/* * Cppcheck - A tool for static C/C++ code analysis * Copyright (C) 2007-2022 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 templatesimplifierH #define templatesimplifierH //--------------------------------------------------------------------------- #include "config.h" #include #include #include #include #include #include #include class ErrorLogger; class Settings; class Token; class Tokenizer; class TokenList; /// @addtogroup Core /// @{ /** @brief Simplify templates from the preprocessed and partially simplified code. */ class CPPCHECKLIB TemplateSimplifier { friend class TestSimplifyTemplate; public: explicit TemplateSimplifier(Tokenizer &tokenizer); ~TemplateSimplifier(); /** */ void checkComplicatedSyntaxErrorsInTemplates(); /** * is the token pointing at a template parameters block * < int , 3 > => yes * \param tok start token that must point at "<" * \return number of parameters (invalid parameters => 0) */ static unsigned int templateParameters(const Token *tok); /** * Token and its full scopename */ class TokenAndName { Token *mToken; std::string mScope; std::string mName; std::string mFullName; const Token *mNameToken; const Token *mParamEnd; unsigned int mFlags; enum { fIsClass = (1 << 0), // class template fIsFunction = (1 << 1), // function template fIsVariable = (1 << 2), // variable template fIsAlias = (1 << 3), // alias template fIsSpecialization = (1 << 4), // user specialized template fIsPartialSpecialization = (1 << 5), // user partial specialized template fIsForwardDeclaration = (1 << 6), // forward declaration fIsVariadic = (1 << 7), // variadic template fIsFriend = (1 << 8), // friend template fFamilyMask = (fIsClass | fIsFunction | fIsVariable) }; void isClass(bool state) { setFlag(fIsClass, state); } void isFunction(bool state) { setFlag(fIsFunction, state); } void isVariable(bool state) { setFlag(fIsVariable, state); } void isAlias(bool state) { setFlag(fIsAlias, state); } void isSpecialization(bool state) { setFlag(fIsSpecialization, state); } void isPartialSpecialization(bool state) { setFlag(fIsPartialSpecialization, state); } void isForwardDeclaration(bool state) { setFlag(fIsForwardDeclaration, state); } void isVariadic(bool state) { setFlag(fIsVariadic, state); } void isFriend(bool state) { setFlag(fIsFriend, state); } /** * 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; } public: /** * Constructor used for instantiations. * \param token template instantiation name token "name<...>" * \param scope full qualification of template(scope) */ TokenAndName(Token *token, std::string scope); /** * Constructor used for declarations. * \param token template declaration token "template < ... >" * \param scope full qualification of template(scope) * \param nameToken template name token "template < ... > class name" * \param paramEnd template parameter end token ">" */ TokenAndName(Token *token, std::string scope, const Token *nameToken, const Token *paramEnd); TokenAndName(const TokenAndName& other); TokenAndName(TokenAndName&& other) NOEXCEPT; ~TokenAndName(); bool operator == (const TokenAndName & rhs) const { return mToken == rhs.mToken && mScope == rhs.mScope && mName == rhs.mName && mFullName == rhs.mFullName && mNameToken == rhs.mNameToken && mParamEnd == rhs.mParamEnd && mFlags == rhs.mFlags; } // TODO: do not return non-const pointer from const object Token * token() const { return mToken; } void token(Token * token) { mToken = token; } const std::string & scope() const { return mScope; } const std::string & name() const { return mName; } const std::string & fullName() const { return mFullName; } const Token * nameToken() const { return mNameToken; } const Token * paramEnd() const { return mParamEnd; } void paramEnd(const Token *end) { mParamEnd = end; } bool isClass() const { return getFlag(fIsClass); } bool isFunction() const { return getFlag(fIsFunction); } bool isVariable() const { return getFlag(fIsVariable); } bool isAlias() const { return getFlag(fIsAlias); } bool isSpecialization() const { return getFlag(fIsSpecialization); } bool isPartialSpecialization() const { return getFlag(fIsPartialSpecialization); } bool isForwardDeclaration() const { return getFlag(fIsForwardDeclaration); } bool isVariadic() const { return getFlag(fIsVariadic); } bool isFriend() const { return getFlag(fIsFriend); } /** * Get alias start token. * template < ... > using X = foo < ... >; * ^ * @return alias start token */ const Token * aliasStartToken() const; /** * Get alias end token. * template < ... > using X = foo < ... >; * ^ * @return alias end token */ const Token * aliasEndToken() const; /** * Is token an alias token? * template < ... > using X = foo < ... >; * ^ * @param tok token to check * @return true if alias token, false if not */ bool isAliasToken(const Token *tok) const; /** * Is declaration the same family (class, function or variable). * * @param decl declaration to compare to * @return true if same family, false if different family */ bool isSameFamily(const TemplateSimplifier::TokenAndName &decl) const { // Make sure a family flag is set and matches. // This works because at most only one flag will be set. return ((mFlags & fFamilyMask) && (decl.mFlags & fFamilyMask)); } }; /** * Find last token of a template declaration. * @param tok start token of declaration "template" or token after "template < ... >" * @return last token of declaration or nullptr if syntax error */ static Token *findTemplateDeclarationEnd(Token *tok); static const Token *findTemplateDeclarationEnd(const Token *tok); /** * Match template declaration/instantiation * @param instance template instantiation * @param numberOfArguments number of template arguments * @param variadic last template argument is variadic * @param patternAfter pattern that must match the tokens after the ">" * @return match => true */ static bool instantiateMatch(const Token *instance, const std::size_t numberOfArguments, bool variadic, const char patternAfter[]); /** * Match template declaration/instantiation * @param tok The ">" token e.g. before "class" * @return -1 to bail out or positive integer to identity the position * of the template name. */ int getTemplateNamePosition(const Token *tok); /** * Get class template name position * @param tok The ">" token e.g. before "class" * @param namepos return offset to name * @return true if name found, false if not * */ static bool getTemplateNamePositionTemplateClass(const Token *tok, int &namepos); /** * Get function template name position * @param tok The ">" token * @param namepos return offset to name * @return true if name found, false if not * */ static bool getTemplateNamePositionTemplateFunction(const Token *tok, int &namepos); /** * Get variable template name position * @param tok The ">" token * @param namepos return offset to name * @return true if name found, false if not * */ static bool getTemplateNamePositionTemplateVariable(const Token *tok, int &namepos); /** * Simplify templates * @param maxtime time when the simplification should be stopped * @param codeWithTemplates output parameter that is set if code contains templates */ void simplifyTemplates( const std::time_t maxtime, bool &codeWithTemplates); /** * Simplify constant calculations such as "1+2" => "3" * @param tok start token * @return true if modifications to token-list are done. * false if no modifications are done. */ static bool simplifyNumericCalculations(Token *tok, bool isTemplate = true); /** * Simplify constant calculations such as "1+2" => "3". * This also performs simple cleanup of parentheses etc. * @return true if modifications to token-list are done. * false if no modifications are done. */ bool simplifyCalculations(Token* frontToken = nullptr, Token *backToken = nullptr, bool isTemplate = true); /** Simplify template instantiation arguments. * @param start first token of arguments * @param end token following last argument token */ void simplifyTemplateArgs(Token *start, Token *end); private: /** * Get template declarations * @return true if code has templates. */ bool getTemplateDeclarations(); /** Add template instantiation. * @param token first token of instantiation * @param scope scope of instantiation */ void addInstantiation(Token *token, const std::string &scope); /** * Get template instantiations */ void getTemplateInstantiations(); /** * Fix forward declared default argument values by copying them * when they are not present in the declaration. */ void fixForwardDeclaredDefaultArgumentValues(); /** * simplify template instantiations (use default argument values) */ void useDefaultArgumentValues(); /** * simplify template instantiations (use default argument values) * @param declaration template declaration or forward declaration */ void useDefaultArgumentValues(TokenAndName &declaration); /** * Try to locate a matching declaration for each user defined * specialization. */ void getSpecializations(); /** * Try to locate a matching declaration for each user defined * partial specialization. */ void getPartialSpecializations(); /** * simplify template aliases */ void simplifyTemplateAliases(); /** * Simplify templates : expand all instantiations for a template * @todo It seems that inner templates should be instantiated recursively * @param templateDeclaration template declaration * @param specializations template specializations (list each template name token) * @param maxtime time when the simplification will stop * @param expandedtemplates all templates that has been expanded so far. The full names are stored. * @return true if the template was instantiated */ bool simplifyTemplateInstantiations( const TokenAndName &templateDeclaration, const std::list &specializations, const std::time_t maxtime, std::set &expandedtemplates); /** * Simplify templates : add namespace to template name * @param templateDeclaration template declaration * @param tok place to insert namespace */ void addNamespace(const TokenAndName &templateDeclaration, const Token *tok); /** * Simplify templates : check if namespace already present * @param templateDeclaration template declaration * @param tok place to start looking for namespace * @return true if namespace already present */ static bool alreadyHasNamespace(const TokenAndName &templateDeclaration, const Token *tok); /** * Expand a template. Create "expanded" class/function at end of tokenlist. * @param templateDeclaration Template declaration information * @param templateInstantiation Full name of template * @param typeParametersInDeclaration The type parameters of the template * @param newName New name of class/function. * @param copy copy or expand in place */ void expandTemplate( const TokenAndName &templateDeclaration, const TokenAndName &templateInstantiation, const std::vector &typeParametersInDeclaration, const std::string &newName, bool copy); /** * Replace all matching template usages 'Foo < int >' => 'Foo' * @param instantiation Template instantiation information. * @param typeStringsUsedInTemplateInstantiation template parameters. list of token strings. * @param newName The new type name */ void replaceTemplateUsage(const TokenAndName &instantiation, const std::list &typeStringsUsedInTemplateInstantiation, const std::string &newName); /** * @brief TemplateParametersInDeclaration * @param tok template < typename T, typename S > * ^ tok * @param typeParametersInDeclaration template < typename T, typename S > * ^ [0] ^ [1] */ static void getTemplateParametersInDeclaration( const Token * tok, std::vector & typeParametersInDeclaration); /** * Remove a specific "template < ..." template class/function */ static bool removeTemplate(Token *tok); /** Syntax error */ NORETURN static void syntaxError(const Token *tok); static bool matchSpecialization( const Token *templateDeclarationNameToken, const Token *templateInstantiationNameToken, const std::list & specializations); /* * Same as Token::eraseTokens() but tries to fix up lists with pointers to the deleted tokens. * @param begin Tokens after this will be erased. * @param end Tokens before this will be erased. */ static void eraseTokens(Token *begin, const Token *end); /** * Delete specified token without invalidating pointer to following token. * tok will be invalidated. * @param tok token to delete */ static void deleteToken(Token *tok); /** * Get the new token name. * @param tok2 name token * @param typeStringsUsedInTemplateInstantiation type strings use in template instantiation * @return new token name */ std::string getNewName( Token *tok2, std::list &typeStringsUsedInTemplateInstantiation); void printOut( const TokenAndName &tokenAndName, const std::string &indent = " ") const; void printOut(const std::string &text = emptyString) const; Tokenizer &mTokenizer; TokenList &mTokenList; const Settings &mSettings; ErrorLogger *mErrorLogger; bool mChanged; std::list mTemplateDeclarations; std::list mTemplateForwardDeclarations; std::map mTemplateForwardDeclarationsMap; std::map mTemplateSpecializationMap; std::map mTemplatePartialSpecializationMap; std::list mTemplateInstantiations; std::list mInstantiatedTemplates; std::list mMemberFunctionsToDelete; std::vector mExplicitInstantiationsToDelete; std::vector mTypesUsedInTemplateInstantiation; std::unordered_map mTemplateNamePos; }; /// @} //--------------------------------------------------------------------------- #endif // templatesimplifierH