# Hydrate a tree from a table

I have a DataTable with all of my nodes in it. They were serialized to database. I want to create an object graph (hierarchical) representation of the data. There seem to be a few methods for doing this.

This article describes a high order method (meaning it involves lots of searching of the DataTable before the tree is fully built)

Is there an Order-N approach? In my case, I have pre-sorted the nodes of the tree in the DataTable into the in-order form. Meaning, the first row shows a NULL for the parent, because it's the root. Each subsequent row is sorted in in-order notation.

I seem to recall an Order-N approach from my school days. But I can't remember.

My DataTable schema resembles this:

• NodeID - int
• ParentNodeId - nullable
• Data - string
-
Possibly related: stackoverflow.com/questions/444296/… That uses a dictionary to keep track of the parent nodes, and is probably the easiest way to do it. I've used a recursive solution that doesn't require a dictionary, but it's been so long I'd have to derive it again. –  Jim Mischel Oct 23 '11 at 3:56
That doesn't look like in-order form. If that were the case, root wouldn't be the first node in the table. Did you mean pre-order? –  svick Oct 23 '11 at 17:27

Here's an algorithm that should do what you need it to do. It assumes your data is in order, so it performs in O(n).

First, you need a node that looks like this:

``````class Node {
Node Parent;
List<Node> Children = new List<Node>();
int NodeId;
string Data;
public Node(NodeRow row) { ... }
}
``````
1. Load first row as `current`.
2. Load next row; compare `newRow.ParentNodeId` to `current.NodeId`.
3. Until you find a match, set `current = current.Parent`
4. Add the `newRow` to `current.Children` and set `current` to the new row.
5. Go to step 2.

That's it! If your data is guaranteed to be structured correctly, then you won't need to do any extra `null` checks.

Sample:

``````Node CreateTree(IEnumerable<NodeRow> rows) {
Node root = null;
Node current = null;
foreach (var row in rows) {
// Root:
if (root == null) {
root = current = new Node(row);
continue;
}
// Traverse up the tree until the parent is found:
while (row.ParentNodeId != current.NodeId) {
current = current.Parent;
}
// Add the new node as a child of the current one:
var rowNode = new Node(row);
rowNode.Parent = current;
Sorry, I forgot a line: `rowNode.Parent = current;`. For each new row, we traverse up the tree, looking for a matching `ParentNodeId`. Then, the new `rowNode.Parent` is set to `current`. –  Scott Rippey Oct 24 '11 at 4:18
... Since the data is "in-order", we know that the `ParentNodeId` must match one of `current`'s ancestors. That's what gives us `O(n)`! –  Scott Rippey Oct 24 '11 at 4:21