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I have a tree data structure with N first-level child nodes that have childs too.

For example:

  • Root
    • Node1
      • Node11
        • Node111
          • Node1111
      • Node12
    • Node2
      • Node21
        • Node211

I would like to know which of the braches has the biggest depth. As in the previous example it will be

Node1 - Node11 - Node111 - Node1111

that has a depth of four levels.

Any suggestion?

Thanks!

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Is this homework? –  Aryabhatta Feb 21 '10 at 2:11
    
@Moron: What do you mean by homework? –  Vincenzo Feb 22 '10 at 11:33
2  
You do know what homework is, right? –  Aryabhatta Feb 22 '10 at 14:49

5 Answers 5

up vote 3 down vote accepted

You must check all nodes. Several months ago I implemented this algorithm in this way:

class Node
{
    public String Name { get; private set; }
    public IList<Node> Childs { get; private set; }

    public Node(String name)
    {
        Name = name;
        Childs = new List<Node>();
    }

    public List<Node> Depth
    {
        get
        {
            List<Node> path = new List<Node>();
            foreach (Node node in Childs)
            {
                List<Node> tmp = node.Depth;
                if (tmp.Count > path.Count)
                    path = tmp;
            }
            path.Insert(0, this);
            return path;
        }
    }

    public override string ToString()
    {
        return Name;
    }
}

Example test:

Node node1111 = new Node("Node1111");
Node node111 = new Node("Node111");
Node node11 = new Node("Node11");
Node node12 = new Node("Node12");
Node node1 = new Node("Node1");
Node root = new Node("Root");
Node node2 = new Node("Node2");
Node node21 = new Node("Node21");
Node node211 = new Node("Node211");
root.Childs.Add(node1);
root.Childs.Add(node2);
node1.Childs.Add(node11);
node1.Childs.Add(node12);
node11.Childs.Add(node111);
node111.Childs.Add(node1111);
node2.Childs.Add(node21);
node21.Childs.Add(node211);

List<Node> path = root.Depth;
foreach (Node n in path)
    Console.Write(String.Format("{0} - ", n.ToString()));

Console.WriteLine();

Node node2111 = new Node("Node2111");
node2111.Childs.Add(new Node("Node21111"));
node211.Childs.Add(node2111);

path = root.Depth;
foreach (Node n in path)
    Console.Write(String.Format("{0} - ", n.ToString()));

Console.WriteLine();

Console output:

Root - Node1 - Node11 - Node111 - Node1111 -
Root - Node2 - Node21 - Node211 - Node2111 - Node21111 -
share|improve this answer
    
This is almost the same way I did it, but I had to implement it in C. –  WarmWaffles Feb 21 '10 at 3:22
3  
Nice solution. Two suggestions. First, "Depth" is badly named. It does not return the depth. It should be called "PathToDeepestLeaf". Second, properties should be reserved for (1) things which are logically properties, like colour or depth, not complex calculated things like "path to lowest leaf", (2) things that are very fast to compute, on the same order of speed as accessing a field. I would make this a method, not a property. –  Eric Lippert Feb 21 '10 at 6:24
    
A challenge for you: the tree might be very, very deep. Suppose it is a thousand nodes deep and so much recursion will blow the stack. Can you do it without recursion? –  Eric Lippert Feb 21 '10 at 6:26
    
Thanks for your tips. I will try to write the algorithm without recursion.Recursion version is the easiest for me. –  Michał Ziober Feb 21 '10 at 10:57
    
Thanks for your answers and comments! Besides Eric Lippert comments, on which I agree almost completely, the solution you've suggested was my first idea. I did coded using recursion and it worked perfectly. But....it's a bit "un-optimized"! Any suggestion on this? –  Vincenzo Feb 22 '10 at 11:38

The most straightforward is a brute force algorithm which enumerates every path, saves pointers to all the nodes, and measures the depth. For each path which is longer than a previous path, forget all other paths and only remember the longest.

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The deepest branch from a node is:
    the longest of the respective deepest branches from each child node
    prepended with the current node.
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Traverse the tree depth-first or breadth-first, assigning to each node its depth. Remember the node with the highest depth.

Navigate recusrivle back from that node to the root. This gives you the lngest branch. There might be more than one branch with the same length.

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If you have any form of iterator over your tree then you can use a perfectly mundane approach to the max depth.

Here's silly one-liner showing the concept for finding maximum reachable filesystem depth using UNIX find, awk and tr:

find / -depth | tr -dc '/\n' \
    | awk '{if (length($0) > max) { max=length($0)}}; END {print max}'

... find is the iterator, tr is a data manipulation "translating" one set of characters into another (in this case it's being used to -d (delete) the complement (-c) of the single character set being specified (/). So it converts any UNIX full path into just the / separators. From there I just find the longest line of input ... and that's my result.

Of course this approach won't help you much with your homework assignment. But the concept should be clear. :)

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