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What is the simplest way to update a label from another thread?

My problem:

I have a winform(thread1)

From thread1 I'm starting another thread (thread2)

While thread2 is processing some files, I would like to update a label on the winform with status from thread2.

How can I do that?

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8  
Doesn't .net 2.0+ have the BackgroundWorker class just for this. It UI thread aware. 1. Create a BackgroundWorker 2. Add two delegates (one for processing, and one for completion) –  Preet Sangha Mar 19 '09 at 10:30
7  
maybe a little late : codeproject.com/KB/cs/Threadsafe_formupdating.aspx –  MichaelD Jan 19 '10 at 14:15
    
See the answer for .NET 4.5 and C# 5.0: stackoverflow.com/a/18033198/2042090 –  Ryszard Dżegan Aug 3 '13 at 13:21
    
This question does not apply to Gtk# GUI. For Gtk# see this and this answer. –  hlovdal Apr 1 at 21:52
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27 Answers

up vote 271 down vote accepted

For .NET 2.0, here's a nice bit of code I wrote that does exactly what you want, and works for any property on a Control:

private delegate void SetControlPropertyThreadSafeDelegate(Control control, string propertyName, object propertyValue);

public static void SetControlPropertyThreadSafe(Control control, string propertyName, object propertyValue)
{
  if (control.InvokeRequired)
  {
    control.Invoke(new SetControlPropertyThreadSafeDelegate(SetControlPropertyThreadSafe), new object[] { control, propertyName, propertyValue });
  }
  else
  {
    control.GetType().InvokeMember(propertyName, BindingFlags.SetProperty, null, control, new object[] { propertyValue });
  }
}

Call it like this:

// thread-safe equivalent of
// myLabel.Text = status;
SetControlPropertyThreadSafe(myLabel, "Text", status);

If you're using .NET 3.0 or above, you could rewrite the above method as an extension method of the Control class, which would then simplify the call to:

myLabel.SetPropertyThreadSafe("Text", status);

UPDATE 05/10/2010:

For .NET 3.0 you should use this code:

private delegate void SetPropertyThreadSafeDelegate<TResult>(Control @this, Expression<Func<TResult>> property, TResult value);

public static void SetPropertyThreadSafe<TResult>(this Control @this, Expression<Func<TResult>> property, TResult value)
{
  var propertyInfo = (property.Body as MemberExpression).Member as PropertyInfo;

  if (propertyInfo == null ||
      !@this.GetType().IsSubclassOf(propertyInfo.ReflectedType) ||
      @this.GetType().GetProperty(propertyInfo.Name, propertyInfo.PropertyType) == null)
  {
    throw new ArgumentException("The lambda expression 'property' must reference a valid property on this Control.");
  }

  if (@this.InvokeRequired)
  {
    @this.Invoke(new SetPropertyThreadSafeDelegate<TResult>(SetPropertyThreadSafe), new object[] { @this, property, value });
  }
  else
  {
    @this.GetType().InvokeMember(propertyInfo.Name, BindingFlags.SetProperty, null, @this, new object[] { value });
  }
}

which uses LINQ and lambda expressions to allow much cleaner, simpler and safer syntax:

myLabel.SetPropertyThreadSafe(() => myLabel.Text, status); // status has to be a string or this will fail to compile

Not only is the property name now checked at compile time, the property's type is as well, so it's impossible to (for example) assign a string value to a boolean property, and hence cause a runtime exception.

Unfortunately this doesn't stop anyone from doing stupid things such as passing in another Control's property and value, so the following will happily compile:

myLabel.SetPropertyThreadSafe(() => aForm.ShowIcon, false);

Hence I added the runtime checks to ensure that the passed-in property does actually belong to the Control that the method's being called on. Not perfect, but still a lot better than the .NET 2.0 version.

If anyone has any further suggestions on how to improve this code for compile-time safety, please comment!

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1  
There are cases when this.GetType() evaluates to the same as propertyInfo.ReflectedType (e.g. LinkLabel on WinForms). I don't have a large C# experience, but I think that the condition for exception should be: if (propertyInfo == null || (!@this.GetType().IsSubclassOf(propertyInfo.ReflectedType) && @this.GetType() != propertyInfo.ReflectedType) || @this.GetType().GetProperty(propertyInfo.Name, propertyInfo.PropertyType) == null) –  Corvin Jan 31 '11 at 13:03
4  
@lan can this SetControlPropertyThreadSafe(myLabel, "Text", status) be called from another module or class or form –  Smith Jun 23 '11 at 10:58
2  
Can this be used to read a control's property. BTW nice example. +1 –  One-One Mar 27 '12 at 9:33
2  
I would like some detail as to why you 'should' use the second example in .net 3.5. –  Gusdor Apr 26 '13 at 11:04
    
I've gone back to using this because ironically BGWorker freezes the UI thread Actually I am happy with the v2 version... thanks.... –  JL. Jul 14 '13 at 20:15
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The simplest way is an anonymous method:

///...blah blah updating files
string newText = "abc"; // running on worker thread
this.Invoke((MethodInvoker)delegate {
    someLabel.Text = newText; // runs on UI thread
});
///...blah blah more updating files
share|improve this answer
    
But, then your processing function must be a member method of your GUI form ? –  Frederik Gheysels Mar 19 '09 at 10:25
3  
Seeing as the OP hasn't mentioned any class/instance except the form, that isn't a bad default... –  Marc Gravell Mar 19 '09 at 10:30
7  
Don't forget the "this" keyword is referencing a "Control" class. –  AZ. Mar 16 '10 at 19:49
2  
Marc, you are consistently giving awesome answers. Thanks. –  Richard Clayton Apr 29 '11 at 1:38
3  
@Dragouf not really - one of the point of using this method is that you already know which parts run on the worker, and which run on the UI thread. No need to check. –  Marc Gravell Feb 16 '12 at 18:16
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Fire and forget extension method for .NET 3.5+

using System;
using System.Windows.Forms;

public static class ControlExtensions
{
    /// <summary>
    /// Executes the Action asynchronously on the UI thread, does not block execution on the calling thread.
    /// </summary>
    /// <param name="control"></param>
    /// <param name="code"></param>
    public static void UIThread(this Control @this, Action code)
    {
        if (@this.InvokeRequired)
        {
            @this.BeginInvoke(code);
        }
        else
        {
            code.Invoke();
        }
    }
}

This can be called using the following line of code:

this.UIThread(() => this.myLabel.Text = "Text Goes Here");
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What's the point of the @this usage? Wouldn't "control" be equivalent? Are there any benefits to @this? –  jeromeyers Sep 9 '13 at 0:03
5  
@jeromeyers - The @this is simply the variable name, in this case the reference to the current control calling the extension. You could rename it to source, or whatever floats your boat. I use @this, because it's referring to 'this Control' that is calling the extension and is consistent (in my head, at least) with using the 'this' keyword in normal (non-extension) code. –  StyxRiver Sep 12 '13 at 4:26
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Variation of Marc Gravell's simplest solution for .NET 4:

control.Invoke((MethodInvoker) (() => control.Text = "new text"));

Or use Action delegate instead:

control.Invoke(new Action(() => control.Text = "new text"));

See here for a comparison of the two: MethodInvoker vs Action for Control.BeginInvoke

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this is the classic way you should do this:

using System;
using System.Windows.Forms;
using System.Threading;

namespace Test
{
    public partial class UIThread : Form
    {
        Worker worker;

        Thread workerThread;

        public UIThread()
        {
            InitializeComponent();

            worker = new Worker();
            worker.ProgressChanged += new EventHandler<ProgressChangedArgs>(OnWorkerProgressChanged);
            workerThread = new Thread(new ThreadStart(worker.StartWork));
            workerThread.Start();
        }

        private void OnWorkerProgressChanged(object sender, ProgressChangedArgs e)
        {
            //cross thread - so you don't get the cross theading exception
            if (this.InvokeRequired)
            {
                this.BeginInvoke((MethodInvoker)delegate
                {
                    OnWorkerProgressChanged(sender, e);
                });
                return;
            } 

            //change control
            this.label1.Text = e.Progress;
        }
    }

    public class Worker
    {
        public event EventHandler<ProgressChangedArgs> ProgressChanged;

        protected void OnProgressChanged(ProgressChangedArgs e)
        {
            if(ProgressChanged!=null)
            {
                ProgressChanged(this,e);
            }
        }

        public void StartWork()
        {
            Thread.Sleep(100);
            OnProgressChanged(new ProgressChangedArgs("Progress Changed"));
            Thread.Sleep(100);
        }
    }


    public class ProgressChangedArgs : EventArgs 
    {
        public string Progress {get;private set;}
        public ProgressChangedArgs(string progress)
        {
            Progress = progress;
        }
    }
}

you worker thread has an event. your ui thread starts of another thread to do the work and hooks up that worker event so you can display the state of the worker thread.

then in ui you need to cross threads to change the actual control.. like a label or a progress bar.

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In the InvokeRequired block, do you want to return after the call to BeginInvoke? So you don't fall through and end up trying to set label1.Text on the wrong thread anyway? –  Eric May 5 '09 at 18:12
    
Ah yes, must of forgot to put it in. –  Hath May 6 '09 at 11:41
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Since .NET 4.5 and C# 5.0 you should use Task-based Asynchronous Pattern (TAP) along with async-await keywords in all areas (including the GUI):

TAP is the recommended asynchronous design pattern for new development

instead of Asynchronous Programming Model (APM) and Event-based Asynchronous Pattern (EAP) (the latter includes the BackgroundWorker Class).

Then, the recommended solution for new development is:

  1. Asynchronous implementation of an event handler (Yes, that's all):

    private async void Button_Clicked(object sender, EventArgs e)
    {
        var progress = new Progress<string>(s => label.Text = s);
        await Task.Factory.StartNew(() => SecondThreadConcern.LongWork(progress),
                                    TaskCreationOptions.LongRunning);
        label.Text = "completed";
    }
    
  2. Implementation of the second thread that notifies the UI thread:

    class SecondThreadConcern
    {
        public static void LongWork(IProgress<string> progress)
        {
            // Perform a long running work...
            for (var i = 0; i < 10; i++)
            {
                Task.Delay(500).Wait();
                progress.Report(i.ToString());
            }
        }
    }
    

Notice the following:

  1. Short and clean code written in sequential manner without callbacks and explicit threads.
  2. Task instead of Thread.
  3. async keyword, that allows to use await which in turn prevent the event handler from reaching the completion state till the task finished and in the meantime doesn't block the UI thread.
  4. Progress class (see IProgress Interface) that supports Separation of Concerns (SoC) design principle and doesn't require explicit dispatcher and invoking. It uses the current SynchronizationContext from its creation place (here the UI thread).
  5. TaskCreationOptions.LongRunning that hints to do not queue the task into ThreadPool.

For a more verbose examples see: The Future of C#: Good things come to those who 'await' by Joseph Albahari.

See also about UI Threading Model concept.

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Threading code is often buggy and always hard to test. You don't need to write threading code to update the user interface from a background task. Just use the BackgroundWorker class to run the task and its ReportProgress method to update the user interface. Usually, you just report a percentage complete, but there's another overload that includes a state object. Here's an example that just reports a string object:

    private void button1_Click(object sender, EventArgs e)
    {
        backgroundWorker1.WorkerReportsProgress = true;
        backgroundWorker1.RunWorkerAsync();
    }

    private void backgroundWorker1_DoWork(object sender, DoWorkEventArgs e)
    {
        Thread.Sleep(5000);
        backgroundWorker1.ReportProgress(0, "A");
        Thread.Sleep(5000);
        backgroundWorker1.ReportProgress(0, "B");
        Thread.Sleep(5000);
        backgroundWorker1.ReportProgress(0, "C");
    }

    private void backgroundWorker1_ProgressChanged(
        object sender, 
        ProgressChangedEventArgs e)
    {
        label1.Text = e.UserState.ToString();
    }

That's fine if you always want to update the same field. If you've got more complicated updates to make, you could define a class to represent the UI state and pass it to the ReportProgress method.

One final thing, be sure to set the WorkerReportsProgress flag, or the ReportProgress method will be completely ignored.

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The simple solution is to use Control.Invoke.

void DoSomething()
{
    if (InvokeRequired) {
        Invoke(new MethodInvoker(DoSomething));
    } else {
        // Do Something
    }
}
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You'll have to make sure that the update happens on the correct thread; the UI thread. In order to do this, you'll have to Invoke the event-handler instead of calling it directly.

You can do this by raising your event like this:

(The code is typed here out of my head, so I haven't checked for correct syntax etc..., but it should get you going)

if( MyEvent != null )
{
   Delegate[] eventHandlers = MyEvent.GetInvocationList();

   foreach( Delegate d in eventHandlers )
   {
      // Check whether the target of the delegate implements 
      // ISynchronizeInvoke (Winforms controls do), and see
      // if a context-switch is required.
      ISynchronizeInvoke target = d.Target as ISynchronizeInvoke;

      if( target != null && target.InvokeRequired )
      {
         target.Invoke (d, ... );
      }
      else
      {
          d.DynamicInvoke ( ... );
      }
   }
}

Note that the code above will not work on WPF projects, since WPF controls do not implement the ISynchronizeInvoke interface.
In order to make sure that the code above works with WinForms & WPF, and all other platforms, you can have a look at the AsyncOperation, AsyncOperationManager and SynchronizationContext classes.

In order to easily raise events this way, I've created an extension method, which allows me to simplify raising an event by just calling :

MyEvent.Raise ( this, EventArgs.Empty);

Offcourse, you can also make use of the BackGroundWorker class, which will abstract this matter for you. :)

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Indeed, but I don't like to 'clutter' my GUI code with this matter. My GUI shouldn't care whether it needs to Invoke or not. In other words: i don't think that it is the responsability of the GUI to perform the context-swithc. –  Frederik Gheysels Mar 19 '09 at 9:51
    
Breaking the delegate apart etc seems overkill - why not just: SynchronizationContext.Current.Send(delegate { MyEvent(...); }, null); –  Marc Gravell Mar 19 '09 at 11:07
    
Do you always have access to the SynchronizationContext ? Even if your class is in a class lib ? –  Frederik Gheysels Mar 19 '09 at 11:42
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You'll need to Invoke the method on the GUI thread. You can do that by calling Control.Invoke.

For example:

delegate void UpdateLabelDelegate (string message);

void UpdateLabel (string message)
{
    if (InvokeRequired)
    {
         Invoke (new UpdateLabelDelegate (UpdateLabel), message);
         return;
    }

    MyLabelControl.Text = message;
}
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The invoke line gives me a compiler error. The best overloaded method match for 'System.Windows.Forms.Control.Invoke(System.Delegate, object[])' has some invalid arguments –  CruelIO Mar 19 '09 at 11:12
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Because of the triviality of the scenario I would actually have the UI thread poll for the status. I think you will find that it can be quite elegant.

public class MyForm : Form
{
  private volatile string m_Text = "";
  private System.Timers.Timer m_Timer;

  private MyForm()
  {
    m_Timer = new System.Timers.Timer();
    m_Timer.SynchronizingObject = this;
    m_Timer.Interval = 1000;
    m_Timer.Elapsed += (s, a) => { MyProgressLabel.Text = m_Text; };
    m_Timer.Start();
    var thread = new Thread(WorkerThread);
    thread.Start();
  }

  private void WorkerThread()
  {
    while (...)
    {
      // Periodically publish progress information.
      m_Text = "Still working...";
    }
  }
}

The approach avoids the marshaling operation required when using the ISynchronizeInvoke.Invoke and ISynchronizeInvoke.BeginInvoke methods. There is nothing wrong with using the marshaling technique, but there are a couple of caveats you need to be aware of.

  • Make sure you do not call BeginInvoke too frequently or it could overrun the message pump.
  • Calling Invoke on the worker thread is a blocking call. It will temporarily halt the work being done in that thread.

The stategy I propose in this answer reverses the communication roles of the threads. Instead of the worker thread pushing the data the UI thread polls for it. This a common pattern used in many scenarios. Since all you are wanting to do is display progress information from the worker thread then I think you will find that this solution is a great alternative to the marshaling solution. It has the following advantages.

  • The UI and worker threads remain loosly coupled as opposed to the Control.Invoke or Control.BeginInvoke approach which tightly couples them.
  • The UI thread will not impede the progress of the worker thread.
  • The worker thread cannot dominate the time the UI thread spends updating.
  • The intervals at which the UI and worker threads perform operations can remain independent.
  • The worker thread cannot overrun the UI thread's message pump.
  • The UI thread gets to dictate when and how often the UI gets updated.
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Good idea. The only thing you didn't mention is how you properly dispose the timer once the WorkerThread is finished. Note this can cause trouble when the application ends (i.e. the user closes the application). Do you have an idea how to solve this? –  Matt Nov 11 '13 at 10:24
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For many purposes it's as simple as this:

public delegate void serviceGUIDelegate();
private void updateGUI()
{
  this.Invoke(new serviceGUIDelegate(serviceGUI));
}

"serviceGUI()" is a GUI level method within the form (this) that can change as many controls as you want. Call "updateGUI()" from the other thread. Parameters can be added to pass values, or (probably faster) use class scope variables with locks on them as required if there is any possibility of a clash between threads accessing them that could cause instability. Use BeginInvoke instead of Invoke if the non-GUI thread is time critical (keeping Brian Gideon's warning in mind).

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Salvete! Having searchd for this thread, I found the answers by FrankG and Oregon Ghost to be the easiest most useful to me (I upped them a point each). Now, I code in VB, and ran this snippet through a convertor; so I'm not sure quite how it turns out. I don't have enough rep to make comments yet, so I thought I'd post my own successful result.

I have a dialog form called form_Diagnostics, which has a richtext box, called updateDiagWindow, which I am using as a sort of logging display. I needed to be able to update its text from all threads. The extra lines allow the window to automatically scroll to the newest lines.

And so, I can now update the display with one line, from anywhere in the entire program in the manner which you think it would work without any threading:

  form_Diagnostics.updateDiagWindow(whatmessage);

Main Code (put this inside of your form's class code):

#region "---------Update Diag Window Text------------------------------------"
//This sub allows the diag window to be updated by all threads
public void updateDiagWindow(string whatmessage)
{
    var _with1 = diagwindow;
    if (_with1.InvokeRequired) {
        _with1.Invoke(new UpdateDiagDelegate(UpdateDiag), whatmessage);
    } else {
        UpdateDiag(whatmessage);
    }
}
//This next line makes the private UpdateDiagWindow available to all threads
private delegate void UpdateDiagDelegate(string whatmessage);
private void UpdateDiag(string whatmessage)
{
    var _with2 = diagwindow;
    _with2.appendtext(whatmessage);
    _with2.SelectionStart = _with2.Text.Length;
    _with2.ScrollToCaret();
}
#endregion
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This one is similar to the solution above using .Net Framework 3.0 but solved the issue of compile-time safety support.

public  static class ControlExtension
{
    delegate void SetPropertyValueHandler<TResult>(Control souce, Expression<Func<Control, TResult>> selector, TResult value);

    public static void SetPropertyValue<TResult>(this Control source, Expression<Func<Control, TResult>> selector, TResult value) 
    {
        if (source.InvokeRequired)
        {
            var del = new SetPropertyValueHandler<TResult>(SetPropertyValue);
            source.Invoke(del, new object[]{ source, selector, value});
        }
        else
        {
            var propInfo = ((MemberExpression)selector.Body).Member as PropertyInfo;
            propInfo.SetValue(source, value, null);
        }
    }
}

To use:

this.lblTimeDisplay.SetPropertyValue(a => a.Text, "some string");
this.lblTimeDisplay.SetPropertyValue(a => a.Visible, false);

Compiler will fail if user pass wrong data type.

this.lblTimeDisplay.SetPropertyValue(a => a.Visible, "sometext"); 
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This in my C# 3.0 variation of Ian Kemp's solution:

public static void SetPropertyInGuiThread<C,V>(this C control, Expression<Func<C, V>> property, V value) where C : Control
{
    var memberExpression = property.Body as MemberExpression;
    if (memberExpression == null)
        throw new ArgumentException("The 'property' expression must specify a property on the control.");

    var propertyInfo = memberExpression.Member as PropertyInfo;
    if (propertyInfo == null)
        throw new ArgumentException("The 'property' expression must specify a property on the control.");

    if (control.InvokeRequired)
        control.Invoke(
            (Action<C, Expression<Func<C, V>>, V>)SetPropertyInGuiThread,
            new object[] { control, property, value }
        );
    else
        propertyInfo.SetValue(control, value, null);
}

You call it like this:

myButton.SetPropertyInGuiThread(b => b.Text, "Click Me!")
  1. It adds null-checking to the result of the "as MemberExpression".
  2. It improves the static type-safety.

Otherwise, the original is a very nice solution.

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        Label lblText; //initialized elsewhere

    void AssignLabel(string text)
    {
       if (InvokeRequired)
       {
          BeginInvoke((Action<string>)AssignLabel, text);
          return;
       }

       lblText.Text = text;           
    }

Note that BeginInvoke() is preferred over Invoke() because it's less likely to cause deadlocks (however, this is not an issue here when just assigning text to a label):

When using Invoke() you are waiting for the method to return. Now, it may be that you do something in the invoked code that will need to wait for the thread, which may not be immediately obvious if it's buried in some functions that you are calling, which itself may happen indirectly via event handlers. So you would be waiting for the thread, the thread would be waiting for you and you are deadlocked.

This actually caused some of our released software to hang. It was easy enough to fix by replacing Invoke() with BeginInvoke(). Unless you have a need for synchronous operation, which may be the case if you need a return value, use BeginInvoke().

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^ None of the Invoke stuff is necessary.

You guys need to need to look as WindowsFormsSynchronizationContext.

// in the main thread
WindowsFormsSynchronizationContext mUiContext = new WindowsFormsSynchronizationContext();

...

//in some non UI Thread

//cause an update in the GUI thread.
mUiContext.Post(UpdateGUI, userData);

...

void UpdateGUI(object userData)
{
  //update your gui controls here
}
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When i encountered the same issue i seek help from google but rather than giving me a simple solution it confused me more by giving examples of methodinvoker and blah ! blah ! so I decided to solve it by my own. Here is my solution

Make a delegate like this

Public delegate void LabelDelegate(string s);

void Updatelabel(strin text)
{
   if(label.InvokeRequired)
      {

       LabelDelegate LDEL=new LabelDelegate(Updatelabel);
       label.Invoke(LDEL,text);

      }
    else
       label.Text=text
}

you can call this function in a new thread like this

Thread th=new Thread(()=>Updatelabel("Hello World"));
th.start();

dont be confused with Thread(()=> .....) i use anonymous functions/lambda expression when i work on thread to reduce the line of code you can use ThreadStatrt(..) method too which i am not suppose to explain it here.

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You may use already existing delegate Action

 private void UpdateMethod()
        {
            if (InvokeRequired)
            {
                Invoke(new Action(UpdateMethod));
            }
        }
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My version is to insert 1 line of recursive "mantra":
for no arguments:

    void Aaaaaaa()
    {
        if (InvokeRequired) { Invoke(new Action(Aaaaaaa)); return; } //1 line of mantra

        // Your code!
    }

for function that has arguments:

    void Bbb(int x, string text)
    {
        if (InvokeRequired) { Invoke(new Action<int, string>(Bbb), new[] { x, text }); return; }
        // Your code!
    }

THAT is IT.


Some argumentation, usually it is bad for code readability to put {} after if() statement in one line. But in this case it is routine all-the-same "mantra". It doesn't break code readability if this method is consistant over the project. And it saves your code from littering (1 line of code instead of 5)

As you see if(InvokeRequired) {something long} you just know "this function is safe to call from another thread".

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You must use invoke and delegate

private delegate void MyLabelDelegate();
label1.Invoke( new MyLabelDelegate(){ label1.Text += 1; });
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Try to refresh the label using this

public static class ExtensionMethods
{
    private static Action EmptyDelegate = delegate() { };

    public static void Refresh(this UIElement uiElement)
    {
        uiElement.Dispatcher.Invoke(DispatcherPriority.Render, EmptyDelegate);
    }
}
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I wanted to add a warning because I noticed that some of the simple solutions omit the InvokeRequired check.

I noticed that if your code executes before the window handle of the control has been created (e.g. before the form is shown), Invoke throws an exception. So I recommend always checking on InvokeRequired before calling Invoke or BeginInvoke.

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The easiest way I think:

   void Update()
   {
       BeginInvoke((Action)delegate()
       {
           //do your update
       });
   }
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Create Class Variable

SynchronizationContext _context;

Set in the constructor that creates your UI

var _context = SynchronizationContext.Current;

When you want to update label

_context.Send(status =>{
    //UPDATE LABEL
},null);
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For example, access control other than current thread

           Speed_Threshold = 30;
           textOutput.Invoke(new EventHandler(delegate
           {
               lblThreshold.Text = Speed_Threshold.ToString();
           }));

there the lblThreshold is a Label, Speed_Threshold is a Global variable.

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I prefer this one:

private void UpdateNowProcessing(string nowProcessing)
        {
            if (this.InvokeRequired)
            {
                Action<string> d = UpdateNowProcessing;
                Invoke(d, nowProcessing);
            }
            else
            {
                this.progressDialog.Next(nowProcessing);
            }            
        }
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