16

I have a TreeView control in my WinForms .NET application that has multiple levels of childnodes that have childnodes with more childnodes, with no defined depth. When a user selects any parent node (not necessarily at the root level), how can I get a list of all the nodes beneith that parent node?

For example, I started off with this:

Dim nodes As List(Of String)

For Each childNodeLevel1 As TreeNode In parentNode.Nodes
    For Each childNodeLevel2 As TreeNode In childNodeLevel1.Nodes
        For Each childNodeLevel3 As TreeNode In childNodeLevel2.Nodes
            nodes.Add(childNodeLevel3.Text)
        Next
    Next
Next

The problem is that this loop depth is defined and I'm only getting nodes burried down three levels. What if next time the user selects a parent node, there are seven levels?

10 Answers 10

20

Use recursion

Function GetChildren(parentNode as TreeNode) as List(Of String)
  Dim nodes as List(Of String) = New List(Of String)
  GetAllChildren(parentNode, nodes)
  return nodes
End Function

Sub GetAllChildren(parentNode as TreeNode, nodes as List(Of String))
  For Each childNode as TreeNode in parentNode.Nodes
    nodes.Add(childNode.Text)
    GetAllChildren(childNode, nodes)
  Next
End Sub
2
  • 2
    I'd suggest not calling this GetChildren as it doesn't just get children (i.e. nodes directly under the current one) it also gets grandchildren, great grandchildren, and so on. For clarity I find it better to have GetDescendants for all descendants and GetChildren for just the immediate level below.
    – Keith
    May 5, 2010 at 7:33
  • I changed it so instead of a list of strings I made it return the actual TreeNodes for easier access later. Thanks!
    – Josh P
    Mar 11, 2013 at 17:56
13

you need a recursive function to do this [or a loop equivalent, but the recursive version is simpler] - pseudocode:

function outputNodes(Node root)
    writeln(root.Text)
    foreach(Node n in root.ChildNodes)
        outputNodes(n)
    end
end
1
  • 1
    this code snippet learned me recursive function better than my teacher in college.
    – Shahin
    Mar 3, 2011 at 13:06
13

I have an extension method that I use for this:

public static IEnumerable<TreeNode> DescendantNodes( this TreeNode input ) {
    foreach ( TreeNode node in input.Nodes ) {
        yield return node;
        foreach ( var subnode in node.DescendantNodes() )
            yield return subnode;
        }
}

It's C#, but could be referenced from VB or converted to it.

13

Here is a snippet of code that I use to perform this task from my core library.
It allows you to list the nodes either depth first or breath first without the use of recursion, which has the overhead of constructing stackframes in the JIT engine. Its very fast.

To use it simply go:

List< TreeNode > nodes = TreeViewUtils.FlattenDepth(tree);

Sorry, you have a VB.Net tag; I can't give an example, but I'm sure you'll work it out.

public class TreeViewUtils
{
    /// <summary>
    /// This static utiltiy method flattens all the nodes in a tree view using
    /// a queue based breath first search rather than the overhead
    /// of recursive method calls.
    /// </summary>
    /// <param name="tree"></param>
    /// <returns></returns>
    public static List<TreeNode> FlattenBreath(TreeView tree) {
        List<TreeNode> nodes = new List<TreeNode>();

        Queue<TreeNode> queue = new Queue<TreeNode>();

        //
        // Bang all the top nodes into the queue.
        //
        foreach(TreeNode top in tree.Nodes) {
            queue.Enqueue(top);
        }

        while(queue.Count > 0) {
            TreeNode node = queue.Dequeue();
            if(node != null) {
                //
                // Add the node to the list of nodes.
                //
                nodes.Add(node);

                if(node.Nodes != null && node.Nodes.Count > 0) {
                    //
                    // Enqueue the child nodes.
                    //
                    foreach(TreeNode child in node.Nodes) {
                        queue.Enqueue(child);
                    }
                }
            }
        }
        return nodes;
    }

    /// <summary>
    /// This static utiltiy method flattens all the nodes in a tree view using
    /// a stack based depth first search rather than the overhead
    /// of recursive method calls.
    /// </summary>
    /// <param name="tree"></param>
    /// <returns></returns>
    public static List<TreeNode> FlattenDepth(TreeView tree) {
        List<TreeNode> nodes = new List<TreeNode>();

        Stack<TreeNode> stack = new Stack<TreeNode>();

        //
        // Bang all the top nodes into the queue.
        //
        foreach(TreeNode top in tree.Nodes) {
            stack.Push(top);
        }

        while(stack.Count > 0) {
            TreeNode node = stack.Pop();
            if(node != null) {

                //
                // Add the node to the list of nodes.
                //
                nodes.Add(node);

                if(node.Nodes != null && node.Nodes.Count > 0) {
                    //
                    // Enqueue the child nodes.
                    //
                    foreach(TreeNode child in node.Nodes) {
                        stack.Push(child);
                    }
                }
            }
        }
        return nodes;
    }
}
1
  • Finally a non-recursive approach. Thanks a lot. Apr 1, 2017 at 11:54
3
nodParent As TreeNode
'nodParent = your parent Node
tvwOpt.Nodes.Find(nodParent.Name, True)

Thats it

0
3

Adrian's method it's awesome. Works quite fast and worked better than the recursion approach. I've done a translation to VB. I've learned a lot from it. Hopefully someone still needs it.

To use it simply:

Dim FlattenedNodes As List(Of TreeNode) = clTreeUtil.FlattenDepth(Me.TreeView1) 

Here is the code, CHEERS! :

Public Class clTreeUtil
''' <summary>
''' This static utiltiy method flattens all the nodes in a tree view using
''' a queue based breath first search rather than the overhead
''' of recursive method calls.
''' </summary>
''' <param name="tree"></param>
''' <returns></returns>
Public Shared Function FlattenBreath(Tree As TreeView) As List(Of TreeNode)
    Dim nodes As List(Of TreeNode) = New List(Of TreeNode)
    Dim queue As Queue(Of TreeNode) = New Queue(Of TreeNode)

    ''
    '' Bang all the top nodes into the queue.
    ''
    For Each top As TreeNode In Tree.Nodes
        queue.Enqueue(top)
    Next

    While (queue.Count > 0)
        Dim node As TreeNode = queue.Dequeue()
        If node IsNot Nothing Then
            ''
            '' Add the node to the list of nodes.
            ''
            nodes.Add(node)

            If node.Nodes IsNot Nothing And node.Nodes.Count > 0 Then
                ''
                '' Enqueue the child nodes.
                ''
                For Each child As TreeNode In node.Nodes
                    queue.Enqueue(child)
                Next
            End If
        End If
    End While

    Return nodes
End Function

''' <summary>
''' This static utiltiy method flattens all the nodes in a tree view using
''' a stack based depth first search rather than the overhead
''' of recursive method calls.
''' </summary>
''' <param name="tree"></param>
''' <returns></returns>
Public Shared Function FlattenDepth(tree As TreeView) As List(Of TreeNode)
    Dim nodes As List(Of TreeNode) = New List(Of TreeNode)

    Dim stack As Stack(Of TreeNode) = New Stack(Of TreeNode)

    ''
    '' Bang all the top nodes into the queue.
    ''
    For Each top As TreeNode In tree.Nodes
        stack.Push(top)
    Next

    While (stack.Count > 0)
        Dim node As TreeNode = stack.Pop()

        If node IsNot Nothing Then

            ''
            '' Add the node to the list of nodes.
            ''
            nodes.Add(node)

            If node.Nodes IsNot Nothing And node.Nodes.Count > 0 Then
                ''
                '' Enqueue the child nodes.
                ''
                For Each child As TreeNode In node.Nodes
                    stack.Push(child)
                Next
            End If
        End If

    End While

    Return nodes
End Function

End Class
2

I have converted the code to VB.Net with this as a result:

Public Function FlattenBreadth(ByVal tree As TreeView) As List(Of TreeNode)
    Dim nodes As New List(Of TreeNode)
    Dim queue As New Queue(Of TreeNode)
    Dim top As TreeNode
    Dim nod As TreeNode
    For Each top In tree.Nodes
        queue.Enqueue(top)
    Next
    While (queue.Count > 0)
        top = queue.Dequeue
        nodes.Add(top)
        For Each nod In top.Nodes
            queue.Enqueue(nod)
        Next
    End While
    FlattenBreadth = nodes
End Function
1

If someone still wants to do the recursion approach, using Jop's code, and keeping the TreeNodes (so you can use their .tag, .name, .checked or .text properties) here is my version

Public Shared Function GetChildren(objTree As TreeView) As List(Of TreeNode)
    Dim nodes As List(Of TreeNode) = New List(Of TreeNode)
    For Each parentNode As TreeNode In objTree.Nodes
        nodes.Add(parentNode)
        GetAllChildren(parentNode, nodes)
    Next

    Return nodes
End Function

Public Shared Sub GetAllChildren(parentNode As TreeNode, nodes As List(Of TreeNode))
    For Each childNode As TreeNode In parentNode.Nodes
        nodes.Add(childNode)
        GetAllChildren(childNode, nodes)
    Next
End Sub
1

Usually get a value at the specified node is interesting to programmers.This can be obtained as follows.Assumes that you have a TextBox control named texbox1 and a TreeView control named treeview1.Following would return the value of text at nodes level 0.

textbox1.Text = treeview1.nodes(0).Text.ToString()
0

in .Net WindowsForm TreeView has Find() method with the optional flag 'searchAllChildren'.

in asp.net instead there isn't. to have the same result i use this (similar to Keith answer, but in input i use the TreeView)

public static IEnumerable<TreeNode> DescendantNodes2(this TreeView input)
{
    foreach (TreeNode node in input.Nodes)
    {
        yield return node;
        foreach (var subnode in node.DescendantNodes())
            yield return subnode;
    }
}
private static IEnumerable<TreeNode> DescendantNodes(this TreeNode input)
{
    foreach (TreeNode node in input.ChildNodes)
    {
        yield return node;
        foreach (var subnode in node.DescendantNodes())
            yield return subnode;
    }
}

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