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I have a C# program that needs to dispatch a thread every X minutes, but only if the previously dispatched thread (from X minutes) ago is not currently still running.

A plain old Timer alone will not work (because it dispatches an event every X minutes regardless or whether or not the previously dispatched process has finished yet).

The process that's going to get dispatched varies wildly in the time it takes to perform it's task - sometimes it might take a second, sometimes it might take several hours. I don't want to start the process again if it's still processing from the last time it was started.

Can anyone provide some working C# sample code?

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1  
Which timer class? System.Timers.Timer, Windows.Forms.Timer, System.Threading.Timer? –  Peter Ritchie Sep 24 '12 at 18:05
2  
Matt Johnson's answer is what you want, I don't understand what you don't like about his solution...simple and to the point. –  Mike Marynowski Jan 26 '13 at 22:36
    
Someone else did something similiar using the TPL, heres the link: stackoverflow.com/questions/4890915/… –  Keith Jan 28 '13 at 21:44
2  
@KeithPalmer If the timer is set to fire each 5 minutes. It fires a first time at t=0, the process associated to the event takes 7 min. So, it ends at t=7 min. When do you want the timer to fire the next time? At t=7 min, at t=10 min or at t=7+5=12 min? –  Cédric Bignon Jan 30 '13 at 1:11
    
@KeithPalmer Could you answer to my question above please. It will help us to give you a correct solution. –  Cédric Bignon Jan 30 '13 at 17:13

15 Answers 15

You can just maintain a volatile bool to achieve what you asked:

private volatile bool _executing;

private void TimerElapsed(object state)
{
    if (_executing)
        return;

    _executing = true;

    try
    {
        // do the real work here
    }
    catch (Exception e)
    {
        // handle your error
    }
    finally
    {
        _executing = false;
    }
}
share|improve this answer
1  
This is the answer based on the wording of OP's question. –  Mike Marynowski Jan 26 '13 at 22:37
    
It is best to use lock or interlock. See this: stackoverflow.com/questions/154551/… –  Umer Azaz Jan 31 '13 at 6:03
2  
This is a reasonably safe use of volatile to prevent concurrency. It would be better practise to use lock or Interlock, but the long interval (minutes) makes it safe enough. –  Tragedian Jan 31 '13 at 10:12

In my opinion the way to go in this situation is to use System.ComponentModel.BackgroundWorker class and then simply check its IsBusy property each time you want to dispatch (or not) the new thread. The code is pretty simple; here's an example:

class MyClass
{    
    private BackgroundWorker worker;

    public MyClass()
    {
        worker = new BackgroundWorker();
        worker.DoWork += worker_DoWork;
        Timer timer = new Timer(1000);
        timer.Elapsed += timer_Elapsed;
        timer.Start();
    }

    void timer_Elapsed(object sender, ElapsedEventArgs e)
    {
        if(!worker.IsBusy)
            worker.RunWorkerAsync();
    }

    void worker_DoWork(object sender, DoWorkEventArgs e)
    {
        //whatever You want the background thread to do...
    }
}

In this example I used System.Timers.Timer, but I believe it should also work with other timers. The BackgroundWorker class also supports progress reporting and cancellation, and uses event-driven model of communication with the dispatching thread, so you don't have to worry about volatile variables and the like...

share|improve this answer

You can disable and enable your timer in its elapsed callback.

public void TimerElapsed(object sender, EventArgs e)
{
  _timer.Stop();

  //Do Work

  _timer.Start();
}
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4  
Important to note that the timer will now fire every (X minutes) + (however long this method takes to execute), instead of firing every X minutes and skipping the times when the event is still executing. –  SomeWritesReserved Sep 24 '12 at 18:13
    
So just to be clear - this doesn't actually do what I want, correct? Instead of running it every X minutes unless it's already running, it actually runs it, waits X minutes, then runs it again. Correct? –  Keith Palmer - consolibyte Sep 24 '12 at 20:20

If you want the timer's callback to fire on a background thread, you could use a System.Threading.Timer. This Timer class allows you to "Specify Timeout.Infinite to disable periodic signaling." as part of the constructor, which causes the timer to fire only a single time.

You can then construct a new timer when your first timer's callback fires and completes, preventing multiple timers from being scheduled until you are ready for them to occur.

The advantage here is you don't create timers, then cancel them repeatedly, as you're never scheduling more than your "next event" at a time.

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If I understand you correctly, you actually just want to ensure your thread is not running before you dispatch another thread. Let's say you have a thread defined in your class like so.

private System.Threading.Thread myThread;

You can do:

//inside some executed method
System.Threading.Timer t = new System.Threading.Timer(timerCallBackMethod, null, 0, 5000);

then add the callBack like so

private void timerCallBackMethod(object state)
{
     if(myThread.ThreadState == System.Threading.ThreadState.Stopped) return;
     //dispatch new thread
}
share|improve this answer
    
Chubuez , I guess you are close to correct answer. But in you r example , you are checking if the thread has stopped and then exit it insted of starting a new thread –  Mridul Raj Jan 25 '13 at 9:54
    
No, I'm refusing to start a new thread if the other one is still running :) –  Chibueze Opata Jan 25 '13 at 10:08
    
myThread.ThreadState == System.Threading.ThreadState.Stopped holds true if mythread is stopped which is a contradiction to your comment –  Mridul Raj Jan 25 '13 at 10:26
    
You missed the return statement. It means that if the statement holds true, further execution should be stopped. –  Chibueze Opata Jan 29 '13 at 13:32

There are at least 20 different ways to accomplish this, from using a timer and a semaphore, to volatile variables, to using the TPL, to using an opensource scheduling tool like Quartz etc al.

Creating a thread is an expensive exercise, so why not just create ONE and leave it running in the background, since it will spend the majority of its time IDLE, it causes no real drain on the system. Wake up periodically and do work, then go back to sleep for the time period. No matter how long the task takes, you will always wait at least the "waitForWork" timespan after completing before starting a new one.

    //wait 5 seconds for testing purposes
    static TimeSpan waitForWork = new TimeSpan(0, 0, 0, 5, 0);
    static ManualResetEventSlim shutdownEvent = new ManualResetEventSlim(false);
    static void Main(string[] args)
    {
        System.Threading.Thread thread = new Thread(DoWork);
        thread.Name = "My Worker Thread, Dude";
        thread.Start();

        Console.ReadLine();
        shutdownEvent.Set();
        thread.Join();
    }

    public static void DoWork()
    {
        do
        {
            //wait for work timeout or shudown event notification
            shutdownEvent.Wait(waitForWork);

            //if shutting down, exit the thread
            if(shutdownEvent.IsSet)
                return;

            //TODO: Do Work here


        } while (true);

    }
share|improve this answer

You can just use the System.Threading.Timer and just set the Timeout to Infinite before you process your data/method, then when it completes restart the Timer ready for the next call.

    private System.Threading.Timer _timerThread;
    private int _period = 2000;

    public MainWindow()
    {
        InitializeComponent();

        _timerThread = new System.Threading.Timer((o) =>
         {
             // Stop the timer;
             _timerThread.Change(-1, -1);

             // Process your data
             ProcessData();

             // start timer again (BeginTime, Interval)
             _timerThread.Change(_period, _period);
         }, null, 0, _period);
    }

    private void ProcessData()
    {
        // do stuff;
    }
share|improve this answer

Why not use a timer with Monitor.TryEnter()? If OnTimerElapsed() is called again before the previous thread finishes, it will just be discarded and another attempt won't happen again until the timer fires again.

private static readonly object _locker = new object();

    private void OnTimerElapsed(object sender, ElapsedEventArgs e)
    {
        if (!Monitor.TryEnter(_locker)) { return; }  // Don't let  multiple threads in here at the same time.

        try
        {
            // do stuff
        }
        finally
        {
            Monitor.Exit(_locker);
        }
    }
share|improve this answer

Using the PeriodicTaskFactory from my post here

CancellationTokenSource cancellationTokenSource = new CancellationTokenSource();

Task task = PeriodicTaskFactory.Start(() =>
{
    Console.WriteLine(DateTime.Now);
    Thread.Sleep(5000);
}, intervalInMilliseconds: 1000, synchronous: true, cancelToken: cancellationTokenSource.Token);

Console.WriteLine("Press any key to stop iterations...");
Console.ReadKey(true);

cancellationTokenSource.Cancel();

Console.WriteLine("Waiting for the task to complete...");

Task.WaitAny(task);

The output below shows that even though the interval is set 1000 milliseconds, each iteration doesn't start until the work of the task action is complete. This is accomplished using the synchronous: true optional parameter.

Press any key to stop iterations...
9/6/2013 1:01:52 PM
9/6/2013 1:01:58 PM
9/6/2013 1:02:04 PM
9/6/2013 1:02:10 PM
9/6/2013 1:02:16 PM
Waiting for the task to complete...
Press any key to continue . . .

UPDATE

If you want the "skipped event" behavior with the PeriodicTaskFactory simply don't use the synchronous option and implement the Monitor.TryEnter like what Bob did here http://stackoverflow.com/a/18665948/222434

Task task = PeriodicTaskFactory.Start(() =>
{
    if (!Monitor.TryEnter(_locker)) { return; }  // Don't let  multiple threads in here at the same time.

    try
    {
        Console.WriteLine(DateTime.Now);
        Thread.Sleep(5000);
    }
    finally
    {
        Monitor.Exit(_locker);
    }

}, intervalInMilliseconds: 1000, synchronous: false, cancelToken: cancellationTokenSource.Token);

The nice thing about the PeriodicTaskFactory is that a Task is returned that can be used with all the TPL API, e.g. Task.Wait, continuations, etc.

share|improve this answer
    
The goal isn't to start the countdown for the next task when the previous finished. The goal is to do something every X interval of time, but skipping any iterations fired while another is still running. Your timings should be every five to six seconds, not every six to seven, for it to meet the OP's requirements –  Servy Sep 6 '13 at 17:11
1  
I disagree. I read the OP comments and my solution would work for what he wants. His requirements: "I don't really care, as long as it doesn't run while the previous event is still running, and as long as they can't "stack" on top of each other (e.g. if the first session takes 15 minutes, it shouldn't then immediately run both of the missed sessions immediately after finishing the first)." –  Jim Sep 6 '13 at 18:11
    
This comment to an answer with similar properties to yours makes it pretty clear it's not what's being asked for. Using a lock would also be wrong; it shouldn't "catch up" can run any skipped iterations; the top answer is a valid answer. It just ensures any iterations run while another is running do nothing. –  Servy Sep 6 '13 at 18:18
    
Well his requirements from what I posted above actually come after the comment you are referencing so the comment you are referencing is an older requirement. As of Jan 30 he didn't care so long as the next iteration wouldn't run while the previous was running and they didn't "stack". This superseded the comment you referenced from Sept of last year. So unless the OP says so, my solution is an alternative that would work for him. –  Jim Sep 6 '13 at 18:30
1  
I have to agree with Jim. While this approach is a different way of solving the problem, it still solves the problem. Something runs every X milliseconds and it won't run until the previous task is done. Perhaps the OP won't prefer this approach, but it's worth seeing as a possibly good alternative to accomplish the problem. –  Bob Horn Sep 6 '13 at 20:34

You can stop timer before the task and start it again after task completion this can make your take perform periodiacally on even interval of time.

public void myTimer_Elapsed(object sender, EventArgs e)
{
    myTimer.Stop();
    // Do something you want here.
    myTimer.Start();
}
share|improve this answer

This should do what you want. It executes a thread, then joins the thread until it has finished. Goes into a timer loop to make sure it is not executing a thread prematurely, then goes off again and executes.

using System.Threading;

public class MyThread
{
    public void ThreadFunc()
    {
        // do nothing apart from sleep a bit
        System.Console.WriteLine("In Timer Function!");
        Thread.Sleep(new TimeSpan(0, 0, 5));
    }
};

class Program
{
    static void Main(string[] args)
    {
        bool bExit = false;
        DateTime tmeLastExecuted;

        // while we don't have a condition to exit the thread loop
        while (!bExit)
        {
            // create a new instance of our thread class and ThreadStart paramter
            MyThread myThreadClass = new MyThread();
            Thread newThread = new Thread(new ThreadStart(myThreadClass.ThreadFunc));

            // just as well join the thread until it exits
            tmeLastExecuted = DateTime.Now; // update timing flag
            newThread.Start();
            newThread.Join();

            // when we are in the timing threshold to execute a new thread, we can exit
            // this loop
            System.Console.WriteLine("Sleeping for a bit!");

            // only allowed to execute a thread every 10 seconds minimum
            while (DateTime.Now - tmeLastExecuted < new TimeSpan(0, 0, 10));
            {
                Thread.Sleep(100); // sleep to make sure program has no tight loops
            }

            System.Console.WriteLine("Ok, going in for another thread creation!");
        }
    }
}

Should produce something like:

In Timer Function! Sleeping for a bit! Ok, going in for another thread creation! In Timer Function! Sleeping for a bit! Ok, going in for another thread creation! In Timer Function! ... ...

Hope this helps! SR

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The guts of this is the ExecuteTaskCallback method. This bit is charged with doing some work, but only if it is not already doing so. For this I have used a ManualResetEvent (canExecute) that is initially set to be signalled in the StartTaskCallbacks method.

Note the way I use canExecute.WaitOne(0). The zero means that WaitOne will return immediately with the state of the WaitHandle (MSDN). If the zero is omitted, you would end up with every call to ExecuteTaskCallback eventually running the task, which could be fairly disastrous.

The other important thing is to be able to end processing cleanly. I have chosen to prevent the Timer from executing any further methods in StopTaskCallbacks because it seems preferable to do so while other work may be ongoing. This ensures that both no new work will be undertaken, and that the subsequent call to canExecute.WaitOne(); will indeed cover the last task if there is one.

private static void ExecuteTaskCallback(object state)
{
    ManualResetEvent canExecute = (ManualResetEvent)state;

    if (canExecute.WaitOne(0))
    {
        canExecute.Reset();
        Console.WriteLine("Doing some work...");
        //Simulate doing work.
        Thread.Sleep(3000);
        Console.WriteLine("...work completed");
        canExecute.Set();
    }
    else
    {
        Console.WriteLine("Returning as method is already running");
    }
}

private static void StartTaskCallbacks()
{
    ManualResetEvent canExecute = new ManualResetEvent(true),
        stopRunning = new ManualResetEvent(false);
    int interval = 1000;

    //Periodic invocations. Begins immediately.
    Timer timer = new Timer(ExecuteTaskCallback, canExecute, 0, interval);

    //Simulate being stopped.
    Timer stopTimer = new Timer(StopTaskCallbacks, new object[]
    {
        canExecute, stopRunning, timer
    }, 10000, Timeout.Infinite);

    stopRunning.WaitOne();

    //Clean up.
    timer.Dispose();
    stopTimer.Dispose();
}

private static void StopTaskCallbacks(object state)
{
    object[] stateArray = (object[])state;
    ManualResetEvent canExecute = (ManualResetEvent)stateArray[0];
    ManualResetEvent stopRunning = (ManualResetEvent)stateArray[1];
    Timer timer = (Timer)stateArray[2];

    //Stop the periodic invocations.
    timer.Change(Timeout.Infinite, Timeout.Infinite);

    Console.WriteLine("Waiting for existing work to complete");
    canExecute.WaitOne();
    stopRunning.Set();
}
share|improve this answer

I had the same problem some time ago and all I had done was using the lock{} statement. With this, even if the Timer wants to do anything, he is forced to wait, until the end of the lock-Block.

i.e.

lock
{    
     // this code will never be interrupted or started again until it has finished
} 

This is a great way to be sure, your process will work until the end without interrupting.

share|improve this answer

You can use System.Threading.Timer. Trick is to set the initial time only. Initial time is set again when previous interval is finished or when job is finished (this will happen when job is taking longer then the interval). Here is the sample code.

class Program
{


    static System.Threading.Timer timer;
    static bool workAvailable = false;
    static int timeInMs = 5000;
    static object o = new object(); 

    static void Main(string[] args)
    {
        timer = new Timer((o) =>
            {
                try
                {
                    if (workAvailable)
                    {
                        // do the work,   whatever is required.
                        // if another thread is started use Thread.Join to wait for the thread to finish
                    }
                }
                catch (Exception)
                {
                    // handle
                }
                finally
                {
                    // only set the initial time, do not set the recurring time
                    timer.Change(timeInMs, Timeout.Infinite);
                }
            });

        // only set the initial time, do not set the recurring time
        timer.Change(timeInMs, Timeout.Infinite);
    }
share|improve this answer

There what i did and seem to work!

using System;
using System.Collections;
using System.Linq;
using System.Text;
using System.Threading;
using System.ComponentModel;
using System.Timers;



namespace Exercice_1_1
{
    class Program
    {
        
        static void Main(string[] args)
        {
            Console.SetWindowPosition(0, 0);
            Service backgroundWork = new Service(1, 1000);

            do
            {

            }
            while (!(backgroundWork.ExecutionCNT == 100));
        }
    }


    class Service
    {
        private BackgroundWorker worker;
        private int executionCNT = 0;
        public int ExecutionCNT
        {
            get { return executionCNT; }
        }

        //Constructeur (Compteur du nombre d'execution, Delais entre chaque executions)
        public Service(int executionCNT, int executionDelay)
        {
            this.executionCNT = executionCNT;
            worker = new BackgroundWorker();
            System.Timers.Timer timer = new System.Timers.Timer(executionDelay);

            worker.DoWork += worker_DoWork;
            timer.Elapsed += timer_Elapsed;

            timer.Start();
        }

        void timer_Elapsed(object sender, System.Timers.ElapsedEventArgs e)
        {
            if (!worker.IsBusy)
            {
                worker.RunWorkerAsync();
            }
        }

        void worker_DoWork(object sender, DoWorkEventArgs e)
        {
            Console.SetCursorPosition(0, 0);
            Console.WriteLine("({0})task started....\n\n", executionCNT++);
            Console.WriteLine("Press any key to end it! OR ctrl + c to end exemple");
            Console.ReadLine();
            Console.Clear();
        }
    }
}

share|improve this answer
    
Welcome to Stack Overflow! Generally, answers are much more helpful if they include an explanation of what the code is intended to do, and why that solves the problem without introducing others. –  Nathan Tuggy Jan 10 at 1:49

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