コード例 #1
0
        public Solution SafelyRefactorSolution(Solution solution, Document document, int index)
        {
            var numInitialErrors = solution.CompilationErrorCount();
            var oldErrors = solution.GetDiagnostics().Where(d => d.Severity == DiagnosticSeverity.Error).Select(a => a.Id);
            var oldSolution = solution;
            try
            {
                solution = ExecuteRefactoring(document, solution, index);

                var oldFile= document.GetTextAsync().Result;
                var newFile = solution.GetDocument(document.Id).GetTextAsync().Result;

                if (solution.CompilationErrorCount() > numInitialErrors)
                {
                    
                    Fail.Info("{0}", document.FilePath);
                    Fail.Info("{0}\r\n*************************************************************************************************", oldFile);
                    Fail.Info("{0}\r\n=================================================================================================", newFile);

                    Fail.Error("=============================================SOLUTIONERRORS=======================================================");
                    foreach (
                        var diagnostic in solution.GetDiagnostics().Where(d => d.Severity == DiagnosticSeverity.Error && !oldErrors.Any(a=> a.Equals(d.Id))))
                    {
                        Fail.Error("{0}", diagnostic);
                    }
                    Fail.Error("=========================================================================================================================");

                    CompilationError = true;
                    RefactoredSolution = solution;
                    solution = oldSolution;
                }
                else
                {

                    Success.Info("{0}", document.FilePath);
                    Success.Info("{0}\r\n*************************************************************************************************", oldFile);
                    Success.Info("{0}\r\n=================================================================================================", newFile);

                    RefactoredSolution = solution;
                    NumMethodSymbolLookups += SemanticModelExtensions.NumMethodSymbolLookups;
                    SemanticModelExtensions.ResetSymbolLookupCounter();
                }
            }
            catch (RefactoringException e)
            {
                Logger.Error("Refactoring failed: index={0}: {1}: {2}", index, e.Message, e);
                solution = oldSolution;

                RefactoringExceptionWasThrown = true;
            }
            catch (NotImplementedException e)
            {
                Logger.Error("Not implemented: index={0}: {1}: {2}", index, e.Message, e);
                solution = oldSolution;

                NotImplementedExceptionWasThrown = true;
            }
            catch (PreconditionException e)
            {
                Logger.Error("Precondition failed: {0}: {1}", e.Message, e);
                solution = oldSolution;

                PreconditionFailed = true;
            }
            catch (Exception e)
            {
                Logger.Error("Unhandled exception while refactoring: index={0}: {1}\n{2}", index, e.Message, e);
                solution = oldSolution;

                OtherExceptionWasThrown = true;
            }

            return solution;
        }
コード例 #2
0
        public SolutionRefactoring(Workspace workspace)
        {
            if (workspace == null) throw new ArgumentNullException("workspace");

            _workspace = workspace;

            _originalSolution = _workspace.CurrentSolution;
            Solution newSolution = _originalSolution;
            var projectlist = _originalSolution.Projects.AsEnumerable();
            
            foreach(var project in projectlist)
            {
                List<MetadataReference> list = new List<MetadataReference>();
                //foreach (var refer in project.MetadataReferences)
                //    // check whether they already reference microsoft.bcl.async
                //    list.Add(refer);

                if (project.MetadataReferences.Where(a => a.Display.ToString().Contains("AsyncCtpLibrary") || a.Display.ToString().Contains("Microsoft.Bcl.Async")).Any())
                    continue;

                if (project.IsWindowsPhoneProject() == 1)
                {
                    list.Add(new MetadataFileReference(@"C:\Users\Semih\Desktop\lib\Microsoft.Bcl.Async.1.0.14-rc\lib\sl4-windowsphone71\Microsoft.Threading.Tasks.dll"));
                    list.Add(new MetadataFileReference(@"C:\Users\Semih\Desktop\lib\Microsoft.Bcl.Async.1.0.14-rc\lib\sl4-windowsphone71\Microsoft.Threading.Tasks.Extensions.dll"));
                    list.Add(new MetadataFileReference(@"C:\Users\Semih\Desktop\lib\Microsoft.Bcl.Async.1.0.14-rc\lib\sl4-windowsphone71\Microsoft.Threading.Tasks.Extensions.Phone.dll"));
                    list.Add(new MetadataFileReference(@"C:\Users\Semih\Desktop\lib\Microsoft.Bcl.1.0.16-rc\lib\sl4-windowsphone71\System.Runtime.dll"));
                    list.Add(new MetadataFileReference(@"C:\Users\Semih\Desktop\lib\Microsoft.Bcl.1.0.16-rc\lib\sl4-windowsphone71\System.Threading.Tasks.dll"));
                }
                else if (project.IsWindowsPhoneProject() == 2)
                {
                    list.Add(new MetadataFileReference(@"C:\Users\Semih\Desktop\lib\Microsoft.Bcl.Async.1.0.14-rc\lib\wp8\Microsoft.Threading.Tasks.dll"));
                    list.Add(new MetadataFileReference(@"C:\Users\Semih\Desktop\lib\Microsoft.Bcl.Async.1.0.14-rc\lib\wp8\Microsoft.Threading.Tasks.Extensions.dll"));
                    list.Add(new MetadataFileReference(@"C:\Users\Semih\Desktop\lib\Microsoft.Bcl.Async.1.0.14-rc\lib\wp8\Microsoft.Threading.Tasks.Extensions.Phone.dll"));
                }
                else
                    continue;

                newSolution = newSolution.AddMetadataReferences(project.Id, list);


            }

            if (newSolution.CompilationErrorCount() > _originalSolution.CompilationErrorCount())
            {
                TempLog.Info("{0}", newSolution.FilePath);
                foreach (var diagnostic in newSolution.GetDiagnostics().Where(d => d.Severity == DiagnosticSeverity.Error))
                {
                    TempLog.Info("=== Solution error: {0}", diagnostic);
                }
                
            }

           _originalSolution = newSolution;
           
        }
コード例 #3
0
        /// <summary>
        /// Execute the APM-to-async/await refactoring for a given APM method invocation.
        /// </summary>
        /// <param name="document">The C# Document on which to operate/in which the Begin and End method calls are represented.</param>
        /// <param name="solution">The solution that contains the C# document.</param>
        /// <param name="workspace">The workspace to which the code in the syntax tree currently belongs, for formatting purposes.</param>
        /// <param name="index">The index number </param>
        /// <returns>The CompilationUnitSyntax node that is the result of the transformation.</returns>
        public static CompilationUnitSyntax RefactorToTask(Document document, Solution solution, Workspace workspace, int index)
        {
            if (document == null) throw new ArgumentNullException("document");
            if (workspace == null) throw new ArgumentNullException("workspace");

            String message;

            var numErrorsInSolutionBeforeRewriting = solution.CompilationErrorCount();

            var syntaxTree = (SyntaxTree)document.GetSyntaxTreeAsync().Result;
            var syntax = (CompilationUnitSyntax)syntaxTree.GetRoot();

            Logger.Trace("\n### REFACTORING CODE ###\n{0}\n### END OF CODE ###", syntax.Format(workspace));

            InvocationExpressionSyntax beginXxxCall;
            try
            {
                beginXxxCall = document.GetAnnotatedInvocation(index);
            }
            catch (InvalidOperationException)
            {
                throw new ArgumentException(
                    "Syntax tree has no InvocationExpressionSyntax node annotated with RefactorableAPMInstance");
            }

            var model = (SemanticModel)document.GetSemanticModelAsync().Result;

            var callbackArgument = FindAsyncCallbackInvocationArgument(model, beginXxxCall);
            var callbackExpression = callbackArgument.Expression;

            CompilationUnitSyntax rewrittenSyntax;
            switch (callbackExpression.CSharpKind())
            {
                case SyntaxKind.SimpleLambdaExpression:
                    var lambda = (SimpleLambdaExpressionSyntax)callbackExpression;

                    switch (lambda.Body.CSharpKind())
                    {
                        case SyntaxKind.Block:
                            var stateArgument = FindAsyncStateInvocationArgument(model, beginXxxCall);

                            switch (stateArgument.Expression.CSharpKind())
                            {
                                case SyntaxKind.NullLiteralExpression:
                                    Logger.Info("Refactoring:\n{0}", beginXxxCall.ContainingMethod());

                                    return RefactorSimpleLambdaInstance(syntax, beginXxxCall, model, workspace, callbackArgument);

                                default:
                                    Logger.Info("Rewriting to remove state argument:\n{0}", beginXxxCall);

                                    rewrittenSyntax = RewriteStateArgumentToNull(lambda, syntax, stateArgument);

                                    break;
                            }

                            break;

                        case SyntaxKind.InvocationExpression:
                            Logger.Info("Rewriting lambda to block form:\n{0}", beginXxxCall);

                            rewrittenSyntax = RewriteInvocationExpressionToBlock(syntax, lambda, model, beginXxxCall);
                            break;

                        default:
                            message = String
                                .Format(
                                    "Unsupported lambda body kind: {0}: method:\n{1}",
                                    lambda.Body.CSharpKind(),
                                    beginXxxCall.ContainingMethod()
                                );

                            Logger.Error("Not implemented: {0}", message);

                            throw new NotImplementedException(message);
                    }

                    break;

                case SyntaxKind.IdentifierName:
                case SyntaxKind.SimpleMemberAccessExpression:
                    Logger.Info("Rewriting method reference to lambda:\n{0}", beginXxxCall);

                    rewrittenSyntax = RewriteMethodReferenceToSimpleLambda(syntax, beginXxxCall, model, callbackArgument, callbackExpression);
                    break;

                case SyntaxKind.ParenthesizedLambdaExpression:
                    Logger.Info("Rewriting parenthesized lambda to simple lambda:\n{0}", beginXxxCall);

                    rewrittenSyntax = RewriteParenthesizedLambdaToSimpleLambda(syntax, beginXxxCall, model);
                    break;

                case SyntaxKind.ObjectCreationExpression:
                    Logger.Info("Rewriting object creation expression to simple lambda:\n{0}", beginXxxCall);

                    var objectCreation = (ObjectCreationExpressionSyntax)callbackExpression;

                    rewrittenSyntax = RewriteObjectCreationToSimpleLambda(syntax, objectCreation, workspace);
                    break;

                case SyntaxKind.AnonymousMethodExpression:
                    Logger.Info("Rewriting anonymous method (delegate) expression to simple lambda:\n{0}", beginXxxCall);

                    var anonymousMethod = (AnonymousMethodExpressionSyntax)callbackExpression;

                    rewrittenSyntax = RewriteAnonymousMethodToSimpleLambda(syntax, anonymousMethod, workspace);
                    break;

                case SyntaxKind.NullLiteralExpression:
                    message = String.Format("callback is null:\n{0}", beginXxxCall.ContainingMethod());

                    Logger.Error("Precondition failed: {0}", message);

                    throw new PreconditionException(message);

                case SyntaxKind.InvocationExpression:
                    message = String
                        .Format(
                            "InvocationExpression as callback is not supported: {0}",
                            beginXxxCall
                        );

                    Logger.Error("Precondition failed: {0}", message);

                    throw new PreconditionException(message);

                case SyntaxKind.GenericName:
                    message = String.Format("GenericName syntax kind is not supported");

                    Logger.Error("Precondition failed: {0}", message);

                    throw new PreconditionException(message);

                default:
                    message = String.Format(
                        "Unsupported actual argument syntax node kind: {0}: callback argument: {1}: in method:\n{2}",
                        callbackExpression.CSharpKind(),
                        callbackArgument,
                        beginXxxCall.ContainingMethod()
                    );

                    Logger.Error(message);

                    throw new NotImplementedException(message);
            }

            var rewrittenDocument = document.WithSyntaxRoot(rewrittenSyntax);
            var rewrittenSolution = solution.WithDocumentSyntaxRoot(document.Id, rewrittenSyntax);

            //if (rewrittenSolution.CompilationErrorCount() > numErrorsInSolutionBeforeRewriting)
            //{
            //    Logger.Error(
            //        "Rewritten solution contains more compilation errors than the original solution while refactoring: {0} @ {1}:{2} in method:\n{3}",
            //        beginXxxCall,
            //        beginXxxCall.SyntaxTree.FilePath,
            //        beginXxxCall.GetStartLineNumber(),
            //        beginXxxCall.ContainingMethod()
            //    );

            //    Logger.Warn("=== SOLUTION ERRORS ===");
            //    foreach (var diagnostic in rewrittenSolution.GetDiagnostics().Where(d => d.Severity == DiagnosticSeverity.Error))
            //    {
            //        Logger.Warn("  - {0}", diagnostic);
            //    }
            //    Logger.Warn("=== END OF SOLUTION ERRORS ===");

            //    Logger.Warn("\n### ORIGINAL CODE ###\n{0}### END OF CODE ###", syntax.Format(workspace));
            //    Logger.Warn("\n### REWRITTEN CODE ###\n{0}### END OF CODE ###", rewrittenSyntax.Format(workspace));

            //    throw new RefactoringException("Rewritten solution contains more compilation errors than the original refactoring");
            //}

            return null;
        }