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I'm trying to implement algoritm to convert Directed Acyclic Graph to Tree (for fun, learining, kata, name it). So I come up with the data structure Node:

DAG to Tree

/// <summary>
/// Represeting a node in DAG or Tree
/// </summary>
/// <typeparam name="T">Value of the node</typeparam>
public class Node<T> 
{
    /// <summary>
    /// creats a node with no child nodes
    /// </summary>
    /// <param name="value">Value of the node</param>
    public Node(T value)
    {
        Value = value;
        ChildNodes = new List<Node<T>>();
    }

    /// <summary>
    /// Creates a node with given value and copy the collection of child nodes
    /// </summary>
    /// <param name="value">value of the node</param>
    /// <param name="childNodes">collection of child nodes</param>
    public Node(T value, IEnumerable<Node<T>> childNodes)
    {
        if (childNodes == null)
        {
            throw new ArgumentNullException("childNodes");
        }
        ChildNodes = new List<Node<T>>(childNodes);
        Value = value;
    }

    /// <summary>
    /// Determines if the node has any child node
    /// </summary>
    /// <returns>true if has any</returns>
    public bool HasChildNodes
    {
        get { return this.ChildNodes.Count != 0; }
    }


    /// <summary>
    /// Travearse the Graph recursively
    /// </summary>
    /// <param name="root">root node</param>
    /// <param name="visitor">visitor for each node</param>
    public void Traverse(Node<T> root, Action<Node<T>> visitor)
    {
        if (root == null)
        {
            throw new ArgumentNullException("root");
        }
        if (visitor == null)
        {
            throw new ArgumentNullException("visitor");
        }

        visitor(root); 
        foreach (var node in root.ChildNodes)
        {
            Traverse(node, visitor);
        }
    }

    /// <summary>
    /// Value of the node
    /// </summary>
    public T Value { get; private set; }

    /// <summary>
    /// List of all child nodes
    /// </summary>
    public List<Node<T>> ChildNodes { get; private set; }
}

It's pretty straightforward. Methods:

/// <summary>
/// Helper class for Node 
/// </summary>
/// <typeparam name="T">Value of a node</typeparam>
public static class NodeHelper
{
    /// <summary>
    /// Converts Directed Acyclic Graph to Tree data structure using recursion.
    /// </summary>
    /// <param name="root">root of DAG</param>
    /// <param name="seenNodes">keep track of child elements to find multiple connections (f.e. A connects with B and C and B also connects with C)</param>
    /// <returns>root node of the tree</returns>
    public static Node<T> DAG2TreeRec<T>(this Node<T> root, HashSet<Node<T>> seenNodes)
    {
        if (root == null)
        {
            throw new ArgumentNullException("root");
        }
        if (seenNodes == null)
        {
            throw new ArgumentNullException("seenNodes");
        }

        var length = root.ChildNodes.Count;
        for (int i = 0; i < length; ++i)
        {
            var node = root.ChildNodes[i];
            if (seenNodes.Contains(node))
            {
                var nodeClone = new Node<T>(node.Value, node.ChildNodes);
                node = nodeClone;
            }
            else
            {
                seenNodes.Add(node);
            }
            DAG2TreeRec(node, seenNodes);
        }
        return root;
    }
    /// <summary>
    /// Converts Directed Acyclic Graph to Tree data structure using explicite stack.
    /// </summary>
    /// <param name="root">root of DAG</param>
    /// <param name="seenNodes">keep track of child elements to find multiple connections (f.e. A connects with B and C and B also connects with C)</param>
    /// <returns>root node of the tree</returns>
    public static Node<T> DAG2Tree<T>(this Node<T> root, HashSet<Node<T>> seenNodes)
    {
        if (root == null)
        {
            throw new ArgumentNullException("root");
        }
        if (seenNodes == null)
        {
            throw new ArgumentNullException("seenNodes");
        }

        var stack = new Stack<Node<T>>();
        stack.Push(root);

        while (stack.Count > 0) 
        {
            var tempNode = stack.Pop();
            var length = tempNode.ChildNodes.Count;
            for (int i = 0; i < length; ++i)
            {
                var node = tempNode.ChildNodes[i];
                if (seenNodes.Contains(node))
                {
                    var nodeClone = new Node<T>(node.Value, node.ChildNodes);
                    node = nodeClone;
                }
                else
                {
                    seenNodes.Add(node);
                }
               stack.Push(node);
            }
        } 
        return root;
    }
}

and test:

    static void Main(string[] args)
    {
        // Jitter preheat
        Dag2TreeTest();
        Dag2TreeRecTest();

        Console.WriteLine("Running time ");
        Dag2TreeTest();
        Dag2TreeRecTest();

        Console.ReadKey();
    }

    public static void Dag2TreeTest()
    {
        HashSet<Node<int>> hashSet = new HashSet<Node<int>>();

        Node<int> root = BulidDummyDAG();

        Stopwatch stopwatch = new Stopwatch();
        stopwatch.Start();
        var treeNode = root.DAG2Tree<int>(hashSet);
        stopwatch.Stop();

        Console.WriteLine(string.Format("Dag 2 Tree = {0}ms",stopwatch.ElapsedMilliseconds));

    }

    private static Node<int> BulidDummyDAG()
    {
        Node<int> node2 = new Node<int>(2);
        Node<int> node4 = new Node<int>(4);
        Node<int> node3 = new Node<int>(3);
        Node<int> node5 = new Node<int>(5);
        Node<int> node6 = new Node<int>(6);
        Node<int> node7 = new Node<int>(7);
        Node<int> node8 = new Node<int>(8);
        Node<int> node9 = new Node<int>(9);
        Node<int> node10 = new Node<int>(10);
        Node<int> root  = new Node<int>(1);

        //making DAG                   
        root.ChildNodes.Add(node2);    
        root.ChildNodes.Add(node3);    
        node3.ChildNodes.Add(node2);   
        node3.ChildNodes.Add(node4);   
        root.ChildNodes.Add(node5);    
        node4.ChildNodes.Add(node6);   
        node4.ChildNodes.Add(node7);
        node5.ChildNodes.Add(node8);
        node2.ChildNodes.Add(node9);
        node9.ChildNodes.Add(node8);
        node9.ChildNodes.Add(node10);

        var length = 10000;
        Node<int> tempRoot = node10; 
        for (int i = 0; i < length; i++)
        {
            var nextChildNode = new Node<int>(11 + i);
            tempRoot.ChildNodes.Add(nextChildNode);
            tempRoot = nextChildNode;
        }

        return root;
    }

    public static void Dag2TreeRecTest()
    {
        HashSet<Node<int>> hashSet = new HashSet<Node<int>>();

        Node<int> root = BulidDummyDAG();

        Stopwatch stopwatch = new Stopwatch();
        stopwatch.Start();
        var treeNode = root.DAG2TreeRec<int>(hashSet);
        stopwatch.Stop();

        Console.WriteLine(string.Format("Dag 2 Tree Rec = {0}ms",stopwatch.ElapsedMilliseconds));
    }

What is more, data structure need some improvment:

  • Overriding GetHash, toString, Equals, == operator
  • implementing IComparable
  • LinkedList is probably a better choice

Also, before the conversion there are certian thigs that need to be checked:

  • Multigraphs
  • If it's DAG (Cycles)
  • Diamnods in DAG
  • Multiple roots in DAG

All in all, it narrows down to a few questions: How can I improve the conversion? Since this is a recurion it's possible to blow up the stack. I can add stack to memorize it. If I do continuation-passing style, will I be more efficient?

I feel that immutable data structure in this case would be better. Is it correct?

Is Childs the right name ? :)

share|improve this question
    
In answer to your question 'Is Childs the right name?', Children would be a better name, or even ChildNodes. –  Chris Taylor Jun 18 '11 at 17:39
    
'Children' is better :) –  pbalaga Jun 18 '11 at 17:40
    
100% sure that Children nodes are in Tree. Graphs (all kinds of) have childern nodes as well? –  lukas Jun 18 '11 at 17:45
    
in graph theory you normally talk about vertices (vertexes) and edges. Where a vertex represent what you are calling a node and an edge represents the "link" between two vertices. Children is better because Childs does not exist in the English language. –  Chris Taylor Jun 18 '11 at 18:04
3  
The correct term for a set of directly attached vertices would be Neighbors. –  Ben Voigt Jun 24 '11 at 0:34
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2 Answers

up vote 4 down vote accepted
+50

Algorithm:

  • As you observed, some nodes appear twice in the output. If the node 2 had children, the whole subtree would appear twice. If you want each node to appear just once, replace

    if (hashSet.Contains(node))
    {
        var nodeClone = new Node<T>(node.Value, node.Childs);
        node = nodeClone;
    }
    

    with

    if (hashSet.Contains(node))
    {
        // node already seen -> do nothing
    }
    
  • I wouldn't be too worried about the size of the stack or performance of recursion. However, you could replace your Depth-first-search with Breadth-first-search which would result in nodes closer to the root being visited earlier, thus yielding a more "natural" tree (in your picture you already numbered the nodes in BFS order).

     var seenNodes = new HashSet<Node>();
     var q = new Queue<Node>();
     q.Enqueue(root);
     seenNodes.Add(root);   
    
     while (q.Count > 0) {
         var node = q.Dequeue();
         foreach (var child in node.Childs) {
             if (!seenNodes.Contains(child )) {
                 seenNodes.Add(child);
                 q.Enqueue(child);
         }
     }
    

    The algorithm handles diamonds and cycles.

  • Multiple roots

    Just declare a class Graph which will contain all the vertices

    class Graph
    {
        public List<Node> Nodes { get; private set; }
        public Graph()
        {
            Nodes = new List<Node>();
        }    
    }
    

Code:

  • the hashSet could be named seenNodes.

  • Instead of

    var length = root.Childs.Count;
    for (int i = 0; i < length; ++i)
    {
        var node = root.Childs[i];
    

    write

    foreach (var child in root.Childs)
    
  • In Traverse, the visitor is quite unnecessary. You could rather have a method which yields all the nodes of the tree (in the same order traverse does) and it is up to user to do whatever with the nodes:

    foreach(var node in root.TraverseRecursive())
    {
        Console.WriteLine(node.Value);
    }
    
  • If you override GetHashCode and Equals, the algorithm will no more be able to distinguish between two different Nodes with same value, which is probably not what you want.

  • I don't see any reason why LinkedList would be better here than List, except for the reallocations (Capacity 2,4,8,16,...) which List does when adding nodes.

share|improve this answer
    
1: I quite don't understand "do nothing". There still be link between 1 -> 2 and 3 -> 2. 2:.Net is doing well with recursive solution but I've implemented another version with explicite stack(udpated post - Breadth-first-search is definitely better). 3: class Graph should check if im not adding another root". 4: agree 5: I can't since I'm mutating the collection. 6: yep 7: yep 8: me neither –  lukas Jun 26 '11 at 22:26
    
@5 and this for loop is a bit faster for Jitter to optimize. Also some DAG generator would be great to test. –  lukas Jun 26 '11 at 22:32
add comment
  1. you had better posted in CodeReview
  2. Childs is wrong => Children
  3. you don't have to use a HashSet, you could have easily used a List>, because checking references only is enough here. (and so no GetHashCode, Equals and operators overriding is needed)

  4. easeier way is Serializing your class and then Deserializing it again into second objectwith XmlSerializer. while Serialized and Deserialized, 1 object referenced 2 times will become 2 objects with different references.

share|improve this answer
    
+1 For the idea of Serializing and then Desserializing to second object in XmlSerializer. –  Jalal Aldeen Saa'd Jun 24 '11 at 1:15
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