0

I have a test client where I can specify the number of threads to create. I run a for loop based on the number selected by the user and start my threads. I store the threads in a List so that I can monitor/kill the threads at a later stage. When I run the loop, I can see that all the threads have ThreadState.Running. However, I always see fewer threads being created. Kindly Help

    private void btnReadMTNPServer_Click(object sender, EventArgs e)
    {
        DisableTestButtons();
        SetValuesFromControls();
        ResetThreads();
        _metrics.Clear();
        _runTest = true;
        _keys = GetTestKeysList();

        for (var i = 0; i < _numClients; i++)
        {
            var index = i;
            TestThreads.Add(RunNamedPipeThread(index));
            AppendConsoleText(string.Format("ThreadState: {0}", TestThreads[index].ThreadState));
            Thread.Sleep(50);
        }

        AppendConsoleText(string.Format("Starting {0} Clients. Each Reading {1} Keys", TestThreads.Count, nudTestReadKeyCount.Value));
    }


    private Thread RunNamedPipeThread(int i)
    {
        var thread = new Thread(RunNamedPipeServerTest)
        {
            Name = i.ToString("D3")
            //IsBackground = true
        };
        while (thread.ThreadState != ThreadState.Running)
            thread.Start(i);
        return thread;
    }

private void RunNamedPipeServerTest(object i)
    {
        var id = (int)i;
        var iteration = 0;
        var list = new List<short>();
        var client = new PipeClient("DHM");
        {
            client.Start();
            while (_runTest)
            {
                var startTimeStamp = DateTime.Now;
                foreach (var key in _keys.TakeWhile(key => _runTest))
                {
                    list.Add(client.GetValue(key));
                    if (_delayPerKey > 0)
                        Thread.Sleep(_delayPerKey);
                }
                var finishTimeStamp = DateTime.Now;
                //Keep the client connected using KeepAlive.
                client.KeepAlive();
                _metrics.Add(new PerformanceMetric(id.ToString("D3"), startTimeStamp, finishTimeStamp));
                AppendConsoleText(string.Format("{3}:{0}:Start:{1}, Took {2} ms", id.ToString("D3"), startTimeStamp.ToString("mm:ss.ffff"), finishTimeStamp.Subtract(startTimeStamp).TotalMilliseconds, iteration++));
                //Wait before sending request for data.
                Thread.Sleep(_testFrequency);
            }
            client.Stop();
        }
        if (cbxDisplayValues.Checked)
            AppendConsoleText(string.Format("{0}", string.Join(",", list)));
    }


    private void ResetThreads()
    {
        if (TestThreads == null)
            TestThreads = new List<Thread>();
        _runTest = false;
        TestThreads.ForEach(t => t.Abort());
        TestThreads.Clear();
    }


    private void AppendConsoleText(string text)
    {
        if (txtConsole.InvokeRequired)
        {
            Invoke(new MethodInvoker(() => txtConsole.AppendText(string.Format("{0}{1}", text, Environment.NewLine))));
        }
        else
        {
            txtConsole.AppendText(string.Format("{0}{1}", text, Environment.NewLine));
        }
    }

This is the result that I always see in the text box. There are 5 threads running but only 3 are writing out. This happens randomly though. Sometimes 5 write out as expected and sometimes they don't.

ThreadState: Running
ThreadState: Running
ThreadState: Running
ThreadState: Running
ThreadState: Running
Starting 5 Clients. Each Reading 1000 Keys
0:002:Start:53:55.5393, Took 187.4653 ms
0:003:Start:53:55.6331, Took 125.0191 ms
0:004:Start:53:55.7424, Took 109.4014 ms
1:002:Start:53:58.7539, Took 62.4642 ms
1:003:Start:53:58.7851, Took 62.5031 ms
1:004:Start:53:58.8789, Took 46.8898 ms
2:002:Start:54:01.8316, Took 62.4693 ms
2:003:Start:54:01.8629, Took 125.0298 ms
2:004:Start:54:01.9410, Took 93.7239 ms
3:002:Start:54:04.9149, Took 52.3515 ms
3:003:Start:54:04.9985, Took 62.5211 ms
3:004:Start:54:05.0454, Took 46.8765 ms
4:002:Start:54:07.9954, Took 46.77 ms
4:003:Start:54:08.0736, Took 46.7811 ms
4:004:Start:54:08.1203, Took 46.8748 ms
5:002:Start:54:11.0636, Took 46.7713 ms
5:003:Start:54:11.1417, Took 62.4283 ms
5:004:Start:54:11.1885, Took 46.8748 ms
6:002:Start:54:14.1308, Took 39.5712 ms
6:003:Start:54:14.2173, Took 54.1113 ms
6:004:Start:54:14.2486, Took 47.9687 ms
7:002:Start:54:17.1964, Took 51.7147 ms
7:003:Start:54:17.2795, Took 62.3954 ms
7:004:Start:54:17.3107, Took 46.8722 ms
8:002:Start:54:20.2644, Took 46.77 ms
8:003:Start:54:20.3581, Took 46.77 ms
8:004:Start:54:20.3738, Took 46.7721 ms
9:002:Start:54:23.3386, Took 46.77 ms
9:003:Start:54:23.4324, Took 46.7704 ms
9:004:Start:54:23.4480, Took 46.7969 ms

Edit #1: What is happening is that 5 threads say they are running. however, if you see closely below the line that says 'Starting 5 Clients. Each Reading 1000 Keys' there are 3 entries for each iteration 0, 1, 2... every three seconds. I am expecting 5 as 5 threads are running.

As per @jackncoke, I did try using this instead of the for loop:

Parallel.For(0, _numClients, i => RunNamedPipeServerTest(i)); 

For some reason, it is creating only one thread.

Then I also tried:

Parallel.For(0, _numClients, i => RunNamedPipeThread(i));

this works, however it still does not create the right number of threads. Also, if you look at method RunNamedPipeThread, I am still explicitly creating the thread for RunNamedPipeServerTest.

7
  • 8
    I recently had to do something similar to this and instead of managing all of the threads I used Parallel.ForEach Loop and Parallel.For Loop. It worked out great i am not sure if it is something you may want to consider. msdn.microsoft.com/en-us/library/dd460720(v=vs.110).aspx
    – jackncoke
    Jun 23, 2015 at 21:16
  • The Parallel.ForEach loop here is too slow for what I am trying to do. I tried the Parallel.For loop an it does the same thing. Infact either of them are slow untill i explicitly create a thread for it. and ends up behaving the same way. Jun 23, 2015 at 21:26
  • 2
    How can you talk about slow when your threads Sleep() ? And make your question more explicit. I see 5 threads starting, looks OK. What is the actual problem? Jun 23, 2015 at 21:32
  • 3
    I couldn´t find whats wrong either. Parallel.For should do faster that that Thread creation abordage.
    – Alan Araya
    Jun 23, 2015 at 21:35
  • 2
    A common root cause for such behavior is errors going unnoticed.
    – usr
    Jun 23, 2015 at 21:55

1 Answer 1

1

Consider using Parallel.For rather than creating a ton of own threads. It takes care of the task and thread scheduling for you, and you can specify the maximum amount of threads to use by specifying ParallelOptions to prevent the operation from eating up all of the system's resources.

On top of that make sure you are using a Concurrent Collection. Those collections are optimized for scenarios such as yours, and allows you to (for the most part) not worry about lock contention, deadlocks and a plethora of other potential hazards.

For some reason, it is creating only one thread.

While Parallel.For and Parallel.ForEach may schedule multiple threads, it doesn't necessarily mean it always will, as the documentation states:

Executes a for (For in Visual Basic) loop in which iterations may run in parallel.

Generally spoken, if you use a concurrent collection and the workload is paralellizable, the runtime will decide to throw multiple threads at it.

2
  • Well I know i want to run say "_numClients" threads. the work in the method that i am calling in each thread is independent of each other and can be done in parallel. Surprisingly Parallel.For is not doing the work, Since i just want to run a loop based on 0 to 5 counts, do i really need a concurrent collection? I will try translating my 0-5 enumerable into a concurrent dictionary and see if it works. Jun 24, 2015 at 14:42
  • I tried var tempDictionary = new ConcurrentDictionary<int, int>(); for (var i = 0; i < _numClients; i++) { tempDictionary.AddOrUpdate(i, i, (i1, i2) => i2); } Parallel.ForEach(tempDictionary, new ParallelOptions{MaxDegreeOfParallelism = _numClients}, x => RunNamedPipeServerTest(x.Value)); as you mentioned, however, it does not create multiple threads. Jun 24, 2015 at 14:49

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.