/* * Cppcheck - A tool for static C/C++ code analysis * Copyright (C) 2007-2010 Daniel Marjamäki and Cppcheck team. * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "preprocessor.h" #include "tokenize.h" #include "token.h" #include "filelister.h" #include "path.h" #include "errorlogger.h" #include "settings.h" #include #include #include #include #include #include #include #include #include #include Preprocessor::Preprocessor(Settings *settings, ErrorLogger *errorLogger) : _settings(settings), _errorLogger(errorLogger) { } void Preprocessor::writeError(const std::string &fileName, const unsigned int linenr, ErrorLogger *errorLogger, const std::string &errorType, const std::string &errorText) { if (!errorLogger) return; std::list locationList; ErrorLogger::ErrorMessage::FileLocation loc; loc.line = linenr; loc.setfile(fileName); locationList.push_back(loc); errorLogger->reportErr(ErrorLogger::ErrorMessage(locationList, Severity::error, errorText, errorType)); } static unsigned char readChar(std::istream &istr) { unsigned char ch = (unsigned char)istr.get(); // Handling of newlines.. if (ch == '\r') { ch = '\n'; if ((char)istr.peek() == '\n') (void)istr.get(); } return ch; } // Splits a string that contains the specified separator into substrings static std::list split(const std::string &s, char separator) { std::list parts; std::string::size_type prevPos = 0; for (std::string::size_type pos = 0; pos < s.length(); ++pos) { if (s[pos] == separator) { if (pos > prevPos) parts.push_back(s.substr(prevPos, pos - prevPos)); prevPos = pos + 1; } } if (prevPos < s.length()) parts.push_back(s.substr(prevPos)); return parts; } // Concatenates a list of strings, inserting a separator between parts static std::string join(const std::list &list, char separator) { std::string s; for (std::list::const_iterator it = list.begin(); it != list.end(); ++it) { if (!s.empty()) s += separator; s += *it; } return s; } /** Just read the code into a string. Perform simple cleanup of the code */ std::string Preprocessor::read(std::istream &istr, const std::string &filename, Settings *settings) { // Get filedata from stream.. bool ignoreSpace = true; // need space.. #if( => #if ( bool needSpace = false; // handling // when this is encountered the will be "skipped". // on the next , extra newlines will be added unsigned int newlines = 0; std::ostringstream code; for (unsigned char ch = readChar(istr); istr.good(); ch = readChar(istr)) { // Replace assorted special chars with spaces.. if (((ch & 0x80) == 0) && (ch != '\n') && (std::isspace(ch) || std::iscntrl(ch))) ch = ' '; // Skip spaces after ' ' and after '#' if (ch == ' ' && ignoreSpace) continue; ignoreSpace = bool(ch == ' ' || ch == '#' || ch == '\n'); if (needSpace) { if (ch == '(' || ch == '!') code << " "; else if (!std::isalpha(ch)) needSpace = false; } if (ch == '#') needSpace = true; // .. // for gcc-compatibility the trailing spaces should be ignored // for vs-compatibility the trailing spaces should be kept // See tickets #640 and #1869 // The solution for now is to have a compiler-dependent behaviour. if (ch == '\\') { unsigned char chNext; #ifdef __GNUC__ // gcc-compatibility: ignore spaces for (;;) { chNext = (unsigned char)istr.peek(); if (chNext != '\n' && chNext != '\r' && (std::isspace(chNext) || std::iscntrl(chNext))) { // Skip whitespace between and (void)readChar(istr); continue; } break; } #else // keep spaces chNext = (unsigned char)istr.peek(); #endif if (chNext == '\n' || chNext == '\r') { ++newlines; (void)readChar(istr); // Skip the "" } else code << "\\"; } // Just some code.. else { code << char(ch); // if there has been sequences, add extra newlines.. if (ch == '\n' && newlines > 0) { code << std::string(newlines, '\n'); newlines = 0; } } } return removeParantheses(removeComments(code.str(), filename, settings)); } static bool hasbom(const std::string &str) { return bool(str.size() > 3 && static_cast(str[0]) == 0xef && static_cast(str[1]) == 0xbb && static_cast(str[2]) == 0xbf); } std::string Preprocessor::removeComments(const std::string &str, const std::string &filename, Settings *settings) { // For the error report unsigned int lineno = 1; // handling // when this is encountered the will be "skipped". // on the next , extra newlines will be added unsigned int newlines = 0; std::ostringstream code; unsigned char previous = 0; std::vector suppressionIDs; for (std::string::size_type i = hasbom(str) ? 3U : 0U; i < str.length(); ++i) { unsigned char ch = static_cast(str[i]); if (ch & 0x80) { std::ostringstream errmsg; errmsg << "The code contains characters that are unhandled. " << "Neither unicode nor extended ascii are supported. " << "(line=" << lineno << ", character code=" << std::hex << (int(ch) & 0xff) << ")"; writeError(filename, lineno, _errorLogger, "syntaxError", errmsg.str()); } if (str.compare(i, 6, "#error") == 0 || str.compare(i, 8, "#warning") == 0) { if (str.compare(i, 6, "#error") == 0) code << "#error"; i = str.find("\n", i); if (i == std::string::npos) break; --i; continue; } // We have finished a line that didn't contain any comment // (the '\n' is swallowed when a // comment is detected) if (ch == '\n' && !suppressionIDs.empty()) { // Add the suppressions. for (size_t j(0); j < suppressionIDs.size(); ++j) { const std::string errmsg(settings->nomsg.addSuppression(suppressionIDs[j], filename, lineno)); if (!errmsg.empty()) { writeError(filename, lineno, _errorLogger, "cppcheckError", errmsg); } } suppressionIDs.clear(); } // Remove comments.. if (str.compare(i, 2, "//", 0, 2) == 0) { size_t commentStart = i + 2; i = str.find('\n', i); if (i == std::string::npos) break; if (settings && settings->_inlineSuppressions) { std::string comment(str, commentStart, i - commentStart); std::istringstream iss(comment); std::string word; iss >> word; if (word == "cppcheck-suppress") { iss >> word; if (iss) suppressionIDs.push_back(word); } } code << "\n"; previous = '\n'; ++lineno; } else if (str.compare(i, 2, "/*", 0, 2) == 0) { unsigned char chPrev = 0; ++i; while (i < str.length() && (chPrev != '*' || ch != '/')) { chPrev = ch; ++i; ch = static_cast(str[i]); if (ch == '\n') { ++newlines; ++lineno; } } } // String or char constants.. else if (ch == '\"' || ch == '\'') { code << char(ch); char chNext; do { ++i; chNext = str[i]; if (chNext == '\\') { ++i; char chSeq = str[i]; if (chSeq == '\n') ++newlines; else { code << chNext; code << chSeq; previous = static_cast(chSeq); } } else { code << chNext; previous = static_cast(chNext); } } while (i < str.length() && chNext != ch && chNext != '\n'); } // Just some code.. else { if (ch == ' ' && previous == ' ') { // Skip double white space } else { code << char(ch); previous = ch; } // if there has been sequences, add extra newlines.. if (ch == '\n') { ++lineno; if (newlines > 0) { code << std::string(newlines, '\n'); newlines = 0; previous = '\n'; } } } } return code.str(); } std::string Preprocessor::removeParantheses(const std::string &str) { if (str.find("\n#if") == std::string::npos && str.compare(0, 3, "#if") != 0) return str; std::istringstream istr(str.c_str()); std::ostringstream ret; std::string line; while (std::getline(istr, line)) { if (line.compare(0, 3, "#if") == 0 || line.compare(0, 5, "#elif") == 0) { std::string::size_type pos; pos = 0; while ((pos = line.find(" (", pos)) != std::string::npos) line.erase(pos, 1); pos = 0; while ((pos = line.find("( ", pos)) != std::string::npos) line.erase(pos + 1, 1); pos = 0; while ((pos = line.find(" )", pos)) != std::string::npos) line.erase(pos, 1); pos = 0; while ((pos = line.find(") ", pos)) != std::string::npos) line.erase(pos + 1, 1); // Remove inner paranthesis "((..))".. pos = 0; while ((pos = line.find("((", pos)) != std::string::npos) { ++pos; std::string::size_type pos2 = line.find_first_of("()", pos + 1); if (pos2 != std::string::npos && line[pos2] == ')') { line.erase(pos2, 1); line.erase(pos, 1); } } // "#if(A) => #if A", but avoid "#if (defined A) || defined (B)" if ((line.compare(0, 4, "#if(") == 0 || line.compare(0, 6, "#elif(") == 0) && line[line.length() - 1] == ')') { int ind = 0; for (std::string::size_type i = 0; i < line.length(); ++i) { if (line[i] == '(') ++ind; else if (line[i] == ')') { --ind; if (ind == 0) { if (i == line.length() - 1) { line[line.find('(')] = ' '; line.erase(line.length() - 1); } break; } } } } if (line.compare(0, 4, "#if(") == 0) line.insert(3, " "); else if (line.compare(0, 6, "#elif(") == 0) line.insert(5, " "); } ret << line << "\n"; } return ret.str(); } static void _removeAsm(std::string &str, const std::string::size_type pos) { unsigned int newlines = 0; bool instr = false; int parlevel = 0; std::string::size_type pos2 = pos + 1; while (pos2 < str.length()) { if (str[pos2] == '\"') instr = !instr; else if (str[pos2] == '\n') ++newlines; else if (!instr) { if (str[pos2] == '(') ++parlevel; else if (str[pos2] == ')') { if (parlevel <= 1) break; --parlevel; } } ++pos2; } str.erase(pos + 1, pos2 - pos); str.insert(pos, std::string(newlines, '\n')); } void Preprocessor::removeAsm(std::string &str) { std::string::size_type pos = 0; while ((pos = str.find("\nasm(", pos)) != std::string::npos) { _removeAsm(str, pos++); str.insert(pos, "asm()"); } pos = 0; while ((pos = str.find("\nasm (", pos)) != std::string::npos) { _removeAsm(str, pos++); str.insert(pos, "asm()"); } pos = 0; while ((pos = str.find("\nasm __volatile(", pos)) != std::string::npos) _removeAsm(str, pos); pos = 0; while ((pos = str.find("\nasm __volatile (", pos)) != std::string::npos) _removeAsm(str, pos); } void Preprocessor::preprocess(std::istream &istr, std::map &result, const std::string &filename, const std::list &includePaths) { std::list configs; std::string data; preprocess(istr, data, configs, filename, includePaths); for (std::list::const_iterator it = configs.begin(); it != configs.end(); ++it) result[ *it ] = Preprocessor::getcode(data, *it, filename, _errorLogger); } std::string Preprocessor::removeSpaceNearNL(const std::string &str) { std::string tmp; char prev = 0; for (unsigned int i = 0; i < str.size(); i++) { if (str[i] == ' ' && ((i > 0 && prev == '\n') || (i + 1 < str.size() && str[i+1] == '\n') ) ) { // Ignore space that has new line in either side of it } else { tmp.append(1, str[i]); prev = str[i]; } } return tmp; } std::string Preprocessor::replaceIfDefined(const std::string &str) { std::string ret(str); std::string::size_type pos; pos = 0; while ((pos = ret.find("#if defined(", pos)) != std::string::npos) { std::string::size_type pos2 = ret.find(")", pos + 9); if (pos2 > ret.length() - 1) break; if (ret[pos2+1] == '\n') { ret.erase(pos2, 1); ret.erase(pos + 3, 9); ret.insert(pos + 3, "def "); } ++pos; } pos = 0; while ((pos = ret.find("#if !defined(", pos)) != std::string::npos) { std::string::size_type pos2 = ret.find(")", pos + 9); if (pos2 > ret.length() - 1) break; if (ret[pos2+1] == '\n') { ret.erase(pos2, 1); ret.erase(pos + 3, 10); ret.insert(pos + 3, "ndef "); } ++pos; } pos = 0; while ((pos = ret.find("#elif defined(", pos)) != std::string::npos) { std::string::size_type pos2 = ret.find(")", pos + 9); if (pos2 > ret.length() - 1) break; if (ret[pos2+1] == '\n') { ret.erase(pos2, 1); ret.erase(pos + 6, 8); } ++pos; } return ret; } void Preprocessor::preprocessWhitespaces(std::string &processedFile) { // Replace all tabs with spaces.. std::replace(processedFile.begin(), processedFile.end(), '\t', ' '); // Remove all indentation.. if (!processedFile.empty() && processedFile[0] == ' ') processedFile.erase(0, processedFile.find_first_not_of(" ")); // Remove space characters that are after or before new line character processedFile = removeSpaceNearNL(processedFile); } void Preprocessor::preprocess(std::istream &srcCodeStream, std::string &processedFile, std::list &resultConfigurations, const std::string &filename, const std::list &includePaths) { processedFile = read(srcCodeStream, filename, _settings); // normalize the whitespaces of the file preprocessWhitespaces(processedFile); // Remove asm(...) removeAsm(processedFile); // Replace "defined A" with "defined(A)" { std::istringstream istr(processedFile.c_str()); std::ostringstream ostr; std::string line; while (std::getline(istr, line)) { if (line.compare(0, 4, "#if ") == 0 || line.compare(0, 6, "#elif ") == 0) { std::string::size_type pos = 0; while ((pos = line.find(" defined ")) != std::string::npos) { line[pos+8] = '('; pos = line.find_first_of(" |&", pos + 8); if (pos == std::string::npos) line += ")"; else line.insert(pos, ")"); } } ostr << line << "\n"; } processedFile = ostr.str(); } handleIncludes(processedFile, filename, includePaths); processedFile = replaceIfDefined(processedFile); // Get all possible configurations.. if (!_settings || (_settings && _settings->userDefines.empty())) resultConfigurations = getcfgs(processedFile, filename); } // Get the DEF in this line: "#ifdef DEF" std::string Preprocessor::getdef(std::string line, bool def) { // If def is true, the line must start with "#ifdef" if (def && line.find("#ifdef ") != 0 && line.find("#if ") != 0 && line.find("#elif ") != 0 && line.find("#if defined ") != 0) { return ""; } // If def is false, the line must start with "#ifndef" if (!def && line.find("#ifndef ") != 0) { return ""; } // Remove the "#ifdef" or "#ifndef" if (line.find("#if defined ") == 0) line.erase(0, 11); else line.erase(0, line.find(" ")); // Remove all spaces. std::string::size_type pos = 0; while ((pos = line.find(" ", pos)) != std::string::npos) { const unsigned char chprev(static_cast((pos > 0) ? line[pos-1] : 0)); const unsigned char chnext(static_cast((pos + 1 < line.length()) ? line[pos+1] : 0)); if ((std::isalnum(chprev) || chprev == '_') && (std::isalnum(chnext) || chnext == '_')) ++pos; else line.erase(pos, 1); } // The remaining string is our result. return line; } std::list Preprocessor::getcfgs(const std::string &filedata, const std::string &filename) { std::list ret; ret.push_back(""); std::list deflist, ndeflist; // constants defined through "#define" in the code.. std::set defines; // How deep into included files are we currently parsing? // 0=>Source file, 1=>Included by source file, 2=>included by header that was included by source file, etc int filelevel = 0; bool includeguard = false; unsigned int linenr = 0; std::istringstream istr(filedata); std::string line; while (getline(istr, line)) { ++linenr; if (_errorLogger) _errorLogger->reportProgress(filename, "Preprocessing (get configurations 1)", 0); if (line.compare(0, 6, "#file ") == 0) { includeguard = true; ++filelevel; continue; } else if (line == "#endfile") { includeguard = false; if (filelevel > 0) --filelevel; continue; } if (line.compare(0, 8, "#define ") == 0) { if (line.find(" ", 8) == std::string::npos) defines.insert(line.substr(8)); else { std::string s = line.substr(8); s[s.find(" ")] = '='; defines.insert(s); } } if (!line.empty() && line.compare(0, 3, "#if") != 0) includeguard = false; if (includeguard) continue; bool from_negation = false; std::string def = getdef(line, true); if (def.empty()) { def = getdef(line, false); // sub conditionals of ndef blocks need to be // constructed _without_ the negated define if (!def.empty()) from_negation = true; } if (!def.empty()) { int par = 0; for (std::string::size_type pos = 0; pos < def.length(); ++pos) { if (def[pos] == '(') ++par; else if (def[pos] == ')') { --par; if (par < 0) break; } } if (par != 0) { std::ostringstream lineStream; lineStream << __LINE__; ErrorLogger::ErrorMessage errmsg; ErrorLogger::ErrorMessage::FileLocation loc; loc.setfile(filename); loc.line = linenr; errmsg._callStack.push_back(loc); errmsg._severity = Severity::fromString("error"); errmsg._msg = "mismatching number of '(' and ')' in this line: " + def; errmsg._id = "preprocessor" + lineStream.str(); _errorLogger->reportErr(errmsg); ret.clear(); return ret; } // Replace defined constants { std::map varmap; for (std::set::const_iterator it = defines.begin(); it != defines.end(); ++it) { std::string::size_type pos = it->find("="); if (pos == std::string::npos) continue; const std::string varname(it->substr(0, pos)); const std::string value(it->substr(pos + 1)); varmap[varname] = value; } simplifyCondition(varmap, def, false); } if (! deflist.empty() && line.find("#elif ") == 0) deflist.pop_back(); deflist.push_back(def); def = ""; for (std::list::const_iterator it = deflist.begin(); it != deflist.end(); ++it) { if (*it == "0") break; if (*it == "1" || *it == "!") continue; // don't add "T;T": // treat two and more similar nested conditions as one if (def != *it) { if (! def.empty()) def += ";"; def += *it; } } if (from_negation) { ndeflist.push_back(deflist.back()); deflist.pop_back(); std::string nmark("!"); deflist.push_back(nmark); } if (std::find(ret.begin(), ret.end(), def) == ret.end()) { ret.push_back(def); } } else if (line.find("#else") == 0 && ! deflist.empty()) { if (deflist.back() == "!") { deflist.pop_back(); deflist.push_back(ndeflist.back()); ndeflist.pop_back(); } else { std::string tempDef((deflist.back() == "1") ? "0" : "1"); deflist.pop_back(); deflist.push_back(tempDef); } } else if (line.find("#endif") == 0 && ! deflist.empty()) { if (deflist.back() == "!") ndeflist.pop_back(); deflist.pop_back(); } } // Remove defined constants from ifdef configurations.. unsigned int count = 0; for (std::list::iterator it = ret.begin(); it != ret.end(); ++it) { if (_errorLogger) _errorLogger->reportProgress(filename, "Preprocessing (get configurations 2)", (100 * count++) / ret.size()); std::string cfg(*it); for (std::set::const_iterator it2 = defines.begin(); it2 != defines.end(); ++it2) { std::string::size_type pos = 0; // Get name of define std::string defineName(*it2); if (defineName.find("=") != std::string::npos) defineName.erase(defineName.find("=")); // Remove ifdef configurations that match the defineName while ((pos = cfg.find(defineName, pos)) != std::string::npos) { std::string::size_type pos1 = pos; ++pos; if (pos1 > 0 && cfg[pos1-1] != ';') continue; std::string::size_type pos2 = pos1 + defineName.length(); if (pos2 < cfg.length() && cfg[pos2] != ';') continue; --pos; cfg.erase(pos, defineName.length()); } } if (cfg.length() != it->length()) { while (cfg.length() > 0 && cfg[0] == ';') cfg.erase(0, 1); while (cfg.length() > 0 && cfg[cfg.length()-1] == ';') cfg.erase(cfg.length() - 1); std::string::size_type pos = 0; while ((pos = cfg.find(";;", pos)) != std::string::npos) cfg.erase(pos, 1); *it = cfg; } } // convert configurations: "defined(A) && defined(B)" => "A;B" for (std::list::iterator it = ret.begin(); it != ret.end(); ++it) { std::string s(*it); if (s.find("&&") != std::string::npos) { Tokenizer tokenizer(_settings, _errorLogger); std::istringstream tempIstr(s.c_str()); if (!tokenizer.tokenize(tempIstr, filename.c_str())) { std::ostringstream lineStream; lineStream << __LINE__; ErrorLogger::ErrorMessage errmsg; ErrorLogger::ErrorMessage::FileLocation loc; loc.setfile(filename); loc.line = 1; errmsg._callStack.push_back(loc); errmsg._severity = Severity::fromString("error"); errmsg._msg = "Error parsing this: " + s; errmsg._id = "preprocessor" + lineStream.str(); _errorLogger->reportErr(errmsg); } const Token *tok = tokenizer.tokens(); std::list varList; while (tok) { if (Token::Match(tok, "defined ( %var% )")) { varList.push_back(tok->strAt(2)); tok = tok->tokAt(4); if (tok && tok->str() == "&&") { tok = tok->next(); } } else if (Token::Match(tok, "%var% ;")) { varList.push_back(tok->str()); tok = tok->tokAt(2); } else { break; } } varList.sort(); s = join(varList, ';'); if (!s.empty()) *it = s; } } // Convert configurations into a canonical form: B;C;A or C;A;B => A;B;C for (std::list::iterator it = ret.begin(); it != ret.end(); ++it) { // Split the configuration into a list of defines std::list defs = split(*it, ';'); // Re-constitute the configuration after sorting the defines defs.sort(); *it = join(defs, ';'); } // Remove duplicates from the ret list.. ret.sort(); ret.unique(); // cleanup unhandled configurations.. for (std::list::iterator it = ret.begin(); it != ret.end();) { const std::string s(*it + ";"); bool unhandled = false; for (std::string::size_type pos = 0; pos < s.length(); ++pos) { const unsigned char c = static_cast(s[pos]); // ok with ";" if (c == ';') continue; // identifier.. if (std::isalpha(c) || c == '_') { while (std::isalnum(s[pos]) || s[pos] == '_') ++pos; if (s[pos] == '=') { ++pos; while (std::isdigit(s[pos])) ++pos; if (s[pos] != ';') { unhandled = true; break; } } --pos; continue; } // not ok.. else { unhandled = true; break; } } if (unhandled) { // unhandled ifdef configuration.. if (_errorLogger && _settings && _settings->_debug) _errorLogger->reportOut("unhandled configuration: " + *it); ret.erase(it++); } else { ++it; } } return ret; } void Preprocessor::simplifyCondition(const std::map &variables, std::string &condition, bool match) { Tokenizer tokenizer; std::istringstream istr(("(" + condition + ")").c_str()); tokenizer.tokenize(istr, ""); if (Token::Match(tokenizer.tokens(), "( %var% )")) { if (variables.find(tokenizer.tokens()->strAt(1)) != variables.end()) condition = "1"; else if (match) condition = "0"; return; } if (Token::Match(tokenizer.tokens(), "( ! %var% )")) { if (variables.find(tokenizer.tokens()->strAt(2)) == variables.end()) condition = "1"; else if (match) condition = "0"; return; } // replace variable names with values.. for (Token *tok = const_cast(tokenizer.tokens()); tok; tok = tok->next()) { if (!tok->isName()) continue; if (Token::Match(tok, "defined ( %var% )")) { if (variables.find(tok->strAt(2)) != variables.end()) tok->str("1"); else if (match) tok->str("0"); else continue; tok->deleteNext(); tok->deleteNext(); tok->deleteNext(); continue; } if (Token::Match(tok, "defined %var%")) { if (variables.find(tok->strAt(1)) != variables.end()) tok->str("1"); else if (match) tok->str("0"); else continue; tok->deleteNext(); continue; } const std::map::const_iterator it = variables.find(tok->str()); if (it != variables.end()) { if (!it->second.empty()) tok->str(it->second); else if ((!tok->previous() || tok->strAt(-1) == "||" || tok->strAt(-1) == "&&" || tok->strAt(-1) == "(") && (!tok->next() || tok->strAt(1) == "||" || tok->strAt(1) == "&&" || tok->strAt(-1) == ")")) tok->str("1"); else tok->deleteThis(); } } // simplify calculations.. bool modified = true; while (modified) { modified = false; tokenizer.simplifyCalculations(); for (Token *tok = const_cast(tokenizer.tokens()); tok; tok = tok->next()) { if (Token::Match(tok, "! %num%")) { tok->deleteThis(); tok->str(tok->str() == "0" ? "1" : "0"); modified = true; } } } if (Token::simpleMatch(tokenizer.tokens(), "( 1 )") || Token::simpleMatch(tokenizer.tokens(), "( 1 ||")) condition = "1"; else if (Token::simpleMatch(tokenizer.tokens(), "( 0 )")) condition = "0"; } bool Preprocessor::match_cfg_def(const std::map &cfg, std::string def) { //std::cout << "cfg: \"" << cfg << "\" "; //std::cout << "def: \"" << def << "\""; simplifyCondition(cfg, def, true); if (cfg.find(def) != cfg.end()) return true; if (def == "0") return false; if (def == "1") return true; return false; } std::string Preprocessor::getcode(const std::string &filedata, std::string cfg, const std::string &filename, ErrorLogger *errorLogger) { std::ostringstream ret; bool match = true; std::list matching_ifdef; std::list matched_ifdef; // Create a map for the cfg for faster access to defines std::map cfgmap; { std::string::size_type pos = 0; for (;;) { std::string::size_type pos2 = cfg.find_first_of(";=", pos); if (pos2 == std::string::npos) { cfgmap[cfg.substr(pos)] = ""; break; } if (cfg[pos2] == ';') { cfgmap[cfg.substr(pos, pos2-pos)] = ""; } else { std::string::size_type pos3 = pos2; pos2 = cfg.find(";", pos2); if (pos2 == std::string::npos) { cfgmap[cfg.substr(pos, pos3-pos)] = cfg.substr(pos3 + 1); break; } else { cfgmap[cfg.substr(pos, pos3-pos)] = cfg.substr(pos3 + 1, pos2 - pos3 - 1); } } pos = pos2 + 1; } } std::istringstream istr(filedata); std::string line; while (getline(istr, line)) { if (line.compare(0, 11, "#pragma asm") == 0) { ret << "\n"; bool found_end = false; while (getline(istr, line)) { if (line.compare(0, 14, "#pragma endasm") == 0) { found_end = true; break; } ret << "\n"; } if (!found_end) break; if (line.find("=") != std::string::npos) { Tokenizer tokenizer; line.erase(0, sizeof("#pragma endasm")); std::istringstream tempIstr(line.c_str()); tokenizer.tokenize(tempIstr, ""); if (Token::Match(tokenizer.tokens(), "( %var% = %any% )")) { ret << "asm(" << tokenizer.tokens()->strAt(1) << ");"; } } ret << "\n"; continue; } std::string def = getdef(line, true); std::string ndef = getdef(line, false); if (line.compare(0, 8, "#define ") == 0) { std::string::size_type pos = line.find_first_of(" (", 8); if (pos == std::string::npos) cfgmap[line.substr(8)] = ""; else if (line[pos] == ' ') cfgmap[line.substr(8, pos - 8)] = line.substr(pos + 1); else cfgmap[line.substr(8, pos - 8)] = ""; } else if (line.find("#elif ") == 0) { if (matched_ifdef.back()) { matching_ifdef.back() = false; } else { if (match_cfg_def(cfgmap, def)) { matching_ifdef.back() = true; matched_ifdef.back() = true; } } } else if (! def.empty()) { matching_ifdef.push_back(match_cfg_def(cfgmap, def)); matched_ifdef.push_back(matching_ifdef.back()); } else if (! ndef.empty()) { matching_ifdef.push_back(! match_cfg_def(cfgmap, ndef)); matched_ifdef.push_back(matching_ifdef.back()); } else if (line == "#else") { if (! matched_ifdef.empty()) matching_ifdef.back() = ! matched_ifdef.back(); } else if (line.compare(0, 6, "#endif") == 0) { if (! matched_ifdef.empty()) matched_ifdef.pop_back(); if (! matching_ifdef.empty()) matching_ifdef.pop_back(); } if (!line.empty() && line[0] == '#') { match = true; for (std::list::const_iterator it = matching_ifdef.begin(); it != matching_ifdef.end(); ++it) match &= bool(*it); } // #error => return "" if (match && line.compare(0, 6, "#error") == 0) return ""; if (!match && line.compare(0, 8, "#define ") == 0) { // Remove define that is not part of this configuration line = ""; } else if (line.compare(0, 7, "#file \"") == 0 || line.compare(0, 8, "#endfile") == 0 || line.compare(0, 8, "#define ") == 0 || line.compare(0, 6, "#undef") == 0) { // We must not remove #file tags or line numbers // are corrupted. File tags are removed by the tokenizer. } else if (!match || line.compare(0, 1, "#") == 0) { // Remove #if, #else, #pragma etc, leaving only // #define, #undef, #file and #endfile. and also lines // which are not part of this configuration. line = ""; } ret << line << "\n"; } return expandMacros(ret.str(), filename, errorLogger); } Preprocessor::HeaderTypes Preprocessor::getHeaderFileName(std::string &str) { std::string result; std::string::size_type i = str.find_first_of("<\""); if (i == std::string::npos) { str = ""; return NoHeader; } char c = str[i]; if (c == '<') c = '>'; for (i = i + 1; i < str.length(); ++i) { if (str[i] == c) break; result.append(1, str[i]); } // Linux can't open include paths with \ separator, so fix them std::replace(result.begin(), result.end(), '\\', '/'); str = result; if (c == '"') return UserHeader; else return SystemHeader; } // This wrapper exists because Sun's CC does not allow a static_cast // from extern "C" int(*)(int) to int(*)(int). static int tolowerWrapper(int c) { return std::tolower(c); } void Preprocessor::handleIncludes(std::string &code, const std::string &filePath, const std::list &includePaths) { std::list paths; std::string path; path = filePath; path.erase(1 + path.find_last_of("\\/")); paths.push_back(path); std::string::size_type pos = 0; std::string::size_type endfilePos = 0; std::set handledFiles; endfilePos = pos; while ((pos = code.find("#include", pos)) != std::string::npos) { // Accept only includes that are at the start of a line if (pos > 0 && code[pos-1] != '\n') { pos += 8; // length of "#include" continue; } // If endfile is encountered, we have moved to a next file in our stack, // so remove last path in our list. while ((endfilePos = code.find("\n#endfile", endfilePos)) != std::string::npos && endfilePos < pos) { paths.pop_back(); endfilePos += 9; // size of #endfile } endfilePos = pos; std::string::size_type end = code.find("\n", pos); std::string filename = code.substr(pos, end - pos); // Remove #include clause code.erase(pos, end - pos); HeaderTypes headerType = getHeaderFileName(filename); if (headerType == NoHeader) continue; // filename contains now a file name e.g. "menu.h" std::string processedFile; bool fileOpened = false; std::ifstream fin; { std::list includePaths2(includePaths); includePaths2.push_front(""); for (std::list::const_iterator iter = includePaths2.begin(); iter != includePaths2.end(); ++iter) { fin.open((*iter + filename).c_str()); if (fin.is_open()) { filename = *iter + filename; fileOpened = true; break; } fin.clear(); } } if (headerType == UserHeader && !fileOpened) { filename = paths.back() + filename; fin.open(filename.c_str()); if (fin.is_open()) { fileOpened = true; } } if (fileOpened) { std::string tempFile = getFileLister()->simplifyPath(filename.c_str()); std::transform(tempFile.begin(), tempFile.end(), tempFile.begin(), tolowerWrapper); if (handledFiles.find(tempFile) != handledFiles.end()) { // We have processed this file already once, skip // it this time to avoid ethernal loop. fin.close(); continue; } handledFiles.insert(tempFile); processedFile = Preprocessor::read(fin, filename, _settings); fin.close(); } if (processedFile.length() > 0) { // Replace all tabs with spaces.. std::replace(processedFile.begin(), processedFile.end(), '\t', ' '); // Remove all indentation.. if (!processedFile.empty() && processedFile[0] == ' ') processedFile.erase(0, processedFile.find_first_not_of(" ")); // Remove space characters that are after or before new line character processedFile = removeSpaceNearNL(processedFile); processedFile = "#file \"" + filename + "\"\n" + processedFile + "\n#endfile"; code.insert(pos, processedFile); path = filename; path.erase(1 + path.find_last_of("\\/")); paths.push_back(path); } else if (!fileOpened) { if (headerType == UserHeader && _errorLogger && _settings && _settings->_verbose) { std::string fixedpath = Path::toNativeSeparators(filename); _errorLogger->reportOut("Include file: \"" + fixedpath + "\" not found."); } } } } /** * Skip string in line. A string begins and ends with either a " or a ' * @param line the string * @param pos in=start position of string, out=end position of string */ static void skipstring(const std::string &line, std::string::size_type &pos) { const char ch = line[pos]; ++pos; while (pos < line.size() && line[pos] != ch) { if (line[pos] == '\\') ++pos; ++pos; } } /** * @brief get parameters from code. For example 'foo(1,2)' => '1','2' * @param line in: The code * @param pos in: Position to the '('. out: Position to the ')' * @param params out: The extracted parameters * @param numberOfNewlines out: number of newlines in the macro call * @param endFound out: was the end paranthesis found? */ static void getparams(const std::string &line, std::string::size_type &pos, std::vector ¶ms, unsigned int &numberOfNewlines, bool &endFound) { params.clear(); numberOfNewlines = 0; endFound = false; if (line[pos] == ' ') pos++; if (line[pos] != '(') return; // parantheses level int parlevel = 0; // current parameter data std::string par; // scan for parameters.. for (; pos < line.length(); ++pos) { // increase paranthesis level if (line[pos] == '(') { ++parlevel; if (parlevel == 1) continue; } // decrease paranthesis level else if (line[pos] == ')') { --parlevel; if (parlevel <= 0) { endFound = true; params.push_back(par); break; } } // string else if (line[pos] == '\"' || line[pos] == '\'') { const std::string::size_type p = pos; skipstring(line, pos); if (pos == line.length()) break; par += line.substr(p, pos + 1 - p); continue; } // count newlines. the expanded macro must have the same number of newlines else if (line[pos] == '\n') { ++numberOfNewlines; continue; } // new parameter if (parlevel == 1 && line[pos] == ',') { params.push_back(par); par = ""; } // spaces are only added if needed else if (line[pos] == ' ') { // Add space only if it is needed if (par.size() && std::isalnum(par[par.length()-1])) { par += ' '; } } // add character to current parameter else if (parlevel >= 1) { par.append(1, line[pos]); } } } /** @brief Class that the preprocessor uses when it expands macros. This class represents a preprocessor macro */ class PreprocessorMacro { private: /** tokens of this macro */ Tokenizer tokenizer; /** macro parameters */ std::vector _params; /** name of macro */ std::string _name; /** macro definition in plain text */ const std::string _macro; /** does this macro take a variable number of parameters? */ bool _variadic; /** prefix that is used by cppcheck to separate macro parameters. Always "__cppcheck__" */ const std::string _prefix; /** The macro has parantheses but no parameters.. "AAA()" */ bool _nopar; /** disabled assignment operator */ void operator=(const PreprocessorMacro &); /** @brief expand inner macro */ std::vector expandInnerMacros(const std::vector ¶ms1, const std::map ¯os) const { std::string innerMacroName; // Is there an inner macro.. { const Token *tok = Token::findmatch(tokens(), ")"); if (!Token::Match(tok, ") %var% (")) return params1; innerMacroName = tok->strAt(1); tok = tok->tokAt(3); unsigned int par = 0; while (Token::Match(tok, "%var% ,|)")) { tok = tok->tokAt(2); par++; } if (tok || par != params1.size()) return params1; } std::vector params2(params1); for (unsigned int ipar = 0; ipar < params1.size(); ++ipar) { const std::string s(innerMacroName + "("); std::string param(params1[ipar]); if (param.compare(0,s.length(),s)==0 && param[param.length()-1]==')') { std::vector innerparams; std::string::size_type pos = s.length() - 1; unsigned int num = 0; bool endFound = false; getparams(param, pos, innerparams, num, endFound); if (pos == param.length()-1 && num==0 && endFound && innerparams.size() == params1.size()) { // Is inner macro defined? std::map::const_iterator it = macros.find(innerMacroName); if (it != macros.end()) { // expand the inner macro const PreprocessorMacro *innerMacro = it->second; std::string innercode; std::map innermacros = macros; innermacros.erase(innerMacroName); innerMacro->code(innerparams, innermacros, innercode); params2[ipar] = innercode; } } } } return params2; } public: /** * @brief Constructor for PreprocessorMacro. This is the "setter" * for this class - everything is setup here. * @param macro The code after define, until end of line, * e.g. "A(x) foo(x);" */ PreprocessorMacro(const std::string ¯o) : _macro(macro), _prefix("__cppcheck__") { // Tokenize the macro to make it easier to handle std::istringstream istr(macro.c_str()); tokenizer.createTokens(istr); // macro name.. if (tokens() && tokens()->isName()) _name = tokens()->str(); // initialize parameters to default values _variadic = _nopar = false; std::string::size_type pos = macro.find_first_of(" ("); if (pos != std::string::npos && macro[pos] == '(') { // Extract macro parameters if (Token::Match(tokens(), "%var% ( %var%")) { for (const Token *tok = tokens()->tokAt(2); tok; tok = tok->next()) { if (tok->str() == ")") break; if (Token::simpleMatch(tok, ". . . )")) { _variadic = true; break; } if (tok->isName()) _params.push_back(tok->str()); } } else if (Token::Match(tokens(), "%var% ( . . . )")) _variadic = true; else if (Token::Match(tokens(), "%var% ( )")) _nopar = true; } } /** return tokens of this macro */ const Token *tokens() const { return tokenizer.tokens(); } /** read parameters of this macro */ const std::vector ¶ms() const { return _params; } /** check if this is macro has a variable number of parameters */ bool variadic() const { return _variadic; } /** Check if this macro has parantheses but no parameters */ bool nopar() const { return _nopar; } /** name of macro */ const std::string &name() const { return _name; } /** * get expanded code for this macro * @param params2 macro parameters * @param macros macro definitions (recursion) * @param macrocode output string * @return true if the expanding was successful */ bool code(const std::vector ¶ms2, const std::map macros, std::string ¯ocode) const { if (_nopar || (_params.empty() && _variadic)) { macrocode = _macro.substr(1 + _macro.find(")")); if (macrocode.empty()) return true; std::string::size_type pos = 0; // Remove leading spaces if ((pos = macrocode.find_first_not_of(" ")) > 0) macrocode.erase(0, pos); // Remove ending newline if ((pos = macrocode.find_first_of("\r\n")) != std::string::npos) macrocode.erase(pos); // Replace "__VA_ARGS__" with parameters if (!_nopar) { std::string s; for (unsigned int i = 0; i < params2.size(); ++i) { if (i > 0) s += ","; s += params2[i]; } pos = 0; while ((pos = macrocode.find("__VA_ARGS__", pos)) != std::string::npos) { macrocode.erase(pos, 11); macrocode.insert(pos, s); pos += s.length(); } } } else if (_params.empty()) { std::string::size_type pos = _macro.find(" "); if (pos == std::string::npos) macrocode = ""; else { macrocode = _macro.substr(pos + 1); if ((pos = macrocode.find_first_of("\r\n")) != std::string::npos) macrocode.erase(pos); } } else { const std::vector givenparams = expandInnerMacros(params2, macros); const Token *tok = tokens(); while (tok && tok->str() != ")") tok = tok->next(); if (tok) { bool optcomma = false; while ((tok = tok->next()) != NULL) { std::string str = tok->str(); if (str == "##") continue; if (str[0] == '#' || tok->isName()) { const bool stringify(str[0] == '#'); if (stringify) { str = str.erase(0, 1); } for (unsigned int i = 0; i < _params.size(); ++i) { if (str == _params[i]) { if (_variadic && (i == _params.size() - 1 || (givenparams.size() + 2 == _params.size() && i + 1 == _params.size() - 1))) { str = ""; for (unsigned int j = (unsigned int)_params.size() - 1; j < givenparams.size(); ++j) { if (optcomma || j > _params.size() - 1) str += ","; optcomma = false; str += givenparams[j]; } } else if (i >= givenparams.size()) { // Macro had more parameters than caller used. macrocode = ""; return false; } else if (stringify) { const std::string &s(givenparams[i]); std::ostringstream ostr; ostr << "\""; for (std::string::size_type j = 0; j < s.size(); ++j) { if (s[j] == '\\' || s[j] == '\"') ostr << '\\'; ostr << s[j]; } str = ostr.str() + "\""; } else str = givenparams[i]; break; } } } if (_variadic && tok->str() == "," && tok->next() && tok->next()->str() == "##") { optcomma = true; continue; } optcomma = false; macrocode += str; if (Token::Match(tok, "%var% %var%") || Token::Match(tok, "%var% %num%") || Token::Match(tok, "%num% %var%") || Token::Match(tok, "> >")) macrocode += " "; } } } return true; } }; /** * Get data from a input string. This is an extended version of std::getline. * The std::getline only get a single line at a time. It can therefore happen that it * contains a partial statement. This function ensures that the returned data * doesn't end in the middle of a statement. The "getlines" name indicate that * this function will return multiple lines if needed. * @param istr input stream * @param line output data * @return success */ static bool getlines(std::istream &istr, std::string &line) { if (!istr.good()) return false; line = ""; int parlevel = 0; for (char ch = (char)istr.get(); istr.good(); ch = (char)istr.get()) { if (ch == '\'' || ch == '\"') { line += ch; char c = 0; while (istr.good() && c != ch) { if (c == '\\') { c = (char)istr.get(); if (!istr.good()) return true; line += c; } c = (char)istr.get(); if (!istr.good()) return true; if (c == '\n' && line.compare(0, 1, "#") == 0) return true; line += c; } continue; } if (ch == '(') ++parlevel; else if (ch == ')') --parlevel; else if (ch == '\n') { if (line.compare(0, 1, "#") == 0) return true; if (istr.peek() == '#') { line += ch; return true; } } else if (line.compare(0, 1, "#") != 0 && parlevel <= 0 && ch == ';') { line += ";"; return true; } line += ch; } return true; } std::string Preprocessor::expandMacros(const std::string &code, std::string filename, ErrorLogger *errorLogger) { // Search for macros and expand them.. // -------------------------------------------- // Available macros (key=macroname, value=macro). std::map macros; // Current line number unsigned int linenr = 1; // linenr, filename std::stack< std::pair > fileinfo; // output stream std::ostringstream ostr; // read code.. std::istringstream istr(code.c_str()); std::string line; while (getlines(istr, line)) { // defining a macro.. if (line.compare(0, 8, "#define ") == 0) { PreprocessorMacro *macro = new PreprocessorMacro(line.substr(8)); if (macro->name().empty()) delete macro; else { std::map::iterator it; it = macros.find(macro->name()); if (it != macros.end()) delete it->second; macros[macro->name()] = macro; } line = "\n"; } // undefining a macro.. else if (line.compare(0, 7, "#undef ") == 0) { std::map::iterator it; it = macros.find(line.substr(7)); if (it != macros.end()) { delete it->second; macros.erase(it); } line = "\n"; } // entering a file, update position.. else if (line.compare(0, 7, "#file \"") == 0) { fileinfo.push(std::pair(linenr, filename)); filename = line.substr(7, line.length() - 8); linenr = 0; line += "\n"; } // leaving a file, update position.. else if (line == "#endfile") { if (!fileinfo.empty()) { linenr = fileinfo.top().first; filename = fileinfo.top().second; fileinfo.pop(); } line += "\n"; } // all other preprocessor directives are just replaced with a newline else if (line.compare(0, 1, "#") == 0) { line += "\n"; } // expand macros.. else { // Limit for each macro. // The limit specify a position in the "line" variable. // For a "recursive macro" where the expanded text contains // the macro again, the macro should not be expanded again. // The limits are used to prevent recursive expanding. // * When a macro is expanded its limit position is set to // the last expanded character. // * macros are only allowed to be expanded when the // the position is beyond the limit. // * The limit is relative to the end of the "line" // variable. Inserting and deleting text before the limit // without updating the limit is safe. // * when pos goes beyond a limit the limit needs to be // deleted because it is unsafe to insert/delete text // after the limit otherwise std::map limits; // pos is the current position in line std::string::size_type pos = 0; // scan line to see if there are any macros to expand.. unsigned int tmpLinenr = 0; while (pos < line.size()) { if (line[pos] == '\n') ++tmpLinenr; // skip strings.. if (line[pos] == '\"' || line[pos] == '\'') { const char ch = line[pos]; skipstring(line, pos); ++pos; if (pos >= line.size()) { writeError(filename, linenr + tmpLinenr, errorLogger, "noQuoteCharPair", std::string("No pair for character (") + ch + "). Can't process file. File is either invalid or unicode, which is currently not supported."); std::map::iterator it; for (it = macros.begin(); it != macros.end(); ++it) delete it->second; return ""; } continue; } if (!std::isalpha(line[pos]) && line[pos] != '_') ++pos; // found an identifier.. // the "while" is used in case the expanded macro will immediately call another macro while (pos < line.length() && (std::isalpha(line[pos]) || line[pos] == '_')) { // pos1 = start position of macro const std::string::size_type pos1 = pos++; // find the end of the identifier while (pos < line.size() && (std::isalnum(line[pos]) || line[pos] == '_')) ++pos; // get identifier const std::string id = line.substr(pos1, pos - pos1); // is there a macro with this name? std::map::const_iterator it; it = macros.find(id); if (it == macros.end()) break; // no macro with this name exist const PreprocessorMacro * const macro = it->second; // check that pos is within allowed limits for this // macro { const std::map::const_iterator it2 = limits.find(macro); if (it2 != limits.end() && pos <= line.length() - it2->second) break; } // get parameters from line.. std::vector params; std::string::size_type pos2 = pos; if (macro->params().size() && pos2 >= line.length()) break; // number of newlines within macro use unsigned int numberOfNewlines = 0; // if the macro has parantheses, get parameters if (macro->variadic() || macro->nopar() || macro->params().size()) { // is the end paranthesis found? bool endFound = false; getparams(line,pos2,params,numberOfNewlines,endFound); // something went wrong so bail out if (!endFound) break; } // Just an empty parameter => clear if (params.size() == 1 && params[0] == "") params.clear(); // Check that it's the same number of parameters.. if (!macro->variadic() && params.size() != macro->params().size()) break; // Create macro code.. std::string tempMacro; if (!macro->code(params, macros, tempMacro)) { // Syntax error in code writeError(filename, linenr + tmpLinenr, errorLogger, "syntaxError", std::string("Syntax error. Not enough parameters for macro '") + macro->name() + "'."); std::map::iterator iter; for (iter = macros.begin(); iter != macros.end(); ++iter) delete iter->second; return ""; } // make sure number of newlines remain the same.. std::string macrocode(std::string(numberOfNewlines, '\n') + tempMacro); // Insert macro code.. if (macro->variadic() || macro->nopar() || !macro->params().empty()) ++pos2; // Remove old limits for (std::map::iterator iter = limits.begin(); iter != limits.end();) { if ((line.length() - pos1) < iter->second) { // We have gone past this limit, so just delete it limits.erase(iter++); } else { ++iter; } } // don't allow this macro to be expanded again before pos2 limits[macro] = line.length() - pos2; // erase macro line.erase(pos1, pos2 - pos1); // Don't glue this macro into variable or number after it if (std::isalnum(line[pos1]) || line[pos1] == '_') macrocode.append(1,' '); // insert expanded macro code line.insert(pos1, macrocode); // position = start position. pos = pos1; } } } // the line has been processed in various ways. Now add it to the output stream ostr << line; // update linenr for (std::string::size_type p = 0; p < line.length(); ++p) { if (line[p] == '\n') ++linenr; } } { std::map::iterator it; for (it = macros.begin(); it != macros.end(); ++it) delete it->second; } return ostr.str(); }