CodeGen/GlobalISel/LoadStoreOpt.cpp

dc84770dSAmara Emerson//===- LoadStoreOpt.cpp ----------- Generic memory optimizations -*- C++ -*-==//
dc84770dSAmara Emerson//
dc84770dSAmara Emerson// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
dc84770dSAmara Emerson// See https://llvm.org/LICENSE.txt for license information.
dc84770dSAmara Emerson// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
dc84770dSAmara Emerson//
dc84770dSAmara Emerson//===----------------------------------------------------------------------===//
dc84770dSAmara Emerson/// \file
dc84770dSAmara Emerson/// This file implements the LoadStoreOpt optimization pass.
dc84770dSAmara Emerson//===----------------------------------------------------------------------===//
dc84770dSAmara Emerson
dc84770dSAmara Emerson#include "llvm/CodeGen/GlobalISel/LoadStoreOpt.h"
dc84770dSAmara Emerson#include "llvm/ADT/Statistic.h"
dc84770dSAmara Emerson#include "llvm/Analysis/AliasAnalysis.h"
dc84770dSAmara Emerson#include "llvm/Analysis/MemoryLocation.h"
dc84770dSAmara Emerson#include "llvm/Analysis/OptimizationRemarkEmitter.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/GlobalISel/GenericMachineInstrs.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/GlobalISel/LegalizerInfo.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/GlobalISel/MIPatternMatch.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/GlobalISel/Utils.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/LowLevelType.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/MachineBasicBlock.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/MachineFrameInfo.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/MachineFunction.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/MachineInstr.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/MachineOptimizationRemarkEmitter.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/MachineRegisterInfo.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/Register.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/TargetLowering.h"
dc84770dSAmara Emerson#include "llvm/CodeGen/TargetOpcodes.h"
dc84770dSAmara Emerson#include "llvm/IR/DebugInfoMetadata.h"
dc84770dSAmara Emerson#include "llvm/InitializePasses.h"
dc84770dSAmara Emerson#include "llvm/Support/AtomicOrdering.h"
dc84770dSAmara Emerson#include "llvm/Support/Casting.h"
dc84770dSAmara Emerson#include "llvm/Support/Debug.h"
dc84770dSAmara Emerson#include "llvm/Support/ErrorHandling.h"
dc84770dSAmara Emerson#include "llvm/Support/MathExtras.h"
dc84770dSAmara Emerson#include <algorithm>
dc84770dSAmara Emerson
dc84770dSAmara Emerson#define DEBUG_TYPE "loadstore-opt"
dc84770dSAmara Emerson
dc84770dSAmara Emersonusing namespace llvm;
dc84770dSAmara Emersonusing namespace ore;
dc84770dSAmara Emersonusing namespace MIPatternMatch;
dc84770dSAmara Emerson
dc84770dSAmara EmersonSTATISTIC(NumStoresMerged, "Number of stores merged");
dc84770dSAmara Emerson
dc84770dSAmara Emersonconst unsigned MaxStoreSizeToForm = 128;
dc84770dSAmara Emerson
dc84770dSAmara Emersonchar LoadStoreOpt::ID = 0;
dc84770dSAmara EmersonINITIALIZE_PASS_BEGIN(LoadStoreOpt, DEBUG_TYPE, "Generic memory optimizations",
dc84770dSAmara Emerson                      false, false)
dc84770dSAmara EmersonINITIALIZE_PASS_END(LoadStoreOpt, DEBUG_TYPE, "Generic memory optimizations",
dc84770dSAmara Emerson                    false, false)
dc84770dSAmara Emerson
dc84770dSAmara EmersonLoadStoreOpt::LoadStoreOpt(std::function<bool(const MachineFunction &)> F)
dc84770dSAmara Emerson    : MachineFunctionPass(ID), DoNotRunPass(F) {}
dc84770dSAmara Emerson
dc84770dSAmara EmersonLoadStoreOpt::LoadStoreOpt()
dc84770dSAmara Emerson    : LoadStoreOpt([](const MachineFunction &) { return false; }) {}
dc84770dSAmara Emerson
dc84770dSAmara Emersonvoid LoadStoreOpt::init(MachineFunction &MF) {
dc84770dSAmara Emerson  this->MF = &MF;
dc84770dSAmara Emerson  MRI = &MF.getRegInfo();
dc84770dSAmara Emerson  AA = &getAnalysis<AAResultsWrapperPass>().getAAResults();
dc84770dSAmara Emerson  TLI = MF.getSubtarget().getTargetLowering();
dc84770dSAmara Emerson  LI = MF.getSubtarget().getLegalizerInfo();
dc84770dSAmara Emerson  Builder.setMF(MF);
dc84770dSAmara Emerson  IsPreLegalizer = !MF.getProperties().hasProperty(
dc84770dSAmara Emerson      MachineFunctionProperties::Property::Legalized);
dc84770dSAmara Emerson  InstsToErase.clear();
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonvoid LoadStoreOpt::getAnalysisUsage(AnalysisUsage &AU) const {
dc84770dSAmara Emerson  AU.addRequired<AAResultsWrapperPass>();
e7bc7373SMatt Arsenault  AU.setPreservesAll();
dc84770dSAmara Emerson  getSelectionDAGFallbackAnalysisUsage(AU);
dc84770dSAmara Emerson  MachineFunctionPass::getAnalysisUsage(AU);
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara EmersonBaseIndexOffset GISelAddressing::getPointerInfo(Register Ptr,
dc84770dSAmara Emerson                                                MachineRegisterInfo &MRI) {
dc84770dSAmara Emerson  BaseIndexOffset Info;
dc84770dSAmara Emerson  Register PtrAddRHS;
dc84770dSAmara Emerson  if (!mi_match(Ptr, MRI, m_GPtrAdd(m_Reg(Info.BaseReg), m_Reg(PtrAddRHS)))) {
dc84770dSAmara Emerson    Info.BaseReg = Ptr;
dc84770dSAmara Emerson    Info.IndexReg = Register();
dc84770dSAmara Emerson    Info.IsIndexSignExt = false;
dc84770dSAmara Emerson    return Info;
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson
dc84770dSAmara Emerson  auto RHSCst = getIConstantVRegValWithLookThrough(PtrAddRHS, MRI);
dc84770dSAmara Emerson  if (RHSCst)
dc84770dSAmara Emerson    Info.Offset = RHSCst->Value.getSExtValue();
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // Just recognize a simple case for now. In future we'll need to match
dc84770dSAmara Emerson  // indexing patterns for base + index + constant.
dc84770dSAmara Emerson  Info.IndexReg = PtrAddRHS;
dc84770dSAmara Emerson  Info.IsIndexSignExt = false;
dc84770dSAmara Emerson  return Info;
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonbool GISelAddressing::aliasIsKnownForLoadStore(const MachineInstr &MI1,
dc84770dSAmara Emerson                                               const MachineInstr &MI2,
dc84770dSAmara Emerson                                               bool &IsAlias,
dc84770dSAmara Emerson                                               MachineRegisterInfo &MRI) {
dc84770dSAmara Emerson  auto *LdSt1 = dyn_cast<GLoadStore>(&MI1);
dc84770dSAmara Emerson  auto *LdSt2 = dyn_cast<GLoadStore>(&MI2);
dc84770dSAmara Emerson  if (!LdSt1 || !LdSt2)
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  BaseIndexOffset BasePtr0 = getPointerInfo(LdSt1->getPointerReg(), MRI);
dc84770dSAmara Emerson  BaseIndexOffset BasePtr1 = getPointerInfo(LdSt2->getPointerReg(), MRI);
dc84770dSAmara Emerson
dc84770dSAmara Emerson  if (!BasePtr0.BaseReg.isValid() || !BasePtr1.BaseReg.isValid())
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  int64_t Size1 = LdSt1->getMemSize();
dc84770dSAmara Emerson  int64_t Size2 = LdSt2->getMemSize();
dc84770dSAmara Emerson
dc84770dSAmara Emerson  int64_t PtrDiff;
dc84770dSAmara Emerson  if (BasePtr0.BaseReg == BasePtr1.BaseReg) {
dc84770dSAmara Emerson    PtrDiff = BasePtr1.Offset - BasePtr0.Offset;
dc84770dSAmara Emerson    // If the size of memory access is unknown, do not use it to do analysis.
dc84770dSAmara Emerson    // One example of unknown size memory access is to load/store scalable
dc84770dSAmara Emerson    // vector objects on the stack.
dc84770dSAmara Emerson    // BasePtr1 is PtrDiff away from BasePtr0. They alias if none of the
dc84770dSAmara Emerson    // following situations arise:
dc84770dSAmara Emerson    if (PtrDiff >= 0 &&
dc84770dSAmara Emerson        Size1 != static_cast<int64_t>(MemoryLocation::UnknownSize)) {
dc84770dSAmara Emerson      // [----BasePtr0----]
dc84770dSAmara Emerson      //                         [---BasePtr1--]
dc84770dSAmara Emerson      // ========PtrDiff========>
dc84770dSAmara Emerson      IsAlias = !(Size1 <= PtrDiff);
dc84770dSAmara Emerson      return true;
dc84770dSAmara Emerson    }
dc84770dSAmara Emerson    if (PtrDiff < 0 &&
dc84770dSAmara Emerson        Size2 != static_cast<int64_t>(MemoryLocation::UnknownSize)) {
dc84770dSAmara Emerson      //                     [----BasePtr0----]
dc84770dSAmara Emerson      // [---BasePtr1--]
dc84770dSAmara Emerson      // =====(-PtrDiff)====>
dc84770dSAmara Emerson      IsAlias = !((PtrDiff + Size2) <= 0);
dc84770dSAmara Emerson      return true;
dc84770dSAmara Emerson    }
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // If both BasePtr0 and BasePtr1 are FrameIndexes, we will not be
dc84770dSAmara Emerson  // able to calculate their relative offset if at least one arises
dc84770dSAmara Emerson  // from an alloca. However, these allocas cannot overlap and we
dc84770dSAmara Emerson  // can infer there is no alias.
dc84770dSAmara Emerson  auto *Base0Def = getDefIgnoringCopies(BasePtr0.BaseReg, MRI);
dc84770dSAmara Emerson  auto *Base1Def = getDefIgnoringCopies(BasePtr1.BaseReg, MRI);
dc84770dSAmara Emerson  if (!Base0Def || !Base1Def)
dc84770dSAmara Emerson    return false; // Couldn't tell anything.
dc84770dSAmara Emerson
dc84770dSAmara Emerson
dc84770dSAmara Emerson  if (Base0Def->getOpcode() != Base1Def->getOpcode())
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  if (Base0Def->getOpcode() == TargetOpcode::G_FRAME_INDEX) {
dc84770dSAmara Emerson    MachineFrameInfo &MFI = Base0Def->getMF()->getFrameInfo();
dc84770dSAmara Emerson    // If the bases have the same frame index but we couldn't find a
dc84770dSAmara Emerson    // constant offset, (indices are different) be conservative.
dc84770dSAmara Emerson    if (Base0Def != Base1Def &&
dc84770dSAmara Emerson        (!MFI.isFixedObjectIndex(Base0Def->getOperand(1).getIndex()) ||
dc84770dSAmara Emerson         !MFI.isFixedObjectIndex(Base1Def->getOperand(1).getIndex()))) {
dc84770dSAmara Emerson      IsAlias = false;
dc84770dSAmara Emerson      return true;
dc84770dSAmara Emerson    }
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // This implementation is a lot more primitive than the SDAG one for now.
dc84770dSAmara Emerson  // FIXME: what about constant pools?
dc84770dSAmara Emerson  if (Base0Def->getOpcode() == TargetOpcode::G_GLOBAL_VALUE) {
dc84770dSAmara Emerson    auto GV0 = Base0Def->getOperand(1).getGlobal();
dc84770dSAmara Emerson    auto GV1 = Base1Def->getOperand(1).getGlobal();
dc84770dSAmara Emerson    if (GV0 != GV1) {
dc84770dSAmara Emerson      IsAlias = false;
dc84770dSAmara Emerson      return true;
dc84770dSAmara Emerson    }
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // Can't tell anything about aliasing.
dc84770dSAmara Emerson  return false;
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonbool GISelAddressing::instMayAlias(const MachineInstr &MI,
dc84770dSAmara Emerson                                   const MachineInstr &Other,
dc84770dSAmara Emerson                                   MachineRegisterInfo &MRI,
dc84770dSAmara Emerson                                   AliasAnalysis *AA) {
dc84770dSAmara Emerson  struct MemUseCharacteristics {
dc84770dSAmara Emerson    bool IsVolatile;
dc84770dSAmara Emerson    bool IsAtomic;
dc84770dSAmara Emerson    Register BasePtr;
dc84770dSAmara Emerson    int64_t Offset;
dc84770dSAmara Emerson    uint64_t NumBytes;
dc84770dSAmara Emerson    MachineMemOperand *MMO;
dc84770dSAmara Emerson  };
dc84770dSAmara Emerson
dc84770dSAmara Emerson  auto getCharacteristics =
dc84770dSAmara Emerson      [&](const MachineInstr *MI) -> MemUseCharacteristics {
dc84770dSAmara Emerson    if (const auto *LS = dyn_cast<GLoadStore>(MI)) {
dc84770dSAmara Emerson      Register BaseReg;
dc84770dSAmara Emerson      int64_t Offset = 0;
dc84770dSAmara Emerson      // No pre/post-inc addressing modes are considered here, unlike in SDAG.
dc84770dSAmara Emerson      if (!mi_match(LS->getPointerReg(), MRI,
dc84770dSAmara Emerson                    m_GPtrAdd(m_Reg(BaseReg), m_ICst(Offset)))) {
dc84770dSAmara Emerson        BaseReg = LS->getPointerReg();
dc84770dSAmara Emerson        Offset = 0;
dc84770dSAmara Emerson      }
dc84770dSAmara Emerson
dc84770dSAmara Emerson      uint64_t Size = MemoryLocation::getSizeOrUnknown(
dc84770dSAmara Emerson          LS->getMMO().getMemoryType().getSizeInBytes());
dc84770dSAmara Emerson      return {LS->isVolatile(),       LS->isAtomic(),          BaseReg,
dc84770dSAmara Emerson              Offset /*base offset*/, Size, &LS->getMMO()};
dc84770dSAmara Emerson    }
dc84770dSAmara Emerson    // FIXME: support recognizing lifetime instructions.
dc84770dSAmara Emerson    // Default.
dc84770dSAmara Emerson    return {false /*isvolatile*/,
dc84770dSAmara Emerson            /*isAtomic*/ false,          Register(),
dc84770dSAmara Emerson            (int64_t)0 /*offset*/,       0 /*size*/,
dc84770dSAmara Emerson            (MachineMemOperand *)nullptr};
dc84770dSAmara Emerson  };
dc84770dSAmara Emerson  MemUseCharacteristics MUC0 = getCharacteristics(&MI),
dc84770dSAmara Emerson                        MUC1 = getCharacteristics(&Other);
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // If they are to the same address, then they must be aliases.
dc84770dSAmara Emerson  if (MUC0.BasePtr.isValid() && MUC0.BasePtr == MUC1.BasePtr &&
dc84770dSAmara Emerson      MUC0.Offset == MUC1.Offset)
dc84770dSAmara Emerson    return true;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // If they are both volatile then they cannot be reordered.
dc84770dSAmara Emerson  if (MUC0.IsVolatile && MUC1.IsVolatile)
dc84770dSAmara Emerson    return true;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // Be conservative about atomics for the moment
dc84770dSAmara Emerson  // TODO: This is way overconservative for unordered atomics (see D66309)
dc84770dSAmara Emerson  if (MUC0.IsAtomic && MUC1.IsAtomic)
dc84770dSAmara Emerson    return true;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // If one operation reads from invariant memory, and the other may store, they
dc84770dSAmara Emerson  // cannot alias.
dc84770dSAmara Emerson  if (MUC0.MMO && MUC1.MMO) {
dc84770dSAmara Emerson    if ((MUC0.MMO->isInvariant() && MUC1.MMO->isStore()) ||
dc84770dSAmara Emerson        (MUC1.MMO->isInvariant() && MUC0.MMO->isStore()))
dc84770dSAmara Emerson      return false;
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // Try to prove that there is aliasing, or that there is no aliasing. Either
dc84770dSAmara Emerson  // way, we can return now. If nothing can be proved, proceed with more tests.
dc84770dSAmara Emerson  bool IsAlias;
dc84770dSAmara Emerson  if (GISelAddressing::aliasIsKnownForLoadStore(MI, Other, IsAlias, MRI))
dc84770dSAmara Emerson    return IsAlias;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // The following all rely on MMO0 and MMO1 being valid.
dc84770dSAmara Emerson  if (!MUC0.MMO || !MUC1.MMO)
dc84770dSAmara Emerson    return true;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // FIXME: port the alignment based alias analysis from SDAG's isAlias().
dc84770dSAmara Emerson  int64_t SrcValOffset0 = MUC0.MMO->getOffset();
dc84770dSAmara Emerson  int64_t SrcValOffset1 = MUC1.MMO->getOffset();
dc84770dSAmara Emerson  uint64_t Size0 = MUC0.NumBytes;
dc84770dSAmara Emerson  uint64_t Size1 = MUC1.NumBytes;
dc84770dSAmara Emerson  if (AA && MUC0.MMO->getValue() && MUC1.MMO->getValue() &&
dc84770dSAmara Emerson      Size0 != MemoryLocation::UnknownSize &&
dc84770dSAmara Emerson      Size1 != MemoryLocation::UnknownSize) {
dc84770dSAmara Emerson    // Use alias analysis information.
dc84770dSAmara Emerson    int64_t MinOffset = std::min(SrcValOffset0, SrcValOffset1);
dc84770dSAmara Emerson    int64_t Overlap0 = Size0 + SrcValOffset0 - MinOffset;
dc84770dSAmara Emerson    int64_t Overlap1 = Size1 + SrcValOffset1 - MinOffset;
dc84770dSAmara Emerson    if (AA->isNoAlias(MemoryLocation(MUC0.MMO->getValue(), Overlap0,
dc84770dSAmara Emerson                                     MUC0.MMO->getAAInfo()),
dc84770dSAmara Emerson                      MemoryLocation(MUC1.MMO->getValue(), Overlap1,
dc84770dSAmara Emerson                                     MUC1.MMO->getAAInfo())))
dc84770dSAmara Emerson      return false;
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // Otherwise we have to assume they alias.
dc84770dSAmara Emerson  return true;
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emerson/// Returns true if the instruction creates an unavoidable hazard that
dc84770dSAmara Emerson/// forces a boundary between store merge candidates.
dc84770dSAmara Emersonstatic bool isInstHardMergeHazard(MachineInstr &MI) {
dc84770dSAmara Emerson  return MI.hasUnmodeledSideEffects() || MI.hasOrderedMemoryRef();
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonbool LoadStoreOpt::mergeStores(SmallVectorImpl<GStore *> &StoresToMerge) {
dc84770dSAmara Emerson  // Try to merge all the stores in the vector, splitting into separate segments
dc84770dSAmara Emerson  // as necessary.
dc84770dSAmara Emerson  assert(StoresToMerge.size() > 1 && "Expected multiple stores to merge");
dc84770dSAmara Emerson  LLT OrigTy = MRI->getType(StoresToMerge[0]->getValueReg());
dc84770dSAmara Emerson  LLT PtrTy = MRI->getType(StoresToMerge[0]->getPointerReg());
dc84770dSAmara Emerson  unsigned AS = PtrTy.getAddressSpace();
dc84770dSAmara Emerson  // Ensure the legal store info is computed for this address space.
dc84770dSAmara Emerson  initializeStoreMergeTargetInfo(AS);
dc84770dSAmara Emerson  const auto &LegalSizes = LegalStoreSizes[AS];
dc84770dSAmara Emerson
dc84770dSAmara Emerson#ifndef NDEBUG
*9e6d1f4bSKazu Hirata  for (auto *StoreMI : StoresToMerge)
dc84770dSAmara Emerson    assert(MRI->getType(StoreMI->getValueReg()) == OrigTy);
dc84770dSAmara Emerson#endif
dc84770dSAmara Emerson
dc84770dSAmara Emerson  const auto &DL = MF->getFunction().getParent()->getDataLayout();
dc84770dSAmara Emerson  bool AnyMerged = false;
dc84770dSAmara Emerson  do {
dc84770dSAmara Emerson    unsigned NumPow2 = PowerOf2Floor(StoresToMerge.size());
dc84770dSAmara Emerson    unsigned MaxSizeBits = NumPow2 * OrigTy.getSizeInBits().getFixedSize();
dc84770dSAmara Emerson    // Compute the biggest store we can generate to handle the number of stores.
dc84770dSAmara Emerson    unsigned MergeSizeBits;
dc84770dSAmara Emerson    for (MergeSizeBits = MaxSizeBits; MergeSizeBits > 1; MergeSizeBits /= 2) {
dc84770dSAmara Emerson      LLT StoreTy = LLT::scalar(MergeSizeBits);
dc84770dSAmara Emerson      EVT StoreEVT =
dc84770dSAmara Emerson          getApproximateEVTForLLT(StoreTy, DL, MF->getFunction().getContext());
dc84770dSAmara Emerson      if (LegalSizes.size() > MergeSizeBits && LegalSizes[MergeSizeBits] &&
dc84770dSAmara Emerson          TLI->canMergeStoresTo(AS, StoreEVT, *MF) &&
dc84770dSAmara Emerson          (TLI->isTypeLegal(StoreEVT)))
dc84770dSAmara Emerson        break; // We can generate a MergeSize bits store.
dc84770dSAmara Emerson    }
dc84770dSAmara Emerson    if (MergeSizeBits <= OrigTy.getSizeInBits())
dc84770dSAmara Emerson      return AnyMerged; // No greater merge.
dc84770dSAmara Emerson
dc84770dSAmara Emerson    unsigned NumStoresToMerge = MergeSizeBits / OrigTy.getSizeInBits();
dc84770dSAmara Emerson    // Perform the actual merging.
dc84770dSAmara Emerson    SmallVector<GStore *, 8> SingleMergeStores(
dc84770dSAmara Emerson        StoresToMerge.begin(), StoresToMerge.begin() + NumStoresToMerge);
dc84770dSAmara Emerson    AnyMerged |= doSingleStoreMerge(SingleMergeStores);
dc84770dSAmara Emerson    StoresToMerge.erase(StoresToMerge.begin(),
dc84770dSAmara Emerson                        StoresToMerge.begin() + NumStoresToMerge);
dc84770dSAmara Emerson  } while (StoresToMerge.size() > 1);
dc84770dSAmara Emerson  return AnyMerged;
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonbool LoadStoreOpt::isLegalOrBeforeLegalizer(const LegalityQuery &Query,
dc84770dSAmara Emerson                                            MachineFunction &MF) const {
dc84770dSAmara Emerson  auto Action = LI->getAction(Query).Action;
dc84770dSAmara Emerson  // If the instruction is unsupported, it can't be legalized at all.
dc84770dSAmara Emerson  if (Action == LegalizeActions::Unsupported)
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson  return IsPreLegalizer || Action == LegalizeAction::Legal;
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonbool LoadStoreOpt::doSingleStoreMerge(SmallVectorImpl<GStore *> &Stores) {
dc84770dSAmara Emerson  assert(Stores.size() > 1);
dc84770dSAmara Emerson  // We know that all the stores are consecutive and there are no aliasing
dc84770dSAmara Emerson  // operations in the range. However, the values that are being stored may be
dc84770dSAmara Emerson  // generated anywhere before each store. To ensure we have the values
dc84770dSAmara Emerson  // available, we materialize the wide value and new store at the place of the
dc84770dSAmara Emerson  // final store in the merge sequence.
dc84770dSAmara Emerson  GStore *FirstStore = Stores[0];
dc84770dSAmara Emerson  const unsigned NumStores = Stores.size();
dc84770dSAmara Emerson  LLT SmallTy = MRI->getType(FirstStore->getValueReg());
dc84770dSAmara Emerson  LLT WideValueTy =
dc84770dSAmara Emerson      LLT::scalar(NumStores * SmallTy.getSizeInBits().getFixedSize());
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // For each store, compute pairwise merged debug locs.
dc84770dSAmara Emerson  DebugLoc MergedLoc;
dc84770dSAmara Emerson  for (unsigned AIdx = 0, BIdx = 1; BIdx < NumStores; ++AIdx, ++BIdx)
dc84770dSAmara Emerson    MergedLoc = DILocation::getMergedLocation(Stores[AIdx]->getDebugLoc(),
dc84770dSAmara Emerson                                              Stores[BIdx]->getDebugLoc());
dc84770dSAmara Emerson  Builder.setInstr(*Stores.back());
dc84770dSAmara Emerson  Builder.setDebugLoc(MergedLoc);
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // If all of the store values are constants, then create a wide constant
dc84770dSAmara Emerson  // directly. Otherwise, we need to generate some instructions to merge the
dc84770dSAmara Emerson  // existing values together into a wider type.
dc84770dSAmara Emerson  SmallVector<APInt, 8> ConstantVals;
*9e6d1f4bSKazu Hirata  for (auto *Store : Stores) {
dc84770dSAmara Emerson    auto MaybeCst =
dc84770dSAmara Emerson        getIConstantVRegValWithLookThrough(Store->getValueReg(), *MRI);
dc84770dSAmara Emerson    if (!MaybeCst) {
dc84770dSAmara Emerson      ConstantVals.clear();
dc84770dSAmara Emerson      break;
dc84770dSAmara Emerson    }
dc84770dSAmara Emerson    ConstantVals.emplace_back(MaybeCst->Value);
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson
9a6817b7SFrederik Gossen  Register WideReg;
9a6817b7SFrederik Gossen  auto *WideMMO =
9a6817b7SFrederik Gossen      MF->getMachineMemOperand(&FirstStore->getMMO(), 0, WideValueTy);
dc84770dSAmara Emerson  if (ConstantVals.empty()) {
dc84770dSAmara Emerson    // Mimic the SDAG behaviour here and don't try to do anything for unknown
dc84770dSAmara Emerson    // values. In future, we should also support the cases of loads and
dc84770dSAmara Emerson    // extracted vector elements.
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson
dc84770dSAmara Emerson  assert(ConstantVals.size() == NumStores);
dc84770dSAmara Emerson  // Check if our wide constant is legal.
dc84770dSAmara Emerson  if (!isLegalOrBeforeLegalizer({TargetOpcode::G_CONSTANT, {WideValueTy}}, *MF))
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson  APInt WideConst(WideValueTy.getSizeInBits(), 0);
dc84770dSAmara Emerson  for (unsigned Idx = 0; Idx < ConstantVals.size(); ++Idx) {
dc84770dSAmara Emerson    // Insert the smaller constant into the corresponding position in the
dc84770dSAmara Emerson    // wider one.
dc84770dSAmara Emerson    WideConst.insertBits(ConstantVals[Idx], Idx * SmallTy.getSizeInBits());
dc84770dSAmara Emerson  }
9a6817b7SFrederik Gossen  WideReg = Builder.buildConstant(WideValueTy, WideConst).getReg(0);
ecfe7a34SFrederik Gossen  auto NewStore =
ecfe7a34SFrederik Gossen      Builder.buildStore(WideReg, FirstStore->getPointerReg(), *WideMMO);
3f3d4e8aSFrederik Gossen  (void) NewStore;
2bceb7c8SFrederik Gossen  LLVM_DEBUG(dbgs() << "Created merged store: " << *NewStore);
dc84770dSAmara Emerson  NumStoresMerged += Stores.size();
dc84770dSAmara Emerson
dc84770dSAmara Emerson  MachineOptimizationRemarkEmitter MORE(*MF, nullptr);
dc84770dSAmara Emerson  MORE.emit([&]() {
dc84770dSAmara Emerson    MachineOptimizationRemark R(DEBUG_TYPE, "MergedStore",
dc84770dSAmara Emerson                                FirstStore->getDebugLoc(),
dc84770dSAmara Emerson                                FirstStore->getParent());
dc84770dSAmara Emerson    R << "Merged " << NV("NumMerged", Stores.size()) << " stores of "
dc84770dSAmara Emerson      << NV("OrigWidth", SmallTy.getSizeInBytes())
dc84770dSAmara Emerson      << " bytes into a single store of "
dc84770dSAmara Emerson      << NV("NewWidth", WideValueTy.getSizeInBytes()) << " bytes";
dc84770dSAmara Emerson    return R;
dc84770dSAmara Emerson  });
dc84770dSAmara Emerson
*9e6d1f4bSKazu Hirata  for (auto *MI : Stores)
dc84770dSAmara Emerson    InstsToErase.insert(MI);
dc84770dSAmara Emerson  return true;
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonbool LoadStoreOpt::processMergeCandidate(StoreMergeCandidate &C) {
dc84770dSAmara Emerson  if (C.Stores.size() < 2) {
dc84770dSAmara Emerson    C.reset();
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson
dc84770dSAmara Emerson  LLVM_DEBUG(dbgs() << "Checking store merge candidate with " << C.Stores.size()
dc84770dSAmara Emerson                    << " stores, starting with " << *C.Stores[0]);
dc84770dSAmara Emerson  // We know that the stores in the candidate are adjacent.
dc84770dSAmara Emerson  // Now we need to check if any potential aliasing instructions recorded
dc84770dSAmara Emerson  // during the search alias with load/stores added to the candidate after.
dc84770dSAmara Emerson  // For example, if we have the candidate:
dc84770dSAmara Emerson  //   C.Stores = [ST1, ST2, ST3, ST4]
dc84770dSAmara Emerson  // and after seeing ST2 we saw a load LD1, which did not alias with ST1 or
dc84770dSAmara Emerson  // ST2, then we would have recorded it into the PotentialAliases structure
dc84770dSAmara Emerson  // with the associated index value of "1". Then we see ST3 and ST4 and add
dc84770dSAmara Emerson  // them to the candidate group. We know that LD1 does not alias with ST1 or
dc84770dSAmara Emerson  // ST2, since we already did that check. However we don't yet know if it
dc84770dSAmara Emerson  // may alias ST3 and ST4, so we perform those checks now.
dc84770dSAmara Emerson  SmallVector<GStore *> StoresToMerge;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  auto DoesStoreAliasWithPotential = [&](unsigned Idx, GStore &CheckStore) {
dc84770dSAmara Emerson    for (auto AliasInfo : reverse(C.PotentialAliases)) {
dc84770dSAmara Emerson      MachineInstr *PotentialAliasOp = AliasInfo.first;
dc84770dSAmara Emerson      unsigned PreCheckedIdx = AliasInfo.second;
dc84770dSAmara Emerson      if (static_cast<unsigned>(Idx) > PreCheckedIdx) {
dc84770dSAmara Emerson        // Need to check this alias.
dc84770dSAmara Emerson        if (GISelAddressing::instMayAlias(CheckStore, *PotentialAliasOp, *MRI,
dc84770dSAmara Emerson                                          AA)) {
dc84770dSAmara Emerson          LLVM_DEBUG(dbgs() << "Potential alias " << *PotentialAliasOp
dc84770dSAmara Emerson                            << " detected\n");
dc84770dSAmara Emerson          return true;
dc84770dSAmara Emerson        }
dc84770dSAmara Emerson      } else {
dc84770dSAmara Emerson        // Once our store index is lower than the index associated with the
dc84770dSAmara Emerson        // potential alias, we know that we've already checked for this alias
dc84770dSAmara Emerson        // and all of the earlier potential aliases too.
dc84770dSAmara Emerson        return false;
dc84770dSAmara Emerson      }
dc84770dSAmara Emerson    }
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson  };
dc84770dSAmara Emerson  // Start from the last store in the group, and check if it aliases with any
dc84770dSAmara Emerson  // of the potential aliasing operations in the list.
dc84770dSAmara Emerson  for (int StoreIdx = C.Stores.size() - 1; StoreIdx >= 0; --StoreIdx) {
dc84770dSAmara Emerson    auto *CheckStore = C.Stores[StoreIdx];
dc84770dSAmara Emerson    if (DoesStoreAliasWithPotential(StoreIdx, *CheckStore))
dc84770dSAmara Emerson      continue;
dc84770dSAmara Emerson    StoresToMerge.emplace_back(CheckStore);
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson
dc84770dSAmara Emerson  LLVM_DEBUG(dbgs() << StoresToMerge.size()
dc84770dSAmara Emerson                    << " stores remaining after alias checks. Merging...\n");
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // Now we've checked for aliasing hazards, merge any stores left.
dc84770dSAmara Emerson  C.reset();
dc84770dSAmara Emerson  if (StoresToMerge.size() < 2)
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson  return mergeStores(StoresToMerge);
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonbool LoadStoreOpt::operationAliasesWithCandidate(MachineInstr &MI,
dc84770dSAmara Emerson                                                 StoreMergeCandidate &C) {
dc84770dSAmara Emerson  if (C.Stores.empty())
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson  return llvm::any_of(C.Stores, [&](MachineInstr *OtherMI) {
dc84770dSAmara Emerson    return instMayAlias(MI, *OtherMI, *MRI, AA);
dc84770dSAmara Emerson  });
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonvoid LoadStoreOpt::StoreMergeCandidate::addPotentialAlias(MachineInstr &MI) {
dc84770dSAmara Emerson  PotentialAliases.emplace_back(std::make_pair(&MI, Stores.size() - 1));
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonbool LoadStoreOpt::addStoreToCandidate(GStore &StoreMI,
dc84770dSAmara Emerson                                       StoreMergeCandidate &C) {
dc84770dSAmara Emerson  // Check if the given store writes to an adjacent address, and other
dc84770dSAmara Emerson  // requirements.
dc84770dSAmara Emerson  LLT ValueTy = MRI->getType(StoreMI.getValueReg());
dc84770dSAmara Emerson  LLT PtrTy = MRI->getType(StoreMI.getPointerReg());
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // Only handle scalars.
dc84770dSAmara Emerson  if (!ValueTy.isScalar())
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // Don't allow truncating stores for now.
dc84770dSAmara Emerson  if (StoreMI.getMemSizeInBits() != ValueTy.getSizeInBits())
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson
8cbf18cbSAmara Emerson  // Avoid adding volatile or ordered stores to the candidate. We already have a
8cbf18cbSAmara Emerson  // check for this in instMayAlias() but that only get's called later between
8cbf18cbSAmara Emerson  // potential aliasing hazards.
8cbf18cbSAmara Emerson  if (!StoreMI.isSimple())
8cbf18cbSAmara Emerson    return false;
8cbf18cbSAmara Emerson
dc84770dSAmara Emerson  Register StoreAddr = StoreMI.getPointerReg();
dc84770dSAmara Emerson  auto BIO = getPointerInfo(StoreAddr, *MRI);
dc84770dSAmara Emerson  Register StoreBase = BIO.BaseReg;
dc84770dSAmara Emerson  uint64_t StoreOffCst = BIO.Offset;
dc84770dSAmara Emerson  if (C.Stores.empty()) {
dc84770dSAmara Emerson    // This is the first store of the candidate.
dc84770dSAmara Emerson    // If the offset can't possibly allow for a lower addressed store with the
dc84770dSAmara Emerson    // same base, don't bother adding it.
dc84770dSAmara Emerson    if (StoreOffCst < ValueTy.getSizeInBytes())
dc84770dSAmara Emerson      return false;
dc84770dSAmara Emerson    C.BasePtr = StoreBase;
dc84770dSAmara Emerson    C.CurrentLowestOffset = StoreOffCst;
dc84770dSAmara Emerson    C.Stores.emplace_back(&StoreMI);
dc84770dSAmara Emerson    LLVM_DEBUG(dbgs() << "Starting a new merge candidate group with: "
dc84770dSAmara Emerson                      << StoreMI);
dc84770dSAmara Emerson    return true;
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // Check the store is the same size as the existing ones in the candidate.
dc84770dSAmara Emerson  if (MRI->getType(C.Stores[0]->getValueReg()).getSizeInBits() !=
dc84770dSAmara Emerson      ValueTy.getSizeInBits())
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  if (MRI->getType(C.Stores[0]->getPointerReg()).getAddressSpace() !=
dc84770dSAmara Emerson      PtrTy.getAddressSpace())
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // There are other stores in the candidate. Check that the store address
dc84770dSAmara Emerson  // writes to the next lowest adjacent address.
dc84770dSAmara Emerson  if (C.BasePtr != StoreBase)
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson  if ((C.CurrentLowestOffset - ValueTy.getSizeInBytes()) !=
dc84770dSAmara Emerson      static_cast<uint64_t>(StoreOffCst))
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // This writes to an adjacent address. Allow it.
dc84770dSAmara Emerson  C.Stores.emplace_back(&StoreMI);
dc84770dSAmara Emerson  C.CurrentLowestOffset = C.CurrentLowestOffset - ValueTy.getSizeInBytes();
dc84770dSAmara Emerson  LLVM_DEBUG(dbgs() << "Candidate added store: " << StoreMI);
dc84770dSAmara Emerson  return true;
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonbool LoadStoreOpt::mergeBlockStores(MachineBasicBlock &MBB) {
dc84770dSAmara Emerson  bool Changed = false;
dc84770dSAmara Emerson  // Walk through the block bottom-up, looking for merging candidates.
dc84770dSAmara Emerson  StoreMergeCandidate Candidate;
3aed2822SKazu Hirata  for (MachineInstr &MI : llvm::reverse(MBB)) {
dc84770dSAmara Emerson    if (InstsToErase.contains(&MI))
dc84770dSAmara Emerson      continue;
dc84770dSAmara Emerson
3aed2822SKazu Hirata    if (auto *StoreMI = dyn_cast<GStore>(&MI)) {
dc84770dSAmara Emerson      // We have a G_STORE. Add it to the candidate if it writes to an adjacent
dc84770dSAmara Emerson      // address.
dc84770dSAmara Emerson      if (!addStoreToCandidate(*StoreMI, Candidate)) {
dc84770dSAmara Emerson        // Store wasn't eligible to be added. May need to record it as a
dc84770dSAmara Emerson        // potential alias.
dc84770dSAmara Emerson        if (operationAliasesWithCandidate(*StoreMI, Candidate)) {
dc84770dSAmara Emerson          Changed |= processMergeCandidate(Candidate);
dc84770dSAmara Emerson          continue;
dc84770dSAmara Emerson        }
dc84770dSAmara Emerson        Candidate.addPotentialAlias(*StoreMI);
dc84770dSAmara Emerson      }
dc84770dSAmara Emerson      continue;
dc84770dSAmara Emerson    }
dc84770dSAmara Emerson
dc84770dSAmara Emerson    // If we don't have any stores yet, this instruction can't pose a problem.
dc84770dSAmara Emerson    if (Candidate.Stores.empty())
dc84770dSAmara Emerson      continue;
dc84770dSAmara Emerson
dc84770dSAmara Emerson    // We're dealing with some other kind of instruction.
dc84770dSAmara Emerson    if (isInstHardMergeHazard(MI)) {
dc84770dSAmara Emerson      Changed |= processMergeCandidate(Candidate);
dc84770dSAmara Emerson      Candidate.Stores.clear();
dc84770dSAmara Emerson      continue;
dc84770dSAmara Emerson    }
dc84770dSAmara Emerson
dc84770dSAmara Emerson    if (!MI.mayLoadOrStore())
dc84770dSAmara Emerson      continue;
dc84770dSAmara Emerson
dc84770dSAmara Emerson    if (operationAliasesWithCandidate(MI, Candidate)) {
dc84770dSAmara Emerson      // We have a potential alias, so process the current candidate if we can
dc84770dSAmara Emerson      // and then continue looking for a new candidate.
dc84770dSAmara Emerson      Changed |= processMergeCandidate(Candidate);
dc84770dSAmara Emerson      continue;
dc84770dSAmara Emerson    }
dc84770dSAmara Emerson
dc84770dSAmara Emerson    // Record this instruction as a potential alias for future stores that are
dc84770dSAmara Emerson    // added to the candidate.
dc84770dSAmara Emerson    Candidate.addPotentialAlias(MI);
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // Process any candidate left after finishing searching the entire block.
dc84770dSAmara Emerson  Changed |= processMergeCandidate(Candidate);
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // Erase instructions now that we're no longer iterating over the block.
dc84770dSAmara Emerson  for (auto *MI : InstsToErase)
dc84770dSAmara Emerson    MI->eraseFromParent();
dc84770dSAmara Emerson  InstsToErase.clear();
dc84770dSAmara Emerson  return Changed;
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonbool LoadStoreOpt::mergeFunctionStores(MachineFunction &MF) {
dc84770dSAmara Emerson  bool Changed = false;
dc84770dSAmara Emerson  for (auto &BB : MF) {
dc84770dSAmara Emerson    Changed |= mergeBlockStores(BB);
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson  return Changed;
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonvoid LoadStoreOpt::initializeStoreMergeTargetInfo(unsigned AddrSpace) {
dc84770dSAmara Emerson  // Query the legalizer info to record what store types are legal.
dc84770dSAmara Emerson  // We record this because we don't want to bother trying to merge stores into
dc84770dSAmara Emerson  // illegal ones, which would just result in being split again.
dc84770dSAmara Emerson
dc84770dSAmara Emerson  if (LegalStoreSizes.count(AddrSpace)) {
dc84770dSAmara Emerson    assert(LegalStoreSizes[AddrSpace].any());
dc84770dSAmara Emerson    return; // Already cached sizes for this address space.
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson
dc84770dSAmara Emerson  // Need to reserve at least MaxStoreSizeToForm + 1 bits.
dc84770dSAmara Emerson  BitVector LegalSizes(MaxStoreSizeToForm * 2);
dc84770dSAmara Emerson  const auto &LI = *MF->getSubtarget().getLegalizerInfo();
dc84770dSAmara Emerson  const auto &DL = MF->getFunction().getParent()->getDataLayout();
dc84770dSAmara Emerson  Type *IntPtrIRTy =
dc84770dSAmara Emerson      DL.getIntPtrType(MF->getFunction().getContext(), AddrSpace);
dc84770dSAmara Emerson  LLT PtrTy = getLLTForType(*IntPtrIRTy->getPointerTo(AddrSpace), DL);
dc84770dSAmara Emerson  // We assume that we're not going to be generating any stores wider than
dc84770dSAmara Emerson  // MaxStoreSizeToForm bits for now.
dc84770dSAmara Emerson  for (unsigned Size = 2; Size <= MaxStoreSizeToForm; Size *= 2) {
dc84770dSAmara Emerson    LLT Ty = LLT::scalar(Size);
dc84770dSAmara Emerson    SmallVector<LegalityQuery::MemDesc, 2> MemDescrs(
dc84770dSAmara Emerson        {{Ty, Ty.getSizeInBits(), AtomicOrdering::NotAtomic}});
dc84770dSAmara Emerson    SmallVector<LLT> StoreTys({Ty, PtrTy});
dc84770dSAmara Emerson    LegalityQuery Q(TargetOpcode::G_STORE, StoreTys, MemDescrs);
dc84770dSAmara Emerson    LegalizeActionStep ActionStep = LI.getAction(Q);
dc84770dSAmara Emerson    if (ActionStep.Action == LegalizeActions::Legal)
dc84770dSAmara Emerson      LegalSizes.set(Size);
dc84770dSAmara Emerson  }
dc84770dSAmara Emerson  assert(LegalSizes.any() && "Expected some store sizes to be legal!");
dc84770dSAmara Emerson  LegalStoreSizes[AddrSpace] = LegalSizes;
dc84770dSAmara Emerson}
dc84770dSAmara Emerson
dc84770dSAmara Emersonbool LoadStoreOpt::runOnMachineFunction(MachineFunction &MF) {
dc84770dSAmara Emerson  // If the ISel pipeline failed, do not bother running that pass.
dc84770dSAmara Emerson  if (MF.getProperties().hasProperty(
dc84770dSAmara Emerson          MachineFunctionProperties::Property::FailedISel))
dc84770dSAmara Emerson    return false;
dc84770dSAmara Emerson
dc84770dSAmara Emerson  LLVM_DEBUG(dbgs() << "Begin memory optimizations for: " << MF.getName()
dc84770dSAmara Emerson                    << '\n');
dc84770dSAmara Emerson
dc84770dSAmara Emerson  init(MF);
dc84770dSAmara Emerson  bool Changed = false;
dc84770dSAmara Emerson  Changed |= mergeFunctionStores(MF);
dc84770dSAmara Emerson
dc84770dSAmara Emerson  LegalStoreSizes.clear();
dc84770dSAmara Emerson  return Changed;
dc84770dSAmara Emerson}