#include #include #include #include #include #include "Utilities.hh" std::string sanitize(const std::string& text) { std::string result = text; for (char c : {'<', '>', ' ', ',', ':', '*', '[', ']'}) { std::replace(result.begin(), result.end(), c, '_'); } // Catches templates with negative default values (iss #660) for (char c : {'-'}) { std::replace(result.begin(), result.end(), c, 'n'); } return result ; } // Replace special chars for xml output std::string & replace_special_chars( std::string & str) { // escape & size_t index = 0; while (index != std::string::npos) { index = str.find("&" , index) ; if ( index != std::string::npos ) { str.replace(index, 1, "&") ; index += 5; } } // escape " index = 0; while (index != std::string::npos) { index = str.find("\\\"" , index) ; if ( index != std::string::npos ) { str.replace(index, 2, """) ; } } // escape < index = 0; while (index != std::string::npos) { index = str.find("<" , index) ; if ( index != std::string::npos ) { str.replace(index, 1, "<") ; } } return str; } // removes leading and trailing whitespace from a string std::string trim(const std::string& str, const std::string& whitespace ) { size_t strBegin = str.find_first_not_of(whitespace); if (strBegin == std::string::npos) { return ""; } size_t strEnd = str.find_last_not_of(whitespace); size_t strRange = strEnd - strBegin + 1; return str.substr(strBegin, strRange); } bool isInUserCode( clang::CompilerInstance & ci , clang::SourceLocation sl , HeaderSearchDirs & hsd ) { clang::FileID fid = ci.getSourceManager().getFileID(sl) ; bool ret = false ; if ( ! fid.isInvalid() ) { const clang::FileEntry * fe = ci.getSourceManager().getFileEntryForID(fid) ; if ( fe != NULL ) { #if (LIBCLANG_MAJOR < 4) // TODO delete when RHEL 7 no longer supported char * resolved_path = almostRealPath( fe->getName() ) ; #else char * resolved_path = almostRealPath( fe->getName().str() ) ; #endif if ( resolved_path != NULL ) { if ( hsd.isPathInUserDir(resolved_path)) { ret = true ; } free(resolved_path) ; } } } return ret ; } bool isInUserOrTrickCode( clang::CompilerInstance & ci , clang::SourceLocation sl , HeaderSearchDirs & hsd ) { clang::FileID fid = ci.getSourceManager().getFileID(sl) ; bool ret = false ; if ( ! fid.isInvalid() ) { const clang::FileEntry * fe = ci.getSourceManager().getFileEntryForID(fid) ; if ( fe != NULL ) { #if (LIBCLANG_MAJOR < 4) // TODO delete when RHEL 7 no longer supported char * resolved_path = almostRealPath( fe->getName() ) ; #else char * resolved_path = almostRealPath( fe->getName().str() ) ; #endif if ( resolved_path != NULL ) { if ( hsd.isPathInUserOrTrickDir(resolved_path)) { ret = true ; } free(resolved_path) ; } } } return ret ; } std::string getFileName( clang::CompilerInstance & ci , clang::SourceLocation sl , HeaderSearchDirs & hsd ) { clang::FileID fid = ci.getSourceManager().getFileID(sl) ; std::string file_name; char* resolved_path; if ( ! fid.isInvalid() ) { const clang::FileEntry * fe = ci.getSourceManager().getFileEntryForID(fid) ; if ( fe != NULL ) { #if (LIBCLANG_MAJOR < 4) // TODO delete when RHEL 7 no longer supported char * resolved_path = almostRealPath( fe->getName() ) ; #else char * resolved_path = almostRealPath( fe->getName().str() ) ; #endif if ( resolved_path != NULL and hsd.isPathInUserDir(resolved_path)) { file_name.append(resolved_path); } free(resolved_path); } } return file_name; } #include char * almostRealPath( const std::string& in_path ) { return almostRealPath(in_path.c_str()); } /* This function returns almost absolute path of the directory of the incoming path. It does not follow the last symbolic link. dirname and basename may modify their argument, so make a copy of the path. */ char * almostRealPath( const char * in_path ) { char * file_copy_path = strdup(in_path) ; char * dir_copy_path = strdup(in_path) ; char * file = basename(file_copy_path) ; char * dir = dirname(dir_copy_path) ; char * resolved_path = NULL ; char * final_path = NULL ; resolved_path = realpath( dir , resolved_path) ; if ( resolved_path != NULL ) { size_t final_path_len = strlen(resolved_path) + strlen(file) + 2; final_path = (char *)malloc(final_path_len) ; snprintf(final_path, final_path_len, "%s/%s", resolved_path , file ) ; free(resolved_path) ; } free(file_copy_path) ; free(dir_copy_path) ; if (!final_path) { std::cout << bold(color(WARNING, "Warning")) << " ICG could not resolve realpath of " << quote(bold(in_path)) << std::endl; } return final_path ; } static const std::string escapeSequence = "["; static const std::string defaultForegroundColorSequence = escapeSequence + "39m"; static const std::string boldSequence = escapeSequence + "1m"; static const std::string noBoldSequence = escapeSequence + "22m"; static const std::string underlineSequence = escapeSequence + "4m"; static const std::string noUnderlineSequence = escapeSequence + "24m"; std::string color(const Color& color, const std::string& text) { std::ostringstream oss; oss << escapeSequence << color << "m" << text << defaultForegroundColorSequence; return oss.str(); } std::string bold(const std::string& text) { return boldSequence + text + noBoldSequence; } std::string underline(const std::string& text) { return underlineSequence + text + noUnderlineSequence; } std::string underline(const std::string& text, unsigned length) { return underline(text.substr(0, length)) + text.substr(length); } std::string quote(const std::string& text) { return "\"" + text + "\""; } // This function will accept version numbers with Major, Major.Minor, or Major.Minor.Patch. // It removes non-numerical prefixes or postfixes to the version number. The return value // is an int with the format MMmmpp, which is what llvm LangOpts.gnucversion expects. // If there is a problem or no verno is provided, it returns the default value. int gccVersionToIntOrDefault(const char* verno, int def) { const int buffersize = 32; // need mutable characters for strtok char verbuf[buffersize]; if(verno == nullptr || verno[0] == '\0' || strlen(verno) >= buffersize) { // Invalid GCC version string, returning default GCC version return def; } strcpy(verbuf, verno); const int len = strlen(verbuf); const char* majMinPatch[3] = {"0", "0", "0"}; // Setting non-numerals to the delimeter (might catch vernos with prefix or postfix) for(int i = 0; i < len; i++) { if(verbuf[i] < '0' || verbuf[i] > '9') { verbuf[i] = '.'; } } char* next = strtok(verbuf, "."); for(int i = 0; next != nullptr && i < 3; i++) { majMinPatch[i] = next; next = strtok(nullptr, "."); } // This is the format that LLVM expects for the version number int result = 10000*atoi(majMinPatch[0]) + 100*atoi(majMinPatch[1]) + atoi(majMinPatch[2]); if(result > 999999) { std::cerr << "Warning: GCC_VERSION is invalid version number: " << result << ". Setting ICG to use default GCC version: " << def << std::endl; return def; } return result; }