C# (CSharp) DefaultCompletionContextProvider.AddSymbol Beispiele

Beispiel #1

Datei: AutoCompleteHandler.cs Projekt: xinjianlv/dotfiles

        public IEnumerable <CompletionData> CreateProvider(AutoCompleteRequest request)
        {
            request.Column = request.Column - request.WordToComplete.Length;
            var completionContext = new BufferContext(request, _parser);

            var partialWord = request.WordToComplete;

            var project = _solution.ProjectContainingFile(request.FileName);

            var contextProvider = new DefaultCompletionContextProvider(completionContext.Document, completionContext.ParsedContent.UnresolvedFile);

            if (project.CompilerSettings != null)
            {
                var conditionalSymbols = project.CompilerSettings.ConditionalSymbols;
                foreach (var symbol in conditionalSymbols)
                {
                    contextProvider.AddSymbol(symbol);
                }
            }

            var instantiating = IsInstantiating(completionContext.NodeCurrentlyUnderCursor);

            var engine = new CSharpCompletionEngine(completionContext.Document
                                                    , contextProvider
                                                    , new CompletionDataFactory(project
                                                                                , partialWord
                                                                                , instantiating
                                                                                , request
                                                                                , _config)
                                                    , completionContext.ParsedContent.ProjectContent
                                                    , completionContext.ResolveContext)
            {
                EolMarker = Environment.NewLine
            };

            engine.AutomaticallyAddImports = request.WantImportableTypes;
            _logger.Debug("Getting Completion Data");

            IEnumerable <CompletionData> data = engine.GetCompletionData(completionContext.CursorPosition, request.ForceSemanticCompletion.GetValueOrDefault(true)).Cast <CompletionData>();

            _logger.Debug("Got Completion Data");
            return(data.Where(d => d != null && d.CompletionText.IsValidCompletionFor(partialWord))
                   .FlattenOverloads()
                   .RemoveDupes()
                   .OrderByDescending(d => d.RequiredNamespaceImport != null ? 0 : 1)
                   .ThenByDescending(d => d.CompletionText.IsValidCompletionStartsWithExactCase(partialWord))
                   .ThenByDescending(d => d.CompletionText.IsValidCompletionStartsWithIgnoreCase(partialWord))
                   .ThenByDescending(d => d.CompletionText.IsCamelCaseMatch(partialWord))
                   .ThenByDescending(d => d.CompletionText.IsSubsequenceMatch(partialWord))
                   .ThenBy(d => d.CompletionText));
        }

Beispiel #2

Datei: CodeCompletionUtils.cs Projekt: uluhonolulu/QCCodingServices.NET

        // i'm not using this...
        public static CSharpCompletionEngine CreateEngine(string text, out int cursorPosition, params IUnresolvedAssembly[] references)
        {
            string parsedText;
            string editorText;

            cursorPosition = text.IndexOf('$');
            int endPos = text.IndexOf('$', cursorPosition + 1);

            if (endPos == -1)
            {
                if (cursorPosition < 0)
                {
                    parsedText = editorText = text;
                }
                else
                {
                    parsedText = editorText = text.Substring(0, cursorPosition) + text.Substring(cursorPosition + 1);
                }
            }
            else
            {
                parsedText     = text.Substring(0, cursorPosition) + new string(' ', endPos - cursorPosition) + text.Substring(endPos + 1);
                editorText     = text.Substring(0, cursorPosition) + text.Substring(cursorPosition + 1, endPos - cursorPosition - 1) + text.Substring(endPos + 1);
                cursorPosition = endPos - 1;
            }
            var doc = new ReadOnlyDocument(editorText);

            IProjectContent projContent = new CSharpProjectContent();
            var             refs        = new List <IUnresolvedAssembly> {
                mscorlib.Value, systemCore.Value, systemAssembly.Value, systemXmlLinq.Value
            };

            if (references != null)
            {
                refs.AddRange(references);
            }

            projContent = projContent.AddAssemblyReferences(refs);

            // Parse => SyntaxTree
            var syntaxTree = new CSharpParser().Parse(parsedText, "program.cs");

            syntaxTree.Freeze();

            var unresolvedFile = syntaxTree.ToTypeSystem();

            // Add CSharpUnresolvedFile to CSharpProjectContent
            projContent = projContent.AddOrUpdateFiles(unresolvedFile);

            // Create a TypeSystem.ICompilation that allows resolving within the project.
            var compilation        = projContent.CreateCompilation();
            var textCursorLocation = cursorPosition > 0 ? doc.GetLocation(cursorPosition) : new TextLocation(1, 1);


            #region Create and Refine the type resolution context as much as possible

            var typeResolveContext = new CSharpTypeResolveContext(compilation.MainAssembly);
            typeResolveContext = typeResolveContext.WithUsingScope(unresolvedFile.GetUsingScope(textCursorLocation).Resolve(compilation));

            var curDef = unresolvedFile.GetInnermostTypeDefinition(textCursorLocation);
            if (curDef != null)
            {
                var resolvedDef = curDef.Resolve(typeResolveContext).GetDefinition();
                typeResolveContext = typeResolveContext.WithCurrentTypeDefinition(resolvedDef);
                var curMember = resolvedDef.Members.FirstOrDefault(m => m.Region.Begin <= textCursorLocation && textCursorLocation < m.BodyRegion.End);
                if (curMember != null)
                {
                    typeResolveContext = typeResolveContext.WithCurrentMember(curMember);
                }
            }

            #endregion

            // Cool!  Marry the concept of content & typed
            var completionContext = new DefaultCompletionContextProvider(doc, unresolvedFile);
            #region Add Preprocessor Symbols
            completionContext.AddSymbol("TEST");
            foreach (var sym in syntaxTree.ConditionalSymbols)
            {
                completionContext.AddSymbol(sym);
            }
            #endregion
            var engine = new CSharpCompletionEngine(doc, completionContext, new TestCompletionDataFactory(new CSharpResolver(typeResolveContext)), projContent, typeResolveContext);

            engine.EolMarker        = Environment.NewLine;
            engine.FormattingPolicy = FormattingOptionsFactory.CreateMono();
            return(engine);
        }

Beispiel #3

Datei: NRefactoryUtils.cs Projekt: uluhonolulu/QCCodingServices.NET

        //// todo: eliminate this method later
        //private static void AugmentProjectModelWithAlgorithmBase(ProjectModel model)
        //{
        //    model.Children.Add(QcAlgorithmFileModel.Value);
        //}

        public static ProjectAnalysisResult RunFullProjectAnalysis(ProjectAnalysisRequest projectAnalysisRequest)
        {
            Stopwatch sw = Stopwatch.StartNew();

            ProjectAnalysisResult projectAnalysisResult = new ProjectAnalysisResult();
            ProjectModel          projectModel          = projectAnalysisRequest.ProjectModel;

            // todo: Ask Jared why QCAlgorithm is a partial class and why it's not included in "common"

#if false
            // ************************************************************************************
            // NOTE:  In order to get this project building cleanly, with minimal dependencies
            // before checking into Github, I've removed all hard QuantConnect dependencies,
            // including the QCAlgorithm.cs embedded resource and the assembly references to
            // QuantConnect.Algorithm.Interface

            // Augment the project model with the QCAgorithm base class
            // projectModel.Children.Add(QcAlgorithmFileModel.Value);

            // ************************************************************************************
#endif

            // Set up the project (if not already done)
            if (projectModel.ProjectContent == null)
            {
                projectModel.ProjectContent = new CSharpProjectContent();
                projectModel.ProjectContent = projectModel.ProjectContent.AddAssemblyReferences(QCReferences.Value);
            }

            // For each new file, we need to integrate it into the project content
            var fileModelsInProject = projectModel.GetFileDescendants().ToArray();
            foreach (var fileModelInProject in fileModelsInProject)
            {
                IntegrateFileModel(projectModel, fileModelInProject);
            }

            // We can return now if no code completion was requested
            if (projectAnalysisRequest.CodeCompletionParameters == null)
            {
                projectAnalysisResult.TimeElapsed = sw.Elapsed;
                return(projectAnalysisResult);
            }

            // Now it's time to give attention specifically to the matter of resolving the code completion
            // options.  This, of course, requires a deeper analysis of the specified file...

            var codeCompletionParams = projectAnalysisRequest.CodeCompletionParameters;

            // Locate the file in the project
            ProjectFileModel fileModel = projectModel.FindFile(codeCompletionParams.FileId);
            if (fileModel == null)
            {
                throw new Exception("Specified file does not exist in this project");
            }


            // Create a TypeSystem.ICompilation that allows resolving within the project.
            var compilation = projectModel.ProjectContent.CreateCompilation();

            #region Resolve text cursor/caret location

            // The text cursor position is crucial to creating a properly-scoped type resolution context
            // so as to get relevant code completion suggestions.
            int              textCursorOffset   = 0;
            TextLocation     textCursorLocation = new TextLocation(1, 1);
            ReadOnlyDocument doc = new ReadOnlyDocument(fileModel.Content);
            try
            {
                // if line and column aren't set, we'll assume that the cursor offset/index is set
                if (codeCompletionParams.Line == 0 && codeCompletionParams.Column == 0)
                {
                    textCursorOffset = codeCompletionParams.Offset;
                    if (textCursorOffset < 0)
                    {
                        textCursorOffset = 0;
                    }
                    textCursorLocation = doc.GetLocation(textCursorOffset);
                }
                // if either line or column are invalid (i.e. <= 0), then we'll use offset 0 instead
                else if (codeCompletionParams.Line <= 0 || codeCompletionParams.Column <= 0)
                {
                    textCursorOffset = 0;
                }
                else
                {
                    textCursorLocation          = new TextLocation(codeCompletionParams.Line, codeCompletionParams.Column);
                    textCursorOffset            = doc.GetOffset(textCursorLocation);
                    codeCompletionParams.Offset = textCursorOffset;
                }
            }
            catch (Exception)
            {
                textCursorOffset   = 0;
                textCursorLocation = new TextLocation(1, 1);
            }
            finally
            {
                projectAnalysisResult.Line   = textCursorLocation.Line;
                projectAnalysisResult.Column = textCursorLocation.Column;
                projectAnalysisResult.Offset = textCursorOffset;
            }

            #endregion

            #region Create and Refine the type resolution context as much as possible based upon the cursor position

            var typeResolveContext = new CSharpTypeResolveContext(compilation.MainAssembly);
            // Constrain the resolve context by using scope
            typeResolveContext = typeResolveContext
                                 .WithUsingScope(fileModel.UnresolvedFile.GetUsingScope(textCursorLocation)
                                                 .Resolve(compilation));

            var curDef = fileModel.UnresolvedFile.GetInnermostTypeDefinition(textCursorLocation);
            if (curDef != null)
            {
                var resolvedDef = curDef.Resolve(typeResolveContext).GetDefinition();
                typeResolveContext = typeResolveContext.WithCurrentTypeDefinition(resolvedDef);
                var curMember = resolvedDef.Members.FirstOrDefault(m => m.Region.Begin <= textCursorLocation && textCursorLocation < m.BodyRegion.End);
                if (curMember != null)
                {
                    typeResolveContext = typeResolveContext.WithCurrentMember(curMember);
                }
            }

            #endregion

            // The purpose of the rest of these steps is a little fuzzy in my mind...
            // I'm still trying to understand them fully and if/why they're all needed.
            // It seems there is some redundancy here...

            var completionContext = new DefaultCompletionContextProvider(doc, fileModel.UnresolvedFile);

            #region Add Preprocessor Symbols??
            completionContext.AddSymbol("TEST");
            foreach (var sym in fileModel.SyntaxTree.ConditionalSymbols)
            {
                completionContext.AddSymbol(sym);
            }
            #endregion

            var completionDataFactory = new CodeCompletionDataFactory(new CSharpResolver(typeResolveContext));

            var completionEngine = new CSharpCompletionEngine(doc, completionContext, completionDataFactory, projectModel.ProjectContent, typeResolveContext);
            completionEngine.EolMarker        = Environment.NewLine;
            completionEngine.FormattingPolicy = FormattingOptionsFactory.CreateMono();
            projectModel.CompletionEngine     = completionEngine;

            // Attach contextual info to analysis result
            GetDocumentContext(projectAnalysisResult, textCursorOffset, doc);

            // Finally, generate completion data!
            var completionOptions = completionEngine.GetCompletionData(textCursorOffset, projectAnalysisRequest.CodeCompletionParameters.CtrlSpace).ToArray();

            projectAnalysisResult.CompletionOptions       = completionOptions.OrderBy(x => x.CompletionText).ToArray();
            projectAnalysisResult.AutoCompleteEmptyMatch  = completionEngine.AutoCompleteEmptyMatch;
            projectAnalysisResult.AutoSelect              = completionEngine.AutoSelect;
            projectAnalysisResult.DefaultCompletionString = completionEngine.DefaultCompletionString;

            int startPos, wordLength;
            if (completionEngine.TryGetCompletionWord(textCursorOffset, out startPos, out wordLength))
            {
                //Debug.WriteLine("TryGetCompletionWord :: startpos:{0}  wordlength:{1}", startPos, wordLength);
                string completionWord = projectAnalysisResult.CompletionWord = doc.GetText(startPos, wordLength);

                if (!string.IsNullOrWhiteSpace(completionWord))
                {
                    var bestMatch = projectAnalysisResult.CompletionOptions
                                    .FirstOrDefault(x => x.CompletionText.CompareTo(completionWord) >= 0);
                    projectAnalysisResult.BestMatchToCompletionWord = bestMatch;
                    //if (bestMatch != null)
                    //projectAnalysisResult.BestMatchToCompletionWord = bestMatch.CompletionText;
                }
            }

            projectAnalysisResult.TimeElapsed = sw.Elapsed;

            return(projectAnalysisResult);
        }

Beispiel #4

        public static ProjectAnalysisResult RunFullProjectAnalysis(ProjectAnalysisRequest projectAnalysisRequest) // ProjectModel projectModel, int fileId, int line, int column)
        {
            Stopwatch sw = Stopwatch.StartNew();

            ProjectAnalysisResult projectAnalysisResult = new ProjectAnalysisResult();
            ProjectModel          projectModel          = projectAnalysisRequest.ProjectModel;


            // Set up the project (if not already done)
            if (projectModel.ProjectContent == null)
            {
                projectModel.ProjectContent = new CSharpProjectContent();
                projectModel.ProjectContent = projectModel.ProjectContent.AddAssemblyReferences(QCReferences.Value);
            }

            // For each new file, we need to integrate it into the project content
            var fileModelsInProject = projectModel.GetFileDescendants().ToArray();

            foreach (var fileModelInProject in fileModelsInProject)
            {
                IntegrateFileModel(projectModel, fileModelInProject);
            }

            // We can return now if no code completion was requested
            if (projectAnalysisRequest.CodeCompletionParameters == null)
            {
                projectAnalysisResult.TimeElapsed = sw.Elapsed;
                return(projectAnalysisResult);
            }

            // Now it's time to give attention specifically to the matter of resolving the code completion
            // options.  This, of course, requires a deeper analysis of the specified file...

            var codeCompletionParams = projectAnalysisRequest.CodeCompletionParameters;

            // Locate the file in the project
            ProjectFileModel fileModel = projectModel.FindFile(codeCompletionParams.FileId);

            if (fileModel == null)
            {
                throw new Exception("Specified file does not exist in this project");
            }


            // Create a TypeSystem.ICompilation that allows resolving within the project.
            var compilation = projectModel.ProjectContent.CreateCompilation();

            #region Resolve text cursor/caret location

            // The text cursor position is crucial to creating a properly-scoped type resolution context
            // so as to get relevant code completion suggestions.
            int              textCursorOffset;
            TextLocation     textCursorLocation;
            ReadOnlyDocument doc = new ReadOnlyDocument(fileModel.Content);
            if (codeCompletionParams.Line == 0 && codeCompletionParams.Column == 0)
            {
                textCursorOffset            = codeCompletionParams.Offset;
                textCursorLocation          = doc.GetLocation(textCursorOffset);
                codeCompletionParams.Line   = textCursorLocation.Line;
                codeCompletionParams.Column = textCursorLocation.Column;
            }
            else
            {
                textCursorLocation          = new TextLocation(codeCompletionParams.Line, codeCompletionParams.Column);
                textCursorOffset            = doc.GetOffset(textCursorLocation);
                codeCompletionParams.Offset = textCursorOffset;
            }

            #endregion

            #region Create and Refine the type resolution context as much as possible based upon the cursor position

            var typeResolveContext = new CSharpTypeResolveContext(compilation.MainAssembly);
            // Constrain the resolve context by using scope
            typeResolveContext = typeResolveContext
                                 .WithUsingScope(fileModel.UnresolvedFile.GetUsingScope(textCursorLocation)
                                                 .Resolve(compilation));

            var curDef = fileModel.UnresolvedFile.GetInnermostTypeDefinition(textCursorLocation);
            if (curDef != null)
            {
                var resolvedDef = curDef.Resolve(typeResolveContext).GetDefinition();
                typeResolveContext = typeResolveContext.WithCurrentTypeDefinition(resolvedDef);
                var curMember = resolvedDef.Members.FirstOrDefault(m => m.Region.Begin <= textCursorLocation && textCursorLocation < m.BodyRegion.End);
                if (curMember != null)
                {
                    typeResolveContext = typeResolveContext.WithCurrentMember(curMember);
                }
            }

            #endregion

            // The purpose of the rest of these steps is a little fuzzy in my mind...
            // I'm still trying to understand them fully and if/why they're all needed.
            // It seems there is some redundancy here...

            var completionContext = new DefaultCompletionContextProvider(doc, fileModel.UnresolvedFile);

            #region Add Preprocessor Symbols??
            completionContext.AddSymbol("TEST");
            foreach (var sym in fileModel.SyntaxTree.ConditionalSymbols)
            {
                completionContext.AddSymbol(sym);
            }
            #endregion

            var completionDataFactory = new TestCompletionDataFactory(new CSharpResolver(typeResolveContext));

            var completionEngine = new CSharpCompletionEngine(doc, completionContext, completionDataFactory, projectModel.ProjectContent, typeResolveContext);
            completionEngine.EolMarker        = Environment.NewLine;
            completionEngine.FormattingPolicy = FormattingOptionsFactory.CreateMono();
            projectModel.CompletionEngine     = completionEngine;

            #region Debugging Aid
            // Resolve content around text cursor
            int numberOfCharactersAroundCursorToResolve = 20;
            int firstCharOffset = textCursorOffset - numberOfCharactersAroundCursorToResolve / 2;
            if (firstCharOffset < 0)
            {
                firstCharOffset = 0;
            }
            if (doc.TextLength < firstCharOffset + numberOfCharactersAroundCursorToResolve)
            {
                numberOfCharactersAroundCursorToResolve = doc.TextLength - firstCharOffset;
            }
            string surroundingText = doc.GetText(firstCharOffset, numberOfCharactersAroundCursorToResolve);
            Debug.WriteLine("Text around cursor: [{0}]", surroundingText);
            #endregion

            // Finally, generate completion data!
            var completionOptions = completionEngine.GetCompletionData(textCursorOffset, projectAnalysisRequest.CodeCompletionParameters.CtrlSpace).ToArray();
            projectAnalysisResult.CompletionOptions       = completionEngine.GetCompletionData(textCursorOffset, projectAnalysisRequest.CodeCompletionParameters.CtrlSpace).ToArray();
            projectAnalysisResult.AutoCompleteEmptyMatch  = completionEngine.AutoCompleteEmptyMatch;
            projectAnalysisResult.AutoSelect              = completionEngine.AutoSelect;
            projectAnalysisResult.DefaultCompletionString = completionEngine.DefaultCompletionString;

            int startPos, wordLength;
            if (completionEngine.TryGetCompletionWord(textCursorOffset, out startPos, out wordLength))
            {
                Debug.WriteLine("TryGetCompletionWord :: startpos:{0}  wordlength:{1}", startPos, wordLength);
                projectAnalysisResult.CompletionWord = doc.GetText(startPos, wordLength);
            }

            projectAnalysisResult.TimeElapsed = sw.Elapsed;

            return(projectAnalysisResult);
        }