Mercurial > pub > ImplabNet
view Implab/Parallels/DispatchPool.cs @ 17:7cd4a843b4e4 promises
Improved worker pool
author | cin |
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date | Fri, 08 Nov 2013 01:25:42 +0400 |
parents | 5a4b735ba669 |
children | 1c3b3d518480 |
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using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading; using System.Diagnostics; namespace Implab.Parallels { public abstract class DispatchPool<TUnit> : IDisposable { readonly int m_minThreads; readonly int m_maxThreads; int m_runningThreads = 0; int m_maxRunningThreads = 0; int m_suspended = 0; int m_exitRequired = 0; AutoResetEvent m_hasTasks = new AutoResetEvent(false); protected DispatchPool(int min, int max) { if (min < 0) throw new ArgumentOutOfRangeException("min"); if (max <= 0) throw new ArgumentOutOfRangeException("max"); if (min > max) min = max; m_minThreads = min; m_maxThreads = max; } protected DispatchPool(int threads) : this(threads, threads) { } protected DispatchPool() { int maxThreads, maxCP; ThreadPool.GetMaxThreads(out maxThreads, out maxCP); m_minThreads = 0; m_maxThreads = maxThreads; } protected void InitPool() { for (int i = 0; i < m_minThreads; i++) StartWorker(); } public int ThreadCount { get { return m_runningThreads; } } public int MaxRunningThreads { get { return m_maxRunningThreads; } } protected bool IsDisposed { get { return m_exitRequired != 0; } } protected abstract bool TryDequeue(out TUnit unit); protected virtual bool ExtendPool() { if (m_suspended > 0) { m_hasTasks.Set(); return true; } else return StartWorker(); } /// <summary> /// Запускает либо новый поток, если раньше не было ни одного потока, либо устанавливает событие пробуждение одного спящего потока /// </summary> protected void WakePool() { m_hasTasks.Set(); // wake sleeping thread; if (AllocateThreadSlot(1)) { var worker = new Thread(this.Worker); worker.IsBackground = true; worker.Start(); } } protected virtual void Suspend() { m_hasTasks.WaitOne(); } #region thread slots traits bool AllocateThreadSlot() { int current; // use spins to allocate slot for the new thread do { current = m_runningThreads; if (current >= m_maxThreads || m_exitRequired != 0) // no more slots left or the pool has been disposed return false; } while (current != Interlocked.CompareExchange(ref m_runningThreads, current + 1, current)); UpdateMaxThreads(current + 1); return true; } bool AllocateThreadSlot(int desired) { if (desired - 1 != Interlocked.CompareExchange(ref m_runningThreads, desired, desired - 1)) return false; UpdateMaxThreads(desired); return true; } bool ReleaseThreadSlot(out bool last) { last = false; int current; // use spins to release slot for the new thread do { current = m_runningThreads; if (current <= m_minThreads && m_exitRequired == 0) // the thread is reserved return false; } while (current != Interlocked.CompareExchange(ref m_runningThreads, current - 1, current)); last = (current == 1); return true; } /// <summary> /// releases thread slot unconditionally, used during cleanup /// </summary> /// <returns>true - no more threads left</returns> bool ReleaseThreadSlotAnyway() { var left = Interlocked.Decrement(ref m_runningThreads); return left == 0; } void UpdateMaxThreads(int count) { int max; do { max = m_maxRunningThreads; if (max >= count) break; } while(max != Interlocked.CompareExchange(ref m_maxRunningThreads, count, max)); } #endregion bool StartWorker() { if (AllocateThreadSlot()) { // slot successfully allocated var worker = new Thread(this.Worker); worker.IsBackground = true; worker.Start(); return true; } else { return false; } } bool FetchTask(out TUnit unit) { do { // exit if requested if (m_exitRequired != 0) { // release the thread slot if (ReleaseThreadSlotAnyway()) // it was the last worker m_hasTasks.Dispose(); else m_hasTasks.Set(); // wake next worker unit = default(TUnit); return false; } // fetch task if (TryDequeue(out unit)) { ExtendPool(); return true; } //no tasks left, exit if the thread is no longer needed bool last; if (ReleaseThreadSlot(out last)) { if (last && m_hasTasks.WaitOne(0)) { if (AllocateThreadSlot(1)) continue; // spin again... else // we failed to reallocate slot for this thread // therefore we need to release the event m_hasTasks.Set(); } return false; } // entering suspend state Interlocked.Increment(ref m_suspended); // keep this thread and wait Suspend(); Interlocked.Decrement(ref m_suspended); } while (true); } protected abstract void InvokeUnit(TUnit unit); void Worker() { TUnit unit; while (FetchTask(out unit)) InvokeUnit(unit); } protected virtual void Dispose(bool disposing) { if (disposing) { if (m_exitRequired == 0) { if (Interlocked.CompareExchange(ref m_exitRequired, 1, 0) != 0) return; // wake sleeping threads m_hasTasks.Set(); GC.SuppressFinalize(this); } } } public void Dispose() { Dispose(true); } ~DispatchPool() { Dispose(false); } } }