public static async Task ExecuteTestAsync(TestCaseInformation caseInfo) { Assert.IsTrue(caseInfo.Method.IsPublic && caseInfo.Method.IsStatic); // TODO: var path = Path.GetFullPath(Path.Combine( caseInfo.Method.DeclaringType.Assembly.Location, "..", "..", "..", "..", "..", "IL2C.Core.Test.Target", caseInfo.CategoryName, caseInfo.Id, caseInfo.Id + ".cs")); if (File.Exists(path)) { TestContext.AddTestAttachment(path, "Test case"); } // Split current thread context. await Task.Yield(); /////////////////////////////////////////////// // Step 1-1: Create translation context. var translateContext = new TranslateContext( caseInfo.Method.DeclaringType.Assembly.Location, true); // Step 1-2: Prepare target methods. var targetTypes = new HashSet <string>( new[] { caseInfo.Method }. Concat(caseInfo.AdditionalMethods). Select(method => method.DeclaringType). Concat(caseInfo.AdditionalTypes). Select(type => type.FullName). Distinct()); var targetMethods = new[] { caseInfo.Method }. Concat(caseInfo.AdditionalMethods). GroupBy(method => method.Name). ToDictionary(g => g.Key, g => g.ToArray()); var prepared = AssemblyPreparer.Prepare( translateContext, t => targetTypes.Contains(t.FriendlyName), m => targetMethods.ContainsKey(m.Name)); // Step 1-3: Extract prepared target type/caseInfo.Method informations. var targetType = translateContext.Assembly.Modules .First().Types .First(t => t.FriendlyName == caseInfo.Method.DeclaringType.FullName); var targetMethod = targetType.DeclaredMethods .First(m => m.Name == caseInfo.Method.Name); var targetAdditionalMethods = targetType.DeclaredMethods .Where(m => (caseInfo.AdditionalMethods.FirstOrDefault(am => m.Name == am.Name) != null)) .ToArray(); // Step 1-4: Translate caseInfo.Method bodies. var translatedPath = Path.Combine( Path.GetDirectoryName(caseInfo.Method.DeclaringType.Assembly.Location), caseInfo.CategoryName, caseInfo.Id, caseInfo.UniqueName); var logw = new StringWriter(); var storage = new CodeTextStorage(logw, translatedPath, false, " "); AssemblyWriter.WriteHeader( storage, translateContext, prepared); var sourceFiles = AssemblyWriter.WriteSourceCode( storage, translateContext, prepared, true, DebugInformationOptions.CommentOnly); // Step 1-5: Write source code into a file from template. var expectedType = targetMethod.ReturnType; var sourceCodeStream = new MemoryStream(); await TestUtilities.CopyResourceToStreamAsync( sourceCodeStream, // If the target caseInfo.Method result is void-type, we have to use void-type tolerant template. (expectedType.IsVoidType || (caseInfo.Assert == TestCaseAsserts.CauseBreak))? "test_void.c" : "test.c"); sourceCodeStream.Position = 0; var sourceCode = new StreamReader(sourceCodeStream); var constants = caseInfo.Arguments. Zip(targetMethod.Parameters, (arg, p) => new Constant( p.ParameterName, p.TargetType, arg?.GetType(), Utilities.GetCLanguageExpression(arg)) ). ToArray(); var argumentList = constants. Select(constant => new Constant( "_" + constant.SymbolName, constant.TargetType, null, GetCLangaugeSafeConversionExpression(constant.TargetType, constant.ExpressionType, constant.SymbolName))). ToArray(); var arguments = argumentList; var locals = argumentList. Select(argument => new Constant( argument.SymbolName, argument.TargetType, argument.ExpressionType, Utilities.GetCLanguageExpression(expectedType.InternalStaticEmptyValue))). ToArray(); if (!(expectedType.IsVoidType || (caseInfo.Assert == TestCaseAsserts.CauseBreak))) { // VERY DIRTY: constants = constants.Concat(new Constant[] { new Constant( "expected", expectedType, caseInfo.Expected?.GetType(), Utilities.GetCLanguageExpression(caseInfo.Expected)), }). ToArray(); arguments = constants. Select(constant => new Constant( "_" + constant.SymbolName, constant.TargetType, null, GetCLangaugeSafeConversionExpression(constant.TargetType, constant.ExpressionType, constant.SymbolName))). ToArray(); locals = arguments. Select(argument => new Constant( argument.SymbolName, argument.TargetType, argument.ExpressionType, Utilities.GetCLanguageExpression(argument.TargetType.InternalStaticEmptyValue))). Concat(new Constant[] { new Constant( "_actual", expectedType, caseInfo.Expected?.GetType(), Utilities.GetCLanguageExpression(expectedType.InternalStaticEmptyValue)), }). ToArray(); } // Construct test definitions. var expectedSymbolName = locals. Any(entry => (entry.SymbolName == "_expected") && entry.TargetType.IsReferenceType) ? "frame__._expected" : "_expected"; var actualSymbolName = locals. Any(entry => (entry.SymbolName == "_actual") && entry.TargetType.IsReferenceType) ? "frame__._actual" : "_actual"; var replaceValues = new Dictionary <string, object> { { "testName", targetMethod.FriendlyName }, { "type", targetMethod.ReturnType.CLanguageTypeName }, { "constants", string.Join(" ", constants. Select(entry => string.Format("{0} {1} = {2};", (entry.ExpressionType != null) ? Utilities.GetCLanguageTypeName(entry.ExpressionType) : entry.TargetType.CLanguageTypeName, entry.SymbolName, entry.Expression))) }, { "locals", string.Join(" ", locals. Where(entry => !entry.TargetType.IsReferenceType). Select(entry => string.Format("{0} {1} = {2};", entry.TargetType.CLanguageTypeName, entry.SymbolName, entry.Expression))) }, { "frames", string.Join(" ", locals. Where(entry => entry.TargetType.IsReferenceType). Select(entry => string.Format("{0} {1};", entry.TargetType.CLanguageTypeName, entry.SymbolName))) }, { "frameCount", locals. Where(entry => entry.TargetType.IsClass).Count() }, { "arguments", string.Join(" ", arguments. Select(entry => string.Format("{0}{1} = {2};", entry.TargetType.IsReferenceType ? "frame__." : string.Empty, entry.SymbolName, entry.Expression))) }, { "actual", actualSymbolName }, { "function", targetMethod.CLanguageFunctionName }, { "argumentList", string.Join(", ", argumentList. Select(arg => string.Format( "{0}{1}", arg.TargetType.IsReferenceType ? "frame__." : string.Empty, arg.SymbolName))) }, { "equality", GetCLanguageCompareExpression(expectedType, expectedSymbolName, actualSymbolName) }, { "format", GetCLanguagePrintFormatFromType(targetMethod.ReturnType) }, { "expectedExpression", GetCLanguagePrintArgumentExpression(expectedType, expectedSymbolName) }, { "actualExpression", GetCLanguagePrintArgumentExpression(expectedType, actualSymbolName) }, { "sourcePath", translateContext.Assembly.Name + "_bundle.c" } }; // Step 1-6: Write Visual C++ project file and Visual Studio Code launch config from template. // Note: It's only debugging purpose. The test doesn't use. var vcxprojTemplatePath = Path.Combine(translatedPath, "test.vcxproj"); await TestUtilities.CopyResourceToTextFileAsync(vcxprojTemplatePath, "test.vcxproj", replaceValues); TestContext.AddTestAttachment(vcxprojTemplatePath, "Generated VC++ project"); var launchTemplatePath = Path.Combine(translatedPath, ".vscode", "launch.json"); await TestUtilities.CopyResourceToTextFileAsync(launchTemplatePath, "launch.json", replaceValues); var sourcePath = Path.Combine(translatedPath, "test.c"); await TestUtilities.WriteTextFileAsync(sourcePath, sourceCode, replaceValues); /////////////////////////////////////////////// // Step 2: Test and verify result by real IL code at this runtime. object rawResult; switch (caseInfo.Assert) { case TestCaseAsserts.IgnoreValidateInvokeResult: break; case TestCaseAsserts.CauseBreak: rawResult = null; break; default: CultureInfo.CurrentCulture = CultureInfo.InvariantCulture; CultureInfo.CurrentUICulture = CultureInfo.InvariantCulture; rawResult = caseInfo.Method.Invoke(null, caseInfo.Arguments); Assert.AreEqual(caseInfo.Expected, rawResult); break; } /////////////////////////////////////////////// // Step 3: Test compiled C source code and execute. string sanitized = null; try { #if DEBUG var executedResult = await GccDriver.CompileAndRunAsync( gccBasePath, false, sourcePath, Path.Combine(il2cRuntimePath, "include")); #else var executedResult = await GccDriver.CompileAndRunAsync( gccBasePath, true, sourcePath, Path.Combine(il2cRuntimePath, "include")); #endif sanitized = executedResult.Trim(' ', '\r', '\n'); } catch (Exception ex) { if ((caseInfo.Assert == TestCaseAsserts.CauseBreak) && ex.Message.Contains("ExitCode=-2147483645")) { return; } throw; } Assert.IsFalse(caseInfo.Assert == TestCaseAsserts.CauseBreak, "Code didn't break."); /////////////////////////////////////////////// // Step 4: Verify result. Assert.AreEqual("Success", sanitized); }
public ScopeDisposer(CodeTextStorage parent) { this.parent = parent; }