/* * Cppcheck - A tool for static C/C++ code analysis * Copyright (C) 2007-2018 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 tokenH #define tokenH //--------------------------------------------------------------------------- #include "config.h" #include "mathlib.h" #include "valueflow.h" #include #include #include #include #include class Enumerator; class Function; class Scope; class Settings; class Type; class ValueType; class Variable; /** * @brief This struct stores pointers to the front and back tokens of the list this token is in. */ struct TokensFrontBack { Token *front; Token *back; }; /// @addtogroup Core /// @{ /** * @brief The token list that the TokenList generates is a linked-list of this class. * * Tokens are stored as strings. The "if", "while", etc are stored in plain text. * The reason the Token class is needed (instead of using the string class) is that some extra functionality is also needed for tokens: * - location of the token is stored (fileIndex, linenr, column) * - functions for classifying the token (isName, isNumber, isBoolean, isStandardType) * * The Token class also has other functions for management of token list, matching tokens, etc. */ class CPPCHECKLIB Token { private: TokensFrontBack* mTokensFrontBack; // Not implemented.. Token(const Token &); Token operator=(const Token &); public: enum Type { eVariable, eType, eFunction, eKeyword, eName, // Names: Variable (varId), Type (typeId, later), Function (FuncId, later), Language keyword, Name (unknown identifier) eNumber, eString, eChar, eBoolean, eLiteral, eEnumerator, // Literals: Number, String, Character, Boolean, User defined literal (C++11), Enumerator eArithmeticalOp, eComparisonOp, eAssignmentOp, eLogicalOp, eBitOp, eIncDecOp, eExtendedOp, // Operators: Arithmetical, Comparison, Assignment, Logical, Bitwise, ++/--, Extended eBracket, // {, }, <, >: < and > only if link() is set. Otherwise they are comparison operators. eOther, eNone }; explicit Token(TokensFrontBack *tokensFrontBack = nullptr); ~Token(); template void str(T&& s) { mStr = s; mVarId = 0; update_property_info(); } /** * Concatenate two (quoted) strings. Automatically cuts of the last/first character. * Example: "hello ""world" -> "hello world". Used by the token simplifier. */ void concatStr(std::string const& b); const std::string &str() const { return mStr; } /** * Unlink and delete the next 'index' tokens. */ void deleteNext(unsigned long index = 1); /** * Unlink and delete the previous 'index' tokens. */ void deletePrevious(unsigned long index = 1); /** * Swap the contents of this token with the next token. */ void swapWithNext(); /** * @return token in given index, related to this token. * For example index 1 would return next token, and 2 * would return next from that one. */ const Token *tokAt(int index) const; Token *tokAt(int index) { return const_cast(const_cast(this)->tokAt(index)); } /** * @return the link to the token in given index, related to this token. * For example index 1 would return the link to next token. */ const Token *linkAt(int index) const; Token *linkAt(int index) { return const_cast(const_cast(this)->linkAt(index)); } /** * @return String of the token in given index, related to this token. * If that token does not exist, an empty string is being returned. */ const std::string &strAt(int index) const; /** * Match given token (or list of tokens) to a pattern list. * * Possible patterns * "someRandomText" If token contains "someRandomText". * @note Use Match() if you want to use flags in patterns * * The patterns can be also combined to compare to multiple tokens at once * by separating tokens with a space, e.g. * ") void {" will return true if first token is ')' next token * is "void" and token after that is '{'. If even one of the tokens does * not match its pattern, false is returned. * * @param tok List of tokens to be compared to the pattern * @param pattern The pattern against which the tokens are compared, * e.g. "const" or ") void {". * @return true if given token matches with given pattern * false if given token does not match with given pattern */ static bool simpleMatch(const Token *tok, const char pattern[]); /** * Match given token (or list of tokens) to a pattern list. * * Possible patterns * - "%any%" any token * - "%assign%" a assignment operand * - "%bool%" true or false * - "%char%" Any token enclosed in '-character. * - "%comp%" Any token such that isComparisonOp() returns true. * - "%cop%" Any token such that isConstOp() returns true. * - "%name%" any token which is a name, variable or type e.g. "hello" or "int" * - "%num%" Any numeric token, e.g. "23" * - "%op%" Any token such that isOp() returns true. * - "%or%" A bitwise-or operator '|' * - "%oror%" A logical-or operator '||' * - "%type%" Anything that can be a variable type, e.g. "int", but not "delete". * - "%str%" Any token starting with "-character (C-string). * - "%var%" Match with token with varId > 0 * - "%varid%" Match with parameter varid * - "[abc]" Any of the characters 'a' or 'b' or 'c' * - "int|void|char" Any of the strings, int, void or char * - "int|void|char|" Any of the strings, int, void or char or empty string * - "!!else" No tokens or any token that is not "else". * - "someRandomText" If token contains "someRandomText". * * multi-compare patterns such as "int|void|char" can contain %%or%, %%oror% and %%op% * it is recommended to put such an %%cmd% as the first pattern. * For example: "%var%|%num%|)" means yes to a variable, a number or ')'. * * The patterns can be also combined to compare to multiple tokens at once * by separating tokens with a space, e.g. * ") const|void {" will return true if first token is ')' next token is either * "const" or "void" and token after that is '{'. If even one of the tokens does not * match its pattern, false is returned. * * @param tok List of tokens to be compared to the pattern * @param pattern The pattern against which the tokens are compared, * e.g. "const" or ") const|volatile| {". * @param varid if %%varid% is given in the pattern the Token::varId * will be matched against this argument * @return true if given token matches with given pattern * false if given token does not match with given pattern */ static bool Match(const Token *tok, const char pattern[], unsigned int varid = 0); /** * @return length of C-string. * * Should be called for %%str%% tokens only. * * @param tok token with C-string **/ static std::size_t getStrLength(const Token *tok); /** * @return sizeof of C-string. * * Should be called for %%str%% tokens only. * * @param tok token with C-string **/ static std::size_t getStrSize(const Token *tok); /** * @return char of C-string at index (possible escaped "\\n") * * Should be called for %%str%% tokens only. * * @param tok token with C-string * @param index position of character **/ static std::string getCharAt(const Token *tok, std::size_t index); const ValueType *valueType() const { return mValueType; } void setValueType(ValueType *vt); const ValueType *argumentType() const { const Token *top = this; while (top && !Token::Match(top->astParent(), ",|(")) top = top->astParent(); return top ? top->mValueType : nullptr; } Token::Type tokType() const { return mTokType; } void tokType(Token::Type t) { mTokType = t; const bool memoizedIsName = (mTokType == eName || mTokType == eType || mTokType == eVariable || mTokType == eFunction || mTokType == eKeyword || mTokType == eBoolean || mTokType == eEnumerator); // TODO: "true"/"false" aren't really a name... setFlag(fIsName, memoizedIsName); const bool memoizedIsLiteral = (mTokType == eNumber || mTokType == eString || mTokType == eChar || mTokType == eBoolean || mTokType == eLiteral || mTokType == eEnumerator); setFlag(fIsLiteral, memoizedIsLiteral); } void isKeyword(const bool kwd) { if (kwd) tokType(eKeyword); else if (mTokType == eKeyword) tokType(eName); } bool isKeyword() const { return mTokType == eKeyword; } bool isName() const { return getFlag(fIsName); } bool isUpperCaseName() const; bool isLiteral() const { return getFlag(fIsLiteral); } bool isNumber() const { return mTokType == eNumber; } bool isEnumerator() const { return mTokType == eEnumerator; } bool isOp() const { return (isConstOp() || isAssignmentOp() || mTokType == eIncDecOp); } bool isConstOp() const { return (isArithmeticalOp() || mTokType == eLogicalOp || mTokType == eComparisonOp || mTokType == eBitOp); } bool isExtendedOp() const { return isConstOp() || mTokType == eExtendedOp; } bool isArithmeticalOp() const { return mTokType == eArithmeticalOp; } bool isComparisonOp() const { return mTokType == eComparisonOp; } bool isAssignmentOp() const { return mTokType == eAssignmentOp; } bool isBoolean() const { return mTokType == eBoolean; } bool isBinaryOp() const { return astOperand1() != nullptr && astOperand2() != nullptr; } bool isUnaryOp(const std::string &s) const { return s == mStr && astOperand1() != nullptr && astOperand2() == nullptr; } bool isUnaryPreOp() const; unsigned int flags() const { return mFlags; } void flags(const unsigned int flags_) { mFlags = flags_; } bool isUnsigned() const { return getFlag(fIsUnsigned); } void isUnsigned(const bool sign) { setFlag(fIsUnsigned, sign); } bool isSigned() const { return getFlag(fIsSigned); } void isSigned(const bool sign) { setFlag(fIsSigned, sign); } bool isPointerCompare() const { return getFlag(fIsPointerCompare); } void isPointerCompare(const bool b) { setFlag(fIsPointerCompare, b); } bool isLong() const { return getFlag(fIsLong); } void isLong(bool size) { setFlag(fIsLong, size); } bool isStandardType() const { return getFlag(fIsStandardType); } void isStandardType(const bool b) { setFlag(fIsStandardType, b); } bool isExpandedMacro() const { return getFlag(fIsExpandedMacro); } void isExpandedMacro(const bool m) { setFlag(fIsExpandedMacro, m); } bool isCast() const { return getFlag(fIsCast); } void isCast(bool c) { setFlag(fIsCast, c); } bool isAttributeConstructor() const { return getFlag(fIsAttributeConstructor); } void isAttributeConstructor(const bool ac) { setFlag(fIsAttributeConstructor, ac); } bool isAttributeDestructor() const { return getFlag(fIsAttributeDestructor); } void isAttributeDestructor(const bool value) { setFlag(fIsAttributeDestructor, value); } bool isAttributeUnused() const { return getFlag(fIsAttributeUnused); } void isAttributeUnused(bool unused) { setFlag(fIsAttributeUnused, unused); } bool isAttributeUsed() const { return getFlag(fIsAttributeUsed); } void isAttributeUsed(const bool unused) { setFlag(fIsAttributeUsed, unused); } bool isAttributePure() const { return getFlag(fIsAttributePure); } void isAttributePure(const bool value) { setFlag(fIsAttributePure, value); } bool isAttributeConst() const { return getFlag(fIsAttributeConst); } void isAttributeConst(bool value) { setFlag(fIsAttributeConst, value); } bool isAttributeNoreturn() const { return getFlag(fIsAttributeNoreturn); } void isAttributeNoreturn(const bool value) { setFlag(fIsAttributeNoreturn, value); } bool isAttributeNothrow() const { return getFlag(fIsAttributeNothrow); } void isAttributeNothrow(const bool value) { setFlag(fIsAttributeNothrow, value); } bool isAttributePacked() const { return getFlag(fIsAttributePacked); } void isAttributePacked(const bool value) { setFlag(fIsAttributePacked, value); } bool isAttributeNodiscard() const { return getFlag(fIsAttributeNodiscard); } void isAttributeNodiscard(const bool value) { setFlag(fIsAttributeNodiscard, value); } bool isControlFlowKeyword() const { return getFlag(fIsControlFlowKeyword); } bool isOperatorKeyword() const { return getFlag(fIsOperatorKeyword); } void isOperatorKeyword(const bool value) { setFlag(fIsOperatorKeyword, value); } bool isComplex() const { return getFlag(fIsComplex); } void isComplex(const bool value) { setFlag(fIsComplex, value); } bool isEnumType() const { return getFlag(fIsEnumType); } void isEnumType(const bool value) { setFlag(fIsEnumType, value); } bool isBitfield() const { return mBits > 0; } unsigned char bits() const { return mBits; } bool hasTemplateSimplifierPointer() const { return getFlag(fHasTemplateSimplifierPointer); } void hasTemplateSimplifierPointer(const bool value) { setFlag(fHasTemplateSimplifierPointer, value); } void setBits(const unsigned char b) { mBits = b; } /** * @brief Is current token a template argument? * * Original code: * * template struct S { * C x; * }; * S s; * * Resulting code: * * struct S { * int x ; // <- "int" is a template argument * } * S s; */ bool isTemplateArg() const { return getFlag(fIsTemplateArg); } void isTemplateArg(const bool value) { setFlag(fIsTemplateArg, value); } static const Token *findsimplematch(const Token * const startTok, const char pattern[]); static const Token *findsimplematch(const Token * const startTok, const char pattern[], const Token * const end); static const Token *findmatch(const Token * const startTok, const char pattern[], const unsigned int varId = 0U); static const Token *findmatch(const Token * const startTok, const char pattern[], const Token * const end, const unsigned int varId = 0U); static Token *findsimplematch(Token * const startTok, const char pattern[]) { return const_cast(findsimplematch(const_cast(startTok), pattern)); } static Token *findsimplematch(Token * const startTok, const char pattern[], const Token * const end) { return const_cast(findsimplematch(const_cast(startTok), pattern, end)); } static Token *findmatch(Token * const startTok, const char pattern[], const unsigned int varId = 0U) { return const_cast(findmatch(const_cast(startTok), pattern, varId)); } static Token *findmatch(Token * const startTok, const char pattern[], const Token * const end, const unsigned int varId = 0U) { return const_cast(findmatch(const_cast(startTok), pattern, end, varId)); } /** * Needle is build from multiple alternatives. If one of * them is equal to haystack, return value is 1. If there * are no matches, but one alternative to needle is empty * string, return value is 0. If needle was not found, return * value is -1. * * @param tok Current token (needle) * @param haystack e.g. "one|two" or "|one|two" * @param varid optional varid of token * @return 1 if needle is found from the haystack * 0 if needle was empty string * -1 if needle was not found */ static int multiCompare(const Token *tok, const char *haystack, unsigned int varid); unsigned int fileIndex() const { return mFileIndex; } void fileIndex(unsigned int indexOfFile) { mFileIndex = indexOfFile; } unsigned int linenr() const { return mLineNumber; } void linenr(unsigned int lineNumber) { mLineNumber = lineNumber; } unsigned int col() const { return mColumn; } void col(unsigned int c) { mColumn = c; } Token *next() const { return mNext; } /** * Delete tokens between begin and end. E.g. if begin = 1 * and end = 5, tokens 2,3 and 4 would be erased. * * @param begin Tokens after this will be erased. * @param end Tokens before this will be erased. */ static void eraseTokens(Token *begin, const Token *end); /** * Insert new token after this token. This function will handle * relations between next and previous token also. * @param tokenStr String for the new token. * @param originalNameStr String used for Token::originalName(). * @param prepend Insert the new token before this token when it's not * the first one on the tokens list. */ void insertToken(const std::string &tokenStr, const std::string &originalNameStr=emptyString, bool prepend=false); Token *previous() const { return mPrevious; } unsigned int varId() const { return mVarId; } void varId(unsigned int id) { mVarId = id; if (id != 0) { tokType(eVariable); isStandardType(false); } else { update_property_info(); } } /** * For debugging purposes, prints token and all tokens * followed by it. * @param title Title for the printout or use default parameter or 0 * for no title. */ void printOut(const char *title = nullptr) const; /** * For debugging purposes, prints token and all tokens * followed by it. * @param title Title for the printout or use default parameter or 0 * for no title. * @param fileNames Prints out file name instead of file index. * File index should match the index of the string in this vector. */ void printOut(const char *title, const std::vector &fileNames) const; /** * Replace token replaceThis with tokens between start and end, * including start and end. The replaceThis token is deleted. * @param replaceThis This token will be deleted. * @param start This will be in the place of replaceThis * @param end This is also in the place of replaceThis */ static void replace(Token *replaceThis, Token *start, Token *end); /** * Stringify a token * @param os The result is shifted into that output stream * @param varid Print varids. (Style: "varname@id") * @param attributes Print attributes of tokens like "unsigned" in front of it. * @param macro Prints $ in front of the token if it was expanded from a macro. */ void stringify(std::ostream& os, bool varid, bool attributes, bool macro) const; /** * Stringify a list of token, from current instance on. * @param varid Print varids. (Style: "varname@id") * @param attributes Print attributes of tokens like "unsigned" in front of it. * @param linenumbers Print line number in front of each line * @param linebreaks Insert "\\n" into string when line number changes * @param files print Files as numbers or as names (if fileNames is given) * @param fileNames Vector of filenames. Used (if given) to print filenames as strings instead of numbers. * @param end Stringification ends before this token is reached. 0 to stringify until end of list. * @return Stringified token list as a string */ std::string stringifyList(bool varid, bool attributes, bool linenumbers, bool linebreaks, bool files, const std::vector* fileNames = nullptr, const Token* end = nullptr) const; std::string stringifyList(const Token* end, bool attributes = true) const; std::string stringifyList(bool varid = false) const; /** * Remove the contents for this token from the token list. * * The contents are replaced with the contents of the next token and * the next token is unlinked and deleted from the token list. * * So this token will still be valid after the 'deleteThis()'. */ void deleteThis(); /** * Create link to given token * @param linkToToken The token where this token should link * to. */ void link(Token *linkToToken) { mLink = linkToToken; if (mStr == "<" || mStr == ">") update_property_info(); } /** * Return token where this token links to. * Supported links are: * "{" <-> "}" * "(" <-> ")" * "[" <-> "]" * * @return The token where this token links to. */ Token *link() const { return mLink; } /** * Associate this token with given scope * @param s Scope to be associated */ void scope(const Scope *s) { mScope = s; } /** * @return a pointer to the scope containing this token. */ const Scope *scope() const { return mScope; } /** * Associate this token with given function * @param f Function to be associated */ void function(const Function *f) { mFunction = f; if (f) tokType(eFunction); else if (mTokType == eFunction) tokType(eName); } /** * @return a pointer to the Function associated with this token. */ const Function *function() const { return mTokType == eFunction ? mFunction : nullptr; } /** * Associate this token with given variable * @param v Variable to be associated */ void variable(const Variable *v) { mVariable = v; if (v || mVarId) tokType(eVariable); else if (mTokType == eVariable) tokType(eName); } /** * @return a pointer to the variable associated with this token. */ const Variable *variable() const { return mTokType == eVariable ? mVariable : nullptr; } /** * Associate this token with given type * @param t Type to be associated */ void type(const ::Type *t); /** * @return a pointer to the type associated with this token. */ const ::Type *type() const { return mTokType == eType ? mType : nullptr; } /** * @return a pointer to the Enumerator associated with this token. */ const Enumerator *enumerator() const { return mTokType == eEnumerator ? mEnumerator : nullptr; } /** * Associate this token with given enumerator * @param e Enumerator to be associated */ void enumerator(const Enumerator *e) { mEnumerator = e; if (e) tokType(eEnumerator); else if (mTokType == eEnumerator) tokType(eName); } /** * Links two elements against each other. **/ static void createMutualLinks(Token *begin, Token *end); /** * This can be called only for tokens that are strings, else * the assert() is called. If Token is e.g. '"hello"', this will return * 'hello' (removing the double quotes). * @return String value */ std::string strValue() const; /** * Move srcStart and srcEnd tokens and all tokens between them * into new a location. Only links between tokens are changed. * @param srcStart This is the first token to be moved * @param srcEnd The last token to be moved * @param newLocation srcStart will be placed after this token. */ static void move(Token *srcStart, Token *srcEnd, Token *newLocation); /** Get progressValue */ unsigned int progressValue() const { return mProgressValue; } /** Calculate progress values for all tokens */ static void assignProgressValues(Token *tok); /** * @return the first token of the next argument. Does only work on argument * lists. Requires that Tokenizer::createLinks2() has been called before. * Returns 0, if there is no next argument. */ Token* nextArgument() const; /** * @return the first token of the next argument. Does only work on argument * lists. Should be used only before Tokenizer::createLinks2() was called. * Returns 0, if there is no next argument. */ Token* nextArgumentBeforeCreateLinks2() const; /** * @return the first token of the next template argument. Does only work on template argument * lists. Requires that Tokenizer::createLinks2() has been called before. * Returns 0, if there is no next argument. */ Token* nextTemplateArgument() const; /** * Returns the closing bracket of opening '<'. Should only be used if link() * is unavailable. * @return closing '>', ')', ']' or '}'. if no closing bracket is found, NULL is returned */ const Token* findClosingBracket() const; Token* findClosingBracket(); const Token* findOpeningBracket() const; Token* findOpeningBracket(); /** * @return the original name. */ const std::string & originalName() const { return mOriginalName ? *mOriginalName : emptyString; } const std::list& values() const { return mValues ? *mValues : mEmptyValueList; } /** * Sets the original name. */ template void originalName(T&& name) { if (!mOriginalName) mOriginalName = new std::string(name); else *mOriginalName = name; } bool hasKnownIntValue() const { return mValues && mValues->size() == 1U && mValues->front().isKnown() && mValues->front().isIntValue(); } bool hasKnownValue() const { return mValues && mValues->size() == 1U && mValues->front().isKnown(); } const ValueFlow::Value * getValue(const MathLib::bigint val) const { if (!mValues) return nullptr; for (const ValueFlow::Value &value : *mValues) { if (value.isIntValue() && value.intvalue == val) return &value; } return nullptr; } const ValueFlow::Value * getMaxValue(bool condition) const { if (!mValues) return nullptr; const ValueFlow::Value *ret = nullptr; for (const ValueFlow::Value &value : *mValues) { if (!value.isIntValue()) continue; if ((!ret || value.intvalue > ret->intvalue) && ((value.condition != nullptr) == condition)) ret = &value; } return ret; } const ValueFlow::Value * getMovedValue() const { if (!mValues) return nullptr; for (const ValueFlow::Value &value : *mValues) { if (value.isMovedValue() && value.moveKind != ValueFlow::Value::NonMovedVariable) return &value; } return nullptr; } const ValueFlow::Value * getValueLE(const MathLib::bigint val, const Settings *settings) const; const ValueFlow::Value * getValueGE(const MathLib::bigint val, const Settings *settings) const; const ValueFlow::Value * getInvalidValue(const Token *ftok, unsigned int argnr, const Settings *settings) const; const ValueFlow::Value * getContainerSizeValue(const MathLib::bigint val) const { if (!mValues) return nullptr; for (const ValueFlow::Value &value : *mValues) { if (value.isContainerSizeValue() && value.intvalue == val) return &value; } return nullptr; } const Token *getValueTokenMaxStrLength() const; const Token *getValueTokenMinStrSize() const; const Token *getValueTokenDeadPointer() const; /** Add token value. Return true if value is added. */ bool addValue(const ValueFlow::Value &value); private: void next(Token *nextToken) { mNext = nextToken; } void previous(Token *previousToken) { mPrevious = previousToken; } /** used by deleteThis() to take data from token to delete */ void takeData(Token *fromToken); /** * Works almost like strcmp() except returns only true or false and * if str has empty space ' ' character, that character is handled * as if it were '\\0' */ static bool firstWordEquals(const char *str, const char *word); /** * Works almost like strchr() except * if str has empty space ' ' character, that character is handled * as if it were '\\0' */ static const char *chrInFirstWord(const char *str, char c); std::string mStr; Token *mNext; Token *mPrevious; Token *mLink; // symbol database information const Scope *mScope; union { const Function *mFunction; const Variable *mVariable; const ::Type* mType; const Enumerator *mEnumerator; }; unsigned int mVarId; unsigned int mFileIndex; unsigned int mLineNumber; unsigned int mColumn; /** * A value from 0-100 that provides a rough idea about where in the token * list this token is located. */ unsigned int mProgressValue; Token::Type mTokType; enum { fIsUnsigned = (1 << 0), fIsSigned = (1 << 1), fIsPointerCompare = (1 << 2), fIsLong = (1 << 3), fIsStandardType = (1 << 4), fIsExpandedMacro = (1 << 5), fIsCast = (1 << 6), fIsAttributeConstructor = (1 << 7), // __attribute__((constructor)) __attribute__((constructor(priority))) fIsAttributeDestructor = (1 << 8), // __attribute__((destructor)) __attribute__((destructor(priority))) fIsAttributeUnused = (1 << 9), // __attribute__((unused)) fIsAttributePure = (1 << 10), // __attribute__((pure)) fIsAttributeConst = (1 << 11), // __attribute__((const)) fIsAttributeNoreturn = (1 << 12), // __attribute__((noreturn)), __declspec(noreturn) fIsAttributeNothrow = (1 << 13), // __attribute__((nothrow)), __declspec(nothrow) fIsAttributeUsed = (1 << 14), // __attribute__((used)) fIsAttributePacked = (1 << 15), // __attribute__((packed)) fIsControlFlowKeyword = (1 << 16), // if/switch/while/... fIsOperatorKeyword = (1 << 17), // operator=, etc fIsComplex = (1 << 18), // complex/_Complex type fIsEnumType = (1 << 19), // enumeration type fIsName = (1 << 20), fIsLiteral = (1 << 21), fIsTemplateArg = (1 << 22), fIsAttributeNodiscard = (1 << 23), // __attribute__ ((warn_unused_result)), [[nodiscard]] fHasTemplateSimplifierPointer = (1 << 24), // used by template simplifier to indicate it has a pointer to this token }; unsigned int mFlags; /** * Get specified flag state. * @param flag_ flag to get state of * @return true if flag set or false in flag not set */ bool getFlag(unsigned int flag_) const { return ((mFlags & flag_) != 0); } /** * Set specified flag state. * @param flag_ flag to set state * @param state_ new state of flag */ void setFlag(unsigned int flag_, bool state_) { mFlags = state_ ? mFlags | flag_ : mFlags & ~flag_; } /** Updates internal property cache like _isName or _isBoolean. Called after any mStr() modification. */ void update_property_info(); /** Update internal property cache about isStandardType() */ void update_property_isStandardType(); /** Bitfield bit count. */ unsigned char mBits; // AST.. Token *mAstOperand1; Token *mAstOperand2; Token *mAstParent; // original name like size_t std::string* mOriginalName; // ValueType ValueType *mValueType; // ValueFlow std::list* mValues; static const std::list mEmptyValueList; public: void astOperand1(Token *tok); void astOperand2(Token *tok); const Token * astOperand1() const { return mAstOperand1; } const Token * astOperand2() const { return mAstOperand2; } const Token * astParent() const { return mAstParent; } const Token *astTop() const { const Token *ret = this; while (ret->mAstParent) ret = ret->mAstParent; return ret; } /** * Is current token a calculation? Only true for operands. * For '*' and '&' tokens it is looked up if this is a * dereference or address-of. A dereference or address-of is not * counted as a calculation. * @return returns true if current token is a calculation */ bool isCalculation() const; void clearAst() { mAstOperand1 = mAstOperand2 = mAstParent = nullptr; } void clearValueFlow() { delete mValues; mValues = nullptr; } std::string astString(const char *sep = "") const { std::string ret; if (mAstOperand1) ret = mAstOperand1->astString(sep); if (mAstOperand2) ret += mAstOperand2->astString(sep); return ret + sep + mStr; } std::string astStringVerbose(const unsigned int indent1, const unsigned int indent2) const; std::string expressionString() const; void printAst(bool verbose, bool xml, std::ostream &out) const; void printValueFlow(bool xml, std::ostream &out) const; }; /// @} //--------------------------------------------------------------------------- #endif // tokenH