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9dd8770609
prerelease format for LLVM bytecode files. Now we only are compatible with LLVM 1.0+. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@12643 91177308-0d34-0410-b5e6-96231b3b80d8
291 lines
10 KiB
C++
291 lines
10 KiB
C++
//===-- ReaderInternals.h - Definitions internal to the reader --*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file was developed by the LLVM research group and is distributed under
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// the University of Illinois Open Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This header file defines various stuff that is used by the bytecode reader.
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//
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//===----------------------------------------------------------------------===//
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#ifndef READER_INTERNALS_H
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#define READER_INTERNALS_H
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#include "ReaderPrimitives.h"
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#include "llvm/Constants.h"
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#include "llvm/DerivedTypes.h"
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#include "llvm/Function.h"
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#include "llvm/ModuleProvider.h"
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#include <utility>
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#include <map>
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namespace llvm {
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// Enable to trace to figure out what the heck is going on when parsing fails
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//#define TRACE_LEVEL 10
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//#define DEBUG_OUTPUT
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#if TRACE_LEVEL // ByteCodeReading_TRACEr
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#define BCR_TRACE(n, X) \
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if (n < TRACE_LEVEL) std::cerr << std::string(n*2, ' ') << X
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#else
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#define BCR_TRACE(n, X)
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#endif
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struct LazyFunctionInfo {
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const unsigned char *Buf, *EndBuf;
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LazyFunctionInfo(const unsigned char *B = 0, const unsigned char *EB = 0)
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: Buf(B), EndBuf(EB) {}
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};
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class BytecodeParser : public ModuleProvider {
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BytecodeParser(const BytecodeParser &); // DO NOT IMPLEMENT
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void operator=(const BytecodeParser &); // DO NOT IMPLEMENT
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public:
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BytecodeParser() {}
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~BytecodeParser() {
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freeState();
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}
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void freeState() {
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freeTable(Values);
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freeTable(ModuleValues);
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}
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Module* materializeModule() {
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while (! LazyFunctionLoadMap.empty()) {
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std::map<Function*, LazyFunctionInfo>::iterator i =
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LazyFunctionLoadMap.begin();
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materializeFunction((*i).first);
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}
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return TheModule;
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}
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Module* releaseModule() {
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// Since we're losing control of this Module, we must hand it back complete
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Module *M = ModuleProvider::releaseModule();
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freeState();
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return M;
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}
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void ParseBytecode(const unsigned char *Buf, unsigned Length,
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const std::string &ModuleID);
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void dump() const {
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std::cerr << "BytecodeParser instance!\n";
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}
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private:
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struct ValueList : public User {
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ValueList() : User(Type::TypeTy, Value::TypeVal) {}
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// vector compatibility methods
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unsigned size() const { return getNumOperands(); }
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void push_back(Value *V) { Operands.push_back(Use(V, this)); }
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Value *back() const { return Operands.back(); }
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void pop_back() { Operands.pop_back(); }
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bool empty() const { return Operands.empty(); }
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virtual void print(std::ostream& OS) const {
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OS << "Bytecode Reader UseHandle!";
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}
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};
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// Information about the module, extracted from the bytecode revision number.
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unsigned char RevisionNum; // The rev # itself
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// Flags to distinguish LLVM 1.0 & 1.1 bytecode formats (revision #0)
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// Revision #0 had an explicit alignment of data only for the ModuleGlobalInfo
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// block. This was fixed to be like all other blocks in 1.2
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bool hasInconsistentModuleGlobalInfo;
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// Revision #0 also explicitly encoded zero values for primitive types like
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// int/sbyte/etc.
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bool hasExplicitPrimitiveZeros;
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typedef std::vector<ValueList*> ValueTable;
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ValueTable Values;
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ValueTable ModuleValues;
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std::map<std::pair<unsigned,unsigned>, Value*> ForwardReferences;
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/// CompactionTable - If a compaction table is active in the current function,
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/// this is the mapping that it contains.
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std::vector<std::vector<Value*> > CompactionTable;
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std::vector<BasicBlock*> ParsedBasicBlocks;
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// ConstantFwdRefs - This maintains a mapping between <Type, Slot #>'s and
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// forward references to constants. Such values may be referenced before they
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// are defined, and if so, the temporary object that they represent is held
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// here.
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//
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typedef std::map<std::pair<const Type*,unsigned>, Constant*> ConstantRefsType;
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ConstantRefsType ConstantFwdRefs;
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// TypesLoaded - This vector mirrors the Values[TypeTyID] plane. It is used
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// to deal with forward references to types.
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//
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typedef std::vector<PATypeHolder> TypeValuesListTy;
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TypeValuesListTy ModuleTypeValues;
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TypeValuesListTy FunctionTypeValues;
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// When the ModuleGlobalInfo section is read, we create a function object for
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// each function in the module. When the function is loaded, this function is
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// filled in.
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//
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std::vector<Function*> FunctionSignatureList;
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// Constant values are read in after global variables. Because of this, we
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// must defer setting the initializers on global variables until after module
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// level constants have been read. In the mean time, this list keeps track of
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// what we must do.
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//
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std::vector<std::pair<GlobalVariable*, unsigned> > GlobalInits;
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// For lazy reading-in of functions, we need to save away several pieces of
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// information about each function: its begin and end pointer in the buffer
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// and its FunctionSlot.
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//
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std::map<Function*, LazyFunctionInfo> LazyFunctionLoadMap;
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private:
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void freeTable(ValueTable &Tab) {
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while (!Tab.empty()) {
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delete Tab.back();
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Tab.pop_back();
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}
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}
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/// getGlobalTableType - This is just like getType, but when a compaction
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/// table is in use, it is ignored. Also, no forward references or other
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/// fancy features are supported.
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const Type *getGlobalTableType(unsigned Slot) {
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if (Slot < Type::FirstDerivedTyID) {
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const Type *Ty = Type::getPrimitiveType((Type::PrimitiveID)Slot);
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assert(Ty && "Not a primitive type ID?");
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return Ty;
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}
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Slot -= Type::FirstDerivedTyID;
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if (Slot >= ModuleTypeValues.size())
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throw std::string("Illegal compaction table type reference!");
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return ModuleTypeValues[Slot];
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}
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unsigned getGlobalTableTypeSlot(const Type *Ty) {
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if (Ty->isPrimitiveType())
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return Ty->getPrimitiveID();
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TypeValuesListTy::iterator I = find(ModuleTypeValues.begin(),
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ModuleTypeValues.end(), Ty);
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if (I == ModuleTypeValues.end())
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throw std::string("Didn't find type in ModuleTypeValues.");
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return Type::FirstDerivedTyID + (&*I - &ModuleTypeValues[0]);
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}
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/// getGlobalTableValue - This is just like getValue, but when a compaction
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/// table is in use, it is ignored. Also, no forward references or other
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/// fancy features are supported.
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Value *getGlobalTableValue(const Type *Ty, unsigned SlotNo) {
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// FIXME: getTypeSlot is inefficient!
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unsigned TyID = getGlobalTableTypeSlot(Ty);
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if (TyID != Type::LabelTyID) {
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if (SlotNo == 0)
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return Constant::getNullValue(Ty);
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--SlotNo;
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}
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if (TyID >= ModuleValues.size() || ModuleValues[TyID] == 0 ||
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SlotNo >= ModuleValues[TyID]->getNumOperands()) {
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std::cerr << TyID << ", " << SlotNo << ": " << ModuleValues.size() << ", "
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<< (void*)ModuleValues[TyID] << ", "
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<< ModuleValues[TyID]->getNumOperands() << "\n";
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throw std::string("Corrupt compaction table entry!");
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}
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return ModuleValues[TyID]->getOperand(SlotNo);
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}
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public:
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void ParseModule(const unsigned char * Buf, const unsigned char *End);
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void materializeFunction(Function *F);
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private:
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void ParseVersionInfo (const unsigned char *&Buf, const unsigned char *End);
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void ParseModuleGlobalInfo(const unsigned char *&Buf, const unsigned char *E);
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void ParseSymbolTable(const unsigned char *&Buf, const unsigned char *End,
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SymbolTable *, Function *CurrentFunction);
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void ParseFunction(const unsigned char *&Buf, const unsigned char *End);
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void ParseCompactionTable(const unsigned char *&Buf,const unsigned char *End);
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void ParseGlobalTypes(const unsigned char *&Buf, const unsigned char *EndBuf);
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BasicBlock *ParseBasicBlock(const unsigned char *&Buf,
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const unsigned char *End,
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unsigned BlockNo);
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unsigned ParseInstructionList(Function *F, const unsigned char *&Buf,
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const unsigned char *EndBuf);
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void ParseInstruction(const unsigned char *&Buf, const unsigned char *End,
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std::vector<unsigned> &Args, BasicBlock *BB);
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void ParseConstantPool(const unsigned char *&Buf, const unsigned char *EndBuf,
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ValueTable &Tab, TypeValuesListTy &TypeTab);
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Constant *parseConstantValue(const unsigned char *&Buf,
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const unsigned char *End,
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unsigned TypeID);
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void parseTypeConstants(const unsigned char *&Buf,
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const unsigned char *EndBuf,
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TypeValuesListTy &Tab, unsigned NumEntries);
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const Type *parseTypeConstant(const unsigned char *&Buf,
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const unsigned char *EndBuf);
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void parseStringConstants(const unsigned char *&Buf,
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const unsigned char *EndBuf,
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unsigned NumEntries, ValueTable &Tab);
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Value *getValue(unsigned TypeID, unsigned num, bool Create = true);
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const Type *getType(unsigned ID);
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BasicBlock *getBasicBlock(unsigned ID);
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Constant *getConstantValue(unsigned TypeID, unsigned num);
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Constant *getConstantValue(const Type *Ty, unsigned num) {
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return getConstantValue(getTypeSlot(Ty), num);
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}
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unsigned insertValue(Value *V, unsigned Type, ValueTable &Table);
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unsigned getTypeSlot(const Type *Ty);
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// resolve all references to the placeholder (if any) for the given constant
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void ResolveReferencesToConstant(Constant *C, unsigned Slot);
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};
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template<class SuperType>
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class PlaceholderDef : public SuperType {
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unsigned ID;
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PlaceholderDef(); // DO NOT IMPLEMENT
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void operator=(const PlaceholderDef &); // DO NOT IMPLEMENT
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public:
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PlaceholderDef(const Type *Ty, unsigned id) : SuperType(Ty), ID(id) {}
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unsigned getID() { return ID; }
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};
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struct ConstantPlaceHolderHelper : public ConstantExpr {
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ConstantPlaceHolderHelper(const Type *Ty)
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: ConstantExpr(Instruction::UserOp1, Constant::getNullValue(Ty), Ty) {}
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};
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typedef PlaceholderDef<ConstantPlaceHolderHelper> ConstPHolder;
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static inline void readBlock(const unsigned char *&Buf,
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const unsigned char *EndBuf,
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unsigned &Type, unsigned &Size) {
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Type = read(Buf, EndBuf);
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Size = read(Buf, EndBuf);
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}
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} // End llvm namespace
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#endif
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