//===-- BytecodeHandler.h - Handle Bytecode Parsing Events ------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file was developed by Reid Spencer and is distributed under the // University of Illinois Open Source License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This header file defines the interface to the Bytecode Handler. The handler // is called by the Bytecode Reader to obtain out-of-band parsing events for // tasks other then LLVM IR construction. // //===----------------------------------------------------------------------===// #ifndef LLVM_BYTECODE_BYTECODEHANDLER_H #define LLVM_BYTECODE_BYTECODEHANDLER_H #include "llvm/Module.h" namespace llvm { class ArrayType; class StructType; class PointerType; class PackedType; class ConstantArray; class Module; /// This class provides the interface for handling bytecode events during /// reading of bytecode. The methods on this interface are invoked by the /// BytecodeReader as it discovers the content of a bytecode stream. /// This class provides a a clear separation of concerns between recognizing /// the semantic units of a bytecode file (the Reader) and deciding what to do /// with them (the Handler). /// /// The BytecodeReader recognizes the content of the bytecode file and /// calls the BytecodeHandler methods to let it perform additional tasks. This /// arrangement allows Bytecode files to be read and handled for a number of /// purposes simply by creating a subclass of BytecodeHandler. None of the /// parsing details need to be understood, only the meaning of the calls /// made on this interface. /// /// @see BytecodeHandler /// @brief Handle Bytecode Parsing Events class BytecodeHandler { /// @name Constructors And Operators /// @{ public: /// @brief Default constructor (empty) BytecodeHandler() {} /// @brief Virtual destructor (empty) virtual ~BytecodeHandler(); private: BytecodeHandler(const BytecodeHandler &); // DO NOT IMPLEMENT void operator=(const BytecodeHandler &); // DO NOT IMPLEMENT /// @} /// @name Handler Methods /// @{ public: /// This method is called whenever the parser detects an error in the /// bytecode formatting. It gives the handler a chance to do something /// with the error message before the parser throws an exception to /// terminate the parsing. /// @brief Handle parsing errors. virtual void handleError(const std::string& str ) {} /// This method is called at the beginning of a parse before anything is /// read in order to give the handler a chance to initialize. /// @brief Handle the start of a bytecode parse virtual void handleStart( Module* Mod, unsigned byteSize ) {} /// This method is called at the end of a parse after everything has been /// read in order to give the handler a chance to terminate. /// @brief Handle the end of a bytecode parse virtual void handleFinish() {} /// This method is called at the start of a module to indicate that a /// module is being parsed. /// @brief Handle the start of a module. virtual void handleModuleBegin(const std::string& moduleId) {} /// This method is called at the end of a module to indicate that the module /// previously being parsed has concluded. /// @brief Handle the end of a module. virtual void handleModuleEnd( const std::string& moduleId ///< An identifier for the module ) {} /// This method is called once the version information has been parsed. It /// provides the information about the version of the bytecode file being /// read. /// @brief Handle the bytecode prolog virtual void handleVersionInfo( unsigned char RevisionNum ///< Byte code revision number ) {} /// This method is called at the start of a module globals block which /// contains the global variables and the function placeholders virtual void handleModuleGlobalsBegin() {} /// This method is called when a non-initialized global variable is /// recognized. Its type, constness, and linkage type are provided. /// @brief Handle a non-initialized global variable virtual void handleGlobalVariable( const Type* ElemType, ///< The type of the global variable bool isConstant, ///< Whether the GV is constant or not GlobalValue::LinkageTypes,///< The linkage type of the GV GlobalValue::VisibilityTypes,///< The visibility style of the GV unsigned SlotNum, ///< Slot number of GV unsigned initSlot ///< Slot number of GV's initializer (0 if none) ) {} /// This method is called when a type list is recognized. It simply /// provides the number of types that the list contains. The handler /// should expect that number of calls to handleType. /// @brief Handle a type virtual void handleTypeList( unsigned numEntries ///< The number of entries in the type list ) {} /// This method is called when a new type is recognized. The type is /// converted from the bytecode and passed to this method. /// @brief Handle a type virtual void handleType( const Type* Ty ///< The type that was just recognized ) {} /// This method is called when the function prototype for a function is /// encountered in the module globals block. virtual void handleFunctionDeclaration( Function* Func ///< The function being declared ) {} /// This method is called when a global variable is initialized with /// its constant value. Because of forward referencing, etc. this is /// done towards the end of the module globals block virtual void handleGlobalInitializer(GlobalVariable*, Constant* ) {} /// This method is called for each dependent library name found /// in the module globals block. virtual void handleDependentLibrary(const std::string& libName) {} /// This method is called if the module globals has a non-empty target /// triple virtual void handleTargetTriple(const std::string& triple) {} /// This method is called at the end of the module globals block. /// @brief Handle end of module globals block. virtual void handleModuleGlobalsEnd() {} /// This method is called at the beginning of a compaction table. /// @brief Handle start of compaction table. virtual void handleCompactionTableBegin() {} /// @brief Handle start of a compaction table plane virtual void handleCompactionTablePlane( unsigned Ty, ///< The type of the plane (slot number) unsigned NumEntries ///< The number of entries in the plane ) {} /// @brief Handle a type entry in the compaction table virtual void handleCompactionTableType( unsigned i, ///< Index in the plane of this type unsigned TypSlot, ///< Slot number for this type const Type* ///< The type referenced by this slot ) {} /// @brief Handle a value entry in the compaction table virtual void handleCompactionTableValue( unsigned i, ///< Index in the compaction table's type plane unsigned TypSlot, ///< The slot (plane) of the type of this value unsigned ValSlot ///< The global value slot of the value ) {} /// @brief Handle end of a compaction table virtual void handleCompactionTableEnd() {} /// @brief Handle start of a symbol table virtual void handleSymbolTableBegin( Function* Func, ///< The function to which the ST belongs SymbolTable* ST ///< The symbol table being filled ) {} /// @brief Handle start of a symbol table plane virtual void handleSymbolTablePlane( unsigned TySlot, ///< The slotnum of the type plane unsigned NumEntries, ///< Number of entries in the plane const Type* Typ ///< The type of this type plane ) {} /// @brief Handle a named type in the symbol table virtual void handleSymbolTableType( unsigned i, ///< The index of the type in this plane unsigned slot, ///< Slot number of the named type const std::string& name ///< Name of the type ) {} /// @brief Handle a named value in the symbol table virtual void handleSymbolTableValue( unsigned i, ///< The index of the value in this plane unsigned slot, ///< Slot number of the named value const std::string& name ///< Name of the value. ) {} /// @brief Handle the end of a symbol table virtual void handleSymbolTableEnd() {} /// @brief Handle the beginning of a function body virtual void handleFunctionBegin( Function* Func, ///< The function being defined unsigned Size ///< The size (in bytes) of the function's bytecode ) {} /// @brief Handle the end of a function body virtual void handleFunctionEnd( Function* Func ///< The function whose definition has just finished. ) {} /// @brief Handle the beginning of a basic block virtual void handleBasicBlockBegin( unsigned blocknum ///< The block number of the block ) {} /// This method is called for each instruction that is parsed. /// @returns true if the instruction is a block terminating instruction /// @brief Handle an instruction virtual bool handleInstruction( unsigned Opcode, ///< Opcode of the instruction const Type* iType, ///< Instruction type std::vector& Operands, ///< Vector of slot # operands unsigned Length ///< Length of instruction in bc bytes ) { return false; } /// @brief Handle the end of a basic block virtual void handleBasicBlockEnd( unsigned blocknum ///< The block number of the block just finished ) {} /// @brief Handle start of global constants block. virtual void handleGlobalConstantsBegin() {} /// @brief Handle a constant expression virtual void handleConstantExpression( unsigned Opcode, ///< Opcode of primary expression operator std::vector ArgVec, ///< expression args Constant* C ///< The constant value ) {} /// @brief Handle a constant array virtual void handleConstantArray( const ArrayType* AT, ///< Type of the array std::vector& ElementSlots,///< Slot nums for array values unsigned TypeSlot, ///< Slot # of type Constant* Val ///< The constant value ) {} /// @brief Handle a constant structure virtual void handleConstantStruct( const StructType* ST, ///< Type of the struct std::vector& ElementSlots,///< Slot nums for struct values Constant* Val ///< The constant value ) {} /// @brief Handle a constant packed virtual void handleConstantPacked( const PackedType* PT, ///< Type of the array std::vector& ElementSlots,///< Slot nums for packed values unsigned TypeSlot, ///< Slot # of type Constant* Val ///< The constant value ) {} /// @brief Handle a constant pointer virtual void handleConstantPointer( const PointerType* PT, ///< Type of the pointer unsigned Slot, ///< Slot num of initializer value GlobalValue* GV ///< Referenced global value ) {} /// @brief Handle a constant strings (array special case) virtual void handleConstantString( const ConstantArray* CA ///< Type of the string array ) {} /// @brief Handle a primitive constant value virtual void handleConstantValue( Constant * c ///< The constant just defined ) {} /// @brief Handle the end of the global constants virtual void handleGlobalConstantsEnd() {} /// @brief Handle an alignment event virtual void handleAlignment( unsigned numBytes ///< The number of bytes added for alignment ) {} /// @brief Handle a bytecode block virtual void handleBlock( unsigned BType, ///< The type of block const unsigned char* StartPtr, ///< The start of the block unsigned Size ///< The size of the block ) {} /// @brief Handle a variable bit rate 32 bit unsigned virtual void handleVBR32( unsigned Size ///< Number of bytes the vbr_uint took up ) {} /// @brief Handle a variable bit rate 64 bit unsigned virtual void handleVBR64( unsigned Size ///< Number of byte sthe vbr_uint64 took up ) {} /// @} }; } #endif