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//===-- SelectionDAGISel.cpp - Implement the SelectionDAGISel class -------===//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This implements the SelectionDAGISel class.
//
//===----------------------------------------------------------------------===//

#define DEBUG_TYPE "isel"
#include "ScheduleDAGSDNodes.h"
#include "SelectionDAGBuilder.h"
#include "llvm/CodeGen/FunctionLoweringInfo.h"
#include "llvm/CodeGen/SelectionDAGISel.h"
#include "llvm/Analysis/AliasAnalysis.h"
#include "llvm/Analysis/BranchProbabilityInfo.h"
#include "llvm/Analysis/DebugInfo.h"
#include "llvm/Constants.h"
#include "llvm/Function.h"
#include "llvm/InlineAsm.h"
#include "llvm/Instructions.h"
#include "llvm/Intrinsics.h"
#include "llvm/IntrinsicInst.h"
#include "llvm/LLVMContext.h"
#include "llvm/Module.h"
#include "llvm/CodeGen/FastISel.h"
#include "llvm/CodeGen/GCStrategy.h"
#include "llvm/CodeGen/GCMetadata.h"
#include "llvm/CodeGen/MachineFrameInfo.h"
#include "llvm/CodeGen/MachineFunction.h"
#include "llvm/CodeGen/MachineInstrBuilder.h"
#include "llvm/CodeGen/MachineModuleInfo.h"
#include "llvm/CodeGen/MachineRegisterInfo.h"
#include "llvm/CodeGen/ScheduleHazardRecognizer.h"
#include "llvm/CodeGen/SchedulerRegistry.h"
#include "llvm/CodeGen/SelectionDAG.h"
#include "llvm/Target/TargetRegisterInfo.h"
#include "llvm/Target/TargetIntrinsicInfo.h"
#include "llvm/Target/TargetInstrInfo.h"
#include "llvm/Target/TargetLibraryInfo.h"
#include "llvm/Target/TargetLowering.h"
#include "llvm/Target/TargetMachine.h"
#include "llvm/Target/TargetOptions.h"
#include "llvm/Transforms/Utils/BasicBlockUtils.h"
#include "llvm/Support/Compiler.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/Timer.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/ADT/PostOrderIterator.h"
#include "llvm/ADT/Statistic.h"
#include <algorithm>
using namespace llvm;

STATISTIC(NumFastIselFailures, "Number of instructions fast isel failed on");
STATISTIC(NumFastIselSuccess, "Number of instructions fast isel selected");
STATISTIC(NumFastIselBlocks, "Number of blocks selected entirely by fast isel");
STATISTIC(NumDAGBlocks, "Number of blocks selected using DAG");
STATISTIC(NumDAGIselRetries,"Number of times dag isel has to try another path");

#ifndef NDEBUG
static cl::opt<bool>
EnableFastISelVerbose2("fast-isel-verbose2", cl::Hidden,
          cl::desc("Enable extra verbose messages in the \"fast\" "
                   "instruction selector"));
  // Terminators
STATISTIC(NumFastIselFailRet,"Fast isel fails on Ret");
STATISTIC(NumFastIselFailBr,"Fast isel fails on Br");
STATISTIC(NumFastIselFailSwitch,"Fast isel fails on Switch");
STATISTIC(NumFastIselFailIndirectBr,"Fast isel fails on IndirectBr");
STATISTIC(NumFastIselFailInvoke,"Fast isel fails on Invoke");
STATISTIC(NumFastIselFailResume,"Fast isel fails on Resume");
STATISTIC(NumFastIselFailUnreachable,"Fast isel fails on Unreachable");

  // Standard binary operators...
STATISTIC(NumFastIselFailAdd,"Fast isel fails on Add");
STATISTIC(NumFastIselFailFAdd,"Fast isel fails on FAdd");
STATISTIC(NumFastIselFailSub,"Fast isel fails on Sub");
STATISTIC(NumFastIselFailFSub,"Fast isel fails on FSub");
STATISTIC(NumFastIselFailMul,"Fast isel fails on Mul");
STATISTIC(NumFastIselFailFMul,"Fast isel fails on FMul");
STATISTIC(NumFastIselFailUDiv,"Fast isel fails on UDiv");
STATISTIC(NumFastIselFailSDiv,"Fast isel fails on SDiv");
STATISTIC(NumFastIselFailFDiv,"Fast isel fails on FDiv");
STATISTIC(NumFastIselFailURem,"Fast isel fails on URem");
STATISTIC(NumFastIselFailSRem,"Fast isel fails on SRem");
STATISTIC(NumFastIselFailFRem,"Fast isel fails on FRem");

  // Logical operators...
STATISTIC(NumFastIselFailAnd,"Fast isel fails on And");
STATISTIC(NumFastIselFailOr,"Fast isel fails on Or");
STATISTIC(NumFastIselFailXor,"Fast isel fails on Xor");

  // Memory instructions...
STATISTIC(NumFastIselFailAlloca,"Fast isel fails on Alloca");
STATISTIC(NumFastIselFailLoad,"Fast isel fails on Load");
STATISTIC(NumFastIselFailStore,"Fast isel fails on Store");
STATISTIC(NumFastIselFailAtomicCmpXchg,"Fast isel fails on AtomicCmpXchg");
STATISTIC(NumFastIselFailAtomicRMW,"Fast isel fails on AtomicRWM");
STATISTIC(NumFastIselFailFence,"Fast isel fails on Frence");
STATISTIC(NumFastIselFailGetElementPtr,"Fast isel fails on GetElementPtr");

  // Convert instructions...
STATISTIC(NumFastIselFailTrunc,"Fast isel fails on Trunc");
STATISTIC(NumFastIselFailZExt,"Fast isel fails on ZExt");
STATISTIC(NumFastIselFailSExt,"Fast isel fails on SExt");
STATISTIC(NumFastIselFailFPTrunc,"Fast isel fails on FPTrunc");
STATISTIC(NumFastIselFailFPExt,"Fast isel fails on FPExt");
STATISTIC(NumFastIselFailFPToUI,"Fast isel fails on FPToUI");
STATISTIC(NumFastIselFailFPToSI,"Fast isel fails on FPToSI");
STATISTIC(NumFastIselFailUIToFP,"Fast isel fails on UIToFP");
STATISTIC(NumFastIselFailSIToFP,"Fast isel fails on SIToFP");
STATISTIC(NumFastIselFailIntToPtr,"Fast isel fails on IntToPtr");
STATISTIC(NumFastIselFailPtrToInt,"Fast isel fails on PtrToInt");
STATISTIC(NumFastIselFailBitCast,"Fast isel fails on BitCast");

  // Other instructions...
STATISTIC(NumFastIselFailICmp,"Fast isel fails on ICmp");
STATISTIC(NumFastIselFailFCmp,"Fast isel fails on FCmp");
STATISTIC(NumFastIselFailPHI,"Fast isel fails on PHI");
STATISTIC(NumFastIselFailSelect,"Fast isel fails on Select");
STATISTIC(NumFastIselFailCall,"Fast isel fails on Call");
STATISTIC(NumFastIselFailShl,"Fast isel fails on Shl");
STATISTIC(NumFastIselFailLShr,"Fast isel fails on LShr");
STATISTIC(NumFastIselFailAShr,"Fast isel fails on AShr");
STATISTIC(NumFastIselFailVAArg,"Fast isel fails on VAArg");
STATISTIC(NumFastIselFailExtractElement,"Fast isel fails on ExtractElement");
STATISTIC(NumFastIselFailInsertElement,"Fast isel fails on InsertElement");
STATISTIC(NumFastIselFailShuffleVector,"Fast isel fails on ShuffleVector");
STATISTIC(NumFastIselFailExtractValue,"Fast isel fails on ExtractValue");
STATISTIC(NumFastIselFailInsertValue,"Fast isel fails on InsertValue");
STATISTIC(NumFastIselFailLandingPad,"Fast isel fails on LandingPad");
#endif

static cl::opt<bool>
EnableFastISelVerbose("fast-isel-verbose", cl::Hidden,
          cl::desc("Enable verbose messages in the \"fast\" "
                   "instruction selector"));
static cl::opt<bool>
EnableFastISelAbort("fast-isel-abort", cl::Hidden,
          cl::desc("Enable abort calls when \"fast\" instruction fails"));

static cl::opt<bool>
UseMBPI("use-mbpi",
        cl::desc("use Machine Branch Probability Info"),
        cl::init(true), cl::Hidden);

#ifndef NDEBUG
static cl::opt<bool>
ViewDAGCombine1("view-dag-combine1-dags", cl::Hidden,
          cl::desc("Pop up a window to show dags before the first "
                   "dag combine pass"));
static cl::opt<bool>
ViewLegalizeTypesDAGs("view-legalize-types-dags", cl::Hidden,
          cl::desc("Pop up a window to show dags before legalize types"));
static cl::opt<bool>
ViewLegalizeDAGs("view-legalize-dags", cl::Hidden,
          cl::desc("Pop up a window to show dags before legalize"));
static cl::opt<bool>
ViewDAGCombine2("view-dag-combine2-dags", cl::Hidden,
          cl::desc("Pop up a window to show dags before the second "
                   "dag combine pass"));
static cl::opt<bool>
ViewDAGCombineLT("view-dag-combine-lt-dags", cl::Hidden,
          cl::desc("Pop up a window to show dags before the post legalize types"
                   " dag combine pass"));
static cl::opt<bool>
ViewISelDAGs("view-isel-dags", cl::Hidden,
          cl::desc("Pop up a window to show isel dags as they are selected"));
static cl::opt<bool>
ViewSchedDAGs("view-sched-dags", cl::Hidden,
          cl::desc("Pop up a window to show sched dags as they are processed"));
static cl::opt<bool>
ViewSUnitDAGs("view-sunit-dags", cl::Hidden,
      cl::desc("Pop up a window to show SUnit dags after they are processed"));
#else
static const bool ViewDAGCombine1 = false,
                  ViewLegalizeTypesDAGs = false, ViewLegalizeDAGs = false,
                  ViewDAGCombine2 = false,
                  ViewDAGCombineLT = false,
                  ViewISelDAGs = false, ViewSchedDAGs = false,
                  ViewSUnitDAGs = false;
#endif

//===---------------------------------------------------------------------===//
///
/// RegisterScheduler class - Track the registration of instruction schedulers.
///
//===---------------------------------------------------------------------===//
MachinePassRegistry RegisterScheduler::Registry;

//===---------------------------------------------------------------------===//
///
/// ISHeuristic command line option for instruction schedulers.
///
//===---------------------------------------------------------------------===//
static cl::opt<RegisterScheduler::FunctionPassCtor, false,
               RegisterPassParser<RegisterScheduler> >
ISHeuristic("pre-RA-sched",
            cl::init(&createDefaultScheduler),
            cl::desc("Instruction schedulers available (before register"
                     " allocation):"));

static RegisterScheduler
defaultListDAGScheduler("default", "Best scheduler for the target",
                        createDefaultScheduler);

namespace llvm {
  //===--------------------------------------------------------------------===//
  /// createDefaultScheduler - This creates an instruction scheduler appropriate
  /// for the target.
  ScheduleDAGSDNodes* createDefaultScheduler(SelectionDAGISel *IS,
                                             CodeGenOpt::Level OptLevel) {
    const TargetLowering &TLI = IS->getTargetLowering();

    if (OptLevel == CodeGenOpt::None ||
        TLI.getSchedulingPreference() == Sched::Source)
      return createSourceListDAGScheduler(IS, OptLevel);
    if (TLI.getSchedulingPreference() == Sched::RegPressure)
      return createBURRListDAGScheduler(IS, OptLevel);
    if (TLI.getSchedulingPreference() == Sched::Hybrid)
      return createHybridListDAGScheduler(IS, OptLevel);
    if (TLI.getSchedulingPreference() == Sched::VLIW)
      return createVLIWDAGScheduler(IS, OptLevel);
    assert(TLI.getSchedulingPreference() == Sched::ILP &&
           "Unknown sched type!");
    return createILPListDAGScheduler(IS, OptLevel);
  }
}

// EmitInstrWithCustomInserter - This method should be implemented by targets
// that mark instructions with the 'usesCustomInserter' flag.  These
// instructions are special in various ways, which require special support to
// insert.  The specified MachineInstr is created but not inserted into any
// basic blocks, and this method is called to expand it into a sequence of
// instructions, potentially also creating new basic blocks and control flow.
// When new basic blocks are inserted and the edges from MBB to its successors
// are modified, the method should insert pairs of <OldSucc, NewSucc> into the
// DenseMap.
MachineBasicBlock *
TargetLowering::EmitInstrWithCustomInserter(MachineInstr *MI,
                                            MachineBasicBlock *MBB) const {
#ifndef NDEBUG
  dbgs() << "If a target marks an instruction with "
          "'usesCustomInserter', it must implement "
          "TargetLowering::EmitInstrWithCustomInserter!";
#endif
  llvm_unreachable(0);
}

void TargetLowering::AdjustInstrPostInstrSelection(MachineInstr *MI,
                                                   SDNode *Node) const {
  assert(!MI->hasPostISelHook() &&
         "If a target marks an instruction with 'hasPostISelHook', "
         "it must implement TargetLowering::AdjustInstrPostInstrSelection!");
}

//===----------------------------------------------------------------------===//
// SelectionDAGISel code
//===----------------------------------------------------------------------===//

void SelectionDAGISel::ISelUpdater::anchor() { }

SelectionDAGISel::SelectionDAGISel(const TargetMachine &tm,
                                   CodeGenOpt::Level OL) :
  MachineFunctionPass(ID), TM(tm), TLI(*tm.getTargetLowering()),
  FuncInfo(new FunctionLoweringInfo(TLI)),
  CurDAG(new SelectionDAG(tm, OL)),
  SDB(new SelectionDAGBuilder(*CurDAG, *FuncInfo, OL)),
  GFI(),
  OptLevel(OL),
  DAGSize(0) {
    initializeGCModuleInfoPass(*PassRegistry::getPassRegistry());
    initializeAliasAnalysisAnalysisGroup(*PassRegistry::getPassRegistry());
    initializeBranchProbabilityInfoPass(*PassRegistry::getPassRegistry());
    initializeTargetLibraryInfoPass(*PassRegistry::getPassRegistry());
  }

SelectionDAGISel::~SelectionDAGISel() {
  delete SDB;
  delete CurDAG;
  delete FuncInfo;
}

void SelectionDAGISel::getAnalysisUsage(AnalysisUsage &AU) const {
  AU.addRequired<AliasAnalysis>();
  AU.addPreserved<AliasAnalysis>();
  AU.addRequired<GCModuleInfo>();
  AU.addPreserved<GCModuleInfo>();
  AU.addRequired<TargetLibraryInfo>();
  if (UseMBPI && OptLevel != CodeGenOpt::None)
    AU.addRequired<BranchProbabilityInfo>();
  MachineFunctionPass::getAnalysisUsage(AU);
}

/// SplitCriticalSideEffectEdges - Look for critical edges with a PHI value that
/// may trap on it.  In this case we have to split the edge so that the path
/// through the predecessor block that doesn't go to the phi block doesn't
/// execute the possibly trapping instruction.
///
/// This is required for correctness, so it must be done at -O0.
///
static void SplitCriticalSideEffectEdges(Function &Fn, Pass *SDISel) {
  // Loop for blocks with phi nodes.
  for (Function::iterator BB = Fn.begin(), E = Fn.end(); BB != E; ++BB) {
    PHINode *PN = dyn_cast<PHINode>(BB->begin());
    if (PN == 0) continue;

  ReprocessBlock:
    // For each block with a PHI node, check to see if any of the input values
    // are potentially trapping constant expressions.  Constant expressions are
    // the only potentially trapping value that can occur as the argument to a
    // PHI.
    for (BasicBlock::iterator I = BB->begin(); (PN = dyn_cast<PHINode>(I)); ++I)
      for (unsigned i = 0, e = PN->getNumIncomingValues(); i != e; ++i) {
        ConstantExpr *CE = dyn_cast<ConstantExpr>(PN->getIncomingValue(i));
        if (CE == 0 || !CE->canTrap()) continue;

        // The only case we have to worry about is when the edge is critical.
        // Since this block has a PHI Node, we assume it has multiple input
        // edges: check to see if the pred has multiple successors.
        BasicBlock *Pred = PN->getIncomingBlock(i);
        if (Pred->getTerminator()->getNumSuccessors() == 1)
          continue;

        // Okay, we have to split this edge.
        SplitCriticalEdge(Pred->getTerminator(),
                          GetSuccessorNumber(Pred, BB), SDISel, true);
        goto ReprocessBlock;
      }
  }
}

bool SelectionDAGISel::runOnMachineFunction(MachineFunction &mf) {
  // Do some sanity-checking on the command-line options.
  assert((!EnableFastISelVerbose || TM.Options.EnableFastISel) &&
         "-fast-isel-verbose requires -fast-isel");
  assert((!EnableFastISelAbort || TM.Options.EnableFastISel) &&
         "-fast-isel-abort requires -fast-isel");

  const Function &Fn = *mf.getFunction();
  const TargetInstrInfo &TII = *TM.getInstrInfo();
  const TargetRegisterInfo &TRI = *TM.getRegisterInfo();

  MF = &mf;
  RegInfo = &MF->getRegInfo();
  AA = &getAnalysis<AliasAnalysis>();
  LibInfo = &getAnalysis<TargetLibraryInfo>();
  GFI = Fn.hasGC() ? &getAnalysis<GCModuleInfo>().getFunctionInfo(Fn) : 0;

  DEBUG(dbgs() << "\n\n\n=== " << Fn.getName() << "\n");

  SplitCriticalSideEffectEdges(const_cast<Function&>(Fn), this);

  CurDAG->init(*MF);
  FuncInfo->set(Fn, *MF);

  if (UseMBPI && OptLevel != CodeGenOpt::None)
    FuncInfo->BPI = &getAnalysis<BranchProbabilityInfo>();
  else
    FuncInfo->BPI = 0;

  SDB->init(GFI, *AA, LibInfo);

  SelectAllBasicBlocks(Fn);

  // If the first basic block in the function has live ins that need to be
  // copied into vregs, emit the copies into the top of the block before
  // emitting the code for the block.
  MachineBasicBlock *EntryMBB = MF->begin();
  RegInfo->EmitLiveInCopies(EntryMBB, TRI, TII);

  DenseMap<unsigned, unsigned> LiveInMap;
  if (!FuncInfo->ArgDbgValues.empty())
    for (MachineRegisterInfo::livein_iterator LI = RegInfo->livein_begin(),
           E = RegInfo->livein_end(); LI != E; ++LI)
      if (LI->second)
        LiveInMap.insert(std::make_pair(LI->first, LI->second));

  // Insert DBG_VALUE instructions for function arguments to the entry block.
  for (unsigned i = 0, e = FuncInfo->ArgDbgValues.size(); i != e; ++i) {
    MachineInstr *MI = FuncInfo->ArgDbgValues[e-i-1];
    unsigned Reg = MI->getOperand(0).getReg();
    if (TargetRegisterInfo::isPhysicalRegister(Reg))
      EntryMBB->insert(EntryMBB->begin(), MI);
    else {
      MachineInstr *Def = RegInfo->getVRegDef(Reg);
      MachineBasicBlock::iterator InsertPos = Def;
      // FIXME: VR def may not be in entry block.
      Def->getParent()->insert(llvm::next(InsertPos), MI);
    }

    // If Reg is live-in then update debug info to track its copy in a vreg.
    DenseMap<unsigned, unsigned>::iterator LDI = LiveInMap.find(Reg);
    if (LDI != LiveInMap.end()) {
      MachineInstr *Def = RegInfo->getVRegDef(LDI->second);
      MachineBasicBlock::iterator InsertPos = Def;
      const MDNode *Variable =
        MI->getOperand(MI->getNumOperands()-1).getMetadata();
      unsigned Offset = MI->getOperand(1).getImm();
      // Def is never a terminator here, so it is ok to increment InsertPos.
      BuildMI(*EntryMBB, ++InsertPos, MI->getDebugLoc(),
              TII.get(TargetOpcode::DBG_VALUE))
        .addReg(LDI->second, RegState::Debug)
        .addImm(Offset).addMetadata(Variable);

      // If this vreg is directly copied into an exported register then
      // that COPY instructions also need DBG_VALUE, if it is the only
      // user of LDI->second.
      MachineInstr *CopyUseMI = NULL;
      for (MachineRegisterInfo::use_iterator
             UI = RegInfo->use_begin(LDI->second);
           MachineInstr *UseMI = UI.skipInstruction();) {
        if (UseMI->isDebugValue()) continue;
        if (UseMI->isCopy() && !CopyUseMI && UseMI->getParent() == EntryMBB) {
          CopyUseMI = UseMI; continue;
        }
        // Otherwise this is another use or second copy use.
        CopyUseMI = NULL; break;
      }
      if (CopyUseMI) {
        MachineInstr *NewMI =
          BuildMI(*MF, CopyUseMI->getDebugLoc(),
                  TII.get(TargetOpcode::DBG_VALUE))
          .addReg(CopyUseMI->getOperand(0).getReg(), RegState::Debug)
          .addImm(Offset).addMetadata(Variable);
        MachineBasicBlock::iterator Pos = CopyUseMI;
        EntryMBB->insertAfter(Pos, NewMI);
      }
    }
  }

  // Determine if there are any calls in this machine function.
  MachineFrameInfo *MFI = MF->getFrameInfo();
  if (!MFI->hasCalls()) {
    for (MachineFunction::const_iterator
           I = MF->begin(), E = MF->end(); I != E; ++I) {
      const MachineBasicBlock *MBB = I;
      for (MachineBasicBlock::const_iterator
             II = MBB->begin(), IE = MBB->end(); II != IE; ++II) {
        const MCInstrDesc &MCID = TM.getInstrInfo()->get(II->getOpcode());

        if ((MCID.isCall() && !MCID.isReturn()) ||
            II->isStackAligningInlineAsm()) {
          MFI->setHasCalls(true);
          goto done;
        }
      }
    }
  done:;
  }

  // Determine if there is a call to setjmp in the machine function.
  MF->setExposesReturnsTwice(Fn.callsFunctionThatReturnsTwice());

  // Replace forward-declared registers with the registers containing
  // the desired value.
  MachineRegisterInfo &MRI = MF->getRegInfo();
  for (DenseMap<unsigned, unsigned>::iterator
       I = FuncInfo->RegFixups.begin(), E = FuncInfo->RegFixups.end();
       I != E; ++I) {
    unsigned From = I->first;
    unsigned To = I->second;
    // If To is also scheduled to be replaced, find what its ultimate
    // replacement is.
    for (;;) {
      DenseMap<unsigned, unsigned>::iterator J =
        FuncInfo->RegFixups.find(To);
      if (J == E) break;
      To = J->second;
    }
    // Replace it.
    MRI.replaceRegWith(From, To);
  }

  // Release function-specific state. SDB and CurDAG are already cleared
  // at this point.
  FuncInfo->clear();

  return true;
}

void SelectionDAGISel::SelectBasicBlock(BasicBlock::const_iterator Begin,
                                        BasicBlock::const_iterator End,
                                        bool &HadTailCall) {
  // Lower all of the non-terminator instructions. If a call is emitted
  // as a tail call, cease emitting nodes for this block. Terminators
  // are handled below.
  for (BasicBlock::const_iterator I = Begin; I != End && !SDB->HasTailCall; ++I)
    SDB->visit(*I);

  // Make sure the root of the DAG is up-to-date.
  CurDAG->setRoot(SDB->getControlRoot());
  HadTailCall = SDB->HasTailCall;
  SDB->clear();

  // Final step, emit the lowered DAG as machine code.
  CodeGenAndEmitDAG();
}

void SelectionDAGISel::ComputeLiveOutVRegInfo() {
  SmallPtrSet<SDNode*, 128> VisitedNodes;
  SmallVector<SDNode*, 128> Worklist;

  Worklist.push_back(CurDAG->getRoot().getNode());

  APInt KnownZero;
  APInt KnownOne;

  do {
    SDNode *N = Worklist.pop_back_val();

    // If we've already seen this node, ignore it.
    if (!VisitedNodes.insert(N))
      continue;

    // Otherwise, add all chain operands to the worklist.
    for (unsigned i = 0, e = N->getNumOperands(); i != e; ++i)
      if (N->getOperand(i).getValueType() == MVT::Other)
        Worklist.push_back(N->getOperand(i).getNode());

    // If this is a CopyToReg with a vreg dest, process it.
    if (N->getOpcode() != ISD::CopyToReg)
      continue;

    unsigned DestReg = cast<RegisterSDNode>(N->getOperand(1))->getReg();
    if (!TargetRegisterInfo::isVirtualRegister(DestReg))
      continue;

    // Ignore non-scalar or non-integer values.
    SDValue Src = N->getOperand(2);
    EVT SrcVT = Src.getValueType();
    if (!SrcVT.isInteger() || SrcVT.isVector())
      continue;

    unsigned NumSignBits = CurDAG->ComputeNumSignBits(Src);
    CurDAG->ComputeMaskedBits(Src, KnownZero, KnownOne);
    FuncInfo->AddLiveOutRegInfo(DestReg, NumSignBits, KnownZero, KnownOne);
  } while (!Worklist.empty());
}

void SelectionDAGISel::CodeGenAndEmitDAG() {
  std::string GroupName;
  if (TimePassesIsEnabled)
    GroupName = "Instruction Selection and Scheduling";
  std::string BlockName;
  int BlockNumber = -1;
  (void)BlockNumber;
#ifdef NDEBUG
  if (ViewDAGCombine1 || ViewLegalizeTypesDAGs || ViewLegalizeDAGs ||
      ViewDAGCombine2 || ViewDAGCombineLT || ViewISelDAGs || ViewSchedDAGs ||
      ViewSUnitDAGs)
#endif
  {
    BlockNumber = FuncInfo->MBB->getNumber();
    BlockName = MF->getFunction()->getName().str() + ":" +
                FuncInfo->MBB->getBasicBlock()->getName().str();
  }
  DEBUG(dbgs() << "Initial selection DAG: BB#" << BlockNumber
        << " '" << BlockName << "'\n"; CurDAG->dump());

  if (ViewDAGCombine1) CurDAG->viewGraph("dag-combine1 input for " + BlockName);

  // Run the DAG combiner in pre-legalize mode.
  {
    NamedRegionTimer T("DAG Combining 1", GroupName, TimePassesIsEnabled);
    CurDAG->Combine(BeforeLegalizeTypes, *AA, OptLevel);
  }

  DEBUG(dbgs() << "Optimized lowered selection DAG: BB#" << BlockNumber
        << " '" << BlockName << "'\n"; CurDAG->dump());

  // Second step, hack on the DAG until it only uses operations and types that
  // the target supports.
  if (ViewLegalizeTypesDAGs) CurDAG->viewGraph("legalize-types input for " +
                                               BlockName);

  bool Changed;
  {
    NamedRegionTimer T("Type Legalization", GroupName, TimePassesIsEnabled);
    Changed = CurDAG->LegalizeTypes();
  }

  DEBUG(dbgs() << "Type-legalized selection DAG: BB#" << BlockNumber
        << " '" << BlockName << "'\n"; CurDAG->dump());

  if (Changed) {
    if (ViewDAGCombineLT)
      CurDAG->viewGraph("dag-combine-lt input for " + BlockName);

    // Run the DAG combiner in post-type-legalize mode.
    {
      NamedRegionTimer T("DAG Combining after legalize types", GroupName,
                         TimePassesIsEnabled);
      CurDAG->Combine(AfterLegalizeTypes, *AA, OptLevel);
    }

    DEBUG(dbgs() << "Optimized type-legalized selection DAG: BB#" << BlockNumber
          << " '" << BlockName << "'\n"; CurDAG->dump());
  }

  {
    NamedRegionTimer T("Vector Legalization", GroupName, TimePassesIsEnabled);
    Changed = CurDAG->LegalizeVectors();
  }

  if (Changed) {
    {
      NamedRegionTimer T("Type Legalization 2", GroupName, TimePassesIsEnabled);
      CurDAG->LegalizeTypes();
    }

    if (ViewDAGCombineLT)
      CurDAG->viewGraph("dag-combine-lv input for " + BlockName);

    // Run the DAG combiner in post-type-legalize mode.
    {
      NamedRegionTimer T("DAG Combining after legalize vectors", GroupName,
                         TimePassesIsEnabled);
      CurDAG->Combine(AfterLegalizeVectorOps, *AA, OptLevel);
    }

    DEBUG(dbgs() << "Optimized vector-legalized selection DAG: BB#"
          << BlockNumber << " '" << BlockName << "'\n"; CurDAG->dump());
  }

  if (ViewLegalizeDAGs) CurDAG->viewGraph("legalize input for " + BlockName);

  {
    NamedRegionTimer T("DAG Legalization", GroupName, TimePassesIsEnabled);
    CurDAG->Legalize();
  }

  DEBUG(dbgs() << "Legalized selection DAG: BB#" << BlockNumber
        << " '" << BlockName << "'\n"; CurDAG->dump());

  if (ViewDAGCombine2) CurDAG->viewGraph("dag-combine2 input for " + BlockName);

  // Run the DAG combiner in post-legalize mode.
  {
    NamedRegionTimer T("DAG Combining 2", GroupName, TimePassesIsEnabled);
    CurDAG->Combine(AfterLegalizeDAG, *AA, OptLevel);
  }

  DEBUG(dbgs() << "Optimized legalized selection DAG: BB#" << BlockNumber
        << " '" << BlockName << "'\n"; CurDAG->dump());

  if (OptLevel != CodeGenOpt::None)
    ComputeLiveOutVRegInfo();

  if (ViewISelDAGs) CurDAG->viewGraph("isel input for " + BlockName);

  // Third, instruction select all of the operations to machine code, adding the
  // code to the MachineBasicBlock.
  {
    NamedRegionTimer T("Instruction Selection", GroupName, TimePassesIsEnabled);
    DoInstructionSelection();
  }

  DEBUG(dbgs() << "Selected selection DAG: BB#" << BlockNumber
        << " '" << BlockName << "'\n"; CurDAG->dump());

  if (ViewSchedDAGs) CurDAG->viewGraph("scheduler input for " + BlockName);

  // Schedule machine code.
  ScheduleDAGSDNodes *Scheduler = CreateScheduler();
  {
    NamedRegionTimer T("Instruction Scheduling", GroupName,
                       TimePassesIsEnabled);
    Scheduler->Run(CurDAG, FuncInfo->MBB);
  }

  if (ViewSUnitDAGs) Scheduler->viewGraph();

  // Emit machine code to BB.  This can change 'BB' to the last block being
  // inserted into.
  MachineBasicBlock *FirstMBB = FuncInfo->MBB, *LastMBB;
  {
    NamedRegionTimer T("Instruction Creation", GroupName, TimePassesIsEnabled);

    // FuncInfo->InsertPt is passed by reference and set to the end of the
    // scheduled instructions.
    LastMBB = FuncInfo->MBB = Scheduler->EmitSchedule(FuncInfo->InsertPt);
  }

  // If the block was split, make sure we update any references that are used to
  // update PHI nodes later on.
  if (FirstMBB != LastMBB)
    SDB->UpdateSplitBlock(FirstMBB, LastMBB);

  // Free the scheduler state.
  {
    NamedRegionTimer T("Instruction Scheduling Cleanup", GroupName,
                       TimePassesIsEnabled);
    delete Scheduler;
  }

  // Free the SelectionDAG state, now that we're finished with it.
  CurDAG->clear();
}

void SelectionDAGISel::DoInstructionSelection() {
  DEBUG(errs() << "===== Instruction selection begins: BB#"
        << FuncInfo->MBB->getNumber()
        << " '" << FuncInfo->MBB->getName() << "'\n");

  PreprocessISelDAG();

  // Select target instructions for the DAG.
  {
    // Number all nodes with a topological order and set DAGSize.
    DAGSize = CurDAG->AssignTopologicalOrder();

    // Create a dummy node (which is not added to allnodes), that adds
    // a reference to the root node, preventing it from being deleted,
    // and tracking any changes of the root.
    HandleSDNode Dummy(CurDAG->getRoot());
    ISelPosition = SelectionDAG::allnodes_iterator(CurDAG->getRoot().getNode());
    ++ISelPosition;

    // The AllNodes list is now topological-sorted. Visit the
    // nodes by starting at the end of the list (the root of the
    // graph) and preceding back toward the beginning (the entry
    // node).
    while (ISelPosition != CurDAG->allnodes_begin()) {
      SDNode *Node = --ISelPosition;
      // Skip dead nodes. DAGCombiner is expected to eliminate all dead nodes,
      // but there are currently some corner cases that it misses. Also, this
      // makes it theoretically possible to disable the DAGCombiner.
      if (Node->use_empty())
        continue;

      SDNode *ResNode = Select(Node);

      // FIXME: This is pretty gross.  'Select' should be changed to not return
      // anything at all and this code should be nuked with a tactical strike.

      // If node should not be replaced, continue with the next one.
      if (ResNode == Node || Node->getOpcode() == ISD::DELETED_NODE)
        continue;
      // Replace node.
      if (ResNode)
        ReplaceUses(Node, ResNode);

      // If after the replacement this node is not used any more,
      // remove this dead node.
      if (Node->use_empty()) { // Don't delete EntryToken, etc.
        ISelUpdater ISU(ISelPosition);
        CurDAG->RemoveDeadNode(Node, &ISU);
      }
    }

    CurDAG->setRoot(Dummy.getValue());
  }

  DEBUG(errs() << "===== Instruction selection ends:\n");

  PostprocessISelDAG();
}

/// PrepareEHLandingPad - Emit an EH_LABEL, set up live-in registers, and
/// do other setup for EH landing-pad blocks.
void SelectionDAGISel::PrepareEHLandingPad() {
  MachineBasicBlock *MBB = FuncInfo->MBB;

  // Add a label to mark the beginning of the landing pad.  Deletion of the
  // landing pad can thus be detected via the MachineModuleInfo.
  MCSymbol *Label = MF->getMMI().addLandingPad(MBB);

  // Assign the call site to the landing pad's begin label.
  MF->getMMI().setCallSiteLandingPad(Label, SDB->LPadToCallSiteMap[MBB]);

  const MCInstrDesc &II = TM.getInstrInfo()->get(TargetOpcode::EH_LABEL);
  BuildMI(*MBB, FuncInfo->InsertPt, SDB->getCurDebugLoc(), II)
    .addSym(Label);

  // Mark exception register as live in.
  unsigned Reg = TLI.getExceptionPointerRegister();
  if (Reg) MBB->addLiveIn(Reg);

  // Mark exception selector register as live in.
  Reg = TLI.getExceptionSelectorRegister();
  if (Reg) MBB->addLiveIn(Reg);
}

/// TryToFoldFastISelLoad - We're checking to see if we can fold the specified
/// load into the specified FoldInst.  Note that we could have a sequence where
/// multiple LLVM IR instructions are folded into the same machineinstr.  For
/// example we could have:
///   A: x = load i32 *P
///   B: y = icmp A, 42
///   C: br y, ...
///
/// In this scenario, LI is "A", and FoldInst is "C".  We know about "B" (and
/// any other folded instructions) because it is between A and C.
///
/// If we succeed in folding the load into the operation, return true.
///
bool SelectionDAGISel::TryToFoldFastISelLoad(const LoadInst *LI,
                                             const Instruction *FoldInst,
                                             FastISel *FastIS) {
  // We know that the load has a single use, but don't know what it is.  If it
  // isn't one of the folded instructions, then we can't succeed here.  Handle
  // this by scanning the single-use users of the load until we get to FoldInst.
  unsigned MaxUsers = 6;  // Don't scan down huge single-use chains of instrs.

  const Instruction *TheUser = LI->use_back();
  while (TheUser != FoldInst &&   // Scan up until we find FoldInst.
         // Stay in the right block.
         TheUser->getParent() == FoldInst->getParent() &&
         --MaxUsers) {  // Don't scan too far.
    // If there are multiple or no uses of this instruction, then bail out.
    if (!TheUser->hasOneUse())
      return false;

    TheUser = TheUser->use_back();
  }

  // If we didn't find the fold instruction, then we failed to collapse the
  // sequence.
  if (TheUser != FoldInst)
    return false;

  // Don't try to fold volatile loads.  Target has to deal with alignment
  // constraints.
  if (LI->isVolatile()) return false;

  // Figure out which vreg this is going into.  If there is no assigned vreg yet
  // then there actually was no reference to it.  Perhaps the load is referenced
  // by a dead instruction.
  unsigned LoadReg = FastIS->getRegForValue(LI);
  if (LoadReg == 0)
    return false;

  // Check to see what the uses of this vreg are.  If it has no uses, or more
  // than one use (at the machine instr level) then we can't fold it.
  MachineRegisterInfo::reg_iterator RI = RegInfo->reg_begin(LoadReg);
  if (RI == RegInfo->reg_end())
    return false;

  // See if there is exactly one use of the vreg.  If there are multiple uses,
  // then the instruction got lowered to multiple machine instructions or the
  // use of the loaded value ended up being multiple operands of the result, in
  // either case, we can't fold this.
  MachineRegisterInfo::reg_iterator PostRI = RI; ++PostRI;
  if (PostRI != RegInfo->reg_end())
    return false;

  assert(RI.getOperand().isUse() &&
         "The only use of the vreg must be a use, we haven't emitted the def!");

  MachineInstr *User = &*RI;

  // Set the insertion point properly.  Folding the load can cause generation of
  // other random instructions (like sign extends) for addressing modes, make
  // sure they get inserted in a logical place before the new instruction.
  FuncInfo->InsertPt = User;
  FuncInfo->MBB = User->getParent();

  // Ask the target to try folding the load.
  return FastIS->TryToFoldLoad(User, RI.getOperandNo(), LI);
}

/// isFoldedOrDeadInstruction - Return true if the specified instruction is
/// side-effect free and is either dead or folded into a generated instruction.
/// Return false if it needs to be emitted.
static bool isFoldedOrDeadInstruction(const Instruction *I,
                                      FunctionLoweringInfo *FuncInfo) {
  return !I->mayWriteToMemory() && // Side-effecting instructions aren't folded.
         !isa<TerminatorInst>(I) && // Terminators aren't folded.
         !isa<DbgInfoIntrinsic>(I) &&  // Debug instructions aren't folded.
         !isa<LandingPadInst>(I) &&    // Landingpad instructions aren't folded.
         !FuncInfo->isExportedInst(I); // Exported instrs must be computed.
}

#ifndef NDEBUG
// Collect per Instruction statistics for fast-isel misses.  Only those
// instructions that cause the bail are accounted for.  It does not account for
// instructions higher in the block.  Thus, summing the per instructions stats
// will not add up to what is reported by NumFastIselFailures.
static void collectFailStats(const Instruction *I) {
  switch (I->getOpcode()) {
  default: assert (0 && "<Invalid operator> ");

  // Terminators
  case Instruction::Ret:         NumFastIselFailRet++; return;
  case Instruction::Br:          NumFastIselFailBr++; return;
  case Instruction::Switch:      NumFastIselFailSwitch++; return;
  case Instruction::IndirectBr:  NumFastIselFailIndirectBr++; return;
  case Instruction::Invoke:      NumFastIselFailInvoke++; return;
  case Instruction::Resume:      NumFastIselFailResume++; return;
  case Instruction::Unreachable: NumFastIselFailUnreachable++; return;

  // Standard binary operators...
  case Instruction::Add:  NumFastIselFailAdd++; return;
  case Instruction::FAdd: NumFastIselFailFAdd++; return;
  case Instruction::Sub:  NumFastIselFailSub++; return;
  case Instruction::FSub: NumFastIselFailFSub++; return;
  case Instruction::Mul:  NumFastIselFailMul++; return;
  case Instruction::FMul: NumFastIselFailFMul++; return;
  case Instruction::UDiv: NumFastIselFailUDiv++; return;
  case Instruction::SDiv: NumFastIselFailSDiv++; return;
  case Instruction::FDiv: NumFastIselFailFDiv++; return;
  case Instruction::URem: NumFastIselFailURem++; return;
  case Instruction::SRem: NumFastIselFailSRem++; return;
  case Instruction::FRem: NumFastIselFailFRem++; return;

  // Logical operators...
  case Instruction::And: NumFastIselFailAnd++; return;
  case Instruction::Or:  NumFastIselFailOr++; return;
  case Instruction::Xor: NumFastIselFailXor++; return;

  // Memory instructions...
  case Instruction::Alloca:        NumFastIselFailAlloca++; return;
  case Instruction::Load:          NumFastIselFailLoad++; return;
  case Instruction::Store:         NumFastIselFailStore++; return;
  case Instruction::AtomicCmpXchg: NumFastIselFailAtomicCmpXchg++; return;
  case Instruction::AtomicRMW:     NumFastIselFailAtomicRMW++; return;
  case Instruction::Fence:         NumFastIselFailFence++; return;
  case Instruction::GetElementPtr: NumFastIselFailGetElementPtr++; return;

  // Convert instructions...
  case Instruction::Trunc:    NumFastIselFailTrunc++; return;
  case Instruction::ZExt:     NumFastIselFailZExt++; return;
  case Instruction::SExt:     NumFastIselFailSExt++; return;
  case Instruction::FPTrunc:  NumFastIselFailFPTrunc++; return;
  case Instruction::FPExt:    NumFastIselFailFPExt++; return;
  case Instruction::FPToUI:   NumFastIselFailFPToUI++; return;
  case Instruction::FPToSI:   NumFastIselFailFPToSI++; return;
  case Instruction::UIToFP:   NumFastIselFailUIToFP++; return;
  case Instruction::SIToFP:   NumFastIselFailSIToFP++; return;
  case Instruction::IntToPtr: NumFastIselFailIntToPtr++; return;
  case Instruction::PtrToInt: NumFastIselFailPtrToInt++; return;
  case Instruction::BitCast:  NumFastIselFailBitCast++; return;

  // Other instructions...
  case Instruction::ICmp:           NumFastIselFailICmp++; return;
  case Instruction::FCmp:           NumFastIselFailFCmp++; return;
  case Instruction::PHI:            NumFastIselFailPHI++; return;
  case Instruction::Select:         NumFastIselFailSelect++; return;
  case Instruction::Call:           NumFastIselFailCall++; return;
  case Instruction::Shl:            NumFastIselFailShl++; return;
  case Instruction::LShr:           NumFastIselFailLShr++; return;
  case Instruction::AShr:           NumFastIselFailAShr++; return;
  case Instruction::VAArg:          NumFastIselFailVAArg++; return;
  case Instruction::ExtractElement: NumFastIselFailExtractElement++; return;
  case Instruction::InsertElement:  NumFastIselFailInsertElement++; return;
  case Instruction::ShuffleVector:  NumFastIselFailShuffleVector++; return;
  case Instruction::ExtractValue:   NumFastIselFailExtractValue++; return;
  case Instruction::InsertValue:    NumFastIselFailInsertValue++; return;
  case Instruction::LandingPad:     NumFastIselFailLandingPad++; return;
  }
}
#endif

void SelectionDAGISel::SelectAllBasicBlocks(const Function &Fn) {
  // Initialize the Fast-ISel state, if needed.
  FastISel *FastIS = 0;
  if (TM.Options.EnableFastISel)
    FastIS = TLI.createFastISel(*FuncInfo);

  // Iterate over all basic blocks in the function.
  ReversePostOrderTraversal<const Function*> RPOT(&Fn);
  for (ReversePostOrderTraversal<const Function*>::rpo_iterator
       I = RPOT.begin(), E = RPOT.end(); I != E; ++I) {
    const BasicBlock *LLVMBB = *I;

    if (OptLevel != CodeGenOpt::None) {
      bool AllPredsVisited = true;
      for (const_pred_iterator PI = pred_begin(LLVMBB), PE = pred_end(LLVMBB);
           PI != PE; ++PI) {
        if (!FuncInfo->VisitedBBs.count(*PI)) {
          AllPredsVisited = false;
          break;
        }
      }

      if (AllPredsVisited) {
        for (BasicBlock::const_iterator I = LLVMBB->begin();
             isa<PHINode>(I); ++I)
          FuncInfo->ComputePHILiveOutRegInfo(cast<PHINode>(I));
      } else {
        for (BasicBlock::const_iterator I = LLVMBB->begin();
             isa<PHINode>(I); ++I)
          FuncInfo->InvalidatePHILiveOutRegInfo(cast<PHINode>(I));
      }

      FuncInfo->VisitedBBs.insert(LLVMBB);
    }

    FuncInfo->MBB = FuncInfo->MBBMap[LLVMBB];
    FuncInfo->InsertPt = FuncInfo->MBB->getFirstNonPHI();

    BasicBlock::const_iterator const Begin = LLVMBB->getFirstNonPHI();
    BasicBlock::const_iterator const End = LLVMBB->end();
    BasicBlock::const_iterator BI = End;

    FuncInfo->InsertPt = FuncInfo->MBB->getFirstNonPHI();

    // Setup an EH landing-pad block.
    if (FuncInfo->MBB->isLandingPad())
      PrepareEHLandingPad();

    // Lower any arguments needed in this block if this is the entry block.
    if (LLVMBB == &Fn.getEntryBlock())
      LowerArguments(LLVMBB);

    // Before doing SelectionDAG ISel, see if FastISel has been requested.
    if (FastIS) {
      FastIS->startNewBlock();

      // Emit code for any incoming arguments. This must happen before
      // beginning FastISel on the entry block.
      if (LLVMBB == &Fn.getEntryBlock()) {
        CurDAG->setRoot(SDB->getControlRoot());
        SDB->clear();
        CodeGenAndEmitDAG();

        // If we inserted any instructions at the beginning, make a note of
        // where they are, so we can be sure to emit subsequent instructions
        // after them.
        if (FuncInfo->InsertPt != FuncInfo->MBB->begin())
          FastIS->setLastLocalValue(llvm::prior(FuncInfo->InsertPt));
        else
          FastIS->setLastLocalValue(0);
      }

      unsigned NumFastIselRemaining = std::distance(Begin, End);
      // Do FastISel on as many instructions as possible.
      for (; BI != Begin; --BI) {
        const Instruction *Inst = llvm::prior(BI);

        // If we no longer require this instruction, skip it.
        if (isFoldedOrDeadInstruction(Inst, FuncInfo)) {
          --NumFastIselRemaining;
          continue;
        }

        // Bottom-up: reset the insert pos at the top, after any local-value
        // instructions.
        FastIS->recomputeInsertPt();

        // Try to select the instruction with FastISel.
        if (FastIS->SelectInstruction(Inst)) {
          --NumFastIselRemaining;
          ++NumFastIselSuccess;
          // If fast isel succeeded, skip over all the folded instructions, and
          // then see if there is a load right before the selected instructions.
          // Try to fold the load if so.
          const Instruction *BeforeInst = Inst;
          while (BeforeInst != Begin) {
            BeforeInst = llvm::prior(BasicBlock::const_iterator(BeforeInst));
            if (!isFoldedOrDeadInstruction(BeforeInst, FuncInfo))
              break;
          }
          if (BeforeInst != Inst && isa<LoadInst>(BeforeInst) &&
              BeforeInst->hasOneUse() &&
              TryToFoldFastISelLoad(cast<LoadInst>(BeforeInst), Inst, FastIS)) {
            // If we succeeded, don't re-select the load.
            BI = llvm::next(BasicBlock::const_iterator(BeforeInst));
            --NumFastIselRemaining;
            ++NumFastIselSuccess;
          }
          continue;
        }

#ifndef NDEBUG
        if (EnableFastISelVerbose2)
          collectFailStats(Inst);
#endif

        // Then handle certain instructions as single-LLVM-Instruction blocks.
        if (isa<CallInst>(Inst)) {

          if (EnableFastISelVerbose || EnableFastISelAbort) {
            dbgs() << "FastISel missed call: ";
            Inst->dump();
          }

          if (!Inst->getType()->isVoidTy() && !Inst->use_empty()) {
            unsigned &R = FuncInfo->ValueMap[Inst];
            if (!R)
              R = FuncInfo->CreateRegs(Inst->getType());
          }

          bool HadTailCall = false;
          SelectBasicBlock(Inst, BI, HadTailCall);

          // Recompute NumFastIselRemaining as Selection DAG instruction
          // selection may have handled the call, input args, etc.
          unsigned RemainingNow = std::distance(Begin, BI);
          NumFastIselFailures += NumFastIselRemaining - RemainingNow;

          // If the call was emitted as a tail call, we're done with the block.
          if (HadTailCall) {
            --BI;
            break;
          }

          NumFastIselRemaining = RemainingNow;
          continue;
        }

        if (isa<TerminatorInst>(Inst) && !isa<BranchInst>(Inst)) {
          // Don't abort, and use a different message for terminator misses.
          NumFastIselFailures += NumFastIselRemaining;
          if (EnableFastISelVerbose || EnableFastISelAbort) {
            dbgs() << "FastISel missed terminator: ";
            Inst->dump();
          }
        } else {
          NumFastIselFailures += NumFastIselRemaining;
          if (EnableFastISelVerbose || EnableFastISelAbort) {
            dbgs() << "FastISel miss: ";
            Inst->dump();
          }
          if (EnableFastISelAbort)
            // The "fast" selector couldn't handle something and bailed.
            // For the purpose of debugging, just abort.
            llvm_unreachable("FastISel didn't select the entire block");
        }
        break;
      }

      FastIS->recomputeInsertPt();
    }

    if (Begin != BI)
      ++NumDAGBlocks;
    else
      ++NumFastIselBlocks;

    if (Begin != BI) {
      // Run SelectionDAG instruction selection on the remainder of the block
      // not handled by FastISel. If FastISel is not run, this is the entire
      // block.
      bool HadTailCall;
      SelectBasicBlock(Begin, BI, HadTailCall);
    }

    FinishBasicBlock();
    FuncInfo->PHINodesToUpdate.clear();
  }

  delete FastIS;
  SDB->clearDanglingDebugInfo();
}

void
SelectionDAGISel::FinishBasicBlock() {

  DEBUG(dbgs() << "Total amount of phi nodes to update: "
               << FuncInfo->PHINodesToUpdate.size() << "\n";
        for (unsigned i = 0, e = FuncInfo->PHINodesToUpdate.size(); i != e; ++i)
          dbgs() << "Node " << i << " : ("
                 << FuncInfo->PHINodesToUpdate[i].first
                 << ", " << FuncInfo->PHINodesToUpdate[i].second << ")\n");

  // Next, now that we know what the last MBB the LLVM BB expanded is, update
  // PHI nodes in successors.
  if (SDB->SwitchCases.empty() &&
      SDB->JTCases.empty() &&
      SDB->BitTestCases.empty()) {
    for (unsigned i = 0, e = FuncInfo->PHINodesToUpdate.size(); i != e; ++i) {
      MachineInstr *PHI = FuncInfo->PHINodesToUpdate[i].first;
      assert(PHI->isPHI() &&
             "This is not a machine PHI node that we are updating!");
      if (!FuncInfo->MBB->isSuccessor(PHI->getParent()))
        continue;
      PHI->addOperand(
        MachineOperand::CreateReg(FuncInfo->PHINodesToUpdate[i].second, false));
      PHI->addOperand(MachineOperand::CreateMBB(FuncInfo->MBB));
    }
    return;
  }

  for (unsigned i = 0, e = SDB->BitTestCases.size(); i != e; ++i) {
    // Lower header first, if it wasn't already lowered
    if (!SDB->BitTestCases[i].Emitted) {
      // Set the current basic block to the mbb we wish to insert the code into
      FuncInfo->MBB = SDB->BitTestCases[i].Parent;
      FuncInfo->InsertPt = FuncInfo->MBB->end();
      // Emit the code
      SDB->visitBitTestHeader(SDB->BitTestCases[i], FuncInfo->MBB);
      CurDAG->setRoot(SDB->getRoot());
      SDB->clear();
      CodeGenAndEmitDAG();
    }

    for (unsigned j = 0, ej = SDB->BitTestCases[i].Cases.size(); j != ej; ++j) {
      // Set the current basic block to the mbb we wish to insert the code into
      FuncInfo->MBB = SDB->BitTestCases[i].Cases[j].ThisBB;
      FuncInfo->InsertPt = FuncInfo->MBB->end();
      // Emit the code
      if (j+1 != ej)
        SDB->visitBitTestCase(SDB->BitTestCases[i],
                              SDB->BitTestCases[i].Cases[j+1].ThisBB,
                              SDB->BitTestCases[i].Reg,
                              SDB->BitTestCases[i].Cases[j],
                              FuncInfo->MBB);
      else
        SDB->visitBitTestCase(SDB->BitTestCases[i],
                              SDB->BitTestCases[i].Default,
                              SDB->BitTestCases[i].Reg,
                              SDB->BitTestCases[i].Cases[j],
                              FuncInfo->MBB);


      CurDAG->setRoot(SDB->getRoot());
      SDB->clear();
      CodeGenAndEmitDAG();
    }

    // Update PHI Nodes
    for (unsigned pi = 0, pe = FuncInfo->PHINodesToUpdate.size();
         pi != pe; ++pi) {
      MachineInstr *PHI = FuncInfo->PHINodesToUpdate[pi].first;
      MachineBasicBlock *PHIBB = PHI->getParent();
      assert(PHI->isPHI() &&
             "This is not a machine PHI node that we are updating!");
      // This is "default" BB. We have two jumps to it. From "header" BB and
      // from last "case" BB.
      if (PHIBB == SDB->BitTestCases[i].Default) {
        PHI->addOperand(MachineOperand::
                        CreateReg(FuncInfo->PHINodesToUpdate[pi].second,
                                  false));
        PHI->addOperand(MachineOperand::CreateMBB(SDB->BitTestCases[i].Parent));
        PHI->addOperand(MachineOperand::
                        CreateReg(FuncInfo->PHINodesToUpdate[pi].second,
                                  false));
        PHI->addOperand(MachineOperand::CreateMBB(SDB->BitTestCases[i].Cases.
                                                  back().ThisBB));
      }
      // One of "cases" BB.
      for (unsigned j = 0, ej = SDB->BitTestCases[i].Cases.size();
           j != ej; ++j) {
        MachineBasicBlock* cBB = SDB->BitTestCases[i].Cases[j].ThisBB;
        if (cBB->isSuccessor(PHIBB)) {
          PHI->addOperand(MachineOperand::
                          CreateReg(FuncInfo->PHINodesToUpdate[pi].second,
                                    false));
          PHI->addOperand(MachineOperand::CreateMBB(cBB));
        }
      }
    }
  }
  SDB->BitTestCases.clear();

  // If the JumpTable record is filled in, then we need to emit a jump table.
  // Updating the PHI nodes is tricky in this case, since we need to determine
  // whether the PHI is a successor of the range check MBB or the jump table MBB
  for (unsigned i = 0, e = SDB->JTCases.size(); i != e; ++i) {
    // Lower header first, if it wasn't already lowered
    if (!SDB->JTCases[i].first.Emitted) {
      // Set the current basic block to the mbb we wish to insert the code into
      FuncInfo->MBB = SDB->JTCases[i].first.HeaderBB;
      FuncInfo->InsertPt = FuncInfo->MBB->end();
      // Emit the code
      SDB->visitJumpTableHeader(SDB->JTCases[i].second, SDB->JTCases[i].first,
                                FuncInfo->MBB);
      CurDAG->setRoot(SDB->getRoot());
      SDB->clear();
      CodeGenAndEmitDAG();
    }

    // Set the current basic block to the mbb we wish to insert the code into
    FuncInfo->MBB = SDB->JTCases[i].second.MBB;
    FuncInfo->InsertPt = FuncInfo->MBB->end();
    // Emit the code
    SDB->visitJumpTable(SDB->JTCases[i].second);
    CurDAG->setRoot(SDB->getRoot());
    SDB->clear();
    CodeGenAndEmitDAG();

    // Update PHI Nodes
    for (unsigned pi = 0, pe = FuncInfo->PHINodesToUpdate.size();
         pi != pe; ++pi) {
      MachineInstr *PHI = FuncInfo->PHINodesToUpdate[pi].first;
      MachineBasicBlock *PHIBB = PHI->getParent();
      assert(PHI->isPHI() &&
             "This is not a machine PHI node that we are updating!");
      // "default" BB. We can go there only from header BB.
      if (PHIBB == SDB->JTCases[i].second.Default) {
        PHI->addOperand
          (MachineOperand::CreateReg(FuncInfo->PHINodesToUpdate[pi].second,
                                     false));
        PHI->addOperand
          (MachineOperand::CreateMBB(SDB->JTCases[i].first.HeaderBB));
      }
      // JT BB. Just iterate over successors here
      if (FuncInfo->MBB->isSuccessor(PHIBB)) {
        PHI->addOperand
          (MachineOperand::CreateReg(FuncInfo->PHINodesToUpdate[pi].second,
                                     false));
        PHI->addOperand(MachineOperand::CreateMBB(FuncInfo->MBB));
      }
    }
  }
  SDB->JTCases.clear();

  // If the switch block involved a branch to one of the actual successors, we
  // need to update PHI nodes in that block.
  for (unsigned i = 0, e = FuncInfo->PHINodesToUpdate.size(); i != e; ++i) {
    MachineInstr *PHI = FuncInfo->PHINodesToUpdate[i].first;
    assert(PHI->isPHI() &&
           "This is not a machine PHI node that we are updating!");
    if (FuncInfo->MBB->isSuccessor(PHI->getParent())) {
      PHI->addOperand(
        MachineOperand::CreateReg(FuncInfo->PHINodesToUpdate[i].second, false));
      PHI->addOperand(MachineOperand::CreateMBB(FuncInfo->MBB));
    }
  }

  // If we generated any switch lowering information, build and codegen any
  // additional DAGs necessary.
  for (unsigned i = 0, e = SDB->SwitchCases.size(); i != e; ++i) {
    // Set the current basic block to the mbb we wish to insert the code into
    FuncInfo->MBB = SDB->SwitchCases[i].ThisBB;
    FuncInfo->InsertPt = FuncInfo->MBB->end();

    // Determine the unique successors.
    SmallVector<MachineBasicBlock *, 2> Succs;
    Succs.push_back(SDB->SwitchCases[i].TrueBB);
    if (SDB->SwitchCases[i].TrueBB != SDB->SwitchCases[i].FalseBB)
      Succs.push_back(SDB->SwitchCases[i].FalseBB);

    // Emit the code. Note that this could result in FuncInfo->MBB being split.
    SDB->visitSwitchCase(SDB->SwitchCases[i], FuncInfo->MBB);
    CurDAG->setRoot(SDB->getRoot());
    SDB->clear();
    CodeGenAndEmitDAG();

    // Remember the last block, now that any splitting is done, for use in
    // populating PHI nodes in successors.
    MachineBasicBlock *ThisBB = FuncInfo->MBB;

    // Handle any PHI nodes in successors of this chunk, as if we were coming
    // from the original BB before switch expansion.  Note that PHI nodes can
    // occur multiple times in PHINodesToUpdate.  We have to be very careful to
    // handle them the right number of times.
    for (unsigned i = 0, e = Succs.size(); i != e; ++i) {
      FuncInfo->MBB = Succs[i];
      FuncInfo->InsertPt = FuncInfo->MBB->end();
      // FuncInfo->MBB may have been removed from the CFG if a branch was
      // constant folded.
      if (ThisBB->isSuccessor(FuncInfo->MBB)) {
        for (MachineBasicBlock::iterator Phi = FuncInfo->MBB->begin();
             Phi != FuncInfo->MBB->end() && Phi->isPHI();
             ++Phi) {
          // This value for this PHI node is recorded in PHINodesToUpdate.
          for (unsigned pn = 0; ; ++pn) {
            assert(pn != FuncInfo->PHINodesToUpdate.size() &&
                   "Didn't find PHI entry!");
            if (FuncInfo->PHINodesToUpdate[pn].first == Phi) {
              Phi->addOperand(MachineOperand::
                              CreateReg(FuncInfo->PHINodesToUpdate[pn].second,
                                        false));
              Phi->addOperand(MachineOperand::CreateMBB(ThisBB));
              break;
            }
          }
        }
      }
    }
  }
  SDB->SwitchCases.clear();
}


/// Create the scheduler. If a specific scheduler was specified
/// via the SchedulerRegistry, use it, otherwise select the
/// one preferred by the target.
///
ScheduleDAGSDNodes *SelectionDAGISel::CreateScheduler() {
  RegisterScheduler::FunctionPassCtor Ctor = RegisterScheduler::getDefault();

  if (!Ctor) {
    Ctor = ISHeuristic;
    RegisterScheduler::setDefault(Ctor);
  }

  return Ctor(this, OptLevel);
}

//===----------------------------------------------------------------------===//
// Helper functions used by the generated instruction selector.
//===----------------------------------------------------------------------===//
// Calls to these methods are generated by tblgen.

/// CheckAndMask - The isel is trying to match something like (and X, 255).  If
/// the dag combiner simplified the 255, we still want to match.  RHS is the
/// actual value in the DAG on the RHS of an AND, and DesiredMaskS is the value
/// specified in the .td file (e.g. 255).
bool SelectionDAGISel::CheckAndMask(SDValue LHS, ConstantSDNode *RHS,
                                    int64_t DesiredMaskS) const {
  const APInt &ActualMask = RHS->getAPIntValue();
  const APInt &DesiredMask = APInt(LHS.getValueSizeInBits(), DesiredMaskS);

  // If the actual mask exactly matches, success!
  if (ActualMask == DesiredMask)
    return true;

  // If the actual AND mask is allowing unallowed bits, this doesn't match.
  if (ActualMask.intersects(~DesiredMask))
    return false;

  // Otherwise, the DAG Combiner may have proven that the value coming in is
  // either already zero or is not demanded.  Check for known zero input bits.
  APInt NeededMask = DesiredMask & ~ActualMask;
  if (CurDAG->MaskedValueIsZero(LHS, NeededMask))
    return true;

  // TODO: check to see if missing bits are just not demanded.

  // Otherwise, this pattern doesn't match.
  return false;
}

/// CheckOrMask - The isel is trying to match something like (or X, 255).  If
/// the dag combiner simplified the 255, we still want to match.  RHS is the
/// actual value in the DAG on the RHS of an OR, and DesiredMaskS is the value
/// specified in the .td file (e.g. 255).
bool SelectionDAGISel::CheckOrMask(SDValue LHS, ConstantSDNode *RHS,
                                   int64_t DesiredMaskS) const {
  const APInt &ActualMask = RHS->getAPIntValue();
  const APInt &DesiredMask = APInt(LHS.getValueSizeInBits(), DesiredMaskS);

  // If the actual mask exactly matches, success!
  if (ActualMask == DesiredMask)
    return true;

  // If the actual AND mask is allowing unallowed bits, this doesn't match.
  if (ActualMask.intersects(~DesiredMask))
    return false;

  // Otherwise, the DAG Combiner may have proven that the value coming in is
  // either already zero or is not demanded.  Check for known zero input bits.
  APInt NeededMask = DesiredMask & ~ActualMask;

  APInt KnownZero, KnownOne;
  CurDAG->ComputeMaskedBits(LHS, KnownZero, KnownOne);

  // If all the missing bits in the or are already known to be set, match!
  if ((NeededMask & KnownOne) == NeededMask)
    return true;

  // TODO: check to see if missing bits are just not demanded.

  // Otherwise, this pattern doesn't match.
  return false;
}


/// SelectInlineAsmMemoryOperands - Calls to this are automatically generated
/// by tblgen.  Others should not call it.
void SelectionDAGISel::
SelectInlineAsmMemoryOperands(std::vector<SDValue> &Ops) {
  std::vector<SDValue> InOps;
  std::swap(InOps, Ops);

  Ops.push_back(InOps[InlineAsm::Op_InputChain]); // 0
  Ops.push_back(InOps[InlineAsm::Op_AsmString]);  // 1
  Ops.push_back(InOps[InlineAsm::Op_MDNode]);     // 2, !srcloc
  Ops.push_back(InOps[InlineAsm::Op_ExtraInfo]);  // 3 (SideEffect, AlignStack)

  unsigned i = InlineAsm::Op_FirstOperand, e = InOps.size();
  if (InOps[e-1].getValueType() == MVT::Glue)
    --e;  // Don't process a glue operand if it is here.

  while (i != e) {
    unsigned Flags = cast<ConstantSDNode>(InOps[i])->getZExtValue();
    if (!InlineAsm::isMemKind(Flags)) {
      // Just skip over this operand, copying the operands verbatim.
      Ops.insert(Ops.end(), InOps.begin()+i,
                 InOps.begin()+i+InlineAsm::getNumOperandRegisters(Flags) + 1);
      i += InlineAsm::getNumOperandRegisters(Flags) + 1;
    } else {
      assert(InlineAsm::getNumOperandRegisters(Flags) == 1 &&
             "Memory operand with multiple values?");
      // Otherwise, this is a memory operand.  Ask the target to select it.
      std::vector<SDValue> SelOps;
      if (SelectInlineAsmMemoryOperand(InOps[i+1], 'm', SelOps))
        report_fatal_error("Could not match memory address.  Inline asm"
                           " failure!");

      // Add this to the output node.
      unsigned NewFlags =
        InlineAsm::getFlagWord(InlineAsm::Kind_Mem, SelOps.size());
      Ops.push_back(CurDAG->getTargetConstant(NewFlags, MVT::i32));
      Ops.insert(Ops.end(), SelOps.begin(), SelOps.end());
      i += 2;
    }
  }

  // Add the glue input back if present.
  if (e != InOps.size())
    Ops.push_back(InOps.back());
}

/// findGlueUse - Return use of MVT::Glue value produced by the specified
/// SDNode.
///
static SDNode *findGlueUse(SDNode *N) {
  unsigned FlagResNo = N->getNumValues()-1;
  for (SDNode::use_iterator I = N->use_begin(), E = N->use_end(); I != E; ++I) {
    SDUse &Use = I.getUse();
    if (Use.getResNo() == FlagResNo)
      return Use.getUser();
  }
  return NULL;
}

/// findNonImmUse - Return true if "Use" is a non-immediate use of "Def".
/// This function recursively traverses up the operand chain, ignoring
/// certain nodes.
static bool findNonImmUse(SDNode *Use, SDNode* Def, SDNode *ImmedUse,
                          SDNode *Root, SmallPtrSet<SDNode*, 16> &Visited,
                          bool IgnoreChains) {
  // The NodeID's are given uniques ID's where a node ID is guaranteed to be
  // greater than all of its (recursive) operands.  If we scan to a point where
  // 'use' is smaller than the node we're scanning for, then we know we will
  // never find it.
  //
  // The Use may be -1 (unassigned) if it is a newly allocated node.  This can
  // happen because we scan down to newly selected nodes in the case of glue
  // uses.
  if ((Use->getNodeId() < Def->getNodeId() && Use->getNodeId() != -1))
    return false;

  // Don't revisit nodes if we already scanned it and didn't fail, we know we
  // won't fail if we scan it again.
  if (!Visited.insert(Use))
    return false;

  for (unsigned i = 0, e = Use->getNumOperands(); i != e; ++i) {
    // Ignore chain uses, they are validated by HandleMergeInputChains.
    if (Use->getOperand(i).getValueType() == MVT::Other && IgnoreChains)
      continue;

    SDNode *N = Use->getOperand(i).getNode();
    if (N == Def) {
      if (Use == ImmedUse || Use == Root)
        continue;  // We are not looking for immediate use.
      assert(N != Root);
      return true;
    }

    // Traverse up the operand chain.
    if (findNonImmUse(N, Def, ImmedUse, Root, Visited, IgnoreChains))
      return true;
  }
  return false;
}

/// IsProfitableToFold - Returns true if it's profitable to fold the specific
/// operand node N of U during instruction selection that starts at Root.
bool SelectionDAGISel::IsProfitableToFold(SDValue N, SDNode *U,
                                          SDNode *Root) const {
  if (OptLevel == CodeGenOpt::None) return false;
  return N.hasOneUse();
}

/// IsLegalToFold - Returns true if the specific operand node N of
/// U can be folded during instruction selection that starts at Root.
bool SelectionDAGISel::IsLegalToFold(SDValue N, SDNode *U, SDNode *Root,
                                     CodeGenOpt::Level OptLevel,
                                     bool IgnoreChains) {
  if (OptLevel == CodeGenOpt::None) return false;

  // If Root use can somehow reach N through a path that that doesn't contain
  // U then folding N would create a cycle. e.g. In the following
  // diagram, Root can reach N through X. If N is folded into into Root, then
  // X is both a predecessor and a successor of U.
  //
  //          [N*]           //
  //         ^   ^           //
  //        /     \          //
  //      [U*]    [X]?       //
  //        ^     ^          //
  //         \   /           //
  //          \ /            //
  //         [Root*]         //
  //
  // * indicates nodes to be folded together.
  //
  // If Root produces glue, then it gets (even more) interesting. Since it
  // will be "glued" together with its glue use in the scheduler, we need to
  // check if it might reach N.
  //
  //          [N*]           //
  //         ^   ^           //
  //        /     \          //
  //      [U*]    [X]?       //
  //        ^       ^        //
  //         \       \       //
  //          \      |       //
  //         [Root*] |       //
  //          ^      |       //
  //          f      |       //
  //          |      /       //
  //         [Y]    /        //
  //           ^   /         //
  //           f  /          //
  //           | /           //
  //          [GU]           //
  //
  // If GU (glue use) indirectly reaches N (the load), and Root folds N
  // (call it Fold), then X is a predecessor of GU and a successor of
  // Fold. But since Fold and GU are glued together, this will create
  // a cycle in the scheduling graph.

  // If the node has glue, walk down the graph to the "lowest" node in the
  // glueged set.
  EVT VT = Root->getValueType(Root->getNumValues()-1);
  while (VT == MVT::Glue) {
    SDNode *GU = findGlueUse(Root);
    if (GU == NULL)
      break;
    Root = GU;
    VT = Root->getValueType(Root->getNumValues()-1);

    // If our query node has a glue result with a use, we've walked up it.  If
    // the user (which has already been selected) has a chain or indirectly uses
    // the chain, our WalkChainUsers predicate will not consider it.  Because of
    // this, we cannot ignore chains in this predicate.
    IgnoreChains = false;
  }


  SmallPtrSet<SDNode*, 16> Visited;
  return !findNonImmUse(Root, N.getNode(), U, Root, Visited, IgnoreChains);
}

SDNode *SelectionDAGISel::Select_INLINEASM(SDNode *N) {
  std::vector<SDValue> Ops(N->op_begin(), N->op_end());
  SelectInlineAsmMemoryOperands(Ops);

  std::vector<EVT> VTs;
  VTs.push_back(MVT::Other);
  VTs.push_back(MVT::Glue);
  SDValue New = CurDAG->getNode(ISD::INLINEASM, N->getDebugLoc(),
                                VTs, &Ops[0], Ops.size());
  New->setNodeId(-1);
  return New.getNode();
}

SDNode *SelectionDAGISel::Select_UNDEF(SDNode *N) {
  return CurDAG->SelectNodeTo(N, TargetOpcode::IMPLICIT_DEF,N->getValueType(0));
}

/// GetVBR - decode a vbr encoding whose top bit is set.
LLVM_ATTRIBUTE_ALWAYS_INLINE static uint64_t
GetVBR(uint64_t Val, const unsigned char *MatcherTable, unsigned &Idx) {
  assert(Val >= 128 && "Not a VBR");
  Val &= 127;  // Remove first vbr bit.

  unsigned Shift = 7;
  uint64_t NextBits;
  do {
    NextBits = MatcherTable[Idx++];
    Val |= (NextBits&127) << Shift;
    Shift += 7;
  } while (NextBits & 128);

  return Val;
}


/// UpdateChainsAndGlue - When a match is complete, this method updates uses of
/// interior glue and chain results to use the new glue and chain results.
void SelectionDAGISel::
UpdateChainsAndGlue(SDNode *NodeToMatch, SDValue InputChain,
                    const SmallVectorImpl<SDNode*> &ChainNodesMatched,
                    SDValue InputGlue,
                    const SmallVectorImpl<SDNode*> &GlueResultNodesMatched,
                    bool isMorphNodeTo) {
  SmallVector<SDNode*, 4> NowDeadNodes;

  ISelUpdater ISU(ISelPosition);

  // Now that all the normal results are replaced, we replace the chain and
  // glue results if present.
  if (!ChainNodesMatched.empty()) {
    assert(InputChain.getNode() != 0 &&
           "Matched input chains but didn't produce a chain");
    // Loop over all of the nodes we matched that produced a chain result.
    // Replace all the chain results with the final chain we ended up with.
    for (unsigned i = 0, e = ChainNodesMatched.size(); i != e; ++i) {
      SDNode *ChainNode = ChainNodesMatched[i];

      // If this node was already deleted, don't look at it.
      if (ChainNode->getOpcode() == ISD::DELETED_NODE)
        continue;

      // Don't replace the results of the root node if we're doing a
      // MorphNodeTo.
      if (ChainNode == NodeToMatch && isMorphNodeTo)
        continue;

      SDValue ChainVal = SDValue(ChainNode, ChainNode->getNumValues()-1);
      if (ChainVal.getValueType() == MVT::Glue)
        ChainVal = ChainVal.getValue(ChainVal->getNumValues()-2);
      assert(ChainVal.getValueType() == MVT::Other && "Not a chain?");
      CurDAG->ReplaceAllUsesOfValueWith(ChainVal, InputChain, &ISU);

      // If the node became dead and we haven't already seen it, delete it.
      if (ChainNode->use_empty() &&
          !std::count(NowDeadNodes.begin(), NowDeadNodes.end(), ChainNode))
        NowDeadNodes.push_back(ChainNode);
    }
  }

  // If the result produces glue, update any glue results in the matched
  // pattern with the glue result.
  if (InputGlue.getNode() != 0) {
    // Handle any interior nodes explicitly marked.
    for (unsigned i = 0, e = GlueResultNodesMatched.size(); i != e; ++i) {
      SDNode *FRN = GlueResultNodesMatched[i];

      // If this node was already deleted, don't look at it.
      if (FRN->getOpcode() == ISD::DELETED_NODE)
        continue;

      assert(FRN->getValueType(FRN->getNumValues()-1) == MVT::Glue &&
             "Doesn't have a glue result");
      CurDAG->ReplaceAllUsesOfValueWith(SDValue(FRN, FRN->getNumValues()-1),
                                        InputGlue, &ISU);

      // If the node became dead and we haven't already seen it, delete it.
      if (FRN->use_empty() &&
          !std::count(NowDeadNodes.begin(), NowDeadNodes.end(), FRN))
        NowDeadNodes.push_back(FRN);
    }
  }

  if (!NowDeadNodes.empty())
    CurDAG->RemoveDeadNodes(NowDeadNodes, &ISU);

  DEBUG(errs() << "ISEL: Match complete!\n");
}

enum ChainResult {
  CR_Simple,
  CR_InducesCycle,
  CR_LeadsToInteriorNode
};

/// WalkChainUsers - Walk down the users of the specified chained node that is
/// part of the pattern we're matching, looking at all of the users we find.
/// This determines whether something is an interior node, whether we have a
/// non-pattern node in between two pattern nodes (which prevent folding because
/// it would induce a cycle) and whether we have a TokenFactor node sandwiched
/// between pattern nodes (in which case the TF becomes part of the pattern).
///
/// The walk we do here is guaranteed to be small because we quickly get down to
/// already selected nodes "below" us.
static ChainResult
WalkChainUsers(SDNode *ChainedNode,
               SmallVectorImpl<SDNode*> &ChainedNodesInPattern,
               SmallVectorImpl<SDNode*> &InteriorChainedNodes) {
  ChainResult Result = CR_Simple;

  for (SDNode::use_iterator UI = ChainedNode->use_begin(),
         E = ChainedNode->use_end(); UI != E; ++UI) {
    // Make sure the use is of the chain, not some other value we produce.
    if (UI.getUse().getValueType() != MVT::Other) continue;

    SDNode *User = *UI;

    // If we see an already-selected machine node, then we've gone beyond the
    // pattern that we're selecting down into the already selected chunk of the
    // DAG.
    if (User->isMachineOpcode() ||
        User->getOpcode() == ISD::HANDLENODE)  // Root of the graph.
      continue;

    if (User->getOpcode() == ISD::CopyToReg ||
        User->getOpcode() == ISD::CopyFromReg ||
        User->getOpcode() == ISD::INLINEASM ||
        User->getOpcode() == ISD::EH_LABEL) {
      // If their node ID got reset to -1 then they've already been selected.
      // Treat them like a MachineOpcode.
      if (User->getNodeId() == -1)
        continue;
    }

    // If we have a TokenFactor, we handle it specially.
    if (User->getOpcode() != ISD::TokenFactor) {
      // If the node isn't a token factor and isn't part of our pattern, then it
      // must be a random chained node in between two nodes we're selecting.
      // This happens when we have something like:
      //   x = load ptr
      //   call
      //   y = x+4
      //   store y -> ptr
      // Because we structurally match the load/store as a read/modify/write,
      // but the call is chained between them.  We cannot fold in this case
      // because it would induce a cycle in the graph.
      if (!std::count(ChainedNodesInPattern.begin(),
                      ChainedNodesInPattern.end(), User))
        return CR_InducesCycle;

      // Otherwise we found a node that is part of our pattern.  For example in:
      //   x = load ptr
      //   y = x+4
      //   store y -> ptr
      // This would happen when we're scanning down from the load and see the
      // store as a user.  Record that there is a use of ChainedNode that is
      // part of the pattern and keep scanning uses.
      Result = CR_LeadsToInteriorNode;
      InteriorChainedNodes.push_back(User);
      continue;
    }

    // If we found a TokenFactor, there are two cases to consider: first if the
    // TokenFactor is just hanging "below" the pattern we're matching (i.e. no
    // uses of the TF are in our pattern) we just want to ignore it.  Second,
    // the TokenFactor can be sandwiched in between two chained nodes, like so:
    //     [Load chain]
    //         ^
    //         |
    //       [Load]
    //       ^    ^
    //       |    \                    DAG's like cheese
    //      /       \                       do you?
    //     /         |
    // [TokenFactor] [Op]
    //     ^          ^
    //     |          |
    //      \        /
    //       \      /
    //       [Store]
    //
    // In this case, the TokenFactor becomes part of our match and we rewrite it
    // as a new TokenFactor.
    //
    // To distinguish these two cases, do a recursive walk down the uses.
    switch (WalkChainUsers(User, ChainedNodesInPattern, InteriorChainedNodes)) {
    case CR_Simple:
      // If the uses of the TokenFactor are just already-selected nodes, ignore
      // it, it is "below" our pattern.
      continue;
    case CR_InducesCycle:
      // If the uses of the TokenFactor lead to nodes that are not part of our
      // pattern that are not selected, folding would turn this into a cycle,
      // bail out now.
      return CR_InducesCycle;
    case CR_LeadsToInteriorNode:
      break;  // Otherwise, keep processing.
    }

    // Okay, we know we're in the interesting interior case.  The TokenFactor
    // is now going to be considered part of the pattern so that we rewrite its
    // uses (it may have uses that are not part of the pattern) with the
    // ultimate chain result of the generated code.  We will also add its chain
    // inputs as inputs to the ultimate TokenFactor we create.
    Result = CR_LeadsToInteriorNode;
    ChainedNodesInPattern.push_back(User);
    InteriorChainedNodes.push_back(User);
    continue;
  }

  return Result;
}

/// HandleMergeInputChains - This implements the OPC_EmitMergeInputChains
/// operation for when the pattern matched at least one node with a chains.  The
/// input vector contains a list of all of the chained nodes that we match.  We
/// must determine if this is a valid thing to cover (i.e. matching it won't
/// induce cycles in the DAG) and if so, creating a TokenFactor node. that will
/// be used as the input node chain for the generated nodes.
static SDValue
HandleMergeInputChains(SmallVectorImpl<SDNode*> &ChainNodesMatched,
                       SelectionDAG *CurDAG) {
  // Walk all of the chained nodes we've matched, recursively scanning down the
  // users of the chain result. This adds any TokenFactor nodes that are caught
  // in between chained nodes to the chained and interior nodes list.
  SmallVector<SDNode*, 3> InteriorChainedNodes;
  for (unsigned i = 0, e = ChainNodesMatched.size(); i != e; ++i) {
    if (WalkChainUsers(ChainNodesMatched[i], ChainNodesMatched,
                       InteriorChainedNodes) == CR_InducesCycle)
      return SDValue(); // Would induce a cycle.
  }

  // Okay, we have walked all the matched nodes and collected TokenFactor nodes
  // that we are interested in.  Form our input TokenFactor node.
  SmallVector<SDValue, 3> InputChains;
  for (unsigned i = 0, e = ChainNodesMatched.size(); i != e; ++i) {
    // Add the input chain of this node to the InputChains list (which will be
    // the operands of the generated TokenFactor) if it's not an interior node.
    SDNode *N = ChainNodesMatched[i];
    if (N->getOpcode() != ISD::TokenFactor) {
      if (std::count(InteriorChainedNodes.begin(),InteriorChainedNodes.end(),N))
        continue;

      // Otherwise, add the input chain.
      SDValue InChain = ChainNodesMatched[i]->getOperand(0);
      assert(InChain.getValueType() == MVT::Other && "Not a chain");
      InputChains.push_back(InChain);
      continue;
    }

    // If we have a token factor, we want to add all inputs of the token factor
    // that are not part of the pattern we're matching.
    for (unsigned op = 0, e = N->getNumOperands(); op != e; ++op) {
      if (!std::count(ChainNodesMatched.begin(), ChainNodesMatched.end(),
                      N->getOperand(op).getNode()))
        InputChains.push_back(N->getOperand(op));
    }
  }

  SDValue Res;
  if (InputChains.size() == 1)
    return InputChains[0];
  return CurDAG->getNode(ISD::TokenFactor, ChainNodesMatched[0]->getDebugLoc(),
                         MVT::Other, &InputChains[0], InputChains.size());
}

/// MorphNode - Handle morphing a node in place for the selector.
SDNode *SelectionDAGISel::
MorphNode(SDNode *Node, unsigned TargetOpc, SDVTList VTList,
          const SDValue *Ops, unsigned NumOps, unsigned EmitNodeInfo) {
  // It is possible we're using MorphNodeTo to replace a node with no
  // normal results with one that has a normal result (or we could be
  // adding a chain) and the input could have glue and chains as well.
  // In this case we need to shift the operands down.
  // FIXME: This is a horrible hack and broken in obscure cases, no worse
  // than the old isel though.
  int OldGlueResultNo = -1, OldChainResultNo = -1;

  unsigned NTMNumResults = Node->getNumValues();
  if (Node->getValueType(NTMNumResults-1) == MVT::Glue) {
    OldGlueResultNo = NTMNumResults-1;
    if (NTMNumResults != 1 &&
        Node->getValueType(NTMNumResults-2) == MVT::Other)
      OldChainResultNo = NTMNumResults-2;
  } else if (Node->getValueType(NTMNumResults-1) == MVT::Other)
    OldChainResultNo = NTMNumResults-1;

  // Call the underlying SelectionDAG routine to do the transmogrification. Note
  // that this deletes operands of the old node that become dead.
  SDNode *Res = CurDAG->MorphNodeTo(Node, ~TargetOpc, VTList, Ops, NumOps);

  // MorphNodeTo can operate in two ways: if an existing node with the
  // specified operands exists, it can just return it.  Otherwise, it
  // updates the node in place to have the requested operands.
  if (Res == Node) {
    // If we updated the node in place, reset the node ID.  To the isel,
    // this should be just like a newly allocated machine node.
    Res->setNodeId(-1);
  }

  unsigned ResNumResults = Res->getNumValues();
  // Move the glue if needed.
  if ((EmitNodeInfo & OPFL_GlueOutput) && OldGlueResultNo != -1 &&
      (unsigned)OldGlueResultNo != ResNumResults-1)
    CurDAG->ReplaceAllUsesOfValueWith(SDValue(Node, OldGlueResultNo),
                                      SDValue(Res, ResNumResults-1));

  if ((EmitNodeInfo & OPFL_GlueOutput) != 0)
    --ResNumResults;

  // Move the chain reference if needed.
  if ((EmitNodeInfo & OPFL_Chain) && OldChainResultNo != -1 &&
      (unsigned)OldChainResultNo != ResNumResults-1)
    CurDAG->ReplaceAllUsesOfValueWith(SDValue(Node, OldChainResultNo),
                                      SDValue(Res, ResNumResults-1));

  // Otherwise, no replacement happened because the node already exists. Replace
  // Uses of the old node with the new one.
  if (Res != Node)
    CurDAG->ReplaceAllUsesWith(Node, Res);

  return Res;
}

/// CheckPatternPredicate - Implements OP_CheckPatternPredicate.
LLVM_ATTRIBUTE_ALWAYS_INLINE static bool
CheckSame(const unsigned char *MatcherTable, unsigned &MatcherIndex,
          SDValue N,
          const SmallVectorImpl<std::pair<SDValue, SDNode*> > &RecordedNodes) {
  // Accept if it is exactly the same as a previously recorded node.
  unsigned RecNo = MatcherTable[MatcherIndex++];
  assert(RecNo < RecordedNodes.size() && "Invalid CheckSame");
  return N == RecordedNodes[RecNo].first;
}

/// CheckPatternPredicate - Implements OP_CheckPatternPredicate.
LLVM_ATTRIBUTE_ALWAYS_INLINE static bool
CheckPatternPredicate(const unsigned char *MatcherTable, unsigned &MatcherIndex,
                      SelectionDAGISel &SDISel) {
  return SDISel.CheckPatternPredicate(MatcherTable[MatcherIndex++]);
}

/// CheckNodePredicate - Implements OP_CheckNodePredicate.
LLVM_ATTRIBUTE_ALWAYS_INLINE static bool
CheckNodePredicate(const unsigned char *MatcherTable, unsigned &MatcherIndex,
                   SelectionDAGISel &SDISel, SDNode *N) {
  return SDISel.CheckNodePredicate(N, MatcherTable[MatcherIndex++]);
}

LLVM_ATTRIBUTE_ALWAYS_INLINE static bool
CheckOpcode(const unsigned char *MatcherTable, unsigned &MatcherIndex,
            SDNode *N) {
  uint16_t Opc = MatcherTable[MatcherIndex++];
  Opc |= (unsigned short)MatcherTable[MatcherIndex++] << 8;
  return N->getOpcode() == Opc;
}

LLVM_ATTRIBUTE_ALWAYS_INLINE static bool
CheckType(const unsigned char *MatcherTable, unsigned &MatcherIndex,
          SDValue N, const TargetLowering &TLI) {
  MVT::SimpleValueType VT = (MVT::SimpleValueType)MatcherTable[MatcherIndex++];
  if (N.getValueType() == VT) return true;

  // Handle the case when VT is iPTR.
  return VT == MVT::iPTR && N.getValueType() == TLI.getPointerTy();
}

LLVM_ATTRIBUTE_ALWAYS_INLINE static bool
CheckChildType(const unsigned char *MatcherTable, unsigned &MatcherIndex,
               SDValue N, const TargetLowering &TLI,
               unsigned ChildNo) {
  if (ChildNo >= N.getNumOperands())
    return false;  // Match fails if out of range child #.
  return ::CheckType(MatcherTable, MatcherIndex, N.getOperand(ChildNo), TLI);
}


LLVM_ATTRIBUTE_ALWAYS_INLINE static bool
CheckCondCode(const unsigned char *MatcherTable, unsigned &MatcherIndex,
              SDValue N) {
  return cast<CondCodeSDNode>(N)->get() ==
      (ISD::CondCode)MatcherTable[MatcherIndex++];
}

LLVM_ATTRIBUTE_ALWAYS_INLINE static bool
CheckValueType(const unsigned char *MatcherTable, unsigned &MatcherIndex,
               SDValue N, const TargetLowering &TLI) {
  MVT::SimpleValueType VT = (MVT::SimpleValueType)MatcherTable[MatcherIndex++];
  if (cast<VTSDNode>(N)->getVT() == VT)
    return true;

  // Handle the case when VT is iPTR.
  return VT == MVT::iPTR && cast<VTSDNode>(N)->getVT() == TLI.getPointerTy();
}

LLVM_ATTRIBUTE_ALWAYS_INLINE static bool
CheckInteger(const unsigned char *MatcherTable, unsigned &MatcherIndex,
             SDValue N) {
  int64_t Val = MatcherTable[MatcherIndex++];
  if (Val & 128)
    Val = GetVBR(Val, MatcherTable, MatcherIndex);

  ConstantSDNode *C = dyn_cast<ConstantSDNode>(N);
  return C != 0 && C->getSExtValue() == Val;
}

LLVM_ATTRIBUTE_ALWAYS_INLINE static bool
CheckAndImm(const unsigned char *MatcherTable, unsigned &MatcherIndex,
            SDValue N, SelectionDAGISel &SDISel) {
  int64_t Val = MatcherTable[MatcherIndex++];
  if (Val & 128)
    Val = GetVBR(Val, MatcherTable, MatcherIndex);

  if (N->getOpcode() != ISD::AND) return false;

  ConstantSDNode *C = dyn_cast<ConstantSDNode>(N->getOperand(1));
  return C != 0 && SDISel.CheckAndMask(N.getOperand(0), C, Val);
}

LLVM_ATTRIBUTE_ALWAYS_INLINE static bool
CheckOrImm(const unsigned char *MatcherTable, unsigned &MatcherIndex,
           SDValue N, SelectionDAGISel &SDISel) {
  int64_t Val = MatcherTable[MatcherIndex++];
  if (Val & 128)
    Val = GetVBR(Val, MatcherTable, MatcherIndex);

  if (N->getOpcode() != ISD::OR) return false;

  ConstantSDNode *C = dyn_cast<ConstantSDNode>(N->getOperand(1));
  return C != 0 && SDISel.CheckOrMask(N.getOperand(0), C, Val);
}

/// IsPredicateKnownToFail - If we know how and can do so without pushing a
/// scope, evaluate the current node.  If the current predicate is known to
/// fail, set Result=true and return anything.  If the current predicate is
/// known to pass, set Result=false and return the MatcherIndex to continue
/// with.  If the current predicate is unknown, set Result=false and return the
/// MatcherIndex to continue with.
static unsigned IsPredicateKnownToFail(const unsigned char *Table,
                                       unsigned Index, SDValue N,
                                       bool &Result, SelectionDAGISel &SDISel,
                 SmallVectorImpl<std::pair<SDValue, SDNode*> > &RecordedNodes) {
  switch (Table[Index++]) {
  default:
    Result = false;
    return Index-1;  // Could not evaluate this predicate.
  case SelectionDAGISel::OPC_CheckSame:
    Result = !::CheckSame(Table, Index, N, RecordedNodes);
    return Index;
  case SelectionDAGISel::OPC_CheckPatternPredicate:
    Result = !::CheckPatternPredicate(Table, Index, SDISel);
    return Index;
  case SelectionDAGISel::OPC_CheckPredicate:
    Result = !::CheckNodePredicate(Table, Index, SDISel, N.getNode());
    return Index;
  case SelectionDAGISel::OPC_CheckOpcode:
    Result = !::CheckOpcode(Table, Index, N.getNode());
    return Index;
  case SelectionDAGISel::OPC_CheckType:
    Result = !::CheckType(Table, Index, N, SDISel.TLI);
    return Index;
  case SelectionDAGISel::OPC_CheckChild0Type:
  case SelectionDAGISel::OPC_CheckChild1Type:
  case SelectionDAGISel::OPC_CheckChild2Type:
  case SelectionDAGISel::OPC_CheckChild3Type:
  case SelectionDAGISel::OPC_CheckChild4Type:
  case SelectionDAGISel::OPC_CheckChild5Type:
  case SelectionDAGISel::OPC_CheckChild6Type:
  case SelectionDAGISel::OPC_CheckChild7Type:
    Result = !::CheckChildType(Table, Index, N, SDISel.TLI,
                        Table[Index-1] - SelectionDAGISel::OPC_CheckChild0Type);
    return Index;
  case SelectionDAGISel::OPC_CheckCondCode:
    Result = !::CheckCondCode(Table, Index, N);
    return Index;
  case SelectionDAGISel::OPC_CheckValueType:
    Result = !::CheckValueType(Table, Index, N, SDISel.TLI);
    return Index;
  case SelectionDAGISel::OPC_CheckInteger:
    Result = !::CheckInteger(Table, Index, N);
    return Index;
  case SelectionDAGISel::OPC_CheckAndImm:
    Result = !::CheckAndImm(Table, Index, N, SDISel);
    return Index;
  case SelectionDAGISel::OPC_CheckOrImm:
    Result = !::CheckOrImm(Table, Index, N, SDISel);
    return Index;
  }
}

namespace {

struct MatchScope {
  /// FailIndex - If this match fails, this is the index to continue with.
  unsigned FailIndex;

  /// NodeStack - The node stack when the scope was formed.
  SmallVector<SDValue, 4> NodeStack;

  /// NumRecordedNodes - The number of recorded nodes when the scope was formed.
  unsigned NumRecordedNodes;

  /// NumMatchedMemRefs - The number of matched memref entries.
  unsigned NumMatchedMemRefs;

  /// InputChain/InputGlue - The current chain/glue
  SDValue InputChain, InputGlue;

  /// HasChainNodesMatched - True if the ChainNodesMatched list is non-empty.
  bool HasChainNodesMatched, HasGlueResultNodesMatched;
};

}

SDNode *SelectionDAGISel::
SelectCodeCommon(SDNode *NodeToMatch, const unsigned char *MatcherTable,
                 unsigned TableSize) {
  // FIXME: Should these even be selected?  Handle these cases in the caller?
  switch (NodeToMatch->getOpcode()) {
  default:
    break;
  case ISD::EntryToken:       // These nodes remain the same.
  case ISD::BasicBlock:
  case ISD::Register:
  case ISD::RegisterMask:
  //case ISD::VALUETYPE:
  //case ISD::CONDCODE:
  case ISD::HANDLENODE:
  case ISD::MDNODE_SDNODE:
  case ISD::TargetConstant:
  case ISD::TargetConstantFP:
  case ISD::TargetConstantPool:
  case ISD::TargetFrameIndex:
  case ISD::TargetExternalSymbol:
  case ISD::TargetBlockAddress:
  case ISD::TargetJumpTable:
  case ISD::TargetGlobalTLSAddress:
  case ISD::TargetGlobalAddress:
  case ISD::TokenFactor:
  case ISD::CopyFromReg:
  case ISD::CopyToReg:
  case ISD::EH_LABEL:
    NodeToMatch->setNodeId(-1); // Mark selected.
    return 0;
  case ISD::AssertSext:
  case ISD::AssertZext:
    CurDAG->ReplaceAllUsesOfValueWith(SDValue(NodeToMatch, 0),
                                      NodeToMatch->getOperand(0));
    return 0;
  case ISD::INLINEASM: return Select_INLINEASM(NodeToMatch);
  case ISD::UNDEF:     return Select_UNDEF(NodeToMatch);
  }

  assert(!NodeToMatch->isMachineOpcode() && "Node already selected!");

  // Set up the node stack with NodeToMatch as the only node on the stack.
  SmallVector<SDValue, 8> NodeStack;
  SDValue N = SDValue(NodeToMatch, 0);
  NodeStack.push_back(N);

  // MatchScopes - Scopes used when matching, if a match failure happens, this
  // indicates where to continue checking.
  SmallVector<MatchScope, 8> MatchScopes;

  // RecordedNodes - This is the set of nodes that have been recorded by the
  // state machine.  The second value is the parent of the node, or null if the
  // root is recorded.
  SmallVector<std::pair<SDValue, SDNode*>, 8> RecordedNodes;

  // MatchedMemRefs - This is the set of MemRef's we've seen in the input
  // pattern.
  SmallVector<MachineMemOperand*, 2> MatchedMemRefs;

  // These are the current input chain and glue for use when generating nodes.
  // Various Emit operations change these.  For example, emitting a copytoreg
  // uses and updates these.
  SDValue InputChain, InputGlue;

  // ChainNodesMatched - If a pattern matches nodes that have input/output
  // chains, the OPC_EmitMergeInputChains operation is emitted which indicates
  // which ones they are.  The result is captured into this list so that we can
  // update the chain results when the pattern is complete.
  SmallVector<SDNode*, 3> ChainNodesMatched;
  SmallVector<SDNode*, 3> GlueResultNodesMatched;

  DEBUG(errs() << "ISEL: Starting pattern match on root node: ";
        NodeToMatch->dump(CurDAG);
        errs() << '\n');

  // Determine where to start the interpreter.  Normally we start at opcode #0,
  // but if the state machine starts with an OPC_SwitchOpcode, then we
  // accelerate the first lookup (which is guaranteed to be hot) with the
  // OpcodeOffset table.
  unsigned MatcherIndex = 0;

  if (!OpcodeOffset.empty()) {
    // Already computed the OpcodeOffset table, just index into it.
    if (N.getOpcode() < OpcodeOffset.size())
      MatcherIndex = OpcodeOffset[N.getOpcode()];
    DEBUG(errs() << "  Initial Opcode index to " << MatcherIndex << "\n");

  } else if (MatcherTable[0] == OPC_SwitchOpcode) {
    // Otherwise, the table isn't computed, but the state machine does start
    // with an OPC_SwitchOpcode instruction.  Populate the table now, since this
    // is the first time we're selecting an instruction.
    unsigned Idx = 1;
    while (1) {
      // Get the size of this case.
      unsigned CaseSize = MatcherTable[Idx++];
      if (CaseSize & 128)
        CaseSize = GetVBR(CaseSize, MatcherTable, Idx);
      if (CaseSize == 0) break;

      // Get the opcode, add the index to the table.
      uint16_t Opc = MatcherTable[Idx++];
      Opc |= (unsigned short)MatcherTable[Idx++] << 8;
      if (Opc >= OpcodeOffset.size())
        OpcodeOffset.resize((Opc+1)*2);
      OpcodeOffset[Opc] = Idx;
      Idx += CaseSize;
    }

    // Okay, do the lookup for the first opcode.
    if (N.getOpcode() < OpcodeOffset.size())
      MatcherIndex = OpcodeOffset[N.getOpcode()];
  }

  while (1) {
    assert(MatcherIndex < TableSize && "Invalid index");
#ifndef NDEBUG
    unsigned CurrentOpcodeIndex = MatcherIndex;
#endif
    BuiltinOpcodes Opcode = (BuiltinOpcodes)MatcherTable[MatcherIndex++];
    switch (Opcode) {
    case OPC_Scope: {
      // Okay, the semantics of this operation are that we should push a scope
      // then evaluate the first child.  However, pushing a scope only to have
      // the first check fail (which then pops it) is inefficient.  If we can
      // determine immediately that the first check (or first several) will
      // immediately fail, don't even bother pushing a scope for them.
      unsigned FailIndex;

      while (1) {
        unsigned NumToSkip = MatcherTable[MatcherIndex++];
        if (NumToSkip & 128)
          NumToSkip = GetVBR(NumToSkip, MatcherTable, MatcherIndex);
        // Found the end of the scope with no match.
        if (NumToSkip == 0) {
          FailIndex = 0;
          break;
        }

        FailIndex = MatcherIndex+NumToSkip;

        unsigned MatcherIndexOfPredicate = MatcherIndex;
        (void)MatcherIndexOfPredicate; // silence warning.

        // If we can't evaluate this predicate without pushing a scope (e.g. if
        // it is a 'MoveParent') or if the predicate succeeds on this node, we
        // push the scope and evaluate the full predicate chain.
        bool Result;
        MatcherIndex = IsPredicateKnownToFail(MatcherTable, MatcherIndex, N,
                                              Result, *this, RecordedNodes);
        if (!Result)
          break;

        DEBUG(errs() << "  Skipped scope entry (due to false predicate) at "
                     << "index " << MatcherIndexOfPredicate
                     << ", continuing at " << FailIndex << "\n");
        ++NumDAGIselRetries;

        // Otherwise, we know that this case of the Scope is guaranteed to fail,
        // move to the next case.
        MatcherIndex = FailIndex;
      }

      // If the whole scope failed to match, bail.
      if (FailIndex == 0) break;

      // Push a MatchScope which indicates where to go if the first child fails
      // to match.
      MatchScope NewEntry;
      NewEntry.FailIndex = FailIndex;
      NewEntry.NodeStack.append(NodeStack.begin(), NodeStack.end());
      NewEntry.NumRecordedNodes = RecordedNodes.size();
      NewEntry.NumMatchedMemRefs = MatchedMemRefs.size();
      NewEntry.InputChain = InputChain;
      NewEntry.InputGlue = InputGlue;
      NewEntry.HasChainNodesMatched = !ChainNodesMatched.empty();
      NewEntry.HasGlueResultNodesMatched = !GlueResultNodesMatched.empty();
      MatchScopes.push_back(NewEntry);
      continue;
    }
    case OPC_RecordNode: {
      // Remember this node, it may end up being an operand in the pattern.
      SDNode *Parent = 0;
      if (NodeStack.size() > 1)
        Parent = NodeStack[NodeStack.size()-2].getNode();
      RecordedNodes.push_back(std::make_pair(N, Parent));
      continue;
    }

    case OPC_RecordChild0: case OPC_RecordChild1:
    case OPC_RecordChild2: case OPC_RecordChild3:
    case OPC_RecordChild4: case OPC_RecordChild5:
    case OPC_RecordChild6: case OPC_RecordChild7: {
      unsigned ChildNo = Opcode-OPC_RecordChild0;
      if (ChildNo >= N.getNumOperands())
        break;  // Match fails if out of range child #.

      RecordedNodes.push_back(std::make_pair(N->getOperand(ChildNo),
                                             N.getNode()));
      continue;
    }
    case OPC_RecordMemRef:
      MatchedMemRefs.push_back(cast<MemSDNode>(N)->getMemOperand());
      continue;

    case OPC_CaptureGlueInput:
      // If the current node has an input glue, capture it in InputGlue.
      if (N->getNumOperands() != 0 &&
          N->getOperand(N->getNumOperands()-1).getValueType() == MVT::Glue)
        InputGlue = N->getOperand(N->getNumOperands()-1);
      continue;

    case OPC_MoveChild: {
      unsigned ChildNo = MatcherTable[MatcherIndex++];
      if (ChildNo >= N.getNumOperands())
        break;  // Match fails if out of range child #.
      N = N.getOperand(ChildNo);
      NodeStack.push_back(N);
      continue;
    }

    case OPC_MoveParent:
      // Pop the current node off the NodeStack.
      NodeStack.pop_back();
      assert(!NodeStack.empty() && "Node stack imbalance!");
      N = NodeStack.back();
      continue;

    case OPC_CheckSame:
      if (!::CheckSame(MatcherTable, MatcherIndex, N, RecordedNodes)) break;
      continue;
    case OPC_CheckPatternPredicate:
      if (!::CheckPatternPredicate(MatcherTable, MatcherIndex, *this)) break;
      continue;
    case OPC_CheckPredicate:
      if (!::CheckNodePredicate(MatcherTable, MatcherIndex, *this,
                                N.getNode()))
        break;
      continue;
    case OPC_CheckComplexPat: {
      unsigned CPNum = MatcherTable[MatcherIndex++];
      unsigned RecNo = MatcherTable[MatcherIndex++];
      assert(RecNo < RecordedNodes.size() && "Invalid CheckComplexPat");
      if (!CheckComplexPattern(NodeToMatch, RecordedNodes[RecNo].second,
                               RecordedNodes[RecNo].first, CPNum,
                               RecordedNodes))
        break;
      continue;
    }
    case OPC_CheckOpcode:
      if (!::CheckOpcode(MatcherTable, MatcherIndex, N.getNode())) break;
      continue;

    case OPC_CheckType:
      if (!::CheckType(MatcherTable, MatcherIndex, N, TLI)) break;
      continue;

    case OPC_SwitchOpcode: {
      unsigned CurNodeOpcode = N.getOpcode();
      unsigned SwitchStart = MatcherIndex-1; (void)SwitchStart;
      unsigned CaseSize;
      while (1) {
        // Get the size of this case.
        CaseSize = MatcherTable[MatcherIndex++];
        if (CaseSize & 128)
          CaseSize = GetVBR(CaseSize, MatcherTable, MatcherIndex);
        if (CaseSize == 0) break;

        uint16_t Opc = MatcherTable[MatcherIndex++];
        Opc |= (unsigned short)MatcherTable[MatcherIndex++] << 8;

        // If the opcode matches, then we will execute this case.
        if (CurNodeOpcode == Opc)
          break;

        // Otherwise, skip over this case.
        MatcherIndex += CaseSize;
      }

      // If no cases matched, bail out.
      if (CaseSize == 0) break;

      // Otherwise, execute the case we found.
      DEBUG(errs() << "  OpcodeSwitch from " << SwitchStart
                   << " to " << MatcherIndex << "\n");
      continue;
    }

    case OPC_SwitchType: {
      MVT CurNodeVT = N.getValueType().getSimpleVT();
      unsigned SwitchStart = MatcherIndex-1; (void)SwitchStart;
      unsigned CaseSize;
      while (1) {
        // Get the size of this case.
        CaseSize = MatcherTable[MatcherIndex++];
        if (CaseSize & 128)
          CaseSize = GetVBR(CaseSize, MatcherTable, MatcherIndex);
        if (CaseSize == 0) break;

        MVT CaseVT = (MVT::SimpleValueType)MatcherTable[MatcherIndex++];
        if (CaseVT == MVT::iPTR)
          CaseVT = TLI.getPointerTy();

        // If the VT matches, then we will execute this case.
        if (CurNodeVT == CaseVT)
          break;

        // Otherwise, skip over this case.
        MatcherIndex += CaseSize;
      }

      // If no cases matched, bail out.
      if (CaseSize == 0) break;

      // Otherwise, execute the case we found.
      DEBUG(errs() << "  TypeSwitch[" << EVT(CurNodeVT).getEVTString()
                   << "] from " << SwitchStart << " to " << MatcherIndex<<'\n');
      continue;
    }
    case OPC_CheckChild0Type: case OPC_CheckChild1Type:
    case OPC_CheckChild2Type: case OPC_CheckChild3Type:
    case OPC_CheckChild4Type: case OPC_CheckChild5Type:
    case OPC_CheckChild6Type: case OPC_CheckChild7Type:
      if (!::CheckChildType(MatcherTable, MatcherIndex, N, TLI,
                            Opcode-OPC_CheckChild0Type))
        break;
      continue;
    case OPC_CheckCondCode:
      if (!::CheckCondCode(MatcherTable, MatcherIndex, N)) break;
      continue;
    case OPC_CheckValueType:
      if (!::CheckValueType(MatcherTable, MatcherIndex, N, TLI)) break;
      continue;
    case OPC_CheckInteger:
      if (!::CheckInteger(MatcherTable, MatcherIndex, N)) break;
      continue;
    case OPC_CheckAndImm:
      if (!::CheckAndImm(MatcherTable, MatcherIndex, N, *this)) break;
      continue;
    case OPC_CheckOrImm:
      if (!::CheckOrImm(MatcherTable, MatcherIndex, N, *this)) break;
      continue;

    case OPC_CheckFoldableChainNode: {
      assert(NodeStack.size() != 1 && "No parent node");
      // Verify that all intermediate nodes between the root and this one have
      // a single use.
      bool HasMultipleUses = false;
      for (unsigned i = 1, e = NodeStack.size()-1; i != e; ++i)
        if (!NodeStack[i].hasOneUse()) {
          HasMultipleUses = true;
          break;
        }
      if (HasMultipleUses) break;

      // Check to see that the target thinks this is profitable to fold and that
      // we can fold it without inducing cycles in the graph.
      if (!IsProfitableToFold(N, NodeStack[NodeStack.size()-2].getNode(),
                              NodeToMatch) ||
          !IsLegalToFold(N, NodeStack[NodeStack.size()-2].getNode(),
                         NodeToMatch, OptLevel,
                         true/*We validate our own chains*/))
        break;

      continue;
    }
    case OPC_EmitInteger: {
      MVT::SimpleValueType VT =
        (MVT::SimpleValueType)MatcherTable[MatcherIndex++];
      int64_t Val = MatcherTable[MatcherIndex++];
      if (Val & 128)
        Val = GetVBR(Val, MatcherTable, MatcherIndex);
      RecordedNodes.push_back(std::pair<SDValue, SDNode*>(
                              CurDAG->getTargetConstant(Val, VT), (SDNode*)0));
      continue;
    }
    case OPC_EmitRegister: {
      MVT::SimpleValueType VT =
        (MVT::SimpleValueType)MatcherTable[MatcherIndex++];
      unsigned RegNo = MatcherTable[MatcherIndex++];
      RecordedNodes.push_back(std::pair<SDValue, SDNode*>(
                              CurDAG->getRegister(RegNo, VT), (SDNode*)0));
      continue;
    }
    case OPC_EmitRegister2: {
      // For targets w/ more than 256 register names, the register enum
      // values are stored in two bytes in the matcher table (just like
      // opcodes).
      MVT::SimpleValueType VT =
        (MVT::SimpleValueType)MatcherTable[MatcherIndex++];
      unsigned RegNo = MatcherTable[MatcherIndex++];
      RegNo |= MatcherTable[MatcherIndex++] << 8;
      RecordedNodes.push_back(std::pair<SDValue, SDNode*>(
                              CurDAG->getRegister(RegNo, VT), (SDNode*)0));
      continue;
    }

    case OPC_EmitConvertToTarget:  {
      // Convert from IMM/FPIMM to target version.
      unsigned RecNo = MatcherTable[MatcherIndex++];
      assert(RecNo < RecordedNodes.size() && "Invalid CheckSame");
      SDValue Imm = RecordedNodes[RecNo].first;

      if (Imm->getOpcode() == ISD::Constant) {
        int64_t Val = cast<ConstantSDNode>(Imm)->getZExtValue();
        Imm = CurDAG->getTargetConstant(Val, Imm.getValueType());
      } else if (Imm->getOpcode() == ISD::ConstantFP) {
        const ConstantFP *Val=cast<ConstantFPSDNode>(Imm)->getConstantFPValue();
        Imm = CurDAG->getTargetConstantFP(*Val, Imm.getValueType());
      }

      RecordedNodes.push_back(std::make_pair(Imm, RecordedNodes[RecNo].second));
      continue;
    }

    case OPC_EmitMergeInputChains1_0:    // OPC_EmitMergeInputChains, 1, 0
    case OPC_EmitMergeInputChains1_1: {  // OPC_EmitMergeInputChains, 1, 1
      // These are space-optimized forms of OPC_EmitMergeInputChains.
      assert(InputChain.getNode() == 0 &&
             "EmitMergeInputChains should be the first chain producing node");
      assert(ChainNodesMatched.empty() &&
             "Should only have one EmitMergeInputChains per match");

      // Read all of the chained nodes.
      unsigned RecNo = Opcode == OPC_EmitMergeInputChains1_1;
      assert(RecNo < RecordedNodes.size() && "Invalid CheckSame");
      ChainNodesMatched.push_back(RecordedNodes[RecNo].first.getNode());

      // FIXME: What if other value results of the node have uses not matched
      // by this pattern?
      if (ChainNodesMatched.back() != NodeToMatch &&
          !RecordedNodes[RecNo].first.hasOneUse()) {
        ChainNodesMatched.clear();
        break;
      }

      // Merge the input chains if they are not intra-pattern references.
      InputChain = HandleMergeInputChains(ChainNodesMatched, CurDAG);

      if (InputChain.getNode() == 0)
        break;  // Failed to merge.
      continue;
    }

    case OPC_EmitMergeInputChains: {
      assert(InputChain.getNode() == 0 &&
             "EmitMergeInputChains should be the first chain producing node");
      // This node gets a list of nodes we matched in the input that have
      // chains.  We want to token factor all of the input chains to these nodes
      // together.  However, if any of the input chains is actually one of the
      // nodes matched in this pattern, then we have an intra-match reference.
      // Ignore these because the newly token factored chain should not refer to
      // the old nodes.
      unsigned NumChains = MatcherTable[MatcherIndex++];
      assert(NumChains != 0 && "Can't TF zero chains");

      assert(ChainNodesMatched.empty() &&
             "Should only have one EmitMergeInputChains per match");

      // Read all of the chained nodes.
      for (unsigned i = 0; i != NumChains; ++i) {
        unsigned RecNo = MatcherTable[MatcherIndex++];
        assert(RecNo < RecordedNodes.size() && "Invalid CheckSame");
        ChainNodesMatched.push_back(RecordedNodes[RecNo].first.getNode());

        // FIXME: What if other value results of the node have uses not matched
        // by this pattern?
        if (ChainNodesMatched.back() != NodeToMatch &&
            !RecordedNodes[RecNo].first.hasOneUse()) {
          ChainNodesMatched.clear();
          break;
        }
      }

      // If the inner loop broke out, the match fails.
      if (ChainNodesMatched.empty())
        break;

      // Merge the input chains if they are not intra-pattern references.
      InputChain = HandleMergeInputChains(ChainNodesMatched, CurDAG);

      if (InputChain.getNode() == 0)
        break;  // Failed to merge.

      continue;
    }

    case OPC_EmitCopyToReg: {
      unsigned RecNo = MatcherTable[MatcherIndex++];
      assert(RecNo < RecordedNodes.size() && "Invalid CheckSame");
      unsigned DestPhysReg = MatcherTable[MatcherIndex++];

      if (InputChain.getNode() == 0)
        InputChain = CurDAG->getEntryNode();

      InputChain = CurDAG->getCopyToReg(InputChain, NodeToMatch->getDebugLoc(),
                                        DestPhysReg, RecordedNodes[RecNo].first,
                                        InputGlue);

      InputGlue = InputChain.getValue(1);
      continue;
    }

    case OPC_EmitNodeXForm: {
      unsigned XFormNo = MatcherTable[MatcherIndex++];
      unsigned RecNo = MatcherTable[MatcherIndex++];
      assert(RecNo < RecordedNodes.size() && "Invalid CheckSame");
      SDValue Res = RunSDNodeXForm(RecordedNodes[RecNo].first, XFormNo);
      RecordedNodes.push_back(std::pair<SDValue,SDNode*>(Res, (SDNode*) 0));
      continue;
    }

    case OPC_EmitNode:
    case OPC_MorphNodeTo: {
      uint16_t TargetOpc = MatcherTable[MatcherIndex++];
      TargetOpc |= (unsigned short)MatcherTable[MatcherIndex++] << 8;
      unsigned EmitNodeInfo = MatcherTable[MatcherIndex++];
      // Get the result VT list.
      unsigned NumVTs = MatcherTable[MatcherIndex++];
      SmallVector<EVT, 4> VTs;
      for (unsigned i = 0; i != NumVTs; ++i) {
        MVT::SimpleValueType VT =
          (MVT::SimpleValueType)MatcherTable[MatcherIndex++];
        if (VT == MVT::iPTR) VT = TLI.getPointerTy().SimpleTy;
        VTs.push_back(VT);
      }

      if (EmitNodeInfo & OPFL_Chain)
        VTs.push_back(MVT::Other);
      if (EmitNodeInfo & OPFL_GlueOutput)
        VTs.push_back(MVT::Glue);

      // This is hot code, so optimize the two most common cases of 1 and 2
      // results.
      SDVTList VTList;
      if (VTs.size() == 1)
        VTList = CurDAG->getVTList(VTs[0]);
      else if (VTs.size() == 2)
        VTList = CurDAG->getVTList(VTs[0], VTs[1]);
      else
        VTList = CurDAG->getVTList(VTs.data(), VTs.size());

      // Get the operand list.
      unsigned NumOps = MatcherTable[MatcherIndex++];
      SmallVector<SDValue, 8> Ops;
      for (unsigned i = 0; i != NumOps; ++i) {
        unsigned RecNo = MatcherTable[MatcherIndex++];
        if (RecNo & 128)
          RecNo = GetVBR(RecNo, MatcherTable, MatcherIndex);

        assert(RecNo < RecordedNodes.size() && "Invalid EmitNode");
        Ops.push_back(RecordedNodes[RecNo].first);
      }

      // If there are variadic operands to add, handle them now.
      if (EmitNodeInfo & OPFL_VariadicInfo) {
        // Determine the start index to copy from.
        unsigned FirstOpToCopy = getNumFixedFromVariadicInfo(EmitNodeInfo);
        FirstOpToCopy += (EmitNodeInfo & OPFL_Chain) ? 1 : 0;
        assert(NodeToMatch->getNumOperands() >= FirstOpToCopy &&
               "Invalid variadic node");
        // Copy all of the variadic operands, not including a potential glue
        // input.
        for (unsigned i = FirstOpToCopy, e = NodeToMatch->getNumOperands();
             i != e; ++i) {
          SDValue V = NodeToMatch->getOperand(i);
          if (V.getValueType() == MVT::Glue) break;
          Ops.push_back(V);
        }
      }

      // If this has chain/glue inputs, add them.
      if (EmitNodeInfo & OPFL_Chain)
        Ops.push_back(InputChain);
      if ((EmitNodeInfo & OPFL_GlueInput) && InputGlue.getNode() != 0)
        Ops.push_back(InputGlue);

      // Create the node.
      SDNode *Res = 0;
      if (Opcode != OPC_MorphNodeTo) {
        // If this is a normal EmitNode command, just create the new node and
        // add the results to the RecordedNodes list.
        Res = CurDAG->getMachineNode(TargetOpc, NodeToMatch->getDebugLoc(),
                                     VTList, Ops.data(), Ops.size());

        // Add all the non-glue/non-chain results to the RecordedNodes list.
        for (unsigned i = 0, e = VTs.size(); i != e; ++i) {
          if (VTs[i] == MVT::Other || VTs[i] == MVT::Glue) break;
          RecordedNodes.push_back(std::pair<SDValue,SDNode*>(SDValue(Res, i),
                                                             (SDNode*) 0));
        }

      } else {
        Res = MorphNode(NodeToMatch, TargetOpc, VTList, Ops.data(), Ops.size(),
                        EmitNodeInfo);
      }

      // If the node had chain/glue results, update our notion of the current
      // chain and glue.
      if (EmitNodeInfo & OPFL_GlueOutput) {
        InputGlue = SDValue(Res, VTs.size()-1);
        if (EmitNodeInfo & OPFL_Chain)
          InputChain = SDValue(Res, VTs.size()-2);
      } else if (EmitNodeInfo & OPFL_Chain)
        InputChain = SDValue(Res, VTs.size()-1);

      // If the OPFL_MemRefs glue is set on this node, slap all of the
      // accumulated memrefs onto it.
      //
      // FIXME: This is vastly incorrect for patterns with multiple outputs
      // instructions that access memory and for ComplexPatterns that match
      // loads.
      if (EmitNodeInfo & OPFL_MemRefs) {
        // Only attach load or store memory operands if the generated
        // instruction may load or store.
        const MCInstrDesc &MCID = TM.getInstrInfo()->get(TargetOpc);
        bool mayLoad = MCID.mayLoad();
        bool mayStore = MCID.mayStore();

        unsigned NumMemRefs = 0;
        for (SmallVector<MachineMemOperand*, 2>::const_iterator I =
             MatchedMemRefs.begin(), E = MatchedMemRefs.end(); I != E; ++I) {
          if ((*I)->isLoad()) {
            if (mayLoad)
              ++NumMemRefs;
          } else if ((*I)->isStore()) {
            if (mayStore)
              ++NumMemRefs;
          } else {
            ++NumMemRefs;
          }
        }

        MachineSDNode::mmo_iterator MemRefs =
          MF->allocateMemRefsArray(NumMemRefs);

        MachineSDNode::mmo_iterator MemRefsPos = MemRefs;
        for (SmallVector<MachineMemOperand*, 2>::const_iterator I =
             MatchedMemRefs.begin(), E = MatchedMemRefs.end(); I != E; ++I) {
          if ((*I)->isLoad()) {
            if (mayLoad)
              *MemRefsPos++ = *I;
          } else if ((*I)->isStore()) {
            if (mayStore)
              *MemRefsPos++ = *I;
          } else {
            *MemRefsPos++ = *I;
          }
        }

        cast<MachineSDNode>(Res)
          ->setMemRefs(MemRefs, MemRefs + NumMemRefs);
      }

      DEBUG(errs() << "  "
                   << (Opcode == OPC_MorphNodeTo ? "Morphed" : "Created")
                   << " node: "; Res->dump(CurDAG); errs() << "\n");

      // If this was a MorphNodeTo then we're completely done!
      if (Opcode == OPC_MorphNodeTo) {
        // Update chain and glue uses.
        UpdateChainsAndGlue(NodeToMatch, InputChain, ChainNodesMatched,
                            InputGlue, GlueResultNodesMatched, true);
        return Res;
      }

      continue;
    }

    case OPC_MarkGlueResults: {
      unsigned NumNodes = MatcherTable[MatcherIndex++];

      // Read and remember all the glue-result nodes.
      for (unsigned i = 0; i != NumNodes; ++i) {
        unsigned RecNo = MatcherTable[MatcherIndex++];
        if (RecNo & 128)
          RecNo = GetVBR(RecNo, MatcherTable, MatcherIndex);

        assert(RecNo < RecordedNodes.size() && "Invalid CheckSame");
        GlueResultNodesMatched.push_back(RecordedNodes[RecNo].first.getNode());
      }
      continue;
    }

    case OPC_CompleteMatch: {
      // The match has been completed, and any new nodes (if any) have been
      // created.  Patch up references to the matched dag to use the newly
      // created nodes.
      unsigned NumResults = MatcherTable[MatcherIndex++];

      for (unsigned i = 0; i != NumResults; ++i) {
        unsigned ResSlot = MatcherTable[MatcherIndex++];
        if (ResSlot & 128)
          ResSlot = GetVBR(ResSlot, MatcherTable, MatcherIndex);

        assert(ResSlot < RecordedNodes.size() && "Invalid CheckSame");
        SDValue Res = RecordedNodes[ResSlot].first;

        assert(i < NodeToMatch->getNumValues() &&
               NodeToMatch->getValueType(i) != MVT::Other &&
               NodeToMatch->getValueType(i) != MVT::Glue &&
               "Invalid number of results to complete!");
        assert((NodeToMatch->getValueType(i) == Res.getValueType() ||
                NodeToMatch->getValueType(i) == MVT::iPTR ||
                Res.getValueType() == MVT::iPTR ||
                NodeToMatch->getValueType(i).getSizeInBits() ==
                    Res.getValueType().getSizeInBits()) &&
               "invalid replacement");
        CurDAG->ReplaceAllUsesOfValueWith(SDValue(NodeToMatch, i), Res);
      }

      // If the root node defines glue, add it to the glue nodes to update list.
      if (NodeToMatch->getValueType(NodeToMatch->getNumValues()-1) == MVT::Glue)
        GlueResultNodesMatched.push_back(NodeToMatch);

      // Update chain and glue uses.
      UpdateChainsAndGlue(NodeToMatch, InputChain, ChainNodesMatched,
                          InputGlue, GlueResultNodesMatched, false);

      assert(NodeToMatch->use_empty() &&
             "Didn't replace all uses of the node?");

      // FIXME: We just return here, which interacts correctly with SelectRoot
      // above.  We should fix this to not return an SDNode* anymore.
      return 0;
    }
    }

    // If the code reached this point, then the match failed.  See if there is
    // another child to try in the current 'Scope', otherwise pop it until we
    // find a case to check.
    DEBUG(errs() << "  Match failed at index " << CurrentOpcodeIndex << "\n");
    ++NumDAGIselRetries;
    while (1) {
      if (MatchScopes.empty()) {
        CannotYetSelect(NodeToMatch);
        return 0;
      }

      // Restore the interpreter state back to the point where the scope was
      // formed.
      MatchScope &LastScope = MatchScopes.back();
      RecordedNodes.resize(LastScope.NumRecordedNodes);
      NodeStack.clear();
      NodeStack.append(LastScope.NodeStack.begin(), LastScope.NodeStack.end());
      N = NodeStack.back();

      if (LastScope.NumMatchedMemRefs != MatchedMemRefs.size())
        MatchedMemRefs.resize(LastScope.NumMatchedMemRefs);
      MatcherIndex = LastScope.FailIndex;

      DEBUG(errs() << "  Continuing at " << MatcherIndex << "\n");

      InputChain = LastScope.InputChain;
      InputGlue = LastScope.InputGlue;
      if (!LastScope.HasChainNodesMatched)
        ChainNodesMatched.clear();
      if (!LastScope.HasGlueResultNodesMatched)
        GlueResultNodesMatched.clear();

      // Check to see what the offset is at the new MatcherIndex.  If it is zero
      // we have reached the end of this scope, otherwise we have another child
      // in the current scope to try.
      unsigned NumToSkip = MatcherTable[MatcherIndex++];
      if (NumToSkip & 128)
        NumToSkip = GetVBR(NumToSkip, MatcherTable, MatcherIndex);

      // If we have another child in this scope to match, update FailIndex and
      // try it.
      if (NumToSkip != 0) {
        LastScope.FailIndex = MatcherIndex+NumToSkip;
        break;
      }

      // End of this scope, pop it and try the next child in the containing
      // scope.
      MatchScopes.pop_back();
    }
  }
}



void SelectionDAGISel::CannotYetSelect(SDNode *N) {
  std::string msg;
  raw_string_ostream Msg(msg);
  Msg << "Cannot select: ";

  if (N->getOpcode() != ISD::INTRINSIC_W_CHAIN &&
      N->getOpcode() != ISD::INTRINSIC_WO_CHAIN &&
      N->getOpcode() != ISD::INTRINSIC_VOID) {
    N->printrFull(Msg, CurDAG);
  } else {
    bool HasInputChain = N->getOperand(0).getValueType() == MVT::Other;
    unsigned iid =
      cast<ConstantSDNode>(N->getOperand(HasInputChain))->getZExtValue();
    if (iid < Intrinsic::num_intrinsics)
      Msg << "intrinsic %" << Intrinsic::getName((Intrinsic::ID)iid);
    else if (const TargetIntrinsicInfo *TII = TM.getIntrinsicInfo())
      Msg << "target intrinsic %" << TII->getName(iid);
    else
      Msg << "unknown intrinsic #" << iid;
  }
  report_fatal_error(Msg.str());
}

char SelectionDAGISel::ID = 0;