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I have two implementations of checking for data coming:

Using System.Timers.Timer:

public void startTimer()
{
    try
    {
         System.Timers.Timer timer = new System.Timers.Timer(1);
         timer.AutoReset = true;
         timer.Elapsed += new ElapsedEventHandler(commStart);
         timer.Enabled = true;
         timer.Start();
    }
    catch(Exception ex){}
}

private void commStart(){object sender, EventArgs eArgs}

Using Thread:

public void startThread()
{
   Thread threadGeneralComm = new Thread(new ThreadStart(commStart));

   threadGeneralComm.Start()
}

private void commStart()
{
   while(true)
   {
       // checking data
       Thread.Sleep(1);
   }
}

So you can see, both of the implementation ways, it will check for data and wait for 1 millisecond. People are complaining to me that using Timer is worse than using Thread. Using Thread is 10 times faster. I hope to have some opinions/advices for this.

Could you please help me to clarify about this?

Thanks in advance.

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what do you mean? –  olidev Jun 7 '11 at 13:24
8  
You have asked 87 questions but only accepted 32 answers. –  David Heffernan Jun 7 '11 at 13:26
    
Data coming from where? As other posters have said, polling should not be necessary in a preemptive mutitasker - it wastes CPU and adds latency. –  Martin James Jun 7 '11 at 13:38

4 Answers 4

up vote 7 down vote accepted

Both options are poor. They are polling methods and so will use CPU for no reason when there is no data.

If you can't use an event driven approach then you should look for a solution based on a blocking queue.

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why they are poor? could you please elaborate your answer? –  olidev Jun 7 '11 at 13:24
    
Polling is poor because when there is no data to be processed your thread will repeatedly wake up and consume CPU when there is nothing to be done.# –  David Heffernan Jun 7 '11 at 13:25
    
Is'nt it often the case however however that polling is being used further upstream? –  Canacourse Sep 13 '11 at 15:57
    
@Canacourse I see no reason why a timer implementation requires polling. –  David Heffernan Sep 13 '11 at 15:58
    
I wasn’t saying otherwise. just making the point that just because a developer is using OnSomeEvent() doesn’t mean that events are being used under the hood. –  Canacourse Sep 13 '11 at 16:02

Windows applications are based on event driven architecture. Mouse move, key press, showing UI, moving window, resizing etc all of them are events. When there is an event to your application, windows assign that event to something called Application Queue and the window application shall have continues loops for getting the event from application queue, and process the event using dispatcher.

In this way, a TIMER is an event, when registered, the os shall put the timer message on the application queue so that the application can process the timer. The TIMER always works on UI thread. So it is up to the operating system whether to put the TIMER event on app queue or not. When the OS is too busy, you may miss your timer events.

A thread is independent execution context, which is guaranteed to be executed.

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3  
Timers are not limited to the UI thread. Threads are not guaranteed to be executed. –  David Heffernan Jun 7 '11 at 13:29
    
@David Threads can be guaranteed to be executed if in the correct priority, relative to the main thread. This concept can be applied to timers too. –  NinjaCross Aug 7 '12 at 22:57

If you are waiting for Data to come to comes as a file, you can use FileSystemWatcher

Polling is always resource intenstive, better to use Hollywood Principle Design Pattern

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The difference between the solutions
The main difference between the solutions is that the timer one will be called every millisecond, while the single thread solution will wait one millisecond between every data check.

In the timer solution, the data checking will happen in parallel - every callback is done on a different thread on the thread pool.

For example, when using a timer every with 10ms interval and the callback method takes 20ms to process, there'll be several active callbacks on multiple threads from the threads pool.

Single thread is better (in this case)
Assuming that in your example the processing takes more than 1ms, it explains why it is much slower than having a single thread.

I assume that there might be a better solution than this - using a DB trigger, some event or callback... But if the only way to get the information is by actively checking the data then using the single thread solution is better.

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