//===--- Builtins.h - Builtin function header -------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// /// /// \file /// \brief Defines enum values for all the target-independent builtin /// functions. /// //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_BASIC_BUILTINS_H #define LLVM_CLANG_BASIC_BUILTINS_H #include "clang/Basic/LLVM.h" #include // VC++ defines 'alloca' as an object-like macro, which interferes with our // builtins. #undef alloca namespace clang { class TargetInfo; class IdentifierTable; class ASTContext; class QualType; class LangOptions; enum LanguageID { GNU_LANG = 0x1, // builtin requires GNU mode. C_LANG = 0x2, // builtin for c only. CXX_LANG = 0x4, // builtin for cplusplus only. OBJC_LANG = 0x8, // builtin for objective-c and objective-c++ MS_LANG = 0x10, // builtin requires MS mode. ALL_LANGUAGES = C_LANG | CXX_LANG | OBJC_LANG, // builtin for all languages. ALL_GNU_LANGUAGES = ALL_LANGUAGES | GNU_LANG, // builtin requires GNU mode. ALL_MS_LANGUAGES = ALL_LANGUAGES | MS_LANG // builtin requires MS mode. }; namespace Builtin { enum ID { NotBuiltin = 0, // This is not a builtin function. #define BUILTIN(ID, TYPE, ATTRS) BI##ID, #include "clang/Basic/Builtins.def" FirstTSBuiltin }; struct Info { const char *Name, *Type, *Attributes, *HeaderName; LanguageID builtin_lang; bool operator==(const Info &RHS) const { return !strcmp(Name, RHS.Name) && !strcmp(Type, RHS.Type) && !strcmp(Attributes, RHS.Attributes); } bool operator!=(const Info &RHS) const { return !(*this == RHS); } }; /// \brief Holds information about both target-independent and /// target-specific builtins, allowing easy queries by clients. class Context { const Info *TSRecords; unsigned NumTSRecords; public: Context(); /// \brief Perform target-specific initialization void InitializeTarget(const TargetInfo &Target); /// \brief Mark the identifiers for all the builtins with their /// appropriate builtin ID # and mark any non-portable builtin identifiers as /// such. void InitializeBuiltins(IdentifierTable &Table, const LangOptions& LangOpts); /// \brief Populate the vector with the names of all of the builtins. void GetBuiltinNames(SmallVectorImpl &Names); /// \brief Return the identifier name for the specified builtin, /// e.g. "__builtin_abs". const char *GetName(unsigned ID) const { return GetRecord(ID).Name; } /// \brief Get the type descriptor string for the specified builtin. const char *GetTypeString(unsigned ID) const { return GetRecord(ID).Type; } /// \brief Return true if this function has no side effects and doesn't /// read memory. bool isConst(unsigned ID) const { return strchr(GetRecord(ID).Attributes, 'c') != nullptr; } /// \brief Return true if we know this builtin never throws an exception. bool isNoThrow(unsigned ID) const { return strchr(GetRecord(ID).Attributes, 'n') != nullptr; } /// \brief Return true if we know this builtin never returns. bool isNoReturn(unsigned ID) const { return strchr(GetRecord(ID).Attributes, 'r') != nullptr; } /// \brief Return true if we know this builtin can return twice. bool isReturnsTwice(unsigned ID) const { return strchr(GetRecord(ID).Attributes, 'j') != nullptr; } /// \brief Returns true if this builtin does not perform the side-effects /// of its arguments. bool isUnevaluated(unsigned ID) const { return strchr(GetRecord(ID).Attributes, 'u') != nullptr; } /// \brief Return true if this is a builtin for a libc/libm function, /// with a "__builtin_" prefix (e.g. __builtin_abs). bool isLibFunction(unsigned ID) const { return strchr(GetRecord(ID).Attributes, 'F') != nullptr; } /// \brief Determines whether this builtin is a predefined libc/libm /// function, such as "malloc", where we know the signature a /// priori. bool isPredefinedLibFunction(unsigned ID) const { return strchr(GetRecord(ID).Attributes, 'f') != nullptr; } /// \brief Determines whether this builtin is a predefined compiler-rt/libgcc /// function, such as "__clear_cache", where we know the signature a /// priori. bool isPredefinedRuntimeFunction(unsigned ID) const { return strchr(GetRecord(ID).Attributes, 'i') != nullptr; } /// \brief Determines whether this builtin has custom typechecking. bool hasCustomTypechecking(unsigned ID) const { return strchr(GetRecord(ID).Attributes, 't') != nullptr; } /// \brief Completely forget that the given ID was ever considered a builtin, /// e.g., because the user provided a conflicting signature. void ForgetBuiltin(unsigned ID, IdentifierTable &Table); /// \brief If this is a library function that comes from a specific /// header, retrieve that header name. const char *getHeaderName(unsigned ID) const { return GetRecord(ID).HeaderName; } /// \brief Determine whether this builtin is like printf in its /// formatting rules and, if so, set the index to the format string /// argument and whether this function as a va_list argument. bool isPrintfLike(unsigned ID, unsigned &FormatIdx, bool &HasVAListArg); /// \brief Determine whether this builtin is like scanf in its /// formatting rules and, if so, set the index to the format string /// argument and whether this function as a va_list argument. bool isScanfLike(unsigned ID, unsigned &FormatIdx, bool &HasVAListArg); /// \brief Return true if this function has no side effects and doesn't /// read memory, except for possibly errno. /// /// Such functions can be const when the MathErrno lang option is disabled. bool isConstWithoutErrno(unsigned ID) const { return strchr(GetRecord(ID).Attributes, 'e') != nullptr; } private: const Info &GetRecord(unsigned ID) const; /// \brief Is this builtin supported according to the given language options? bool BuiltinIsSupported(const Builtin::Info &BuiltinInfo, const LangOptions &LangOpts); /// \brief Helper function for isPrintfLike and isScanfLike. bool isLike(unsigned ID, unsigned &FormatIdx, bool &HasVAListArg, const char *Fmt) const; }; } } // end namespace clang #endif