I would like to wait some seconds between two instruction, but WITHOUT blocking the execution.

For example, Thread.Sleep(2000) it is not good, because it blocks execution.

The idea is that I call a method and then I wait X seconds (20 for example) listening for an event coming. At the end of the 20 seconds I should do some operation depending on what happened in the 20 seconds.

  • 2
    Can we see an example of what you mean? This is very broad.
    – gunr2171
    Mar 3, 2014 at 21:56
  • Additionally, is there a kind of application are you building? A Console, WPF, Winforms, ASP.NET app or something else?
    – jstromwick
    Mar 3, 2014 at 22:05
  • Do you always want to wait X seconds for the event or can you do some operation as soon as the event comes if it comes and do some other operation if the event doesn't come within X seconds, i.e. like a timeout?
    – alsed42
    Mar 4, 2014 at 0:38

11 Answers 11


I think what you are after is Task.Delay. This doesn't block the thread like Sleep does and it means you can do this using a single thread using the async programming model.

async Task PutTaskDelay()
    await Task.Delay(5000);

private async void btnTaskDelay_Click(object sender, EventArgs e)
    await PutTaskDelay();
    MessageBox.Show("I am back");
  • 1
    Thanks, it seems interesting. I only have a proble, The async and await are not recognized from C#. Do you know why? Mar 4, 2014 at 16:46
  • 7
    You don't even need PutTaskDelay() just call await Task.Delay(5000); directly
    – Black
    Aug 15, 2017 at 13:27
  • 2
    @Black It's not appropriate to make such changes to other people's answers. Commenting is fine, but if someone else prefers to extract the code out into a method, that's their decision to make.
    – Servy
    Aug 15, 2017 at 13:31
  • 6
    @Black It was your improved version. The point stands. If you come up with a way for a solution to be improved, either post a comment for the author to decide to make the change, or post your alternative as your own answer (citing a derived work as appropriate). Editing your new version into someone else's answer isn't appropriate.
    – Servy
    Aug 15, 2017 at 15:16
  • 2
    @Servy, ok I got you
    – Black
    Aug 15, 2017 at 16:23

I use:

private void WaitNSeconds(int segundos)
    if (segundos < 1) return;
    DateTime _desired = DateTime.Now.AddSeconds(segundos);
    while (DateTime.Now < _desired) {
  • 1
    I have an application that's stuck at .NET 3.5 (No async/await). This was perfect.
    – Michael
    Oct 13, 2016 at 18:08
  • This solution is effective if you cannot upgrade to .NET 4.5, but it will consume excessive CPU resources without a minor tweak. See my answer for a detailed explanation. Mar 3, 2017 at 20:23
  • 3
    Beware of the hidden evil within DoEvents. see blog.codinghorror.com/is-doevents-evil or blog.codinghorror.com/is-doevents-evil-revisited Jul 18, 2017 at 7:22
  • Watch out! If you use this wait in the load event handler of the form, then your form will only show after the wait time passed.
    – Black
    Aug 15, 2017 at 12:54
  • This will suck the CPU.
    – Gentleman
    Jul 5, 2018 at 10:34

This is a good case for using another thread:

// Call some method

Task.Factory.StartNew(() =>

    // Do things here.
    // NOTE: You may need to invoke this to your main thread depending on what you're doing

The above code expects .NET 4.0 or above, otherwise try:

ThreadPool.QueueUserWorkItem(new WaitCallback(delegate

    // Do things here
  • 4
    I'm just going to add a comment to my own older answer here to say that I prefer the async methods mentioned in other answers as they're both cleaner and better practice. If you haven't already read up on async, I highly recommend doing so.
    – Matt
    Dec 6, 2015 at 4:25

Omar's solution is decent* if you cannot upgrade your environment to .NET 4.5 in order to gain access to the async and await APIs. That said, there here is one important change that should be made in order to avoid poor performance. A slight delay should be added between calls to Application.DoEvents() in order to prevent excessive CPU usage. By adding


before the call to Application.DoEvents(), you can add such a delay (1 millisecond) and prevent the application from using all of the cpu cycles available to it.

private void WaitNSeconds(int seconds)
    if (seconds < 1) return;
    DateTime _desired = DateTime.Now.AddSeconds(seconds);
    while (DateTime.Now < _desired) {

*See https://blog.codinghorror.com/is-doevents-evil/ for a more detailed discussion on the potential pitfalls of using Application.DoEvents().

  • At the time that I posted this solution, I did not meet the minimum reputation needed to add it as a comment to Omar's solution. For now I am keeping this answer open since it involves formatted code. Mar 3, 2017 at 20:21
  • 2
    I use to program MVVM applications since Fw 3.5 to 4.5.1 and even with all new resources sometimes simple solutions to a problem are the best
    – Omar
    Mar 6, 2017 at 16:27

If you do not want to block things and also not want to use multi threading, here is the solution for you: https://msdn.microsoft.com/en-us/library/system.timers.timer(v=vs.110).aspx

The UI Thread is not blocked and the timer waits for 2 seconds before doing something.

Here is the code coming from the link above:

        // Create a timer with a two second interval.
    aTimer = new System.Timers.Timer(2000);
    // Hook up the Elapsed event for the timer. 
    aTimer.Elapsed += OnTimedEvent;
    aTimer.Enabled = true;

    Console.WriteLine("Press the Enter key to exit the program... ");
    Console.WriteLine("Terminating the application...");
  • Long time ago BUT I have an asp.net page that handle POSTs mainly backend stuff that needed a timer and this one did the job no blocking.
    – becker
    Aug 17, 2018 at 16:21

i really disadvise you against using Thread.Sleep(2000), because of a several reasons (a few are described here), but most of all because its not useful when it comes to debugging/testing.

I recommend to use a C# Timer instead of Thread.Sleep(). Timers let you perform methods frequently (if necessary) AND are much easiert to use in testing! There's a very nice example of how to use a timer right behind the hyperlink - just put your logic "what happens after 2 seconds" right into the Timer.Elapsed += new ElapsedEventHandler(OnTimedEvent); method.


hi this is my suggestion

var t = Task.Run(async () => await Task.Delay(TimeSpan.FromSeconds(Consts.FiveHundred)).ConfigureAwait(false));
                //just to wait task is done

keep in mind put the "wait" otherwise the Delay run without affect application


In my case I needed to do this because I had passed a method to the thread I was waiting for and that caused the lock becuase the metod was run on the GUI thread and the thread code called that method sometimes.

Task<string> myTask = Task.Run(() => {
    // Your code or method call
    return "Maybe you want to return other datatype, then just change it.";
// Some other code maybe...
while (true)
    if (myTask.IsCompleted) break;
  • Never ever ever call Application.DoEvents(). It is evil and insidious. Nov 1, 2020 at 8:51

If possible, the preferred approach should be using an asynchronous way or a second thread.

If this isn't possible or wanted, using any implementation of DoEvents() is a bad idea, since it may cause problems Possible problems with DoEvents. This is mostly about DoEvents with Winforms but the possible pitfalls in WPF are the same.

Then putting a frame on the Dispatcher with the wanted sleep time can be used:

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

public static void NonBlockingSleep(int timeInMilliseconds)
    DispatcherFrame df = new DispatcherFrame();

    new Thread((ThreadStart)(() =>
        df.Continue = false;



using System.Windows.Forms.Timer

new Timer
    Enabled = true,
    Interval = 5000
}.Tick += (s, e) =>
    ((Timer)s).Enabled = false;
    MessageBox.Show("Hello Timer!");
  • Can you please add an explanation and expand your example?
    – Sergey
    Feb 22 at 17:03

Look into System.Threading.Timer class. I think this is what you're looking for.

The code example on MSDN seems to show this class doing very similar to what you're trying to do (check status after certain time).

The mentioned code example from the MSDN link:

using System;
using System.Threading;

class TimerExample
    static void Main()
        // Create an AutoResetEvent to signal the timeout threshold in the
        // timer callback has been reached.
        var autoEvent = new AutoResetEvent(false);
        var statusChecker = new StatusChecker(10);

        // Create a timer that invokes CheckStatus after one second, 
        // and every 1/4 second thereafter.
        Console.WriteLine("{0:h:mm:ss.fff} Creating timer.\n", 
        var stateTimer = new Timer(statusChecker.CheckStatus, 
                                autoEvent, 1000, 250);

        // When autoEvent signals, change the period to every half second.
        stateTimer.Change(0, 500);
        Console.WriteLine("\nChanging period to .5 seconds.\n");

        // When autoEvent signals the second time, dispose of the timer.
        Console.WriteLine("\nDestroying timer.");

class StatusChecker
    private int invokeCount;
    private int  maxCount;

    public StatusChecker(int count)
        invokeCount  = 0;
        maxCount = count;

    // This method is called by the timer delegate.
    public void CheckStatus(Object stateInfo)
        AutoResetEvent autoEvent = (AutoResetEvent)stateInfo;
        Console.WriteLine("{0} Checking status {1,2}.", 

        if(invokeCount == maxCount)
            // Reset the counter and signal the waiting thread.
            invokeCount = 0;
// The example displays output like the following:
//       11:59:54.202 Creating timer.
//       11:59:55.217 Checking status  1.
//       11:59:55.466 Checking status  2.
//       11:59:55.716 Checking status  3.
//       11:59:55.968 Checking status  4.
//       11:59:56.218 Checking status  5.
//       11:59:56.470 Checking status  6.
//       11:59:56.722 Checking status  7.
//       11:59:56.972 Checking status  8.
//       11:59:57.223 Checking status  9.
//       11:59:57.473 Checking status 10.
//       Changing period to .5 seconds.
//       11:59:57.474 Checking status  1.
//       11:59:57.976 Checking status  2.
//       11:59:58.476 Checking status  3.
//       11:59:58.977 Checking status  4.
//       11:59:59.477 Checking status  5.
//       11:59:59.977 Checking status  6.
//       12:00:00.478 Checking status  7.
//       12:00:00.980 Checking status  8.
//       12:00:01.481 Checking status  9.
//       12:00:01.981 Checking status 10.
//       Destroying timer.
  • Can you provide a small sample? Mar 4, 2014 at 13:46
  • @JeroenVannevel There is an example in the link in my post. What does it lack for me to add to?
    – LB2
    Mar 4, 2014 at 14:29
  • 2
    @JeroenVannevel You should add an example so your answer still provides a value even when the link becomes invalid. Also, "look into foobar" provides only little value by itself.
    – sloth
    Mar 4, 2014 at 16:03
  • I would not flag this answer as "not an answer", but some users already did.
    – sloth
    Mar 4, 2014 at 16:04

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