Mercurial > pub > ImplabNet
view Implab/Parallels/AsyncPool.cs @ 182:76e8f2ba12b8 ref20160224
pretty print DFA, the minimization is still buggy
author | cin |
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date | Thu, 24 Mar 2016 18:52:10 +0300 |
parents | 706fccb85524 |
children |
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using Implab.Diagnostics; using System; using System.Threading; using System.Linq; namespace Implab.Parallels { /// <summary> /// Класс для распаралеливания задач. /// </summary> /// <remarks> /// Используя данный класс и лямда выражения можно распараллелить /// вычисления, для этого используется концепция обещаний. /// </remarks> public static class AsyncPool { public static IPromise<T> Invoke<T>(Func<T> func) { var p = new Promise<T>(); var caller = TraceContext.Instance.CurrentOperation; ThreadPool.QueueUserWorkItem(param => { TraceContext.Instance.EnterLogicalOperation(caller,false); try { p.Resolve(func()); } catch(Exception e) { p.Reject(e); } finally { TraceContext.Instance.Leave(); } }); return p; } public static IPromise<T> Invoke<T>(Func<ICancellationToken, T> func) { var p = new Promise<T>(); var caller = TraceContext.Instance.CurrentOperation; ThreadPool.QueueUserWorkItem(param => { TraceContext.Instance.EnterLogicalOperation(caller,false); try { p.Resolve(func(p)); } catch(Exception e) { p.Reject(e); } finally { TraceContext.Instance.Leave(); } }); return p; } public static IPromise<T> RunThread<T>(Func<T> func) { var p = new Promise<T>(); var caller = TraceContext.Instance.CurrentOperation; var worker = new Thread(() => { TraceContext.Instance.EnterLogicalOperation(caller,false); try { p.Resolve(func()); } catch (Exception e) { p.Reject(e); } finally { TraceContext.Instance.Leave(); } }); worker.IsBackground = true; worker.Start(); return p; } public static IPromise<T> RunThread<T>(Func<ICancellationToken, T> func) { var p = new Promise<T>(); var caller = TraceContext.Instance.CurrentOperation; var worker = new Thread(() => { TraceContext.Instance.EnterLogicalOperation(caller,false); try { p.Resolve(func(p)); } catch (Exception e) { p.Reject(e); } finally { TraceContext.Instance.Leave(); } }); worker.IsBackground = true; worker.Start(); return p; } public static IPromise RunThread(Action func) { var p = new Promise(); var caller = TraceContext.Instance.CurrentOperation; var worker = new Thread(() => { TraceContext.Instance.EnterLogicalOperation(caller,false); try { func(); p.Resolve(); } catch (Exception e) { p.Reject(e); } finally { TraceContext.Instance.Leave(); } }); worker.IsBackground = true; worker.Start(); return p; } public static IPromise RunThread(Action<ICancellationToken> func) { var p = new Promise(); var caller = TraceContext.Instance.CurrentOperation; var worker = new Thread(() => { TraceContext.Instance.EnterLogicalOperation(caller,false); try { func(p); p.Resolve(); } catch (Exception e) { p.Reject(e); } finally { TraceContext.Instance.Leave(); } }); worker.IsBackground = true; worker.Start(); return p; } public static IPromise[] RunThread(params Action[] func) { return func.Select(f => RunThread(f)).ToArray(); } public static IPromise[] RunThread(params Action<ICancellationToken>[] func) { return func.Select(f => RunThread(f)).ToArray(); } public static IPromise<T>[] RunThread<T>(params Func<T>[] func) { return func.Select(f => RunThread(f)).ToArray(); } public static IPromise<T>[] RunThread<T>(params Func<ICancellationToken, T>[] func) { return func.Select(f => RunThread(f)).ToArray(); } } }