Is there a way to prevent the ThreadPool from making garbage?

Question

Executing multithreaded methods make garbage. Why is that and can we prevent it?

ThreadPool.QueueUserWorkItem(callBack, state);

EDIT: By garbage I mean objects that are created and then went out of scope. The garbage collection is very slow because of it's old version of mono. So every kb you save from the GC is a win. If you are not familiar with the unity engine, In the screenshot please see The GC column on the highlighted row. It says 0.6kb. Therefore it create 600 bytes of garbage. The callback code is not creating any garbage so this is rooted from ThreadPool.QueueUserWorkItem

EDIT 2: To elaborate further here is a more concrete example:

public class TestThread : MonoBehaviour
{
    public void Update()
    {
        if (Time.frameCount%10 == 0)
            ThreadPool.QueueUserWorkItem(DummyMethod);
    }

    public void DummyMethod(object meaningless)
    {
    }
}

Here is the result. Please look at the highlighted row. The GC column says 285Bytes. Since DummyMethod is not doing anything, the garbage is related to ThreadPool.

Edit 3: To relax the situation and find an alternative, it would be acceptable to have a worker thread that executes jobs from a queue.

It would be OK But it MUST run on CPU other than the one unity uses if there are multiple CPUs available. Unity does nearly anything in a single thread so a background worker on the same CPU would be a disaster. Also it is a cross platform project so windows-only solutions won't work. So basically I need a worker thread solution and to know if it possible to realize if a thread's CPU is the same as another thread's.

Answer 1

When you ThreadPool.QueueUserWorkItem(DummyMethod); it actually is implicitly turning your code in to ThreadPool.QueueUserWorkItem(new WaitCallback(DummyMethod));, that callback may be the item that is getting put on to the GC. Try the following code to explicitly create the delegate and keep a reference to it and see if it reduces the amount of GCable data.

public class TestThread : MonoBehaviour
{
    private readonly WaitCallback _callback;

    public TestThread()
    {
        _callback = new WaitCallback(DummyMethod);
    }

    public void Update()
    {
        if (Time.frameCount%10 == 0)
            ThreadPool.QueueUserWorkItem(_callback);
    }

    public void DummyMethod(object meaningless)
    {
    }
}

UPDATE: Here is a extremely basic implementation of a single threaded background worker, to give you a starting point. The below code is untested and may perform horribly, but it does give you an idea as a starting point.

public class BasicBackgroundWorker
{
    private readonly Thread _backgroundWorkThread;
    private readonly Queue<Action> _queue = new Queue<Action>();
    private readonly ManualResetEvent _workAvailable = new ManualResetEvent(false);

    public BasicBackgroundWorker()
    {
        _backgroundWorkThread = new Thread(BackgroundThread)
        {
            IsBackground = true,
            Priority = ThreadPriority.BelowNormal,
            Name = "BasicBackgroundWorker Thread"
        };
        _backgroundWorkThread.Start();
    }

    public void EnqueueWork(Action work)
    {
        lock (_queue)
        {
            _queue.Enqueue(work);
            _workAvailable.Set();
        }
    }

    private void BackgroundThread()
    {
        while (true)
        {
            _workAvailable.WaitOne();
            Action workItem;
            lock (_queue)
            {
                workItem = _queue.Dequeue();
                if (_queue.Count == 0)
                {
                    _workAvailable.Reset();
                }
            }
            try
            {
                workItem();
            }
            catch (Exception ex)
            {
                //Log exception that happened in backgroundWork
            }
        }
    }
}