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This is an interview question that I found interesting.

Write a method that takes a pointer to a Node structure as a parameter and returns a complete copy of the passed-in data structure.

The Node structure contains two pointers to other Node structures. For example, the method signature could look like so:

Node* Copy(Node* root);

Note - Do not make any assumptions about the data structure – it could be a tree, linked list, graph, etc.

How can this be done for any data structure ?

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Why downvote :( – Legolas Oct 6 '11 at 22:29
Not mine, but see stackoverflow.com/faq#dontask . – MSalters Oct 6 '11 at 22:39
@MSalters Apologies ! I do understand that. I have been breaking my head with this, and I wanted to get this question out on StackOverflow. I had no intention of violating the StackOverflow policy. – Legolas Oct 6 '11 at 22:45
@Legolas I've spent quite a lot of time trying to understand the question, but couldn't get it. Would it be possible for you to elaborate a bit on the question ? Thanks – brainydexter Jul 19 '12 at 17:24
up vote 5 down vote accepted

In the generic graph case, you need a mapping from nodes in the original graph to nodes in the new graph, so that when a cycle is encountered, the proper link gets created. If you happen to have extra temporary space in each node, large enough to hold a pointer, then you can store the mapping directly in the nodes; otherwise, you'll need to use an external map, such as an associative array or hash table.

Then it's just a matter of traversing the graph, copying nodes, and looking up the corresponding edges. Something like this:

struct Node
    Node(int _data) : data(_data) { memset(links, 0, sizeof(links)); }

    int data;
    Node *links[2];

Node *Copy(Node *root)
    typedef std::map<Node*, Node*> NodeMap;
    NodeMap nodeMap;
    std::deque<Node*> nodesToVisit;

    // Set up initial new root and mapping for the root
    Node *newRoot = new Node(root->data);
    nodeMap[root] = newRoot;

    // Breadth-first search the graph

        Node *cur = nodesToVisit.front();

        Node *newCur = nodeMap[cur];
        for(int i = 0; i < 2; i++)
            Node *link = cur->links[i];
                // If we've already created the corresponding node for this
                // link, use that.  Otherwise, create it and add it to the map.
                NodeMap::iterator mappedLink = nodeMap.find(link);
                if(mappedLink != nodeMap.end())
                    newCur->links[i] = mappedLink->second;
                    Node *newLink = new Node(link->data);
                    nodeMap[link] = newLink;
                    newCur->links[i] = newLink;

    return newRoot;
share|improve this answer
I think you meant to push_back(link) at the end, since nodesToVisit contains pointers to nodes in the old structure, not the new one. – Steve Jessop Oct 6 '11 at 22:57
@Steve: Thanks, yes you're right. Fixed. – Adam Rosenfield Oct 6 '11 at 22:59
I am trying to understand you thought process.... this looks awesome. – Legolas Oct 6 '11 at 23:38
@AdamRosenfield I know this is a very old question, but I've spent a lot of time trying to understand the question and your answer to it. In particular, I couldn't understand what you meant by this: ` so that when a cycle is encountered, the proper link gets created.` I'd appreciate if you can elaborate a bit. Thanks – brainydexter Jul 19 '12 at 17:22

The problem as stated is impossible. You have to assume that the entire data structure is stored entirely within the content of nodes that are accessible from that initial one. But that is not an assumption you are allowed to make. Even your standard basic double linked list might not fit that description.

share|improve this answer
Technically, of course, the data structure is a directed graph with two out-vertices per node; you just state that you can't copy a forest given a single root. If you understand copying a root as copying only the tree, not the forest, then this is possible. And yes, it requires a root. – MSalters Oct 6 '11 at 22:41
I want to +1, but surely in a doubly-linked list, the whole structure is accessible from any node? If it isn't, then it isn't a doubly-linked list, it's something else. – Steve Jessop Oct 6 '11 at 22:43
@Steve: The whole structure is accessible, but there can be additional data lacking, such as an extra pointer to the two ends. However, looking at MSalters comment, and rereading the question, perhaps I'm misinterpreting. I took the data structure to mean the data structure the node is a part of rather than the data structure defined by the node. – Dennis Zickefoose Oct 6 '11 at 22:48
Ah, I see what you mean. Agreed, meta-data (and for that matter the type of any surrounding data structure object of which the node is part) can't be determined. I'm pretty sure that what the original interview question will have been after, is a clone of the set of nodes reachable from this node, with all corresponding edges. But that's not certain from the version of the question we see here. – Steve Jessop Oct 6 '11 at 22:51
class Copier {
  std::map <Node*, Node*> copies;

  Node* Copy(Node* n) {
    if (!n) return 0;
    Node*& copy = copies[n];
    if (!copy) {
      copy = new Node();
      copy.node1 = Copy(n.node1);
      copy.node2 = Copy(n.node2);
    return copy;
share|improve this answer
Not C++, but not bad. It's incorrect though, it might add one extra Node. – Mooing Duck Oct 6 '11 at 22:43
oh, I missed the C++ tag; I thought I was the last living C++ programmer :-) – kevin cline Oct 6 '11 at 22:49
This adds a "NULL" node. Then segfaults. – Mooing Duck Oct 6 '11 at 23:01
Looks OK except that it should be copy->node1 = Copy(n->node1); and the same for 2. Plus, this recurses O(n) deep in the worst case, which is worrying. Oh, and Copy probably ought to be public ;-) – Steve Jessop Oct 6 '11 at 23:14
@Steve: excellent point about the recursion depth. So that's why other posters use a queue. – kevin cline Oct 7 '11 at 0:32
Node* Copy(Node* root) {
   if (root == NULL)
       return root;
   std::unordered_map<Node*, Node*> completed; 
   std::deque<Node*> todo;
   Node *ret = new Node(*scur);
   completed.push_back(std::make_pair(root, ret));

   //while there's more nodes to duplicate
   do { 
       //duplicate the node
       Node* oldNode = todo.back();
       Node* newNode = completed[cur];

       if(oldNode->left) {
           auto iter = completed.find(oldNode->left);
           //if it has a left child that needs duplicating, add it to the todo list
           if (iter == completed.end()) {
               newNode->left = new Node(*(oldNode->left));
               completed.push_back(std::make_pair(oldNode->left, newNode->left));
           } else {
               newNode->left = completed[oldNode->left];
       if(oldNode->right) {
           auto iter = completed.find(oldNode->right);
           //if it has a right child that needs duplicating, add it to the todo list
           if (iter == completed.end()) {
               newNode->right = new Node(*(oldNode->right));
               completed.push_back(std::make_pair(oldNode->right, newNode->right));
           } else {
               newNode->right= completed[oldNode->right];

   } while(todo.empty() == false)
   //return the translation of the root
   return ret;

Doesn't have stack overflow, root can be NULL, doesn't fail if left or right are NULL.

[Edit]Adam Rosenfield made me realize this was incorrect if there was loops in the network. Had to rewrite almost from scratch. Due to the large amount of code required, I prefer his code's for loop.

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return new Node(*node);

Trick question?

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I do not think so. I think the problem is related with Deep Copy and Shallow Copy. – Legolas Oct 6 '11 at 22:36
@Legolas That depends on how the copy-constructor is defined. – Ayjay Oct 6 '11 at 22:38
I think the question is supposed to distinguish between the "Node structure" and the "data structure". You've copied the former, but my psychic intuition is that the real interview question isn't after that, and that Node is just a POD-struct containing two pointers. – Steve Jessop Oct 6 '11 at 22:40

You should write it recursively;

Node * Copy( Node * root )
    Node * node_copy;

    node_copy = new Node; // Assume Node1 and Node2 are initialized to 0
    node_copy->content = root->content;

    if( root->Node1 ) node_copy->Node1 = Copy( root->Node1 );
    if( root->Node2 ) node_copy->Node2 = Copy( root->Node2 );

    return node_copy;

So, this does not make any assumption on the data type

share|improve this answer
Node n = new Node(); n.node1 = n.node2 = n; Copy(n); could take a long time. – kevin cline Oct 6 '11 at 22:30
Yes it will. If you need to handle that case, you need to store pair of source node/new node and search for the node first in that table. If you find it, set the pointer, if it isn't there, just clone it and add it to the list – crazyjul Oct 6 '11 at 22:34
@xrazyjul: I think that is required, since the question says the full data structure might be a "graph". If it just said it might be a DAG you could assume no cycles. – Steve Jessop Oct 6 '11 at 22:42
My bad, you're right, I missed that line – crazyjul Oct 6 '11 at 22:44

Given that a copy constructor exists that copies only the contents of a node and not its children:

Node* Copy(Node* root)
    Node* copy = new Node(*root);
    copy->left = Copy(root->left);
    copy->right = Copy(root->right);
    return copy;

In a more general sense, I would use copy-constructors that fully copy the entire data structure:

Node* Copy(Node* root)
    return new Node(*root);
share|improve this answer
and if it's a doubly linked list that leads to stack overflow. Also, dereferencing of NULL pointers. Whichever happens first. – Mooing Duck Oct 6 '11 at 22:41

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