// 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; using System.CodeDom.Compiler; using System.IO; using System.Linq; using System.Runtime.CompilerServices; using ICSharpCode.Decompiler.Tests.Helpers; using NUnit.Framework; namespace ICSharpCode.Decompiler.Tests { [TestFixture, Parallelizable(ParallelScope.All)] public class PrettyTestRunner { static readonly string TestCasePath = Tester.TestCasePath + "/Pretty"; [Test] public void AllFilesHaveTests() { var testNames = typeof(PrettyTestRunner).GetMethods() .Where(m => m.GetCustomAttributes(typeof(TestAttribute), false).Any()) .Select(m => m.Name) .ToArray(); foreach (var file in new DirectoryInfo(TestCasePath).EnumerateFiles()) { if (file.Extension.Equals(".il", StringComparison.OrdinalIgnoreCase) || file.Extension.Equals(".cs", StringComparison.OrdinalIgnoreCase)) { var testName = file.Name.Split('.')[0]; Assert.Contains(testName, testNames); } } } static readonly CompilerOptions[] noRoslynOptions = { CompilerOptions.None, CompilerOptions.Optimize }; static readonly CompilerOptions[] roslynOnlyOptions = { CompilerOptions.UseRoslyn, CompilerOptions.Optimize | CompilerOptions.UseRoslyn }; static readonly CompilerOptions[] defaultOptions = { CompilerOptions.None, CompilerOptions.Optimize, CompilerOptions.UseRoslyn, CompilerOptions.Optimize | CompilerOptions.UseRoslyn }; static readonly CompilerOptions[] defaultOptionsWithMcs = { CompilerOptions.None, CompilerOptions.Optimize, CompilerOptions.UseRoslyn, CompilerOptions.Optimize | CompilerOptions.UseRoslyn, CompilerOptions.UseMcs, CompilerOptions.Optimize | CompilerOptions.UseMcs }; [Test] public void HelloWorld() { RunForLibrary(); RunForLibrary(asmOptions: AssemblerOptions.UseDebug); } [Test] public void InlineAssignmentTest([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void CompoundAssignmentTest([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void ShortCircuit([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void CustomShortCircuitOperators([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void ExceptionHandling([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions, decompilerSettings: new DecompilerSettings { NullPropagation = false, // legacy csc generates a dead store in debug builds RemoveDeadCode = (cscOptions == CompilerOptions.None) }); } [Test] public void Switch([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions, decompilerSettings: new DecompilerSettings { // legacy csc generates a dead store in debug builds RemoveDeadCode = (cscOptions == CompilerOptions.None) }); } [Test] public void ReduceNesting([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void DelegateConstruction([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void AnonymousTypes([ValueSource(nameof(defaultOptionsWithMcs))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void Async([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void Lock([ValueSource(nameof(defaultOptionsWithMcs))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void Using([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void LiftedOperators([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void Generics([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void Loops([ValueSource(nameof(defaultOptionsWithMcs))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions, decompilerSettings: new DecompilerSettings { // legacy csc generates a dead store in debug builds RemoveDeadCode = (cscOptions == CompilerOptions.None) }); } [Test] public void PropertiesAndEvents([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void AutoProperties([ValueSource(nameof(roslynOnlyOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void QueryExpressions([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void TypeAnalysisTests([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void CheckedUnchecked([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void UnsafeCode([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void ConstructorInitializers([ValueSource(nameof(defaultOptionsWithMcs))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void PInvoke([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { // This tests needs our own disassembler; ildasm has a bug with marshalinfo. RunForLibrary(cscOptions: cscOptions, asmOptions: AssemblerOptions.UseOwnDisassembler); } [Test] public void InitializerTests([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void DynamicTests([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void ExpressionTrees([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void FixProxyCalls([Values(CompilerOptions.None, CompilerOptions.Optimize, CompilerOptions.UseRoslyn)] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void VariableNaming([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void VariableNamingWithoutSymbols([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions, decompilerSettings: new DecompilerSettings { UseDebugSymbols = false }); } [Test] public void CS72_PrivateProtected([ValueSource(nameof(roslynOnlyOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void AsyncMain([ValueSource(nameof(roslynOnlyOptions))] CompilerOptions cscOptions) { Run(cscOptions: cscOptions); } [Test] public void NullPropagation([ValueSource(nameof(roslynOnlyOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void CS6_StringInterpolation([ValueSource(nameof(roslynOnlyOptions))] CompilerOptions cscOptions) { Run(cscOptions: cscOptions); } [Test] public void CS73_StackAllocInitializers([ValueSource(nameof(roslynOnlyOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void RefLocalsAndReturns([ValueSource(nameof(roslynOnlyOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void WellKnownConstants([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void QualifierTests([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void TupleTests([ValueSource(nameof(roslynOnlyOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void NamedArguments([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void OptionalArguments([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void ConstantsTests([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void Issue1080([ValueSource(nameof(roslynOnlyOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void AssemblyCustomAttributes([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void CustomAttributes([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void CustomAttributeConflicts([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void CustomAttributeSamples([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void MemberTests([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void TypeTests([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } [Test] public void YieldReturn([ValueSource(nameof(defaultOptions))] CompilerOptions cscOptions) { RunForLibrary(cscOptions: cscOptions); } void RunForLibrary([CallerMemberName] string testName = null, AssemblerOptions asmOptions = AssemblerOptions.None, CompilerOptions cscOptions = CompilerOptions.None, DecompilerSettings decompilerSettings = null) { Run(testName, asmOptions | AssemblerOptions.Library, cscOptions | CompilerOptions.Library, decompilerSettings); } void Run([CallerMemberName] string testName = null, AssemblerOptions asmOptions = AssemblerOptions.None, CompilerOptions cscOptions = CompilerOptions.None, DecompilerSettings decompilerSettings = null) { var ilFile = Path.Combine(TestCasePath, testName) + Tester.GetSuffix(cscOptions) + ".il"; var csFile = Path.Combine(TestCasePath, testName + ".cs"); if (!File.Exists(ilFile)) { // re-create .il file if necessary CompilerResults output = null; try { string outputFile = Path.ChangeExtension(ilFile, cscOptions.HasFlag(CompilerOptions.Library) ? ".dll" : ".exe"); output = Tester.CompileCSharp(csFile, cscOptions, outputFile); Tester.Disassemble(output.PathToAssembly, ilFile, asmOptions); } finally { if (output != null) output.TempFiles.Delete(); } } var executable = Tester.AssembleIL(ilFile, asmOptions); var decompiled = Tester.DecompileCSharp(executable, decompilerSettings ?? Tester.GetSettings(cscOptions)); CodeAssert.FilesAreEqual(csFile, decompiled, Tester.GetPreprocessorSymbols(cscOptions).ToArray()); } } }