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I have a Java class, Node as follows :

class Node
    public ArrayList<Node> nbrs;

Each Node object contains a list of all its neighbours within the ArrayList nbrs, and nothing else.

Now I need to write a function :

public Node copy( Node curr )

This function should perform a deep copy of the entire graph rooted at curr, and return the equivalent copy for curr.

I tried implementing a copy constructor within the class Node as follows :

public Node( Node n )
    for( Node curr : n.nbrs )
        n.nbrs.add( new Node( curr  ));

I now copy the Node n, within my copy function.

But I have found that when the graph contains loops, this code keeps running infinitely.

Any help on how I should overcome this problem.

PS : This is an interview question faced by my friend, so the class Node cannot contain any more variables

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6 Answers 6

up vote 1 down vote accepted

The standard trick is to first create all the new nodes and store them in a map (from old nodes to new nodes). Then in a second pass over all the nodes, all the edges are added (by adding to n.nbrs.add).

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I like your approach, thank you ! I think this is the simplest to implement moreover, because there is no need for recursion. –  arya Mar 26 '12 at 10:52

If the Node class had a parent you'd be able to check for infinite recursion that way. But it doesn't. So you'll need to maintain some state during the clone operation, a Set containing the nodes you are currently recursing into. Refuse to descend into a node that is already in the Set.

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Thank you, but what will I store in the Set ? I am thinking of the hash values of the Node objects within the original graph. Would that be okay ? –  arya Mar 26 '12 at 10:28
Why the hash value? For the Node given here the hash will be related to the object identity, so why not just be clear and use Set<Node>? –  Daniel Earwicker Mar 26 '12 at 10:34
Yes, you are right. I could use HashSet for this purpose. Thank you ! –  arya Mar 26 '12 at 10:40

Save the mapping between the old nodes being copied and the new ones in a data structure that allows retrieving elements based on identity (i.e. that retrieves objects iff the == operator returns true). An example for this would be the IdentityHashMap. If you create a new node, then save it to the data structure.

Before creating a new Node from a previous ony, try to retrieve the node from the data structure. If you have such a node already, then add the retrieved one to the parent. If you don't have such a node, then continue creating one (and add it).

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Consider making Node objects immutable. In this case using shared instance will do no harm.

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If you can modify the Node class and make it Serializable, then you serialize/deserialize the object and get a new graph of objects.

Sample code to illustrate the point:

class Node implements Serializable 
    public List<Node> nbrs = new ArrayList<Node>();

Node n1 = new Node();
Node n2 = new Node();
Node n3 = new Node();

ByteArrayOutputStream baos = new ByteArrayOutputStream();
ObjectOutputStream dos = new ObjectOutputStream(baos);

ByteArrayInputStream bais = new ByteArrayInputStream(baos.toByteArray());
ObjectInputStream ois = new ObjectInputStream(bais);

Node n4 = (Node) ois.readObject();
Node n5 = (Node) ois.readObject();
Node n6 = (Node) ois.readObject();

At this stage, you'll have a new set of Node objects, which correctly reference each other.

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There is no base case in the recursion, other than a node with no neighbors.
Daniel Earwicker suggested using a Set to make sure we don't add the same neighbor twice. Sounds good, but how can we tell if a node is in the Set? The default implementation of equals is really just == so no two nodes would be considered equal. The Set contains method relies on equals to determine if an object has already been added to a set. We cold add an id field to the node and then implement boolean equals(Node other) by checking for id equality. That should make the Set solution work.

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The question rules out adding new fields, but fortunately this is totally unencessary. For two node references x and y, x == y will be true if they refer to the same node. That is exactly the test that is required here: we are checking for a node that is its own (possibly indirect) child. –  Daniel Earwicker Mar 26 '12 at 13:44
Do you try your set idea and it worked? Since we are making copies of nodes, I don't think x == y is what we want for equals. –  Thorn Mar 26 '12 at 15:29
From the question: "But I have found that when the graph contains loops, this code keeps running infinitely." i.e. the graph contains at least one node, N, which has a list of children, one of which has a list of children (and so on, to some depth...), one of which is N. That is N (the same object) appears twice in the same tree. That is the problem the OP needed to solve. Another way to think about it it: in your suggestion above, are you going to give every node a unique ID? –  Daniel Earwicker Mar 27 '12 at 8:12

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