/// <summary> /// /// </summary> /// <param name="source"></param> /// <returns></returns> public CodeCompileUnit Parse(string source) { XCodeCompileUnit ccu = new XCodeCompileUnit(); // try { var reporter = new ErrorIgnorer(); ITokenStream tokenStream; LanguageService.CodeAnalysis.XSharp.SyntaxParser.XSharpParserRuleContext xtree; bool ok = XSharp.Parser.VsParser.Parse(source, this.FileName, _projectNode.ParseOptions, reporter, out tokenStream, out xtree, out _); // We need to d 2 steps here: // 1 - Scan for the fields , so we know the difference between fields and properties when we perform step 2 // 2 - Scan for the rest. We pass the list of fields to the tree discover code so it "knows" about all fields var discoverFields = new XSharpFieldsDiscover(_projectNode, typeInMainFile); discoverFields.SourceCode = source; discoverFields.CurrentFile = this.FileName; var walker = new LanguageService.SyntaxTree.Tree.ParseTreeWalker(); walker.Walk(discoverFields, xtree); // now the discoverFields class should contain a Dictionary with <context, FieldList> var discover = new XSharpClassDiscover(_projectNode, typeInMainFile); discover.FieldList = discoverFields.FieldList; discover.SourceCode = source; discover.CurrentFile = this.FileName; // walker.Walk(discover, xtree); // ccu = discover.CodeCompileUnit; var firstType = ccu.GetFirstClass(); if (firstType != null) { // save a copy of the member list to the CCU ccu.Members = firstType.Members; } // save file name & original source ccu.FileName = this.FileName; ccu.Source = source; } catch (Exception ex) { if (System.Diagnostics.Debugger.IsAttached) { Debug.WriteLine(ex.Message + Environment.NewLine + ex.StackTrace); } } // return(ccu); }
/// <summary> /// /// </summary> /// <param name="source"></param> /// <returns></returns> public CodeCompileUnit Parse(string source) { XCodeCompileUnit ccu = new XCodeCompileUnit(); // try { // Tab replace, in order to have the good position of Members (Line/col) String TabSpace = new String(' ', TabSize); source = source.Replace("\t", TabSpace); // var reporter = new ErrorIgnorer(); ITokenStream tokenStream; LanguageService.CodeAnalysis.XSharp.SyntaxParser.XSharpParserRuleContext xtree; bool ok = XSharp.Parser.VsParser.Parse(source, this.FileName, _projectNode.ParseOptions, reporter, out tokenStream, out xtree); // We need to d 2 steps here: // 1 - Scan for the fields , so we know the difference between fields and properties when we perform step 2 // 2 - Scan for the rest. We pass the list of fields to the tree discover code so it "knows" about all fields var discoverFields = new XSharpFieldsDiscover(_projectNode); discoverFields.SourceCode = source; discoverFields.CurrentFile = this.FileName; var walker = new LanguageService.SyntaxTree.Tree.ParseTreeWalker(); walker.Walk(discoverFields, xtree); // now the discoverFields class should contain a Dictionary with <context, FieldList> var discover = new XSharpClassDiscover(_projectNode); discover.FieldList = discoverFields.FieldList; discover.SourceCode = source; discover.CurrentFile = this.FileName; // walker.Walk(discover, xtree); // ccu = discover.CodeCompileUnit; ccu.UserData[XSharpCodeConstants.USERDATA_FILENAME] = this.FileName; ccu.UserData[XSharpCodeConstants.USERDATA_CODE] = source; } catch (Exception ex) { if (System.Diagnostics.Debugger.IsAttached) { Debug.WriteLine(ex.Message + Environment.NewLine + ex.StackTrace); } } // return(ccu); }