/* ----------------------------------------------------------------------------- * This file is part of SWIG, which is licensed as a whole under version 3 * (or any later version) of the GNU General Public License. Some additional * terms also apply to certain portions of SWIG. The full details of the SWIG * license and copyrights can be found in the LICENSE and COPYRIGHT files * included with the SWIG source code as distributed by the SWIG developers * and at http://www.swig.org/legal.html. * * csharpdoc.cxx * * Module to return documentation for nodes formatted for CSharpDoc * ----------------------------------------------------------------------------- */ #include "csharpdoc.h" #include "doxyparser.h" #include #include #include #include #include "swigmod.h" // define static tables, they are filled in CSharpDocConverter's constructor CSharpDocConverter::TagHandlersMap CSharpDocConverter::tagHandlers; using std::string; // Helper class increasing the provided indent string in its ctor and decreasing // it in its dtor. class IndentGuard { public: // One indent level. static const char *Level() { return " "; } // Default ctor doesn't do anything and prevents the dtor from doing anything// too and should only be used when the guard needs to be initialized// conditionally as Init() can then be called after checking some condition.// Otherwise, prefer to use the non default ctor below. IndentGuard() { m_initialized = false; } // Ctor takes the output to determine the current indent and to remove the // extra indent added to it in the dtor and the variable containing the indent // to use, which must be used after every new line by the code actually // updating the output. IndentGuard(string &output, string &indent) { Init(output, indent); } // Really initializes the object created using the default ctor. void Init(string &output, string &indent) { m_output = &output; m_indent = &indent; const string::size_type lastNonSpace = m_output->find_last_not_of(' '); if (lastNonSpace == string::npos) { m_firstLineIndent = m_output->length(); } else if ((*m_output)[lastNonSpace] == '\n') { m_firstLineIndent = m_output->length() - (lastNonSpace + 1); } else { m_firstLineIndent = 0; } // Notice that the indent doesn't include the first line indent because it's // implicit, i.e. it is present in the input and so is copied into the // output anyhow. *m_indent = Level(); m_initialized = true; } // Get the indent for the first line of the paragraph, which is smaller than // the indent for the subsequent lines. string getFirstLineIndent() const { return string(m_firstLineIndent, ' '); } ~IndentGuard() { if (!m_initialized) return; m_indent->clear(); // Get rid of possible remaining extra indent, e.g. if there were any trailing // new lines: we shouldn't add the extra indent level to whatever follows // this paragraph. static const size_t lenIndentLevel = strlen(Level()); if (m_output->length() > lenIndentLevel) { const size_t start = m_output->length() - lenIndentLevel; if (m_output->compare(start, string::npos, Level()) == 0) m_output->erase(start); } } private: string *m_output; string *m_indent; string::size_type m_firstLineIndent; bool m_initialized; IndentGuard(const IndentGuard &); }; static void replaceAll(std::string &src, const std::string &token, const std::string &replace) { std::string::size_type pos = src.find(token); while (pos != std::string::npos) { src.replace(pos, token.size(), replace); pos = src.find(token, pos + replace.size()); } } static void trimWhitespace(string &s) { const string::size_type lastNonSpace = s.find_last_not_of(' '); if (lastNonSpace == string::npos) s.clear(); else s.erase(lastNonSpace + 1); } // Erase the first character in the string if it is a newline static void eraseLeadingNewLine(string &s) { if (!s.empty() && s[0] == '\n') s.erase(s.begin()); } // Erase the first character in the string if it is a newline static void eraseAllNewLine(string &str) { for (size_t i = 0; i < str.size(); i++) { // if the character is a newline character if (str[i] == '\n') { // remove the character str.erase(i, 1); // decrement the index to account for the removed character i--; } } } // Erase last characters in the string if it is a newline or a space static void eraseTrailingSpaceNewLines(string &s) { while (!s.empty() && (s[s.size() - 1] == '\n' || s[s.size() - 1] == ' ')) s.erase(s.size() - 1); } // escape some characters which cannot appear as it in C# comments static void escapeSpecificCharacters(string &str) { for (size_t i = 0; i < str.size(); i++) { if (str[i] == '<') { str.replace(i, 1, "<"); } else if (str[i] == '>') { str.replace(i, 1, ">"); } else if (str[i] == '&') { str.replace(i, 1, "&"); } } } // Check the generated docstring line by line and make sure that any // code and verbatim blocks have an empty line preceding them, which // is necessary for Sphinx. Additionally, this strips any empty lines // appearing at the beginning of the docstring. static string padCodeAndVerbatimBlocks(const string &docString) { std::string result; std::istringstream iss(docString); // Initialize to false because there is no previous line yet bool lastLineWasNonBlank = false; for (string line; std::getline(iss, line); result += line) { if (!result.empty()) { // Terminate the previous line result += '\n'; } const size_t pos = line.find_first_not_of(" \t"); if (pos == string::npos) { lastLineWasNonBlank = false; } else { if (lastLineWasNonBlank && (line.compare(pos, 13, ".. code-block") == 0 || line.compare(pos, 7, ".. math") == 0 || line.compare(pos, 3, ">>>") == 0)) { // Must separate code or math blocks from the previous line result += '\n'; } lastLineWasNonBlank = true; } } return result; } /* static */ CSharpDocConverter::TagHandlersMap::mapped_type CSharpDocConverter::make_handler(tagHandler handler) { return make_pair(handler, std::string()); } /* static */ CSharpDocConverter::TagHandlersMap::mapped_type CSharpDocConverter::make_handler(tagHandler handler, const char *arg) { return make_pair(handler, arg); } void CSharpDocConverter::fillStaticTables() { if (tagHandlers.size()) // fill only once return; tagHandlers["a"] = make_handler(&CSharpDocConverter::handleTagWrap, "*"); tagHandlers["b"] = make_handler(&CSharpDocConverter::handleTagWrap, "**"); // \c command is translated as single quotes around next word tagHandlers["c"] = make_handler(&CSharpDocConverter::handleTagWrap, "``"); tagHandlers["cite"] = make_handler(&CSharpDocConverter::handleTagWrap, "'"); tagHandlers["e"] = make_handler(&CSharpDocConverter::handleTagWrap, "*"); // these commands insert just a single char, some of them need to be escaped tagHandlers["$"] = make_handler(&CSharpDocConverter::handleTagChar); tagHandlers["@"] = make_handler(&CSharpDocConverter::handleTagChar); tagHandlers["\\"] = make_handler(&CSharpDocConverter::handleTagChar); tagHandlers["<"] = make_handler(&CSharpDocConverter::handleTagCharReplace, "<"); tagHandlers[">"] = make_handler(&CSharpDocConverter::handleTagCharReplace, ">"); tagHandlers["&"] = make_handler(&CSharpDocConverter::handleTagCharReplace, "&"); tagHandlers["#"] = make_handler(&CSharpDocConverter::handleTagChar); tagHandlers["%"] = make_handler(&CSharpDocConverter::handleTagChar); tagHandlers["~"] = make_handler(&CSharpDocConverter::handleTagChar); tagHandlers["\""] = make_handler(&CSharpDocConverter::handleTagChar); tagHandlers["."] = make_handler(&CSharpDocConverter::handleTagChar); tagHandlers["::"] = make_handler(&CSharpDocConverter::handleTagChar); // these commands are stripped out, and only their content is printed tagHandlers["attention"] = make_handler(&CSharpDocConverter::handleParagraph, "remarks"); tagHandlers["author"] = make_handler(&CSharpDocConverter::handleTagWord, "Author"); tagHandlers["authors"] = make_handler(&CSharpDocConverter::handleTagWord, "Author"); tagHandlers["brief"] = make_handler(&CSharpDocConverter::handleSummary); tagHandlers["bug"] = make_handler(&CSharpDocConverter::handleTagWord, "Bug:"); tagHandlers["code"] = make_handler(&CSharpDocConverter::handleCode); tagHandlers["copyright"] = make_handler(&CSharpDocConverter::handleParagraph, "remarks"); tagHandlers["date"] = make_handler(&CSharpDocConverter::handleTagWord, "Date"); tagHandlers["deprecated"] = make_handler(&CSharpDocConverter::handleTagWord, "Deprecated"); tagHandlers["details"] = make_handler(&CSharpDocConverter::handleParagraph, "remarks"); tagHandlers["em"] = make_handler(&CSharpDocConverter::handleTagWrap, "*"); tagHandlers["example"] = make_handler(&CSharpDocConverter::handleTagWord, "Example"); tagHandlers["exception"] = tagHandlers["throw"] = tagHandlers["throws"] = make_handler(&CSharpDocConverter::handleTagException); tagHandlers["htmlonly"] = make_handler(&CSharpDocConverter::handleNotHandled); tagHandlers["invariant"] = make_handler(&CSharpDocConverter::handleNotHandled); tagHandlers["latexonly"] = make_handler(&CSharpDocConverter::handleNotHandled); tagHandlers["link"] = make_handler(&CSharpDocConverter::handleNotHandled); tagHandlers["manonly"] = make_handler(&CSharpDocConverter::handleNotHandled); tagHandlers["note"] = make_handler(&CSharpDocConverter::handleNotHandled); tagHandlers["p"] = make_handler(&CSharpDocConverter::handleTagWrap, "``"); tagHandlers["partofdescription"] = make_handler(&CSharpDocConverter::handleNotHandled); tagHandlers["rtfonly"] = make_handler(&CSharpDocConverter::handleNotHandled); tagHandlers["remark"] = make_handler(&CSharpDocConverter::handleParagraph, "remarks"); tagHandlers["remarks"] = make_handler(&CSharpDocConverter::handleParagraph, "remarks"); tagHandlers["sa"] = make_handler(&CSharpDocConverter::handleTagSee); tagHandlers["see"] = make_handler(&CSharpDocConverter::handleTagSee); tagHandlers["since"] = make_handler(&CSharpDocConverter::handleNotHandled); tagHandlers["short"] = make_handler(&CSharpDocConverter::handleNotHandled); tagHandlers["todo"] = make_handler(&CSharpDocConverter::handleTagWord, "TODO"); tagHandlers["version"] = make_handler(&CSharpDocConverter::handleTagWord, "Version"); tagHandlers["verbatim"] = make_handler(&CSharpDocConverter::handleVerbatimBlock); tagHandlers["warning"] = make_handler(&CSharpDocConverter::handleLine, "remarks"); tagHandlers["xmlonly"] = make_handler(&CSharpDocConverter::handleNotHandled); // these commands have special handlers tagHandlers["arg"] = make_handler(&CSharpDocConverter::handleAddList); tagHandlers["cond"] = make_handler(&CSharpDocConverter::handleIgnore); tagHandlers["else"] = make_handler(&CSharpDocConverter::handleIgnore); tagHandlers["elseif"] = make_handler(&CSharpDocConverter::handleIgnore); tagHandlers["endcond"] = make_handler(&CSharpDocConverter::handleIgnore); tagHandlers["if"] = make_handler(&CSharpDocConverter::handleIgnore); tagHandlers["ifnot"] = make_handler(&CSharpDocConverter::handleIgnore); tagHandlers["image"] = make_handler(&CSharpDocConverter::handleIgnore); tagHandlers["li"] = make_handler(&CSharpDocConverter::handleIgnore); tagHandlers["overload"] = make_handler(&CSharpDocConverter::handleIgnore); tagHandlers["par"] = make_handler(&CSharpDocConverter::handleTagWord, "Title"); tagHandlers["param"] = tagHandlers["tparam"] = make_handler(&CSharpDocConverter::handleTagParam); tagHandlers["ref"] = make_handler(&CSharpDocConverter::handleTagRef); tagHandlers["result"] = tagHandlers["return"] = tagHandlers["returns"] = make_handler(&CSharpDocConverter::handleTagReturn); // this command just prints its contents // (it is internal command of swig's parser, contains plain text) tagHandlers["plainstd::string"] = make_handler(&CSharpDocConverter::handlePlainString); tagHandlers["plainstd::endl"] = make_handler(&CSharpDocConverter::handleNewLine); tagHandlers["n"] = make_handler(&CSharpDocConverter::handleNewLine); // \f commands output literal Latex formula, which is still better than nothing. tagHandlers["f$"] = tagHandlers["f["] = tagHandlers["f{"] = make_handler(&CSharpDocConverter::handleMath); // HTML tags tagHandlers[""); tagHandlers["&"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "&"); tagHandlers["&apos"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "'"); tagHandlers["""] = make_handler(&CSharpDocConverter::handleHtmlEntity, "\""); tagHandlers["&lsquo"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "`"); tagHandlers["&rsquo"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "'"); tagHandlers["&ldquo"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "\""); tagHandlers["&rdquo"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "\""); tagHandlers["&ndash"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "-"); tagHandlers["&mdash"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "--"); tagHandlers[" "] = make_handler(&CSharpDocConverter::handleHtmlEntity, " "); tagHandlers["×"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "x"); tagHandlers["&minus"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "-"); tagHandlers["&sdot"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "."); tagHandlers["&sim"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "~"); tagHandlers["&le"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "<="); tagHandlers["&ge"] = make_handler(&CSharpDocConverter::handleHtmlEntity, ">="); tagHandlers["&larr"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "<--"); tagHandlers["&rarr"] = make_handler(&CSharpDocConverter::handleHtmlEntity, "-->"); } CSharpDocConverter::CSharpDocConverter(int flags): DoxygenTranslator(flags), m_tableLineLen(0), m_prevRowIsTH(false) { fillStaticTables(); } // Return the type as it should appear in the output documentation. static std::string getCSharpDocType(Node *n, const_String_or_char_ptr lname = "") { std::string type; String *s = Swig_typemap_lookup("doctype", n, lname, 0); if (!s) { if (String *t = Getattr(n, "type")) s = SwigType_str(t, ""); } ///////////////// if (!s) return type; type = Char(s); Delete(s); return type; } std::string CSharpDocConverter::getParamType(std::string param) { std::string type; ParmList *plist = CopyParmList(Getattr(currentNode, "parms")); for (Parm *p = plist; p; p = nextSibling(p)) { String *pname = Getattr(p, "name"); if (pname && Char(pname) == param) { type = getCSharpDocType(p, pname); break; } } Delete(plist); return type; } std::string CSharpDocConverter::getParamValue(std::string param) { std::string value; ParmList *plist = CopyParmList(Getattr(currentNode, "parms")); for (Parm *p = plist; p; p = nextSibling(p)) { String *pname = Getattr(p, "name"); if (pname && Char(pname) == param) { String *pval = Getattr(p, "value"); if (pval) value = Char(pval); break; } } Delete(plist); return value; } /** * Returns true, if the given parameter exists in the current node * (for example param is a name of function parameter). If feature * 'doxygen:nostripparams' is set, then this method always returns * true - parameters are copied to output regardless of presence in * function params list. */ bool CSharpDocConverter::paramExists(std::string param) { if (GetFlag(currentNode, "feature:doxygen:nostripparams")) { return true; } ParmList *plist = CopyParmList(Getattr(currentNode, "parms")); for (Parm *p = plist; p;) { if (Getattr(p, "name") && Char(Getattr(p, "name")) == param) { return true; } /* doesn't seem to work always: in some cases (especially for 'self' parameters) * tmap:in is present, but tmap:in:next is not and so this code skips all the parameters */ //p = Getattr(p, "tmap:in") ? Getattr(p, "tmap:in:next") : nextSibling(p); p = nextSibling(p); } Delete(plist); return false; } std::string CSharpDocConverter::translateSubtree(DoxygenEntity &doxygenEntity) { std::string translatedComment; if (doxygenEntity.isLeaf) return translatedComment; std::string currentSection; std::list::iterator p = doxygenEntity.entityList.begin(); while (p != doxygenEntity.entityList.end()) { translateEntity(*p, translatedComment); translateSubtree(*p); p++; } return translatedComment; } void CSharpDocConverter::translateEntity(DoxygenEntity &doxyEntity, std::string &translatedComment) { // check if we have needed handler and call it std::map >::iterator it; it = tagHandlers.find(getBaseCommand(doxyEntity.typeOfEntity)); if (it != tagHandlers.end()) (this->*(it->second.first)) (doxyEntity, translatedComment, it->second.second); } void CSharpDocConverter::handleIgnore(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { if (tag.entityList.size()) { tag.entityList.pop_front(); } translatedComment += translateSubtree(tag); } void CSharpDocConverter::handleSummary(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { translatedComment += "

"; std::string summary = translateSubtree(tag); eraseAllNewLine(summary); trimWhitespace(summary); // remove final newlines eraseTrailingSpaceNewLines(summary); escapeSpecificCharacters(summary); translatedComment += summary; translatedComment += "

"; translatedComment += "\n"; } void CSharpDocConverter::handleLine(DoxygenEntity &tag, std::string &translatedComment, const std::string &tagName) { translatedComment += "<" + tagName + ">"; if (tag.entityList.size()) { translatedComment += tag.entityList.begin()->data; tag.entityList.pop_front(); } translatedComment += ""; } void CSharpDocConverter::handleNotHandled(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { std::string paragraph = translateSubtree(tag); eraseLeadingNewLine(paragraph); eraseTrailingSpaceNewLines(paragraph); trimWhitespace(paragraph); escapeSpecificCharacters(paragraph); translatedComment += paragraph; translatedComment += "\n"; } void CSharpDocConverter::handleAddList(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { std::string listItem = translateSubtree(tag); eraseAllNewLine(listItem); translatedComment += "* "; translatedComment += listItem; translatedComment += "\n"; } void CSharpDocConverter::handleParagraph(DoxygenEntity &tag, std::string &translatedComment, const std::string &tagName) { translatedComment += "<"; translatedComment += tagName; translatedComment += ">"; std::string paragraph = translateSubtree(tag); eraseAllNewLine(paragraph); trimWhitespace(paragraph); eraseTrailingSpaceNewLines(paragraph); escapeSpecificCharacters(paragraph); translatedComment += paragraph; translatedComment += "\n"; } void CSharpDocConverter::handleVerbatimBlock(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { string verb = translateSubtree(tag); eraseLeadingNewLine(verb); // Remove the last newline to prevent doubling the newline already present after \endverbatim trimWhitespace(verb); // Needed to catch trailing newline below eraseTrailingSpaceNewLines(verb); escapeSpecificCharacters(verb); translatedComment += verb; } void CSharpDocConverter::handleMath(DoxygenEntity &tag, std::string &translatedComment, const std::string &arg) { IndentGuard indent; // Only \f$ is translated to inline formulae, \f[ and \f{ are for the block ones. const bool inlineFormula = tag.typeOfEntity == "f$"; string formulaNL; if (inlineFormula) { translatedComment += ":math:`"; } else { indent.Init(translatedComment, m_indent); trimWhitespace(translatedComment); const string formulaIndent = indent.getFirstLineIndent(); translatedComment += formulaIndent; translatedComment += ".. math::\n"; formulaNL = '\n'; formulaNL += formulaIndent; formulaNL += m_indent; translatedComment += formulaNL; } std::string formula; handleTagVerbatim(tag, formula, arg); // It is important to ensure that we have no spaces around the inline math // contents, so strip them. const size_t start = formula.find_first_not_of(" \t\n"); const size_t end = formula.find_last_not_of(" \t\n"); if (start != std::string::npos) { for (size_t n = start; n <= end; n++) { if (formula[n] == '\n') { // New lines must be suppressed in inline maths and indented in the block ones. if (!inlineFormula) translatedComment += formulaNL; } else { // Just copy everything else. translatedComment += formula[n]; } } } if (inlineFormula) { translatedComment += "`"; } } void CSharpDocConverter::handleCode(DoxygenEntity &tag, std::string &translatedComment, const std::string &arg) { IndentGuard indent(translatedComment, m_indent); trimWhitespace(translatedComment); translatedComment += "

";

  std::string code;
  handleTagVerbatim(tag, code, arg);

  // Try and remove leading newline, which is present for block \code
  // command:
  escapeSpecificCharacters(code);
  eraseLeadingNewLine(code);
  trimWhitespace(code);

  // Check for python doctest blocks, and treat them specially:
  bool isDocTestBlock = false;
  size_t startPos;
  // ">>>" would normally appear at the beginning, but doxygen comment
  // style may have space in front, so skip leading whitespace
  if ((startPos = code.find_first_not_of(" \t")) != string::npos && code.substr(startPos, 3) == ">>>")
    isDocTestBlock = true;

  string codeIndent;
  if (!isDocTestBlock) {
    // Use the current indent for the code-block line itself.
    translatedComment += indent.getFirstLineIndent();

    // Specify the level of extra indentation that will be used for
    // subsequent lines within the code block.  Note that the correct
    // "starting indentation" is already present in the input, so we
    // only need to add the desired code block indentation.
    codeIndent = m_indent;
  }

  translatedComment += codeIndent;
  for (size_t n = 0; n < code.length(); n++) {
    if (code[n] == '\n') {
      // Don't leave trailing white space, this results in PEP8 validation
      // errors in Python code (which are performed by our own unit tests).
      trimWhitespace(translatedComment);
      translatedComment += '\n';

      // Ensure that we indent all the lines by the code indent.
      translatedComment += codeIndent;
    } else {
      // Just copy everything else.
      translatedComment += code[n];
    }
  }

  trimWhitespace(translatedComment);

  // For block commands, the translator adds the newline after
  // \endcode, so try and compensate by removing the last newline from
  // the code text:
  eraseTrailingSpaceNewLines(translatedComment);

  translatedComment += "

"; translatedComment += "\n"; } void CSharpDocConverter::handlePlainString(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { translatedComment += tag.data; } void CSharpDocConverter::handleTagVerbatim(DoxygenEntity &tag, std::string &translatedComment, const std::string &arg) { translatedComment += arg; for (DoxygenEntityListCIt it = tag.entityList.begin(); it != tag.entityList.end(); it++) { translatedComment += it->data; } } void CSharpDocConverter::handleTagMessage(DoxygenEntity &tag, std::string &translatedComment, const std::string &arg) { translatedComment += arg; handleParagraph(tag, translatedComment); translatedComment += "\">\n"; } void CSharpDocConverter::handleTagSee(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { translatedComment += "\n"; } void CSharpDocConverter::handleTagCharReplace(DoxygenEntity &, std::string &translatedComment, const std::string &arg) { translatedComment += arg; } void CSharpDocConverter::handleTagChar(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { translatedComment += tag.typeOfEntity; } void CSharpDocConverter::handleTagIf(DoxygenEntity &tag, std::string &translatedComment, const std::string &arg) { translatedComment += arg; if (tag.entityList.size()) { translatedComment += tag.entityList.begin()->data; tag.entityList.pop_front(); translatedComment += " {" + translateSubtree(tag) + "}"; } } void CSharpDocConverter::handleTagWord(DoxygenEntity &tag, std::string &translatedComment, const std::string &arg) { translatedComment += arg + ": "; if (tag.entityList.size()) translatedComment += tag.entityList.begin()->data; tag.entityList.pop_front(); translatedComment += translateSubtree(tag); translatedComment += "\n"; } void CSharpDocConverter::handleTagImage(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { if (tag.entityList.size() < 2) return; tag.entityList.pop_front(); translatedComment += "Image: "; translatedComment += tag.entityList.begin()->data; tag.entityList.pop_front(); if (tag.entityList.size()) translatedComment += "(" + tag.entityList.begin()->data + ")"; } void CSharpDocConverter::handleTagParam(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { if (tag.entityList.size() < 2) return; if (!paramExists(tag.entityList.begin()->data)) return; IndentGuard indent(translatedComment, m_indent); DoxygenEntity paramNameEntity = *tag.entityList.begin(); tag.entityList.pop_front(); const std::string ¶mName = paramNameEntity.data; const std::string paramValue = getParamValue(paramName); translatedComment += ""; translatedComment += translateSubtree(tag); eraseTrailingSpaceNewLines(translatedComment); translatedComment += " \n"; } void CSharpDocConverter::handleTagReturn(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { IndentGuard indent(translatedComment, m_indent); translatedComment += ""; translatedComment += translateSubtree(tag); eraseTrailingSpaceNewLines(translatedComment); translatedComment += " \n"; } void CSharpDocConverter::handleTagException(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { IndentGuard indent(translatedComment, m_indent); DoxygenEntity paramNameEntity = *tag.entityList.begin(); tag.entityList.pop_front(); const std::string ¶mName = paramNameEntity.data; const std::string paramType = getParamType(paramName); const std::string paramValue = getParamValue(paramName); translatedComment += ""; translatedComment += translateSubtree(tag); eraseTrailingSpaceNewLines(translatedComment); translatedComment += " \n"; } void CSharpDocConverter::handleTagRef(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { if (!tag.entityList.size()) return; string anchor = tag.entityList.begin()->data; tag.entityList.pop_front(); string anchorText = anchor; size_t pos = anchorText.find('#'); if (pos != string::npos) { anchorText = anchorText.substr(pos + 1); } if (!tag.entityList.empty()) { anchorText = tag.entityList.begin()->data; } translatedComment += "\\ref " + anchorText; } void CSharpDocConverter::handleTagWrap(DoxygenEntity &tag, std::string &translatedComment, const std::string &arg) { if (tag.entityList.size()) { // do not include empty tags std::string tagData = translateSubtree(tag); // wrap the thing, ignoring whitespace size_t wsPos = tagData.find_last_not_of("\n\t "); if (wsPos != std::string::npos && wsPos != tagData.size() - 1) translatedComment += arg + tagData.substr(0, wsPos + 1) + arg + tagData.substr(wsPos + 1); else translatedComment += arg + tagData + arg; } } void CSharpDocConverter::handleDoxyHtmlTag(DoxygenEntity &tag, std::string &translatedComment, const std::string &arg) { std::string htmlTagArgs = tag.data; if (htmlTagArgs == "/") { // end html tag, for example " // translatedComment += ""; } else { translatedComment += arg + htmlTagArgs; } } void CSharpDocConverter::handleDoxyHtmlTagNoParam(DoxygenEntity &tag, std::string &translatedComment, const std::string &arg) { std::string htmlTagArgs = tag.data; if (htmlTagArgs == "/") { // end html tag, for example " } else { translatedComment += arg; } } void CSharpDocConverter::handleDoxyHtmlTag_A(DoxygenEntity &tag, std::string &translatedComment, const std::string &arg) { std::string htmlTagArgs = tag.data; if (htmlTagArgs == "/") { // end html tag, " translatedComment += " (" + m_url + ')'; m_url.clear(); } else { m_url.clear(); size_t pos = htmlTagArgs.find('='); if (pos != string::npos) { m_url = htmlTagArgs.substr(pos + 1); } translatedComment += arg; } } void CSharpDocConverter::handleDoxyHtmlTag2(DoxygenEntity &tag, std::string &translatedComment, const std::string &arg) { std::string htmlTagArgs = tag.data; if (htmlTagArgs == "/") { // end html tag, for example " translatedComment += arg; } else { translatedComment += arg; } } void CSharpDocConverter::handleDoxyHtmlTag_tr(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { std::string htmlTagArgs = tag.data; size_t nlPos = translatedComment.rfind('\n'); if (htmlTagArgs == "/") { // end tag, appends vertical table line '|' translatedComment += '|'; if (nlPos != string::npos) { size_t startOfTableLinePos = translatedComment.find_first_not_of(" \t", nlPos + 1); if (startOfTableLinePos != string::npos) { m_tableLineLen = translatedComment.size() - startOfTableLinePos; } } } else { if (m_prevRowIsTH) { // if previous row contained tag, add horizontal separator // but first get leading spaces, because they'll be needed for the next row size_t numLeadingSpaces = translatedComment.size() - nlPos - 1; translatedComment += string(m_tableLineLen, '-') + '\n'; if (nlPos != string::npos) { translatedComment += string (numLeadingSpaces, ' '); } m_prevRowIsTH = false; } } } void CSharpDocConverter::handleDoxyHtmlTag_th(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { std::string htmlTagArgs = tag.data; if (htmlTagArgs == "/") { // end tag, is ignored } else { translatedComment += '|'; m_prevRowIsTH = true; } } void CSharpDocConverter::handleDoxyHtmlTag_td(DoxygenEntity &tag, std::string &translatedComment, const std::string &) { std::string htmlTagArgs = tag.data; if (htmlTagArgs == "/") { // end tag, is ignored } else { translatedComment += '|'; } } void CSharpDocConverter::handleHtmlEntity(DoxygenEntity &, std::string &translatedComment, const std::string &arg) { // html entities translatedComment += arg; } void CSharpDocConverter::handleNewLine(DoxygenEntity &, std::string &translatedComment, const std::string &) { trimWhitespace(translatedComment); translatedComment += "\n"; if (!m_indent.empty()) translatedComment += m_indent; } String *CSharpDocConverter::makeDocumentation(Node *n) { String *documentation; std::string csharpDocString; // store the node, we may need it later currentNode = n; documentation = getDoxygenComment(n); if (documentation != NULL) { if (GetFlag(n, "feature:doxygen:notranslate")) { String *comment = NewString(""); Append(comment, documentation); Replaceall(comment, "\n *", "\n"); csharpDocString = Char(comment); Delete(comment); } else { std::list entityList = parser.createTree(n, documentation); DoxygenEntity root("root", entityList); csharpDocString = translateSubtree(root); } } // if we got something log the result if (!csharpDocString.empty()) { // remove the last spaces and '\n' since additional one is added during writing to file eraseTrailingSpaceNewLines(csharpDocString); // ensure that a blank line occurs before code or math blocks csharpDocString = padCodeAndVerbatimBlocks(csharpDocString); if (m_flags & debug_translator) { std::cout << "\n---RESULT IN CSHARPDOC---" << std::endl; std::cout << csharpDocString; std::cout << std::endl; } } return NewString(csharpDocString.c_str()); }