// Copyright (c) AlphaSierraPapa for the SharpDevelop Team // // Permission is hereby granted, free of charge, to any person obtaining a copy of this // software and associated documentation files (the "Software"), to deal in the Software // without restriction, including without limitation the rights to use, copy, modify, merge, // publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons // to whom the Software is furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in all copies or // substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, // INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR // PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE // FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER // DEALINGS IN THE SOFTWARE. #pragma warning disable 1998 using System; using System.Collections.Generic; using System.Runtime.CompilerServices; using System.Threading.Tasks; namespace ICSharpCode.Decompiler.Tests.TestCases.Pretty { public class Async { private int memberField; private static bool True() { return true; } public async void SimpleVoidMethod() { Console.WriteLine("Before"); await Task.Delay(TimeSpan.FromSeconds(1.0)); Console.WriteLine("After"); } public async void VoidMethodWithoutAwait() { Console.WriteLine("No Await"); } public async void EmptyVoidMethod() { } public async void AwaitYield() { await Task.Yield(); } public async void AwaitDefaultYieldAwaitable() { await default(YieldAwaitable); } public async void AwaitDefaultHopToThreadPool() { // unlike YieldAwaitable which implements ICriticalNotifyCompletion, // the HopToThreadPoolAwaitable struct only implements // INotifyCompletion, so this results in different codegen await default(HopToThreadPoolAwaitable); } public async Task SimpleVoidTaskMethod() { Console.WriteLine("Before"); await Task.Delay(TimeSpan.FromSeconds(1.0)); Console.WriteLine("After"); } public async Task TaskMethodWithoutAwait() { Console.WriteLine("No Await"); } public async Task CapturingThis() { await Task.Delay(memberField); } public async Task CapturingThisWithoutAwait() { Console.WriteLine(memberField); } public async Task SimpleBoolTaskMethod() { Console.WriteLine("Before"); await Task.Delay(TimeSpan.FromSeconds(1.0)); Console.WriteLine("After"); return true; } public async void TwoAwaitsWithDifferentAwaiterTypes() { Console.WriteLine("Before"); if (await SimpleBoolTaskMethod()) { await Task.Delay(TimeSpan.FromSeconds(1.0)); } Console.WriteLine("After"); } public async void AwaitInLoopCondition() { while (await SimpleBoolTaskMethod()) { Console.WriteLine("Body"); } } #if CS60 public async Task AwaitInCatch(bool b, Task task1, Task task2) { try { Console.WriteLine("Start try"); await task1; Console.WriteLine("End try"); } catch (Exception) { if (!b) { await task2; } else { Console.WriteLine("No await"); } } } public async Task AwaitInFinally(bool b, Task task1, Task task2) { try { Console.WriteLine("Start try"); await task1; Console.WriteLine("End try"); } finally { if (!b) { await task2; } else { Console.WriteLine("No await"); } } } public async Task AnonymousThrow() { try { await Task.Delay(0); } catch { await Task.Delay(0); throw; } } public async Task DeclaredException() { try { await Task.Delay(0); } catch (Exception) { await Task.Delay(0); throw; } } public async Task RethrowDeclared() { try { await Task.Delay(0); } catch (Exception ex) { await Task.Delay(0); #pragma warning disable CA2200 // Rethrow to preserve stack details throw ex; #pragma warning restore CA2200 // Rethrow to preserve stack details } } public async Task RethrowDeclaredWithFilter() { try { await Task.Delay(0); } catch (Exception ex) when (ex.GetType().FullName.Contains("asdf")) { await Task.Delay(0); throw; } } public async Task ComplexCatchBlock() { try { await Task.Delay(0); } catch (Exception ex) { if (ex.GetHashCode() != 0) { throw; } await Task.Delay(0); } } public async Task ComplexCatchBlockWithFilter() { try { await Task.Delay(0); } catch (Exception ex) when (ex.GetType().FullName.Contains("asdf")) { if (ex.GetHashCode() != 0) { throw; } await Task.Delay(0); } } public async Task LoadsToCatch(int i) { try { throw null; } catch (Exception ex) when (i == 0) { Console.WriteLine("First!"); if (i == 1) { throw; } await Task.Yield(); Console.WriteLine(ex.StackTrace); } catch (Exception ex2) when (True()) { Console.WriteLine("Second!"); if (i == 1) { throw; } await Task.Yield(); Console.WriteLine(ex2.StackTrace); } catch (Exception ex3) { Console.WriteLine("Third!"); if (i == 1) { throw; } await Task.Yield(); Console.WriteLine(ex3.StackTrace); } catch when (i == 0) { Console.WriteLine("Fourth!"); if (i == 1) { throw; } await Task.Yield(); } catch when (True()) { Console.WriteLine("Fifth!"); if (i == 1) { throw; } await Task.Yield(); } catch { Console.WriteLine("Sixth!"); if (i == 1) { throw; } await Task.Yield(); } } public async Task Issue2366a() { while (true) { try { await Task.CompletedTask; } catch { } } } public async Task Issue2366b() { try { await Task.CompletedTask; } catch (NullReferenceException) { await Task.CompletedTask; } catch (InvalidOperationException) { await Task.CompletedTask; } catch (ArgumentException) { await Task.CompletedTask; } } public async Task Issue2436() { try { Console.WriteLine(); } catch (Exception result) { return result; } finally { await Task.CompletedTask; } return new object(); } #endif public static async Task GetIntegerSumAsync(IEnumerable items) { await Task.Delay(100); int num = 0; foreach (int item in items) { num += item; } return num; } public static Func> AsyncLambda() { return async () => await GetIntegerSumAsync(new int[3] { 1, 2, 3 }); } public static Func> AsyncDelegate() { return async delegate { await Task.Delay(10); return 2; }; } public static async Task AlwaysThrow() { throw null; } public static async Task InfiniteLoop() { while (true) { } } public static async Task InfiniteLoopWithAwait() { while (true) { await Task.Delay(10); } } public async Task AsyncWithLocalVar() { object a = new object(); #if CS70 (object, string) tuple = (new object(), "abc"); #endif await UseObj(a); await UseObj(a); #if CS70 await UseObj(tuple); #endif } public static async Task UseObj(object a) { } #if CS70 public static async Task AsyncLocalFunctions() { return await Nested(1) + await Nested(2); #if CS80 static async Task Nested(int i) #else async Task Nested(int i) #endif { await Task.Delay(i); return i; } } #endif } public struct AsyncInStruct { private int i; public async Task Test(AsyncInStruct xx) { xx.i++; i++; await Task.Yield(); return i + xx.i; } } public struct HopToThreadPoolAwaitable : INotifyCompletion { public bool IsCompleted { get; set; } public HopToThreadPoolAwaitable GetAwaiter() { return this; } public void OnCompleted(Action continuation) { Task.Run(continuation); } public void GetResult() { } } }