/* * Cppcheck - A tool for static C/C++ code analysis * Copyright (C) 2007-2023 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 . */ //--------------------------------------------------------------------------- #ifndef tokenizeH #define tokenizeH //--------------------------------------------------------------------------- #include "config.h" #include "errortypes.h" #include "tokenlist.h" #include #include #include #include #include #include class Settings; class SymbolDatabase; class TimerResults; class Token; class TemplateSimplifier; class ErrorLogger; class Preprocessor; class VariableMap; namespace simplecpp { class TokenList; } /// @addtogroup Core /// @{ /** @brief The main purpose is to tokenize the source code. It also has functions that simplify the token list */ class CPPCHECKLIB Tokenizer { friend class TestSimplifyTokens; friend class TestSimplifyTypedef; friend class TestSimplifyUsing; friend class TestTokenizer; friend class SymbolDatabase; friend class TestSimplifyTemplate; friend class TemplateSimplifier; public: explicit Tokenizer(const Settings * settings, ErrorLogger *errorLogger = nullptr, const Preprocessor *preprocessor = nullptr); ~Tokenizer(); void setTimerResults(TimerResults *tr) { mTimerResults = tr; } /** Is the code C. Used for bailouts */ bool isC() const { return list.isC(); } /** Is the code CPP. Used for bailouts */ bool isCPP() const { return list.isCPP(); } /** * Check if inner scope ends with a call to a noreturn function * \param endScopeToken The '}' token * \param unknown set to true if it's unknown if the scope is noreturn * \return true if scope ends with a function call that might be 'noreturn' */ bool isScopeNoReturn(const Token *endScopeToken, bool *unknown = nullptr) const; bool createTokens(std::istream &code, const std::string& FileName); void createTokens(simplecpp::TokenList&& tokenList); bool simplifyTokens1(const std::string &configuration); /** * Tokenize code * @param code input stream for code, e.g. * \code * #file "p.h" * class Foo * { * private: * void Bar(); * }; * * #endfile * void Foo::Bar() * { * } * \endcode * * @param FileName The filename * @param configuration E.g. "A" for code where "#ifdef A" is true * @return false if source code contains syntax errors */ bool tokenize(std::istream &code, const char FileName[], const std::string &configuration = emptyString); /** Set variable id */ void setVarId(); void setVarIdPass1(); void setVarIdPass2(); /** * Basic simplification of tokenlist * * @param FileName The filename to run; used to do * markup checks. * * @return false if there is an error that requires aborting * the checking of this file. */ bool simplifyTokenList1(const char FileName[]); /** * If --check-headers=no has been given; then remove unneeded code in headers. * - All executable code. * - Unused types/variables/etc */ void simplifyHeadersAndUnusedTemplates(); /** * Remove extra "template" keywords that are not used by Cppcheck */ void removeExtraTemplateKeywords(); /** Split up template right angle brackets. * foo < bar < >> => foo < bar < > > */ void splitTemplateRightAngleBrackets(bool check); /** * Calculates sizeof value for given type. * @param type Token which will contain e.g. "int", "*", or string. * @return sizeof for given type, or 0 if it can't be calculated. */ nonneg int sizeOfType(const Token* type) const; nonneg int sizeOfType(const std::string& type) const; void simplifyDebug(); /** * Try to determine if function parameter is passed by value by looking * at the function declaration. * @param fpar token for function parameter in the function call * @return true if the parameter is passed by value. if unsure, false is returned */ bool isFunctionParameterPassedByValue(const Token *fpar) const; /** Simplify assignment where rhs is a block : "x=({123;});" => "{x=123;}" */ void simplifyAssignmentBlock(); /** Insert array size where it isn't given */ void arraySize(); /** Simplify labels and 'case|default' syntaxes. */ void simplifyLabelsCaseDefault(); /** simplify case ranges (gcc extension) */ void simplifyCaseRange(); /** Remove macros in global scope */ void removeMacrosInGlobalScope(); void addSemicolonAfterUnknownMacro(); // Remove C99 and CPP11 _Pragma(str) void removePragma(); /** Remove undefined macro in class definition: * class DLLEXPORT Fred { }; * class Fred FINAL : Base { }; */ void removeMacroInClassDef(); /** Add parentheses for sizeof: sizeof x => sizeof(x) */ void sizeofAddParentheses(); /** * Simplify variable declarations (split up) * \param only_k_r_fpar Only simplify K&R function parameters */ void simplifyVarDecl(const bool only_k_r_fpar); void simplifyVarDecl(Token * tokBegin, const Token * const tokEnd, const bool only_k_r_fpar); /** * Simplify variable initialization * '; int *p(0);' => '; int *p = 0;' */ void simplifyInitVar(); static Token* initVar(Token* tok); /** * Simplify the location of "static" and "const" qualifiers in * a variable declaration or definition. * Example: "int static const a;" => "static const a;" * Example: "long long const static b;" => "static const long long b;" */ void simplifyStaticConst(); /** * Simplify multiple assignments. * Example: "a = b = c = 0;" => "a = 0; b = 0; c = 0;" */ void simplifyVariableMultipleAssign(); /** * Simplify the 'C Alternative Tokens' * Examples: * "if(s and t)" => "if(s && t)" * "while((r bitand s) and not t)" => while((r & s) && !t)" * "a and_eq b;" => "a &= b;" */ bool simplifyCAlternativeTokens(); /** Add braces to an if-block, for-block, etc. * @return true if no syntax errors */ bool simplifyAddBraces(); /** Add braces to an if-block, for-block, etc. * for command starting at token including else-block * @return last token of command * or input token in case of an error where no braces are added * or NULL when syntaxError is called */ Token * simplifyAddBracesToCommand(Token * tok); /** Add pair of braces to an single if-block, else-block, for-block, etc. * for command starting at token * @return last token of command * or input token in case of an error where no braces are added * or NULL when syntaxError is called */ Token * simplifyAddBracesPair(Token *tok, bool commandWithCondition); // Convert "using ...;" to corresponding typedef void simplifyUsingToTypedef(); /** * typedef A mytype; * mytype c; * * Becomes: * typedef A mytype; * A c; */ void simplifyTypedef(); void simplifyTypedefCpp(); /** * Move typedef token to the left og the expression */ void simplifyTypedefLHS(); /** */ bool isMemberFunction(const Token *openParen) const; /** */ bool simplifyUsing(); void simplifyUsingError(const Token* usingStart, const Token* usingEnd); /** Simplify useless C++ empty namespaces, like: 'namespace %name% { }'*/ void simplifyEmptyNamespaces(); /** Simplify "if else" */ void elseif(); /** Simplify C++17/C++20 if/switch/for initialization expression */ void simplifyIfSwitchForInit(); /** * Reduces "; ;" to ";", except in "( ; ; )" */ void removeRedundantSemicolons(); /** Struct simplification * "struct S { } s;" => "struct S { }; S s;" */ void simplifyStructDecl(); /** * Remove redundant parentheses: * - "((x))" => "(x)" * - "(function())" => "function()" * - "(delete x)" => "delete x" * - "(delete [] x)" => "delete [] x" * @return true if modifications to token-list are done. * false if no modifications are done. */ bool simplifyRedundantParentheses(); /** * Simplify functions like "void f(x) int x; {" * into "void f(int x) {" */ void simplifyFunctionParameters(); /** Simplify function level try blocks: * Convert "void f() try {} catch (int) {}" * to "void f() { try {} catch (int) {} }" */ void simplifyFunctionTryCatch(); /** * Simplify templates */ void simplifyTemplates(); void simplifyDoublePlusAndDoubleMinus(); void simplifyRedundantConsecutiveBraces(); void simplifyArrayAccessSyntax(); void simplifyParameterVoid(); void fillTypeSizes(); void combineOperators(); void combineStringAndCharLiterals(); void concatenateNegativeNumberAndAnyPositive(); void simplifyExternC(); void simplifyRoundCurlyParentheses(); void simplifyTypeIntrinsics(); void simplifySQL(); void checkForEnumsWithTypedef(); void findComplicatedSyntaxErrorsInTemplates(); /** * Modify strings in the token list by replacing hex and oct * values. E.g. "\x61" -> "a" and "\000" -> "\0" * @param source The string to be modified, e.g. "\x61" * @return Modified string, e.g. "a" */ static std::string simplifyString(const std::string &source); /** * is token pointing at function head? * @param tok A '(' or ')' token in a possible function head * @param endsWith string after function head * @return token matching with endsWith if syntax seems to be a function head else nullptr */ const Token * isFunctionHead(const Token *tok, const std::string &endsWith) const; /** * is token pointing at function head? * @param tok A '(' or ')' token in a possible function head * @param endsWith string after function head * @param cpp c++ code * @return token matching with endsWith if syntax seems to be a function head else nullptr */ static const Token * isFunctionHead(const Token *tok, const std::string &endsWith, bool cpp); const Preprocessor *getPreprocessor() const { assert(mPreprocessor); return mPreprocessor; } bool hasIfdef(const Token *start, const Token *end) const; private: /** Simplify pointer to standard type (C only) */ void simplifyPointerToStandardType(); /** Simplify function pointers */ void simplifyFunctionPointers(); /** * Send error message to error logger about internal bug. * @param tok the token that this bug concerns. */ NORETURN void cppcheckError(const Token *tok) const; /** * Setup links for tokens so that one can call Token::link(). */ void createLinks(); /** * Setup links between < and >. */ void createLinks2(); public: /** Syntax error */ NORETURN void syntaxError(const Token *tok, const std::string &code = emptyString) const; /** Syntax error. Unmatched character. */ NORETURN void unmatchedToken(const Token *tok) const; /** Syntax error. C++ code in C file. */ NORETURN void syntaxErrorC(const Token *tok, const std::string &what) const; /** Warn about unknown macro(s), configuration is recommended */ NORETURN void unknownMacroError(const Token *tok1) const; void unhandledCharLiteral(const Token *tok, const std::string& msg) const; private: /** Report that there is an unhandled "class x y {" code */ void unhandled_macro_class_x_y(const Token *tok) const; /** Check configuration (unknown macros etc) */ void checkConfiguration() const; void macroWithSemicolonError(const Token *tok, const std::string ¯oName) const; /** * Is there C++ code in C file? */ void validateC() const; /** * assert that tokens are ok - used during debugging for example * to catch problems in simplifyTokenList1/2. */ void validate() const; /** Detect unknown macros and throw unknownMacro */ void reportUnknownMacros() const; /** Detect garbage code and call syntaxError() if found. */ void findGarbageCode() const; /** Detect garbage expression */ static bool isGarbageExpr(const Token *start, const Token *end, bool allowSemicolon); /** * Remove __declspec() */ void simplifyDeclspec(); /** * Remove calling convention */ void simplifyCallingConvention(); /** * Remove \__attribute\__ ((?)) */ void simplifyAttribute(); /** * Remove \__cppcheck\__ ((?)) */ void simplifyCppcheckAttribute(); /** Remove alignas */ void removeAlignas(); /** Simplify c++20 spaceship operator */ void simplifySpaceshipOperator(); /** * Remove keywords "volatile", "inline", "register", and "restrict" */ void simplifyKeyword(); /** * Remove __asm */ void simplifyAsm(); /** * asm heuristics, Put ^{} statements in asm() */ void simplifyAsm2(); /** * Simplify \@… (compiler extension) */ void simplifyAt(); /** * Simplify bitfields - the field width is removed as we don't use it. */ void simplifyBitfields(); /** * Remove unnecessary member qualification */ void removeUnnecessaryQualification(); /** * Add std:: in front of std classes, when using namespace std; was given */ void simplifyNamespaceStd(); /** * Convert Microsoft memory functions * CopyMemory(dst, src, len) -> memcpy(dst, src, len) * FillMemory(dst, len, val) -> memset(dst, val, len) * MoveMemory(dst, src, len) -> memmove(dst, src, len) * ZeroMemory(dst, len) -> memset(dst, 0, len) */ void simplifyMicrosoftMemoryFunctions(); /** * Convert Microsoft string functions * _tcscpy -> strcpy */ void simplifyMicrosoftStringFunctions(); /** * Remove Borland code */ void simplifyBorland(); /** * Collapse operator name tokens into single token * operator = => operator= */ void simplifyOperatorName(); /** simplify overloaded operators: 'obj(123)' => 'obj . operator() ( 123 )' */ void simplifyOverloadedOperators(); /** * Remove [[attribute]] (C++11 and later) from TokenList */ void simplifyCPPAttribute(); /** * Replace strlen(str) * @return true if any replacement took place, false else * */ bool simplifyStrlen(); /** * Convert namespace aliases */ void simplifyNamespaceAliases(); /** * Convert C++17 style nested namespace to older style */ void simplifyNestedNamespace(); /** * Simplify coroutines - just put parentheses around arguments for * co_* keywords so they can be handled like function calls in data * flow. */ void simplifyCoroutines(); /** * Prepare ternary operators with parentheses so that the AST can be created * */ void prepareTernaryOpForAST(); /** * report error message */ void reportError(const Token* tok, const Severity::SeverityType severity, const std::string& id, const std::string& msg, bool inconclusive = false) const; void reportError(const std::list& callstack, Severity::SeverityType severity, const std::string& id, const std::string& msg, bool inconclusive = false) const; bool duplicateTypedef(Token **tokPtr, const Token *name, const Token *typeDef) const; void unsupportedTypedef(const Token *tok) const; void setVarIdClassDeclaration(const Token * const startToken, // cppcheck-suppress functionConst // has side effects VariableMap &variableMap, const nonneg int scopeStartVarId, std::map>& structMembers); void setVarIdStructMembers(Token **tok1, std::map>& structMembers, nonneg int &varId) const; void setVarIdClassFunction(const std::string &classname, // cppcheck-suppress functionConst // has side effects Token * const startToken, const Token * const endToken, const std::map &varlist, std::map>& structMembers, nonneg int &varId_); /** * Output list of unknown types. */ void printUnknownTypes() const; /** Find end of SQL (or PL/SQL) block */ static const Token *findSQLBlockEnd(const Token *tokSQLStart); bool operatorEnd(const Token * tok) const; public: /** Was there templates in the code? */ bool codeWithTemplates() const { return mCodeWithTemplates; } const SymbolDatabase *getSymbolDatabase() const { return mSymbolDatabase; } void createSymbolDatabase(); /** print --debug output if debug flags match the simplification: * 0=unknown/both simplifications * 1=1st simplifications * 2=2nd simplifications */ void printDebugOutput(int simplification) const; void dump(std::ostream &out) const; Token *deleteInvalidTypedef(Token *typeDef); /** * Get variable count. * @return number of variables */ nonneg int varIdCount() const { return mVarId; } /** * Token list: stores all tokens. */ TokenList list; // Implement tokens() as a wrapper for convenience when using the TokenList const Token* tokens() const { return list.front(); } /** * Helper function to check whether number is one (1 or 0.1E+1 or 1E+0) or not? * @param s the string to check * @return true in case is is one and false otherwise. */ static bool isOneNumber(const std::string &s); /** * Helper function to check for start of function execution scope. * Do not use this in checks. Use the symbol database. * @param tok pointer to end parentheses of parameter list * @return pointer to start brace of function scope or nullptr if not start. */ static const Token * startOfExecutableScope(const Token * tok); const Settings *getSettings() const { return mSettings; } void calculateScopes(); /** Disable copy constructor */ Tokenizer(const Tokenizer &) = delete; /** Disable assignment operator */ Tokenizer &operator=(const Tokenizer &) = delete; private: const Token *processFunc(const Token *tok2, bool inOperator) const; Token *processFunc(Token *tok2, bool inOperator); /** * Get new variable id. * @return new variable id */ nonneg int newVarId() { return ++mVarId; } /** Set pod types */ void setPodTypes(); /** settings */ const Settings * const mSettings; /** errorlogger */ ErrorLogger* const mErrorLogger; /** Symbol database that all checks etc can use */ SymbolDatabase *mSymbolDatabase; TemplateSimplifier * const mTemplateSimplifier; /** E.g. "A" for code where "#ifdef A" is true. This is used to print additional information in error situations. */ std::string mConfiguration; /** sizeof information for known types */ std::map mTypeSize; struct TypedefInfo { std::string name; std::string filename; int lineNumber; int column; bool used; }; std::vector mTypedefInfo; /** variable count */ nonneg int mVarId; /** unnamed count "Unnamed0", "Unnamed1", "Unnamed2", ... */ nonneg int mUnnamedCount; /** * was there any templates? templates that are "unused" are * removed from the token list */ bool mCodeWithTemplates; /** * TimerResults */ TimerResults *mTimerResults; const Preprocessor * const mPreprocessor; }; /// @} //--------------------------------------------------------------------------- #endif // tokenizeH