// 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. using System; #if CS60 using System.IO; #endif using System.Threading; using System.Threading.Tasks; namespace ICSharpCode.Decompiler.Tests.TestCases.Pretty { public abstract class ExceptionHandling { public abstract bool B(int i); public abstract Task T(); public abstract void M(int i); public bool ConditionalReturnInThrow() { try { if (B(0)) { return B(1); } } catch { } return false; } public bool SimpleTryCatchException() { try { Console.WriteLine("Try"); return B(new Random().Next()); } catch (Exception) { Console.WriteLine("CatchException"); } return false; } public bool SimpleTryCatchExceptionWithName() { try { Console.WriteLine("Try"); return B(new Random().Next()); } catch (Exception ex) { Console.WriteLine("CatchException ex: " + ex.ToString()); } return false; } #if CS60 public bool SimpleTryCatchExceptionWithNameAndCondition() { try { Console.WriteLine("Try"); return B(new Random().Next()); } catch (Exception ex) when (ex.Message.Contains("test")) { Console.WriteLine("CatchException ex: " + ex.ToString()); } return false; } public bool SimpleTryCatchExceptionWithNameAndConditionWithOr() { try { Console.WriteLine("Try"); return B(new Random().Next()); } catch (Exception ex) when (ex is ArgumentException || ex is IOException) { Console.WriteLine("CatchException ex: " + ex.ToString()); } return false; } public async Task SimpleAsyncTryCatchExceptionWithNameAndConditionWithOr() { try { Console.WriteLine("Try"); return await T(); } catch (Exception ex) when (ex is ArgumentException || ex is IOException) { Console.WriteLine("CatchException ex: " + ex.ToString()); } return false; } public void CatchWhenWithConditionWithoutExceptionVar() { int num = 0; try { throw new Exception(); } catch (Exception) when (num == 0) { Console.WriteLine("jo"); } } #endif public bool SimpleTryFinally() { try { Console.WriteLine("Try"); } finally { Console.WriteLine("Finally"); } return false; } public void MethodEndingWithEndFinally() { try { throw null; } finally { Console.WriteLine(); } } public void MethodEndingWithRethrow() { try { throw null; } catch { throw; } } public void TryCatchFinally() { try { Console.WriteLine("Try"); } catch (Exception ex) { Console.WriteLine(ex.Message); } finally { Console.WriteLine("Finally"); } } public void TryCatchMultipleHandlers() { try { Console.WriteLine("Try"); } catch (InvalidOperationException ex) { Console.WriteLine(ex.Message); } catch (SystemException ex2) { Console.WriteLine(ex2.Message); } catch { Console.WriteLine("other"); } } //public void TwoCatchBlocksWithSameVariable() //{ // try { // Console.WriteLine("Try1"); // } catch (Exception ex) { // Console.WriteLine(ex.Message); // } // try { // Console.WriteLine("Try2"); // } catch (Exception ex) { // Console.WriteLine(ex.Message); // } //} public void NoUsingStatementBecauseTheVariableIsAssignedTo() { CancellationTokenSource cancellationTokenSource = null; try { cancellationTokenSource = new CancellationTokenSource(); } finally { if (cancellationTokenSource != null) { cancellationTokenSource.Dispose(); } } } public void ThrowInFinally() { try { } finally { throw new Exception(); } } internal void EarlyReturnInTryBlock(bool a, bool b) { try { if (a) { Console.WriteLine("a"); } else if (b) { // #2379: The only goto-free way of representing this code is to use a return statement return; } Console.WriteLine("a || !b"); } finally { Console.WriteLine("finally"); } } #if ROSLYN || !OPT // TODO Non-Roslyn compilers create a second while loop inside the try, by inverting the if // This is fixed in the non-optimised version by the enabling the RemoveDeadCode flag //public bool EarlyExitInLoopTry() //{ // while (true) { // try { // while (B(0)) { // Console.WriteLine(); // } // // return false; // } catch { // } // } //} public bool EarlyExitInLoopTry() { while (true) { try { if (!B(0)) { return false; } Console.WriteLine(); } catch { } } } #endif public bool ComplexConditionalReturnInThrow() { try { if (B(0)) { if (B(1)) { Console.WriteLine("0 && 1"); return B(2); } if (B(3)) { Console.WriteLine("0 && 3"); return !B(2); } Console.WriteLine("0"); } Console.WriteLine("End Try"); } catch { try { try { if (((B(0) || B(1)) && B(2)) || B(3)) { return B(4) && !B(5); } if (B(6) || B(7)) { return B(8) || B(9); } } catch { Console.WriteLine("Catch2"); } return B(10) && B(11); } catch { Console.WriteLine("Catch"); } finally { Console.WriteLine("Finally"); } } return false; } public void AppropriateLockExit() { int num = 0; lock (this) { if (num <= 256) { Console.WriteLine(0); } else if (num <= 1024) { Console.WriteLine(1); } else if (num <= 16384) { Console.WriteLine(2); } } } public void ReassignExceptionVar() { try { Console.WriteLine("ReassignExceptionVar"); } catch (Exception innerException) { if (innerException.InnerException != null) { innerException = innerException.InnerException; } Console.WriteLine(innerException); } } public int UseExceptionVarOutsideCatch() { Exception ex2; try { return 1; } catch (Exception ex) { ex2 = ex; } Console.WriteLine(ex2 != null); return 2; } public void GenericException(int input) where TException : Exception { try { Console.WriteLine(input); } catch (TException ex) { Console.WriteLine(ex.Message); throw; } } public void GenericException2() where T : Exception { try { Console.WriteLine("CatchT"); #if ROSLYN } catch (T val) { Console.WriteLine("{0} {1}", val, val.ToString()); } #else } catch (T arg) { Console.WriteLine("{0} {1}", arg, arg.ToString()); } #endif } #if CS60 public void GenericExceptionWithCondition(int input) where TException : Exception { try { Console.WriteLine(input); } catch (TException ex) when (ex.Message.Contains("Test")) { Console.WriteLine(ex.Message); throw; } } public void GenericException2WithCondition(int input) where TException : Exception { try { Console.WriteLine(input); } catch (TException ex) when (ex.Message.Contains("Test")) { Console.WriteLine("{0} {1}", ex, ex.ToString()); } } public void XXX1() { try { Console.WriteLine(); } catch (Exception ex) when (ex.Data.IsFixedSize) { Console.WriteLine(ex.ToString()); #pragma warning disable CA2200 // Rethrow to preserve stack details throw ex; #pragma warning restore CA2200 // Rethrow to preserve stack details } } public void XXX2() { try { Console.WriteLine(); } catch (Exception ex) when (ex is InternalBufferOverflowException) { Console.WriteLine(ex.ToString()); #pragma warning disable CA2200 // Rethrow to preserve stack details throw ex; #pragma warning restore CA2200 // Rethrow to preserve stack details } } #endif } }