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https://github.com/RPCS3/llvm-mirror.git
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8596c56ff2
llvm-svn: 184344
217 lines
7.0 KiB
C++
217 lines
7.0 KiB
C++
//===- lib/MC/MCObjectDisassembler.cpp ------------------------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/MC/MCObjectDisassembler.h"
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#include "llvm/ADT/STLExtras.h"
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#include "llvm/ADT/SetVector.h"
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/ADT/Twine.h"
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#include "llvm/MC/MCAtom.h"
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#include "llvm/MC/MCDisassembler.h"
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#include "llvm/MC/MCFunction.h"
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#include "llvm/MC/MCInstrAnalysis.h"
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#include "llvm/MC/MCModule.h"
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#include "llvm/Object/ObjectFile.h"
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#include "llvm/Support/MemoryObject.h"
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#include "llvm/Support/StringRefMemoryObject.h"
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#include "llvm/Support/raw_ostream.h"
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#include <map>
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#include <set>
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using namespace llvm;
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using namespace object;
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MCObjectDisassembler::MCObjectDisassembler(const ObjectFile &Obj,
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const MCDisassembler &Dis,
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const MCInstrAnalysis &MIA)
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: Obj(Obj), Dis(Dis), MIA(MIA) {}
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MCModule *MCObjectDisassembler::buildModule(bool withCFG) {
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MCModule *Module = new MCModule;
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buildSectionAtoms(Module);
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if (withCFG)
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buildCFG(Module);
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return Module;
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}
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void MCObjectDisassembler::buildSectionAtoms(MCModule *Module) {
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error_code ec;
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for (section_iterator SI = Obj.begin_sections(),
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SE = Obj.end_sections();
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SI != SE;
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SI.increment(ec)) {
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if (ec) break;
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bool isText; SI->isText(isText);
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bool isData; SI->isData(isData);
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if (!isData && !isText)
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continue;
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uint64_t StartAddr; SI->getAddress(StartAddr);
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uint64_t SecSize; SI->getSize(SecSize);
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if (StartAddr == UnknownAddressOrSize || SecSize == UnknownAddressOrSize)
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continue;
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StringRef Contents; SI->getContents(Contents);
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StringRefMemoryObject memoryObject(Contents);
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// We don't care about things like non-file-backed sections yet.
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if (Contents.size() != SecSize || !SecSize)
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continue;
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uint64_t EndAddr = StartAddr + SecSize - 1;
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StringRef SecName; SI->getName(SecName);
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if (isText) {
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MCTextAtom *Text = Module->createTextAtom(StartAddr, EndAddr);
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Text->setName(SecName);
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uint64_t InstSize;
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for (uint64_t Index = 0; Index < SecSize; Index += InstSize) {
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MCInst Inst;
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if (Dis.getInstruction(Inst, InstSize, memoryObject, Index,
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nulls(), nulls()))
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Text->addInst(Inst, InstSize);
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else
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// We don't care about splitting mixed atoms either.
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llvm_unreachable("Couldn't disassemble instruction in atom.");
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}
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} else {
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MCDataAtom *Data = Module->createDataAtom(StartAddr, EndAddr);
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Data->setName(SecName);
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for (uint64_t Index = 0; Index < SecSize; ++Index)
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Data->addData(Contents[Index]);
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}
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}
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}
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namespace {
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struct BBInfo;
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typedef std::set<BBInfo*> BBInfoSetTy;
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struct BBInfo {
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MCTextAtom *Atom;
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MCBasicBlock *BB;
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BBInfoSetTy Succs;
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BBInfoSetTy Preds;
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void addSucc(BBInfo &Succ) {
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Succs.insert(&Succ);
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Succ.Preds.insert(this);
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}
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};
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}
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void MCObjectDisassembler::buildCFG(MCModule *Module) {
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typedef std::map<uint64_t, BBInfo> BBInfoByAddrTy;
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BBInfoByAddrTy BBInfos;
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typedef std::set<uint64_t> AddressSetTy;
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AddressSetTy Splits;
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AddressSetTy Calls;
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assert(Module->func_begin() == Module->func_end()
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&& "Module already has a CFG!");
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// First, determine the basic block boundaries and call targets.
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for (MCModule::atom_iterator AI = Module->atom_begin(),
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AE = Module->atom_end();
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AI != AE; ++AI) {
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MCTextAtom *TA = dyn_cast<MCTextAtom>(*AI);
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if (!TA) continue;
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Calls.insert(TA->getBeginAddr());
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BBInfos[TA->getBeginAddr()].Atom = TA;
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for (MCTextAtom::const_iterator II = TA->begin(), IE = TA->end();
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II != IE; ++II) {
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if (MIA.isTerminator(II->Inst))
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Splits.insert(II->Address + II->Size);
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uint64_t Target;
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if (MIA.evaluateBranch(II->Inst, II->Address, II->Size, Target)) {
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if (MIA.isCall(II->Inst))
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Calls.insert(Target);
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Splits.insert(Target);
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}
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}
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}
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// Split text atoms into basic block atoms.
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for (AddressSetTy::const_iterator SI = Splits.begin(), SE = Splits.end();
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SI != SE; ++SI) {
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MCAtom *A = Module->findAtomContaining(*SI);
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if (!A) continue;
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MCTextAtom *TA = cast<MCTextAtom>(A);
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if (TA->getBeginAddr() == *SI)
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continue;
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MCTextAtom *NewAtom = TA->split(*SI);
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BBInfos[NewAtom->getBeginAddr()].Atom = NewAtom;
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StringRef BBName = TA->getName();
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BBName = BBName.substr(0, BBName.find_last_of(':'));
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NewAtom->setName((BBName + ":" + utohexstr(*SI)).str());
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}
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// Compute succs/preds.
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for (MCModule::atom_iterator AI = Module->atom_begin(),
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AE = Module->atom_end();
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AI != AE; ++AI) {
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MCTextAtom *TA = dyn_cast<MCTextAtom>(*AI);
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if (!TA) continue;
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BBInfo &CurBB = BBInfos[TA->getBeginAddr()];
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const MCDecodedInst &LI = TA->back();
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if (MIA.isBranch(LI.Inst)) {
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uint64_t Target;
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if (MIA.evaluateBranch(LI.Inst, LI.Address, LI.Size, Target))
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CurBB.addSucc(BBInfos[Target]);
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if (MIA.isConditionalBranch(LI.Inst))
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CurBB.addSucc(BBInfos[LI.Address + LI.Size]);
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} else if (!MIA.isTerminator(LI.Inst))
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CurBB.addSucc(BBInfos[LI.Address + LI.Size]);
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}
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// Create functions and basic blocks.
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for (AddressSetTy::const_iterator CI = Calls.begin(), CE = Calls.end();
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CI != CE; ++CI) {
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BBInfo &BBI = BBInfos[*CI];
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if (!BBI.Atom) continue;
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MCFunction &MCFN = *Module->createFunction(BBI.Atom->getName());
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// Create MCBBs.
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SmallSetVector<BBInfo*, 16> Worklist;
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Worklist.insert(&BBI);
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for (size_t WI = 0; WI < Worklist.size(); ++WI) {
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BBInfo *BBI = Worklist[WI];
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if (!BBI->Atom)
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continue;
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BBI->BB = &MCFN.createBlock(*BBI->Atom);
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// Add all predecessors and successors to the worklist.
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for (BBInfoSetTy::iterator SI = BBI->Succs.begin(), SE = BBI->Succs.end();
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SI != SE; ++SI)
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Worklist.insert(*SI);
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for (BBInfoSetTy::iterator PI = BBI->Preds.begin(), PE = BBI->Preds.end();
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PI != PE; ++PI)
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Worklist.insert(*PI);
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}
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// Set preds/succs.
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for (size_t WI = 0; WI < Worklist.size(); ++WI) {
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BBInfo *BBI = Worklist[WI];
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MCBasicBlock *MCBB = BBI->BB;
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if (!MCBB)
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continue;
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for (BBInfoSetTy::iterator SI = BBI->Succs.begin(), SE = BBI->Succs.end();
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SI != SE; ++SI)
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MCBB->addSuccessor((*SI)->BB);
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for (BBInfoSetTy::iterator PI = BBI->Preds.begin(), PE = BBI->Preds.end();
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PI != PE; ++PI)
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MCBB->addPredecessor((*PI)->BB);
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}
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}
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}
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