/****************************************************************************** * * Copyright (C) 2009-2015 by Joenio Costa. * * Permission to use, copy, modify, and distribute this software and its * documentation under the terms of the GNU General Public License is hereby * granted. No representations are made about the suitability of this software * for any purpose. It is provided "as is" without express or implied warranty. * See the GNU General Public License for more details. * * Documents produced by Doxygen are derivative works derived from the * input used in their production; they are not affected by this license. * */ /** @file * @brief Code parse based on doxyapp by Dimitri van Heesch * */ #include #if !defined(_WIN32) || defined(__CYGWIN__) #include #else #include #endif #include "version.h" #include "doxygen.h" #include "outputgen.h" #include "parserintf.h" #include "classlist.h" #include "config.h" #include "filedef.h" #include "util.h" #include "filename.h" #include "arguments.h" #include "memberlist.h" #include "types.h" #include #include #include #include #include #include #include #include "namespacedef.h" #include "portable.h" class Doxyparse : public CodeOutputInterface { public: Doxyparse(FileDef *fd) : m_fd(fd) {} ~Doxyparse() {} // these are just null functions, they can be used to produce a syntax highlighted // and cross-linked version of the source code, but who needs that anyway ;-) void codify(const char *) {} void writeCodeLink(const char *,const char *,const char *,const char *,const char *) {} void startCodeLine() {} void endCodeLine() {} void startCodeAnchor(const char *) {} void endCodeAnchor() {} void startFontClass(const char *) {} void endFontClass() {} void writeCodeAnchor(const char *) {} void writeLineNumber(const char *,const char *,const char *,int) {} virtual void writeTooltip(const char *,const DocLinkInfo &, const char *,const char *,const SourceLinkInfo &, const SourceLinkInfo &) {} void startCodeLine(bool) {} void setCurrentDoc(const Definition *,const char *,bool) {} void addWord(const char *,bool) {} void startCodeFragment(const char *) {} void endCodeFragment(const char *) {} void linkableSymbol(int l, const char *sym, Definition *symDef, Definition *context) { if (!symDef) { // in this case we have a local or external symbol // TODO record use of external symbols // TODO must have a way to differentiate external symbols from local variables } } private: FileDef *m_fd; }; static bool is_c_code = true; static void findXRefSymbols(FileDef *fd) { // get the interface to a parser that matches the file extension auto intf=Doxygen::parserManager->getCodeParser(fd->getDefFileExtension()); // get the programming language from the file name SrcLangExt lang = getLanguageFromFileName(fd->name()); // reset the parsers state intf->resetCodeParserState(); // create a new backend object Doxyparse *parse = new Doxyparse(fd); // parse the source code intf->parseCode(*parse, 0, fileToString(fd->absFilePath()), lang, FALSE, 0, fd); // dismiss the object. delete parse; } static bool ignoreStaticExternalCall(MemberDef *context, MemberDef *md) { if (md->isStatic()) { if(md->getFileDef() && context->getFileDef()) { if(md->getFileDef()->getOutputFileBase() == context->getFileDef()->getOutputFileBase()) // TODO ignore prefix of file return false; else return true; } else { return false; } } else { return false; } } static void startYamlDocument() { printf("---\n"); } static void printFile(std::string file) { printf("%s:\n", file.c_str()); } static void printModule(std::string module) { printf(" \"%s\":\n", unescapeCharsInString(module.c_str()).data()); } static void printClassInformation(std::string information) { printf(" information: %s\n", information.c_str()); } static void printInherits() { printf(" inherits:\n"); } static void printInheritance(std::string base_class) { printf(" - %s\n", base_class.c_str()); } static void printDefines() { printf(" defines:\n"); } static void printDefinition(std::string type, std::string signature, int line) { printf(" - \"%s\":\n", signature.substr(0, 1022).c_str()); printf(" type: %s\n", type.c_str()); printf(" line: %d\n", line); } static void printProtection(std::string protection) { printf(" protection: %s\n", protection.c_str()); } static void printPrototypeYes() { printf(" prototype: yes\n"); } static void printNumberOfLines(int lines) { printf(" lines_of_code: %d\n", lines); } static void printNumberOfArguments(int arguments) { printf(" parameters: %d\n", arguments); } static void printUses() { printf(" uses:\n"); } static void printReferenceTo(std::string type, std::string signature, std::string defined_in) { printf(" - \"%s\":\n", signature.substr(0, 1022).c_str()); printf(" type: %s\n", type.c_str()); printf(" defined_in: \"%s\"\n", unescapeCharsInString(defined_in.c_str()).data()); } static void printNumberOfConditionalPaths(MemberDef* md) { printf(" conditional_paths: %d\n", md->numberOfFlowKeyWords()); } static int isPartOfCStruct(MemberDef * md) { return is_c_code && md->getClassDef() != NULL; } std::string sanitizeString(std::string data) { QCString new_data = QCString(data.c_str()); new_data.replace(QRegExp("\""), ""); new_data.replace(QRegExp("\\"), ""); // https://github.com/analizo/analizo/issues/138 return !new_data.isEmpty() ? new_data.data() : ""; } std::string argumentData(const Argument &argument) { std::string data = ""; if (argument.type.size() > 1) data = sanitizeString(argument.type.data()); else if (!argument.name.isEmpty()) data = sanitizeString(argument.name.data()); return data; } std::string functionSignature(MemberDef* md) { std::string signature = sanitizeString(md->name().data()); if(md->isFunction()){ const ArgumentList &argList = md->argumentList(); signature += "("; auto it = argList.begin(); if(it!=argList.end()) { signature += argumentData(*it); for(++it; it!=argList.end(); ++it) { signature += std::string(",") + argumentData(*it); } } signature += ")"; } return signature; } static void referenceTo(MemberDef* md) { std::string type = md->memberTypeName().data(); std::string defined_in = ""; std::string signature = ""; if (isPartOfCStruct(md)) { signature = md->getClassDef()->name().data() + std::string("::") + functionSignature(md); defined_in = md->getClassDef()->getFileDef()->getOutputFileBase().data(); } else { signature = functionSignature(md); if (md->getClassDef()) { defined_in = md->getClassDef()->name().data(); } else if (md->getFileDef()) { defined_in = md->getFileDef()->getOutputFileBase().data(); } else if (md->getNamespaceDef()) { defined_in = md->getNamespaceDef()->name().data(); } } printReferenceTo(type, signature, defined_in); } void protectionInformation(Protection protection) { if (protection == Public) { printProtection("public"); } else if (protection == Protected) { printProtection("protected"); } else if (protection == Private) { printProtection("private"); } else if (protection == Package) { printProtection("package"); } } void cModule(ClassDef* cd) { MemberList* ml = cd->getMemberList(MemberListType_variableMembers); if (ml) { FileDef *fd = cd->getFileDef(); MemberList *fd_ml = fd->getMemberList(MemberListType_allMembersList); if (!fd_ml || fd_ml->count() == 0) { printModule(fd->getOutputFileBase().data()); printDefines(); } MemberListIterator mli(*ml); MemberDef* md; for (mli.toFirst(); (md=mli.current()); ++mli) { printDefinition("variable", cd->name().data() + std::string("::") + md->name().data(), md->getDefLine()); protectionInformation(md->protection()); } } } static bool checkOverrideArg(const ArgumentList &argList, MemberDef *md) { if(!md->isFunction() || argList.empty()){ return false; } for (const Argument &argument : argList) { if(md->name() == argument.name) { return true; } } return false; } void functionInformation(MemberDef* md) { std::string temp = ""; int size = md->getEndBodyLine() - md->getStartBodyLine() + 1; printNumberOfLines(size); const ArgumentList &argList = md->argumentList(); if (!argList.empty()) { temp = argumentData(argList.front()); // TODO: This is a workaround; better not include "void" in argList, in the first place. if (temp!="void") { printNumberOfArguments(argList.size()); } } printNumberOfConditionalPaths(md); MemberSDict *defDict = md->getReferencesMembers(); if (defDict) { MemberSDict::Iterator msdi(*defDict); MemberDef *rmd; printUses(); for (msdi.toFirst(); (rmd=msdi.current()); ++msdi) { if (rmd->definitionType() == Definition::TypeMember && !ignoreStaticExternalCall(md, rmd) && !checkOverrideArg(argList, rmd)) { referenceTo(rmd); } } } } void prototypeInformation(MemberDef* md) { printPrototypeYes(); const ArgumentList &argList = md->argumentList(); printNumberOfArguments(argList.size()); } static void lookupSymbol(Definition *d) { if (d->definitionType() == Definition::TypeMember) { MemberDef *md = dynamic_cast(d); std::string type = md->memberTypeName().data(); std::string signature = functionSignature(md); printDefinition(type, signature, md->getDefLine()); protectionInformation(md->protection()); if (md->isFunction() && md->isPrototype()) { prototypeInformation(md); } else if (md->isFunction()) { functionInformation(md); } } } void listMembers(MemberList *ml) { if (ml) { MemberListIterator mli(*ml); MemberDef *md; for (mli.toFirst(); (md=mli.current()); ++mli) { lookupSymbol((Definition*) md); } } } void listAllMembers(ClassDef* cd) { // methods listMembers(cd->getMemberList(MemberListType_functionMembers)); // constructors listMembers(cd->getMemberList(MemberListType_constructors)); // attributes listMembers(cd->getMemberList(MemberListType_variableMembers)); } static void classInformation(ClassDef* cd) { if (is_c_code) { cModule(cd); } else { printModule(cd->name().data()); BaseClassList* baseClasses = cd->baseClasses(); if (baseClasses) { printInherits(); BaseClassListIterator bci(*baseClasses); BaseClassDef* bcd; for (bci.toFirst(); (bcd = bci.current()); ++bci) { printInheritance(bcd->classDef->name().data()); } } if(cd->isAbstract()) { printClassInformation("abstract class"); } printDefines(); listAllMembers(cd); } } static bool checkLanguage(std::string& filename, std::string extension) { if (filename.find(extension, filename.size() - extension.size()) != std::string::npos) { return true; } else { return false; } } /* Detects the programming language of the project. Actually, we only care * about whether it is a C project or not. */ static void detectProgrammingLanguage(FileNameLinkedMap &fnli) { for (const auto &fn : fnli) { std::string filename = fn->fileName(); if ( checkLanguage(filename, ".cc") || checkLanguage(filename, ".cxx") || checkLanguage(filename, ".cpp") || checkLanguage(filename, ".java") || checkLanguage(filename, ".py") || checkLanguage(filename, ".pyw") || checkLanguage(filename, ".cs") ) { is_c_code = false; } } } static void listSymbols() { detectProgrammingLanguage(*Doxygen::inputNameLinkedMap); // iterate over the input files for (const auto &fn : *Doxygen::inputNameLinkedMap) { for (const auto &fd : *fn) { printFile(fd->absFilePath().data()); MemberList *ml = fd->getMemberList(MemberListType_allMembersList); if (ml && ml->count() > 0) { printModule(fd->getOutputFileBase().data()); printDefines(); listMembers(ml); } ClassSDict *classes = fd->getClassSDict(); if (classes) { ClassSDict::Iterator cli(*classes); ClassDef *cd; for (cli.toFirst(); (cd = cli.current()); ++cli) { if (!cd->isVisited()) { classInformation(cd); cd->setVisited(TRUE); } } } } } // TODO print external symbols referenced } int main(int argc,char **argv) { if (argc < 2) { printf("Usage: %s [source_file | source_dir]\n",argv[0]); exit(1); } if (qstrcmp(&argv[1][2], "version") == 0) { QCString versionString = getDoxygenVersion(); printf("%s\n", versionString.data()); exit(0); } // initialize data structures initDoxygen(); // check and finalize the configuration checkConfiguration(); adjustConfiguration(); // setup the non-default configuration options // we need a place to put intermediate files std::ostringstream tmpdir; unsigned int pid = Portable::pid(); if (Portable::getenv("TMP")) tmpdir << Portable::getenv("TMP") << "/doxyparse-" << pid; else if (Portable::getenv("TEMP")) tmpdir << Portable::getenv("TEMP") << "/doxyparse-" << pid; else tmpdir << "doxyparse-" << pid; Config_updateString(OUTPUT_DIRECTORY,tmpdir.str().c_str()); // enable HTML (fake) output to omit warning about missing output format Config_updateBool(GENERATE_HTML,TRUE); // disable latex output Config_updateBool(GENERATE_LATEX,FALSE); // be quiet Config_updateBool(QUIET,TRUE); // turn off warnings Config_updateBool(WARNINGS,FALSE); Config_updateBool(WARN_IF_UNDOCUMENTED,FALSE); Config_updateBool(WARN_IF_DOC_ERROR,FALSE); // Extract as much as possible Config_updateBool(EXTRACT_ALL,TRUE); Config_updateBool(EXTRACT_STATIC,TRUE); Config_updateBool(EXTRACT_PRIVATE,TRUE); Config_updateBool(EXTRACT_LOCAL_METHODS,TRUE); Config_updateBool(EXTRACT_PACKAGE,TRUE); // Extract source browse information, needed // to make doxygen gather the cross reference info Config_updateBool(SOURCE_BROWSER,TRUE); // find functions call between modules Config_updateBool(CALL_GRAPH,TRUE); // loop recursive over input files Config_updateBool(RECURSIVE,TRUE); // add file extensions Config_updateList(FILE_PATTERNS, { "*.cc", "*.cxx", "*.cpp", "*.java", "*.py", "*.pyw", "*.cs", "*.c", "*.h", "*.hh", "*.hpp"}); // set the input StringVector inputList; for (int i = 1; i < argc; i++) { if (strcmp(argv[i], "-") == 0) { char filename[1024]; while (1) { scanf("%s[^\n]", filename); if (feof(stdin)) { break; } inputList.push_back(filename); } } else { inputList.push_back(argv[i]); } } Config_updateList(INPUT,inputList); if (inputList.empty()) { exit(0); } // parse the files parseInput(); // iterate over the input files for (const auto &fn : *Doxygen::inputNameLinkedMap) { for (const auto &fd : *fn) { // get the references (linked and unlinked) found in this file findXRefSymbols(fd.get()); } } QDir thisDir; // remove temporary files if (!Doxygen::objDBFileName.isEmpty()) thisDir.remove(Doxygen::objDBFileName); if (!Doxygen::entryDBFileName.isEmpty()) thisDir.remove(Doxygen::entryDBFileName); if (!Doxygen::filterDBFileName.isEmpty()) thisDir.remove(Doxygen::filterDBFileName); // clean up after us thisDir.rmdir(Config_getString(OUTPUT_DIRECTORY)); startYamlDocument(); listSymbols(); std::string cleanup_command = "rm -rf "; cleanup_command += tmpdir.str(); system(cleanup_command.c_str()); exit(0); }