public static Func <Task> ParallelForEach <T>(IQueueSource <T> source, ParallelWorker parallelWorker, Func <ForEachInfo <T>, Task> processAsync, Func <Task> onCloseAsync, ExceptionCollector ec) { Func <Task> t = async delegate { IdleDetector idleDetector = new IdleDetector(); try { while (true) { var item = await source.Dequeue(ec.CancellationToken); if (!item.HasValue) { break; } T itemValue = item.Value; idleDetector.Enter(); await parallelWorker.StartWorkItem ( async workerId => { try { await processAsync(new ForEachInfo <T>(itemValue, 0, workerId, ec.CancellationToken)); } catch (Exception exc) { ec.Add(exc); } finally { idleDetector.Leave(); } }, ec.CancellationToken ); } } finally { await idleDetector.WaitForIdle(CancellationToken.None); if (onCloseAsync != null) { try { await onCloseAsync(); } catch (Exception exc) { ec.Add(exc); } } } }; return(t); }
public static Func <Task> ParallelForEach <T>(IQueueSource <T>[] sources, InputPriorities inputPriorities, ParallelWorker parallelWorker, Func <ForEachInfo <T>, Task> processAsync, Func <Task> onCloseAsync, ExceptionCollector ec) { Func <Task> t = async delegate { IdleDetector idleDetector = new IdleDetector(); try { int sourceCount = sources.Length; bool[] atEof = new bool[sourceCount]; RoundRobinLoopGenerator loop = new RoundRobinLoopGenerator(sourceCount, inputPriorities); while (!(atEof.All(e => e))) { var ops = Utils.OperationStarters <int, Option <T> >(); loop.ForEach ( j => { ops = ops.AddIf(!atEof[j], j, Utils.StartableGet <T, Option <T> >(sources[j], a => new Some <T>(a), new None <T>())); } ); Tuple <int, Option <T> > result = await ops.CompleteAny(ec.CancellationToken); if (result.Item2.HasValue) { int sourceIndex = result.Item1; T itemValue = result.Item2.Value; idleDetector.Enter(); await parallelWorker.StartWorkItem ( async workerId => { try { await processAsync(new ForEachInfo <T>(itemValue, sourceIndex, workerId, ec.CancellationToken)); } catch (Exception exc) { ec.Add(exc); } finally { idleDetector.Leave(); } }, ec.CancellationToken ); } else { atEof[result.Item1] = true; } } } finally { if (onCloseAsync != null) { try { await onCloseAsync(); } catch (Exception exc) { ec.Add(exc); } } } }; return(t); }
/// <summary> /// OrderedParallelSelect /// </summary> /// <param name="queue"></param> /// <param name="parallelWorker"></param> /// <param name="func"></param> /// <param name="capacity"></param> /// <typeparam name="T"></typeparam> /// <typeparam name="U"></typeparam> /// <returns></returns> public static IQueueSource <U> OrderedParallelSelect <T, U>(this IQueueSource <T> queue, ParallelWorker parallelWorker, Func <T, Task <U> > func, int?capacity = null) { Func <Tuple <int, T>, Task <Tuple <int, U> > > func2 = async pair => new Tuple <int, U>(pair.Item1, await func(pair.Item2)); return(queue.Indexed().ParallelSelect(parallelWorker, func2, capacity).Reorder(pair => pair.Item1, 0, capacity).SynchronousSelect(pair => pair.Item2)); }
/// <summary> /// OrderedParallelWhere /// </summary> /// <param name="queue"></param> /// <param name="parallelWorker"></param> /// <param name="predicate"></param> /// <param name="capacity"></param> /// <typeparam name="T"></typeparam> /// <returns></returns> public static IQueueSource <T> OrderedParallelWhere <T>(this IQueueSource <T> queue, ParallelWorker parallelWorker, Func <T, Task <bool> > predicate, int?capacity = null) { Func <Tuple <int, T>, Task <Tuple <int, T, bool> > > func2 = async pair => new Tuple <int, T, bool>(pair.Item1, pair.Item2, await predicate(pair.Item2)); return(queue.Indexed().ParallelSelect(parallelWorker, func2, capacity).Reorder(pair => pair.Item1, 0, capacity).Where(i => Task.FromResult(i.Item3), capacity) .SynchronousSelect(i => i.Item2)); }
/// <summary> /// ParallelWhere /// </summary> /// <param name="queue"></param> /// <param name="parallelWorker"></param> /// <param name="predicate"></param> /// <param name="capacity"></param> /// <typeparam name="T"></typeparam> /// <returns></returns> public static IQueueSource <T> ParallelWhere <T>(this IQueueSource <T> queue, ParallelWorker parallelWorker, Func <T, Task <bool> > predicate, int?capacity = null) { AsyncQueue <T> outQueue = new AsyncQueue <T>(capacity ?? 2); IdleDetector idleDetector = new IdleDetector(); Func <Task> workPoster = async delegate { while (true) { Optional <T> item = await queue.Dequeue(CancellationToken.None); if (!item.HasValue) { break; } T itemValue = item.Value; idleDetector.Enter(); Task doingWork = await parallelWorker.StartWorkItem ( async (int workerId) => { try { if (await predicate(itemValue)) { await outQueue.Enqueue(itemValue, CancellationToken.None); } } finally { idleDetector.Leave(); } }, CancellationToken.None ); } await idleDetector.WaitForIdle(CancellationToken.None); outQueue.WriteEof(); }; Task.Run(workPoster); return(outQueue); }