           pos = new Position(p);     // Deep cloning 

Then I must have a copy constructor in Position too, like:

Position(Position p){
     x  = p.x;
     y  = p.y;

But my question is: When to use deep cloning?

Scenario 2: For example, Consider a c# code.

List<Accounts> = Mysession.getAllAccounts();. Here, I expect the change in returned object must not reflect in session object. (This case is not only in C#, but in generally any oop language) So, If I starts deep cloning, then, it's not a easy task, because it goes up to 5 levels deeper objects, with has-a relationship

Once again, I know to get exact 100% I must deep clone. Agree.

  1. What is more common? Returning copy of reference or objects?
  2. I heard that, deep cloning is a cumbersome process and one must avoid it. so how often one could deep - clone?
  3. Could you give some example scenarios (code not needed).
  4. While initialization like above box example, one must use cloning pos = new Position(p)? or normal assigning pos = p?
share|improve this question
if your value objects contains only System.ValueType as fields you can use struct instead of in that case you can simply use pos=p instead of pos = new Position(p). – Frank59 Aug 2 '13 at 5:17
@Frank59 Consider another class which has has-a relationship of another objects. say ` new Room(myroom)` here Room contains an Box. In this case., In Room Constructor I must do like, = new Box(room.getBox()); [Deep cloning] or simply = room.getBox() [reference copying]? – Muthu Ganapathy Nathan Aug 2 '13 at 5:28
if you use structs (Box is struct) and ValueTypes(Box fields are value types and structs ) only than you can use neBox=oldBox; (automatically deep copy), but if you have Box as class or have references into Box fields you need to implement deeep copy algorithm. read more – Frank59 Aug 2 '13 at 5:47

2 Answers 2

The main purpose in object-oriented programming must be that an object gurantees that it is in a leagal state at any time.

Thus when you return an object's reference you should think about:

  1. Is the returned object immutable?
  2. Does the current object that returns the reference (main object) has values that depend on the returned object? (derived or cached values)

You can react to the answers of these questions in the following ways:

The returned reference is an immutable object (String, BigDecimal, etc.)

  1. no action required

The returned reference is a muttable object (array, Date, etc.), but the main object has NO derived values (e.g. only decorates it)

  1. no action required

The returned reference is a muttable object (array, Date, etc.) and the main object has derived values

  1. Make a copy of the object before you return it. This is applicable if an copy is easy to make and if it is not memory or time consuming (Depends on your non-functional requirements).

  2. Return an unmodifiable reference to the original object (like Collections.unmodifiable... does).

  3. Return a proxy that detects access to the returned object and that informs the main object about these changes so that the main object can recalculate the derived values and it will not be in an inconsistent state.

Ask yourself the same questions when you get an object reference. Through a constructor or method invocation.

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Rather than thinking in terms of "deep" or "shallow" cloning, instead think in terms of what each encapsulated object reference represents. Suppose field Foo of some class instance George holds a reference of type IList<String>. Such a field could represent at least five different things:

  • A reference to an instance of an immutable type, held for the purpose of encapsulating the strings contained therein.

  • A reference to an object instance whose type could be mutable, but which will never be exposed to anything that might mutate it, held for the purpose of encapsulating the strings contained therein.

  • The only reference that will ever exist anywhere in the universe, outside the call stack of George's methods, to a mutable list which George is using to encapsulate its state.

  • A reference to a list whose contents may change, which form part of the mutable state of some other object. The field isn't used to encapsulate the content of the list, but rather its identity.

  • A reference to a list whose contents may change, whose contents are considered to be part of George's state, and to which outside persistent references exist.

If Foo is of the first two types, a proper copy of George may have its Foo refer either to the same list as George.Foo, a newly-constructed list which will always hold the same contents, or any other list which will always hold the same contents. If it's of the third type, a proper copy of George must have its Foo refer to a new list which is preloaded with copies of the items in George.Foo. If it's of the fourth type, a proper copy must have its Foo refer to the same object as George.Foo and not refer to a copy. If it's of the fifth type, George cannot be cloned in isolation.

If the list items were of a mutable type (instead of String), one would have to determine which of the five purposes applied to the items contained in the list, and treat each list item as one would treat a field. Note that for a type to be logically immutable, any references contained therein must be shareable. If proper behavior of an object would require that something to which it holds a reference not be the target of any other reference, that would imply that only one reference should exist to the object holding the reference.

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