using System; using System.Collections.Generic; using System.Diagnostics; using System.Reflection; using System.Threading.Tasks; using Implab.Parallels; namespace Implab { public class Promise : AbstractEvent, IPromise { public static IDispatcher DefaultDispatcher { get { return ThreadPoolDispatcher.Instance; } } class ResolvableSignal : IResolvable { public Signal Signal { get; private set; } public ResolvableSignal() { Signal = new Signal(); } public void Reject(Exception error) { Signal.Set(); } public void Resolve() { Signal.Set(); } } PromiseState m_state; Exception m_error; public bool IsRejected { get { return m_state == PromiseState.Rejected; } } public bool IsFulfilled { get { return m_state == PromiseState.Fulfilled; } } public Exception RejectReason { get { return m_error; } } internal Promise() { } internal void ResolvePromise() { if (BeginTransit()) { m_state = PromiseState.Fulfilled; CompleteTransit(); } } internal void RejectPromise(Exception reason) { if (BeginTransit()) { m_error = reason; m_state = PromiseState.Rejected; CompleteTransit(); } } #region implemented abstract members of AbstractPromise protected override void SignalHandler(IResolvable handler) { switch (m_state) { case PromiseState.Fulfilled: handler.Resolve(); break; case PromiseState.Rejected: handler.Reject(RejectReason); break; default: throw new InvalidOperationException(String.Format("Invalid promise signal: {0}", m_state)); } } protected void WaitResult(int timeout) { if (!(IsResolved || GetFulfillSignal().Wait(timeout))) throw new TimeoutException(); } protected Signal GetFulfillSignal() { var next = new ResolvableSignal(); Then(next); return next.Signal; } #endregion public Type ResultType { get { return typeof(void); } } protected void Rethrow() { Debug.Assert(m_error != null); if (m_error is OperationCanceledException) throw new OperationCanceledException("Operation cancelled", m_error); else throw new TargetInvocationException(m_error); } public void Then(IResolvable next) { AddHandler(next); } public IPromise Cast() { throw new InvalidCastException(); } public void Join() { WaitResult(-1); if (IsRejected) Rethrow(); } public void Join(int timeout) { WaitResult(timeout); if (IsRejected) Rethrow(); } public static ResolvedPromise Resolve() { return new ResolvedPromise(); } public static ResolvedPromise Resolve(T result) { return new ResolvedPromise(result); } public static RejectedPromise Reject(Exception reason) { return new RejectedPromise(reason); } public static RejectedPromise Reject(Exception reason) { return new RejectedPromise(reason); } public static IPromise Create(PromiseExecutor executor) { Safe.ArgumentNotNull(executor, nameof(executor)); var p = new Promise(); var d = new Deferred(p, DefaultDispatcher); try { executor(d); } catch (Exception e) { d.Reject(e); } return d.Promise; } public static IPromise Create(PromiseExecutor executor) { Safe.ArgumentNotNull(executor, nameof(executor)); var d = new Deferred(); try { executor(d); } catch (Exception e) { d.Reject(e); } return d.Promise; } public static IPromise All(IEnumerable promises) { var d = new Deferred(); var all = new PromiseAll(d); foreach (var promise in promises) { all.AddPromise(promise); if (all.Done) break; } all.Complete(); return all.ResultPromise; } public static IPromise All(IEnumerable> promises, Func cleanup = null, Action cancel = null) { var d = new Deferred(); var all = new PromiseAll(d, cleanup, cancel); foreach (var promise in promises) { all.AddPromise(promise); if (all.Done) break; } all.Complete(); return all.ResultPromise; } } }