Ejemplo n.º 1
0
        public static DocumentationParsingResults ParseDocumentation(CSharpSyntaxNode member)
        {
            DocumentationParsingResults results = new DocumentationParsingResults();

            results.MethodDocumentation.ParameterDescriptions = new SortedList <string, string>();
            if (member.HasLeadingTrivia)
            {
                try
                {
                    var trivia = member.GetLeadingTrivia().Single(t =>
                                                                  t.Kind() == SyntaxKind.SingleLineDocumentationCommentTrivia || t.Kind() == SyntaxKind.MultiLineCommentTrivia);

                    // Convert the trivia to a string, and strip out the tabs and ///
                    string rawTrivia = Regex.Replace(trivia.ToString(), @"^\s+\/\/\/", "", RegexOptions.Multiline);
                    // Strip <see> tags from the text, but leave in place the referenced function or type
                    // i.e. <see cref="DownloadWaveform(NIRfsg, Waveform)"/> becomes DownloadWaveform
                    rawTrivia = Regex.Replace(rawTrivia, @"<see cref=""([\w\.]+)(?:\(.*\))?""\/>", "$1", RegexOptions.Multiline);
                    // Strip <paramRef> tags from the text, leaving in place the referenced parameter name
                    rawTrivia = Regex.Replace(rawTrivia, @"<paramref name=""(\w+)""\/>", "$1", RegexOptions.Multiline);
                    // Clear <para> tags
                    rawTrivia = Regex.Replace(rawTrivia, @"<\/*para>", "", RegexOptions.Multiline);

                    // The XML structure of the documentation is "rootless", so adding simple root node avoids parser errors
                    rawTrivia = "<root>" + rawTrivia + "</root>";
                    // Parse the documentation XML
                    XElement documentation = XElement.Parse(rawTrivia);

                    // Get the summary element which contains the description for the function, parameter, or type
                    string memberDescription = documentation.Element("summary").Value;
                    // Remove newlines from the description
                    memberDescription         = Regex.Replace(memberDescription, "[\n\r]", "");
                    results.MemberDescription = memberDescription;

                    try
                    {
                        string returnValue = documentation.Element("returns").Value;
                        // Remove newlines from the description
                        returnValue = Regex.Replace(returnValue, "[\n\r]", "");
                        results.MethodDocumentation.ReturnValueDescription = returnValue;
                    }
                    catch (System.NullReferenceException) { }

                    List <XElement> parameters = documentation.Elements("param").ToList();
                    foreach (XElement param in parameters)
                    {
                        string parameterName        = param.Attribute("name").Value;
                        string parameterDescription = param.Value;
                        // Remove newlines from the description
                        parameterDescription = Regex.Replace(parameterDescription, "[\n\r]", "");
                        results.MethodDocumentation.ParameterDescriptions.Add(parameterName, parameterDescription);
                    }
                }
                // If no leading syntax is found, we catch the exception here and will return an empty struct
                catch (System.InvalidOperationException) { }
            }
            return(results);
        }
Ejemplo n.º 2
0
        static void ParseMembers(SyntaxList <MemberDeclarationSyntax> members, XmlWriter xmlWriter, Options o)
        {
            // These sorted lists are utilized so that we can drill into the code in the order it is presented,
            // while also creating the sorted list that we want to export at the same time. We cannot merely
            // sort the items beforehand because we need to sort by item name, but do not have access to the
            // name beforehand until we determine the type of object.

            // We add specific data to the value attribute of the sorted list, while using the item name
            // as the key so that they are sorted properly.
            SortedList <string, MemberData> membersList = new SortedList <string, MemberData>();
            SortedList <string, string>     paramList;
            MemberData memData;

            foreach (MemberDeclarationSyntax member in members)
            {
                paramList = new SortedList <string, string>();
                DocumentationParsingResults memberDocumentation = ParseDocumentation(member);
                switch (member.Kind())
                {
                case SyntaxKind.MethodDeclaration:
                    MethodDeclarationSyntax method = (MethodDeclarationSyntax)member;
                    // Get the return data type
                    TypeSyntax returnType = method.ReturnType;
                    if (returnType.ToString().ToLower() != "void")
                    {
                        paramList.Add("ReturnValue;Type=" + returnType.ToString(), memberDocumentation.MethodDocumentation.ReturnValueDescription);
                    }
                    // Get all input and output parameters
                    foreach (ParameterSyntax param in method.ParameterList.Parameters)
                    {
                        string parameterName = param.Identifier.ToString();
                        memberDocumentation.MethodDocumentation.ParameterDescriptions.TryGetValue(parameterName, out string parameterDescription);
                        paramList.Add(param.Identifier.ToString(), parameterDescription);
                    }
                    memData = new MemberData {
                        MemberType = MemberTypes.Method, Description = memberDocumentation.MemberDescription, paramList = paramList
                    };
                    membersList.Add(method.Identifier.ToString(), memData);
                    break;

                case SyntaxKind.StructDeclaration:
                    StructDeclarationSyntax myStruct = (StructDeclarationSyntax)member;
                    // Get all members of the struct
                    foreach (MemberDeclarationSyntax structMem in myStruct.Members)
                    {
                        // Some structs have methods defined for them as well
                        if (structMem.Kind() == SyntaxKind.FieldDeclaration)
                        {
                            FieldDeclarationSyntax      param    = (FieldDeclarationSyntax)structMem;
                            DocumentationParsingResults paramDoc = ParseDocumentation(param);
                            for (int i = 0; i < param.Declaration.Variables.Count; i++)
                            {
                                var variableDeclaration = param.Declaration.Variables[i];
                                paramList.Add(variableDeclaration.Identifier.ToString(), paramDoc.MemberDescription);
                            }
                        }
                    }
                    memData = new MemberData {
                        MemberType = MemberTypes.Type, Description = memberDocumentation.MemberDescription, paramList = paramList
                    };
                    membersList.Add(myStruct.Identifier.ToString(), memData);
                    break;

                case SyntaxKind.EnumDeclaration:
                    // A few enums are defined in the class modules
                    EnumDeclarationSyntax myEnum = (EnumDeclarationSyntax)member;
                    memData = new MemberData {
                        MemberType = MemberTypes.Type, Description = memberDocumentation.MemberDescription, paramList = paramList
                    };
                    membersList.Add(myEnum.Identifier.ToString(), memData);
                    break;

                case SyntaxKind.ClassDeclaration:
                    // Recursively parse any sub-classes that are found
                    ClassDeclarationSyntax subClass = (ClassDeclarationSyntax)member;
                    xmlWriter.WriteStartElement("Class");
                    xmlWriter.WriteAttributeString("Name", subClass.Identifier.ToString());
                    DocumentationParsingResults classDoc = ParseDocumentation(subClass);
                    if (o.ListDescriptions)
                    {
                        xmlWriter.WriteElementString("Description", classDoc.MemberDescription);
                    }
                    ParseMembers(subClass.Members, xmlWriter, o);
                    xmlWriter.WriteEndElement();
                    break;

                case SyntaxKind.NamespaceDeclaration:
                    // Recurse through the namespace and new members
                    ParseNamespace(member, xmlWriter, o);
                    break;

                default:
                    break;
                }
            }
            if (membersList.Count > 0)
            {
                // Now, write all the data we have gathered for this class that has been sorted to the file
                for (int i = 0; i < 2; i++)
                {
                    if (i == 0)
                    {
                        xmlWriter.WriteStartElement("Methods");
                    }
                    else
                    {
                        xmlWriter.WriteStartElement("Types");
                    }
                    foreach (KeyValuePair <string, MemberData> pair in membersList)
                    {
                        if ((i == 0 && pair.Value.MemberType == MemberTypes.Method) ||
                            (i == 1 && pair.Value.MemberType == MemberTypes.Type))
                        {
                            xmlWriter.WriteStartElement(pair.Value.MemberType.ToString());
                            xmlWriter.WriteAttributeString("Name", pair.Key);
                            if (o.ListDescriptions)
                            {
                                xmlWriter.WriteElementString("Description", pair.Value.Description);
                            }
                            if (o.ListParameters)
                            {
                                xmlWriter.WriteStartElement("Parameters");
                                foreach (KeyValuePair <string, string> paramPair in pair.Value.paramList)
                                {
                                    xmlWriter.WriteStartElement("Parameter");
                                    xmlWriter.WriteAttributeString("Name", paramPair.Key);
                                    if (o.ListDescriptions)
                                    {
                                        xmlWriter.WriteElementString("Description", paramPair.Value);
                                    }
                                    xmlWriter.WriteEndElement();
                                    //xmlWriter.WriteElementString(paramPair.Value, paramPair.Key);
                                }
                                xmlWriter.WriteEndElement();
                            }
                            xmlWriter.WriteEndElement();
                        }
                    }
                    xmlWriter.WriteEndElement();
                }
            }
        }