Share via


How to: Traverse a Binary Tree with Parallel Tasks

The following example shows two ways in which parallel tasks can be used to traverse a tree data structure. The creation of the tree itself is left as an exercise.

Example

Imports System.Threading.Tasks

Public Class TreeWalk

    Shared Sub Main()

        Dim tree As Tree(Of Person) = New Tree(Of Person)()

        ' ...populate tree (left as an exercise)

        ' Define the Action to perform on each node.
        Dim myAction As Action(Of Person) = New Action(Of Person)(Sub(x)
                                                Console.WriteLine("{0}  : {1} ", x.Name, x.Number)
                                            End Sub)

        ' Traverse the tree with parallel tasks.
        DoTree(tree, myAction)
    End Sub

    Public Class Person
         Public Name As String
        Public Number As Integer
    End Class

    Public Class Tree(Of T)
        Public Left As Tree(Of T)
        Public Right As Tree(Of T)
        Public Data As T
    End Class

    ' By using tasks explicitly.
    Public Shared Sub DoTree(Of T)(ByVal myTree As Tree(Of T), ByVal a As Action(Of T))
        If myTree Is Nothing Then
            Return
        End If
        Dim left = Task.Factory.StartNew(Sub() DoTree(myTree.Left, a))
        Dim right = Task.Factory.StartNew(Sub() DoTree(myTree.Right, a))
        a(myTree.Data)

        Try
            Task.WaitAll(left, right)
        Catch ae As AggregateException
            'handle exceptions here
        End Try
    End Sub

    ' By using Parallel.Invoke
    Public Shared Sub DoTree2(Of T)(ByVal myTree As Tree(Of T), ByVal myAct As Action(Of T))
        If myTree Is Nothing Then
            Return
        End If
        Parallel.Invoke(
            Sub() DoTree2(myTree.Left, myAct),
            Sub() DoTree2(myTree.Right, myAct),
            Sub() myAct(myTree.Data)
        )
    End Sub
End Class
    public class TreeWalk
    {
        static void Main()
        {
            Tree<MyClass> tree = new Tree<MyClass>();

            // ...populate tree (left as an exercise)

            // Define the Action to perform on each node.
            Action<MyClass> myAction = x => Console.WriteLine("{0} : {1}", x.Name, x.Number);

            // Traverse the tree with parallel tasks.
            DoTree(tree, myAction);
        }

        public class MyClass
        {
            public string Name { get; set; }
            public int Number { get; set; }
        }
        public class Tree<T>
        {
            public Tree<T> Left;
            public Tree<T> Right;
            public T Data;
        }



        // By using tasks explcitly.
        public static void DoTree<T>(Tree<T> tree, Action<T> action)
        {
            if (tree == null) return;
            var left = Task.Factory.StartNew(() => DoTree(tree.Left, action));
            var right = Task.Factory.StartNew(() => DoTree(tree.Right, action));
            action(tree.Data);

            try
            {
                Task.WaitAll(left, right);
            }
            catch (AggregateException )
            {
                //handle exceptions here
            }
        }

        // By using Parallel.Invoke
        public static void DoTree2<T>(Tree<T> tree, Action<T> action)
        {
            if (tree == null) return;
            Parallel.Invoke(
                () => DoTree2(tree.Left, action),
                () => DoTree2(tree.Right, action),
                () => action(tree.Data)
            );
        }

    }

The two methods shown are functionally equivalent. By using the StartNew() method to create and run the tasks, you get a handle back from the tasks which can be used to wait on the tasks and handle exceptions.

See Also

Concepts

Task Parallel Library