Exemplo n.º 1
0
        private RootTypeTransformationResult TransformType(ITypeAnalyzationResult rootTypeResult, INamespaceTransformationMetadata namespaceMetadata)
        {
            var anyMissingMembers = rootTypeResult.Conversion != TypeConversion.Partial && rootTypeResult.GetSelfAndDescendantsTypes()
                                    .Any(o => o.MethodsAndAccessors.Any(m => m.Missing));
            var result = TransformType(rootTypeResult, namespaceMetadata, false);

            if (anyMissingMembers)
            {
                result.Partial = TransformType(rootTypeResult, namespaceMetadata, true);
                var transformedNode = result.Partial.Transformed;
                // We need to remove all directives
                while (transformedNode.ContainsDirectives)
                {
                    transformedNode = transformedNode.RemoveNode(transformedNode.GetFirstDirective(), SyntaxRemoveOptions.KeepNoTrivia);
                }
                result.Partial.Transformed = transformedNode;
                result.OriginalModified    = result.Partial.OriginalModified;
            }
            return(result);
        }
Exemplo n.º 2
0
        private RootTypeTransformationResult TransformType(ITypeAnalyzationResult rootTypeResult, INamespaceTransformationMetadata namespaceMetadata, bool onlyMissingMembers)
        {
            var rootTypeNode        = rootTypeResult.Node;
            var startRootTypeSpan   = rootTypeNode.SpanStart;
            var rootTransformResult = new RootTypeTransformationResult(rootTypeResult)
            {
                MemberNames = rootTypeResult.Symbol.MemberNames.ToImmutableHashSet()
            };

            // We do this here because we want that the root node has span start equal to 0
            rootTypeNode       = rootTypeNode.WithAdditionalAnnotations(new SyntaxAnnotation(rootTransformResult.Annotation));
            startRootTypeSpan -= rootTypeNode.SpanStart;

            // Before any modification we need to annotate nodes that will be transformed in order to find them later on.
            // We cannot rely on spans as they changes each time the node is modified.
            // We need to annotate also the ignored types to be later removed
            foreach (var typeResult in rootTypeResult.GetSelfAndDescendantsTypes())
            {
                var typeSpanStart  = typeResult.Node.SpanStart - startRootTypeSpan;
                var typeSpanLength = typeResult.Node.Span.Length;
                var typeNode       = rootTypeNode.DescendantNodesAndSelf().OfType <TypeDeclarationSyntax>()
                                     .First(o => o.SpanStart == typeSpanStart && o.Span.Length == typeSpanLength);
                var leadingWhitespace = typeNode.GetLeadingWhitespace();
                TypeTransformationResult transformResult;
                if (typeNode == rootTypeNode)
                {
                    transformResult = rootTransformResult;
                    transformResult.IndentTrivia = typeNode.GetIndent(leadingWhitespace, namespaceMetadata.LeadingWhitespaceTrivia);
                }
                else
                {
                    transformResult = new TypeTransformationResult(typeResult)
                    {
                        MemberNames  = typeResult.Symbol.MemberNames.ToImmutableHashSet(),
                        IndentTrivia = typeNode.GetIndent(leadingWhitespace)
                    };
                    rootTypeNode = rootTypeNode.ReplaceNode(typeNode, typeNode.WithAdditionalAnnotations(new SyntaxAnnotation(transformResult.Annotation)));
                    rootTransformResult.DescendantTransformedTypes.Add(transformResult);
                }
                transformResult.LeadingWhitespaceTrivia = leadingWhitespace;
                transformResult.EndOfLineTrivia         = typeNode.GetEndOfLine();

                if (typeResult.Conversion == TypeConversion.Ignore)
                {
                    continue;                     // The ignored type shall be only annotated
                }

                // TypeReferences can be changes only if we create a new type
                if (typeResult.Conversion == TypeConversion.NewType || typeResult.Conversion == TypeConversion.Copy)
                {
                    foreach (var typeReference in typeResult.TypeReferences.Where(o => o.TypeAnalyzationResult.Conversion == TypeConversion.NewType))
                    {
                        var reference       = typeReference.ReferenceLocation;
                        var refSpanStart    = reference.Location.SourceSpan.Start - startRootTypeSpan;
                        var refSpanLength   = reference.Location.SourceSpan.Length;
                        var nameNode        = rootTypeNode.GetSimpleName(refSpanStart, refSpanLength, typeReference.IsCref);
                        var transformedNode = new TransformationResult(nameNode)
                        {
                            Transformed = nameNode.WithIdentifier(Identifier(nameNode.Identifier.ValueText + "Async").WithTriviaFrom(nameNode.Identifier))
                        };
                        transformResult.TransformedNodes.Add(transformedNode);
                        rootTypeNode = rootTypeNode.ReplaceNode(nameNode, nameNode.WithAdditionalAnnotations(new SyntaxAnnotation(transformedNode.Annotation)));
                    }
                }

                foreach (var fieldResult in typeResult.Fields)
                {
                    var fieldSpanStart  = fieldResult.Node.SpanStart - startRootTypeSpan;
                    var fieldSpanLength = fieldResult.Node.Span.Length;
                    var fieldNode       = rootTypeNode.DescendantNodes()
                                          .OfType <BaseFieldDeclarationSyntax>()
                                          .First(o => o.SpanStart == fieldSpanStart && o.Span.Length == fieldSpanLength);
                    var transformedNode = new FieldTransformationResult(fieldResult);
                    transformResult.TransformedFields.Add(transformedNode);
                    rootTypeNode = rootTypeNode.ReplaceNode(fieldNode, fieldNode.WithAdditionalAnnotations(new SyntaxAnnotation(transformedNode.Annotation)));
                }

                // Annotate and save an empty method transformation result
                foreach (var methodResult in typeResult.Methods /*.Where(o => o.Conversion != MethodConversion.Ignore)*/)
                {
                    var methodSpanStart  = methodResult.Node.SpanStart - startRootTypeSpan;
                    var methodSpanLength = methodResult.Node.Span.Length;
                    var methodNode       = rootTypeNode.DescendantNodes()
                                           .OfType <MethodDeclarationSyntax>()
                                           .First(o => o.SpanStart == methodSpanStart && o.Span.Length == methodSpanLength);
                    // Only create the transformation result for the method and transform the method later as the method may change
                    // (a directive may be added to the method when removing type members)
                    var transformedNode = new MethodTransformationResult(methodResult);
                    transformResult.TransformedMethods.Add(transformedNode);
                    rootTypeNode = rootTypeNode.ReplaceNode(methodNode, methodNode.WithAdditionalAnnotations(new SyntaxAnnotation(transformedNode.Annotation)));

                    // Annotate all locks inside the method before the transformations begins as will be easier to transform them if needed
                    foreach (var lockData in methodResult.Locks)
                    {
                        var lockSpanStart  = lockData.Node.SpanStart - startRootTypeSpan;
                        var lockSpanLength = lockData.Node.Span.Length;
                        var lockNode       = rootTypeNode.DescendantNodes()
                                             .OfType <LockStatementSyntax>()
                                             .First(o => o.SpanStart == lockSpanStart && o.Span.Length == lockSpanLength);
                        var lockTransformedNode = new LockTransformationResult(lockData);
                        transformedNode.TransformedLocks.Add(lockTransformedNode);
                        rootTypeNode = rootTypeNode.ReplaceNode(lockNode,
                                                                lockNode.WithAdditionalAnnotations(new SyntaxAnnotation(lockTransformedNode.Annotation)));
                    }
                }

                foreach (var methodResult in typeResult.SpecialMethods)
                {
                    var methodSpanStart  = methodResult.GetNode().SpanStart - startRootTypeSpan;
                    var methodSpanLength = methodResult.GetNode().Span.Length;
                    var methodNode       = rootTypeNode.DescendantNodes()
                                           .OfType <BaseMethodDeclarationSyntax>()
                                           .First(o => o.SpanStart == methodSpanStart && o.Span.Length == methodSpanLength);
                    var transformedNode = new FunctionTransformationResult(methodResult);
                    transformResult.TransformedSpecialMethods.Add(transformedNode);
                    rootTypeNode = rootTypeNode.ReplaceNode(methodNode, methodNode.WithAdditionalAnnotations(new SyntaxAnnotation(transformedNode.Annotation)));
                }


                foreach (var propertyResult in typeResult.Properties)
                {
                    var spanStart  = propertyResult.Node.SpanStart - startRootTypeSpan;
                    var spanLength = propertyResult.Node.Span.Length;
                    var node       = rootTypeNode.DescendantNodes()
                                     .OfType <PropertyDeclarationSyntax>()
                                     .First(o => o.SpanStart == spanStart && o.Span.Length == spanLength);
                    var transformedNode = new PropertyTransformationResult(propertyResult);
                    transformResult.TransformedProperties.Add(transformedNode);
                    rootTypeNode = rootTypeNode.ReplaceNode(node, node.WithAdditionalAnnotations(new SyntaxAnnotation(transformedNode.Annotation)));
                }
            }
            // Save the orignal node that was only annotated
            var originalAnnotatedNode = rootTypeNode;

            // Now we can start transforming the type. Start from the bottom in order to preserve replaced nested types
            foreach (var transformResult in rootTransformResult.GetSelfAndDescendantTransformedTypes().OrderByDescending(o => o.OriginalNode.SpanStart))
            {
                var typeResult = transformResult.AnalyzationResult;

                // Add partial keyword on the original node if not present
                if ((typeResult.Conversion == TypeConversion.Partial || onlyMissingMembers) && !typeResult.IsPartial)
                {
                    if (rootTransformResult.OriginalModified == null)
                    {
                        rootTransformResult.OriginalModified = originalAnnotatedNode;
                    }
                    var typeNode = rootTransformResult.OriginalModified.GetAnnotatedNodes(transformResult.Annotation).OfType <TypeDeclarationSyntax>().First();
                    rootTransformResult.OriginalModified = rootTransformResult.OriginalModified.ReplaceNode(typeNode, typeNode.AddPartial());
                }
                if (typeResult.Conversion == TypeConversion.Ignore ||
                    (
                        onlyMissingMembers &&
                        !typeResult.GetSelfAndDescendantsTypes().SelectMany(o => o.MethodsAndAccessors).Any(o => o.Missing)
                    ))
                {
                    rootTypeNode = rootTypeNode.RemoveNodeKeepDirectives(transformResult.Annotation, transformResult.LeadingWhitespaceTrivia,
                                                                         transformResult.EndOfLineTrivia);
                    continue;
                }

                var memberWhitespace = Whitespace(transformResult.LeadingWhitespaceTrivia.ToFullString() + transformResult.IndentTrivia.ToFullString());

                if (typeResult.Conversion == TypeConversion.Partial || onlyMissingMembers)
                {
                    // First we need to remove ignored method
                    var typeNode = rootTypeNode.GetAnnotatedNodes(transformResult.Annotation).OfType <TypeDeclarationSyntax>().First();
                    // We need to remove the attributes as they cannot be defined in both partial classes
                    var newTypeNode = typeNode.AddPartial().WithoutAttributes();

                    // We need to remove all other members that are not methods, properties or types
                    newTypeNode = newTypeNode.RemoveMembersKeepDirectives(o =>
                                                                          !(o is BaseMethodDeclarationSyntax ||
                                                                            o is TypeDeclarationSyntax ||
                                                                            o is PropertyDeclarationSyntax ||
                                                                            o is BaseFieldDeclarationSyntax), memberWhitespace,
                                                                          transformResult.EndOfLineTrivia);

                    rootTypeNode = TransformTypeMembers(namespaceMetadata, onlyMissingMembers, transformResult, newTypeNode,
                                                        memberWhitespace, rootTypeNode, typeNode);
                }
                // If the root type has to be a new type then all nested types have to be new types
                else if (typeResult.Conversion == TypeConversion.NewType || typeResult.Conversion == TypeConversion.Copy)
                {
                    var typeNode        = rootTypeNode.GetAnnotatedNodes(transformResult.Annotation).OfType <TypeDeclarationSyntax>().First();
                    var identifierToken = typeNode.ChildTokens().First(o => o.IsKind(SyntaxKind.IdentifierToken));
                    var newTypeNode     = typeResult.Conversion == TypeConversion.NewType
                                                ? typeNode.ReplaceToken(identifierToken, Identifier(identifierToken.ValueText + "Async").WithTriviaFrom(identifierToken))
                                                : typeNode;

                    rootTypeNode = TransformTypeMembers(namespaceMetadata, onlyMissingMembers, transformResult, newTypeNode,
                                                        memberWhitespace, rootTypeNode, typeNode);
                }
            }

            rootTransformResult.Transformed = rootTypeNode;
            return(rootTransformResult);
        }
Exemplo n.º 3
0
        // TODO: Missing members
        private TypeTransformationResult TransformType(ITypeAnalyzationResult rootTypeResult)
        {
            var rootTypeNode        = rootTypeResult.Node;
            var startRootTypeSpan   = rootTypeNode.SpanStart;
            var typeResultMetadatas = new Dictionary <ITypeAnalyzationResult, TypeTransformationMetadata>();
            var rootMetadata        = new TypeTransformationMetadata
            {
                ReservedFieldNames = new HashSet <string>(rootTypeResult.Symbol.MemberNames)
            };

            // We do this here because we want that the root node has span start equal to 0
            rootTypeNode       = rootTypeNode.WithAdditionalAnnotations(new SyntaxAnnotation(rootMetadata.Annotation));
            startRootTypeSpan -= rootTypeNode.SpanStart;

            // Before any modification we need to annotate nodes that will be transformed in order to find them later on.
            // We cannot rely on spans as they changes each time the node is modified.
            foreach (var typeResult in rootTypeResult.GetSelfAndDescendantsTypes(o => o.Conversion != TypeConversion.Ignore))
            {
                var typeSpanStart  = typeResult.Node.SpanStart - startRootTypeSpan;
                var typeSpanLength = typeResult.Node.Span.Length;
                var typeNode       = rootTypeNode.DescendantNodesAndSelf().OfType <TypeDeclarationSyntax>()
                                     .First(o => o.SpanStart == typeSpanStart && o.Span.Length == typeSpanLength);
                TypeTransformationMetadata metadata;
                if (typeNode == rootTypeNode)
                {
                    metadata = rootMetadata;
                }
                else
                {
                    metadata = new TypeTransformationMetadata
                    {
                        ReservedFieldNames = new HashSet <string>(typeResult.Symbol.MemberNames)
                    };
                    rootTypeNode = rootTypeNode.ReplaceNode(typeNode, typeNode.WithAdditionalAnnotations(new SyntaxAnnotation(metadata.Annotation)));
                }

                // TypeReferences can be changes only if we create a new type
                if (rootTypeResult.Conversion == TypeConversion.NewType)
                {
                    foreach (var typeReference in typeResult.TypeReferences)
                    {
                        var reference     = typeReference.ReferenceLocation;
                        var refSpanStart  = reference.Location.SourceSpan.Start - startRootTypeSpan;
                        var refSpanLength = reference.Location.SourceSpan.Length;
                        if (refSpanStart < 0)
                        {
                            // TODO: cref
                            //var startSpan = reference.Location.SourceSpan.Start - rootTypeInfo.Node.GetLeadingTrivia().Span.Start;
                            //var crefNode = leadingTrivia.First(o => o.SpanStart == startSpan && o.Span.Length == refSpanLength);
                            continue;
                        }

                        var nameNode        = rootTypeNode.GetSimpleName(refSpanStart, refSpanLength);
                        var transformedNode = new TransformationResult(nameNode)
                        {
                            TransformedNode = nameNode.WithIdentifier(Identifier(nameNode.Identifier.ValueText + "Async"))
                        };
                        metadata.TransformedNodes.Add(transformedNode);
                        rootTypeNode = rootTypeNode.ReplaceNode(nameNode, nameNode.WithAdditionalAnnotations(new SyntaxAnnotation(transformedNode.Annotation)));
                    }
                }

                // Annotate and save the transformed methods
                foreach (var methodResult in typeResult.Methods)
                {
                    var methodSpanStart  = methodResult.Node.SpanStart - startRootTypeSpan;
                    var methodSpanLength = methodResult.Node.Span.Length;
                    var methodNode       = rootTypeNode.DescendantNodes()
                                           .OfType <MethodDeclarationSyntax>()
                                           .First(o => o.SpanStart == methodSpanStart && o.Span.Length == methodSpanLength);
                    var transformedNode = TransformMethod(metadata, methodResult);
                    metadata.TransformedMethods.Add(transformedNode);
                    rootTypeNode = rootTypeNode.ReplaceNode(methodNode, methodNode.WithAdditionalAnnotations(new SyntaxAnnotation(transformedNode.Annotation)));
                }
                typeResultMetadatas.Add(typeResult, metadata);
            }
            // Save the orignal node that was only annotated
            var result = new TypeTransformationResult(rootTypeNode);

            // Now we can start transforming the type. Start from the bottom in order to preserve replaced nested types
            foreach (var typeResult in rootTypeResult.GetSelfAndDescendantsTypes(o => o.Conversion != TypeConversion.Ignore)
                     .OrderByDescending(o => o.Node.SpanStart))
            {
                var metadata = typeResultMetadatas[typeResult];
                // Add partial keyword on the original node if not present
                if (typeResult.Conversion == TypeConversion.Partial && !typeResult.IsPartial)
                {
                    var typeNode = rootTypeNode.GetAnnotatedNodes(metadata.Annotation).OfType <TypeDeclarationSyntax>().First();
                    result.OriginalModifiedNode = result.Node.ReplaceNode(typeNode, typeNode.AddPartial());
                }
                // If the root type has to be a new type then all nested types have to be new types
                if (typeResult.Conversion == TypeConversion.NewType)
                {
                    // Replace all rewritten nodes
                    foreach (var rewNode in metadata.TransformedNodes)
                    {
                        var node = rootTypeNode.GetAnnotatedNodes(rewNode.Annotation).First();
                        if (rewNode.TransformedNode == null)
                        {
                            //TODO: fix regions
                            rootTypeNode = rootTypeNode.RemoveNode(node, SyntaxRemoveOptions.KeepNoTrivia);
                        }
                        else
                        {
                            rootTypeNode = rootTypeNode.ReplaceNode(node, rewNode.TransformedNode);
                        }
                    }
                }
                else if (typeResult.Conversion == TypeConversion.Partial)
                {
                    var typeNode = rootTypeNode.GetAnnotatedNodes(metadata.Annotation).OfType <TypeDeclarationSyntax>().First();
                    var newNodes = metadata.TransformedNodes
                                   .Union(metadata.TransformedMethods)
                                   .Where(o => o.TransformedNode != null)
                                   .OrderBy(o => o.Node.SpanStart)
                                   .Select(o => o.TransformedNode)
                                   .Union(typeNode.DescendantNodes().OfType <TypeDeclarationSyntax>())
                                   .ToList();
                    if (!newNodes.Any())
                    {
                        //TODO: fix regions
                        rootTypeNode = rootTypeNode.RemoveNode(typeNode, SyntaxRemoveOptions.KeepNoTrivia);
                    }
                    else
                    {
                        // We need to remove the attributes as they cannot be defined in both partial classes
                        var newTypeNode = typeNode.AddPartial().WithoutAttributes();
                        // Add fields for async lock if any. We need a lock field for each synchronized method
                        foreach (var methodTransform in metadata.TransformedMethods.Where(o => o.AsyncLockField != null).OrderBy(o => o.Node.SpanStart))
                        {
                            newNodes.Insert(0, methodTransform.AsyncLockField);
                        }
                        newTypeNode = newTypeNode.WithMembers(List(newNodes));

                        //TODO: fix regions
                        rootTypeNode = rootTypeNode.ReplaceNode(typeNode, newTypeNode /*.RemoveLeadingDirectives()*/);
                    }
                }
            }

            result.TransformedNode = rootTypeNode;

            return(result);
        }