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|
//===- MVEGatherScatterLowering.cpp - Gather/Scatter lowering -------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
/// This pass custom lowers llvm.gather and llvm.scatter instructions to
/// arm.mve.gather and arm.mve.scatter intrinsics, optimising the code to
/// produce a better final result as we go.
//
//===----------------------------------------------------------------------===//
#include "ARM.h"
#include "ARMBaseInstrInfo.h"
#include "ARMSubtarget.h"
#include "llvm/Analysis/LoopInfo.h"
#include "llvm/Analysis/TargetTransformInfo.h"
#include "llvm/CodeGen/TargetLowering.h"
#include "llvm/CodeGen/TargetPassConfig.h"
#include "llvm/CodeGen/TargetSubtargetInfo.h"
#include "llvm/InitializePasses.h"
#include "llvm/IR/BasicBlock.h"
#include "llvm/IR/Constant.h"
#include "llvm/IR/Constants.h"
#include "llvm/IR/DerivedTypes.h"
#include "llvm/IR/Function.h"
#include "llvm/IR/InstrTypes.h"
#include "llvm/IR/Instruction.h"
#include "llvm/IR/Instructions.h"
#include "llvm/IR/IntrinsicInst.h"
#include "llvm/IR/Intrinsics.h"
#include "llvm/IR/IntrinsicsARM.h"
#include "llvm/IR/IRBuilder.h"
#include "llvm/IR/PatternMatch.h"
#include "llvm/IR/Type.h"
#include "llvm/IR/Value.h"
#include "llvm/Pass.h"
#include "llvm/Support/Casting.h"
#include "llvm/Transforms/Utils/Local.h"
#include <algorithm>
#include <cassert>
using namespace llvm;
#define DEBUG_TYPE "arm-mve-gather-scatter-lowering"
cl::opt<bool> EnableMaskedGatherScatters(
"enable-arm-maskedgatscat", cl::Hidden, cl::init(true),
cl::desc("Enable the generation of masked gathers and scatters"));
namespace {
class MVEGatherScatterLowering : public FunctionPass {
public:
static char ID; // Pass identification, replacement for typeid
explicit MVEGatherScatterLowering() : FunctionPass(ID) {
initializeMVEGatherScatterLoweringPass(*PassRegistry::getPassRegistry());
}
bool runOnFunction(Function &F) override;
StringRef getPassName() const override {
return "MVE gather/scatter lowering";
}
void getAnalysisUsage(AnalysisUsage &AU) const override {
AU.setPreservesCFG();
AU.addRequired<TargetPassConfig>();
AU.addRequired<LoopInfoWrapperPass>();
FunctionPass::getAnalysisUsage(AU);
}
private:
LoopInfo *LI = nullptr;
// Check this is a valid gather with correct alignment
bool isLegalTypeAndAlignment(unsigned NumElements, unsigned ElemSize,
Align Alignment);
// Check whether Ptr is hidden behind a bitcast and look through it
void lookThroughBitcast(Value *&Ptr);
// Check for a getelementptr and deduce base and offsets from it, on success
// returning the base directly and the offsets indirectly using the Offsets
// argument
Value *checkGEP(Value *&Offsets, FixedVectorType *Ty, GetElementPtrInst *GEP,
IRBuilder<> &Builder);
// Compute the scale of this gather/scatter instruction
int computeScale(unsigned GEPElemSize, unsigned MemoryElemSize);
// If the value is a constant, or derived from constants via additions
// and multilications, return its numeric value
Optional<int64_t> getIfConst(const Value *V);
// If Inst is an add instruction, check whether one summand is a
// constant. If so, scale this constant and return it together with
// the other summand.
std::pair<Value *, int64_t> getVarAndConst(Value *Inst, int TypeScale);
Value *lowerGather(IntrinsicInst *I);
// Create a gather from a base + vector of offsets
Value *tryCreateMaskedGatherOffset(IntrinsicInst *I, Value *Ptr,
Instruction *&Root, IRBuilder<> &Builder);
// Create a gather from a vector of pointers
Value *tryCreateMaskedGatherBase(IntrinsicInst *I, Value *Ptr,
IRBuilder<> &Builder, int64_t Increment = 0);
// Create an incrementing gather from a vector of pointers
Value *tryCreateMaskedGatherBaseWB(IntrinsicInst *I, Value *Ptr,
IRBuilder<> &Builder,
int64_t Increment = 0);
Value *lowerScatter(IntrinsicInst *I);
// Create a scatter to a base + vector of offsets
Value *tryCreateMaskedScatterOffset(IntrinsicInst *I, Value *Offsets,
IRBuilder<> &Builder);
// Create a scatter to a vector of pointers
Value *tryCreateMaskedScatterBase(IntrinsicInst *I, Value *Ptr,
IRBuilder<> &Builder,
int64_t Increment = 0);
// Create an incrementing scatter from a vector of pointers
Value *tryCreateMaskedScatterBaseWB(IntrinsicInst *I, Value *Ptr,
IRBuilder<> &Builder,
int64_t Increment = 0);
// QI gathers and scatters can increment their offsets on their own if
// the increment is a constant value (digit)
Value *tryCreateIncrementingGatScat(IntrinsicInst *I, Value *BasePtr,
Value *Ptr, GetElementPtrInst *GEP,
IRBuilder<> &Builder);
// QI gathers/scatters can increment their offsets on their own if the
// increment is a constant value (digit) - this creates a writeback QI
// gather/scatter
Value *tryCreateIncrementingWBGatScat(IntrinsicInst *I, Value *BasePtr,
Value *Ptr, unsigned TypeScale,
IRBuilder<> &Builder);
// Optimise the base and offsets of the given address
bool optimiseAddress(Value *Address, BasicBlock *BB, LoopInfo *LI);
// Try to fold consecutive geps together into one
Value *foldGEP(GetElementPtrInst *GEP, Value *&Offsets, IRBuilder<> &Builder);
// Check whether these offsets could be moved out of the loop they're in
bool optimiseOffsets(Value *Offsets, BasicBlock *BB, LoopInfo *LI);
// Pushes the given add out of the loop
void pushOutAdd(PHINode *&Phi, Value *OffsSecondOperand, unsigned StartIndex);
// Pushes the given mul out of the loop
void pushOutMul(PHINode *&Phi, Value *IncrementPerRound,
Value *OffsSecondOperand, unsigned LoopIncrement,
IRBuilder<> &Builder);
};
} // end anonymous namespace
char MVEGatherScatterLowering::ID = 0;
INITIALIZE_PASS(MVEGatherScatterLowering, DEBUG_TYPE,
"MVE gather/scattering lowering pass", false, false)
Pass *llvm::createMVEGatherScatterLoweringPass() {
return new MVEGatherScatterLowering();
}
bool MVEGatherScatterLowering::isLegalTypeAndAlignment(unsigned NumElements,
unsigned ElemSize,
Align Alignment) {
if (((NumElements == 4 &&
(ElemSize == 32 || ElemSize == 16 || ElemSize == 8)) ||
(NumElements == 8 && (ElemSize == 16 || ElemSize == 8)) ||
(NumElements == 16 && ElemSize == 8)) &&
Alignment >= ElemSize / 8)
return true;
LLVM_DEBUG(dbgs() << "masked gathers/scatters: instruction does not have "
<< "valid alignment or vector type \n");
return false;
}
static bool checkOffsetSize(Value *Offsets, unsigned TargetElemCount) {
// Offsets that are not of type <N x i32> are sign extended by the
// getelementptr instruction, and MVE gathers/scatters treat the offset as
// unsigned. Thus, if the element size is smaller than 32, we can only allow
// positive offsets - i.e., the offsets are not allowed to be variables we
// can't look into.
// Additionally, <N x i32> offsets have to either originate from a zext of a
// vector with element types smaller or equal the type of the gather we're
// looking at, or consist of constants that we can check are small enough
// to fit into the gather type.
// Thus we check that 0 < value < 2^TargetElemSize.
unsigned TargetElemSize = 128 / TargetElemCount;
unsigned OffsetElemSize = cast<FixedVectorType>(Offsets->getType())
->getElementType()
->getScalarSizeInBits();
if (OffsetElemSize != TargetElemSize || OffsetElemSize != 32) {
Constant *ConstOff = dyn_cast<Constant>(Offsets);
if (!ConstOff)
return false;
int64_t TargetElemMaxSize = (1ULL << TargetElemSize);
auto CheckValueSize = [TargetElemMaxSize](Value *OffsetElem) {
ConstantInt *OConst = dyn_cast<ConstantInt>(OffsetElem);
if (!OConst)
return false;
int SExtValue = OConst->getSExtValue();
if (SExtValue >= TargetElemMaxSize || SExtValue < 0)
return false;
return true;
};
if (isa<FixedVectorType>(ConstOff->getType())) {
for (unsigned i = 0; i < TargetElemCount; i++) {
if (!CheckValueSize(ConstOff->getAggregateElement(i)))
return false;
}
} else {
if (!CheckValueSize(ConstOff))
return false;
}
}
return true;
}
Value *MVEGatherScatterLowering::checkGEP(Value *&Offsets, FixedVectorType *Ty,
GetElementPtrInst *GEP,
IRBuilder<> &Builder) {
if (!GEP) {
LLVM_DEBUG(
dbgs() << "masked gathers/scatters: no getelementpointer found\n");
return nullptr;
}
LLVM_DEBUG(dbgs() << "masked gathers/scatters: getelementpointer found."
<< " Looking at intrinsic for base + vector of offsets\n");
Value *GEPPtr = GEP->getPointerOperand();
Offsets = GEP->getOperand(1);
if (GEPPtr->getType()->isVectorTy() ||
!isa<FixedVectorType>(Offsets->getType()))
return nullptr;
if (GEP->getNumOperands() != 2) {
LLVM_DEBUG(dbgs() << "masked gathers/scatters: getelementptr with too many"
<< " operands. Expanding.\n");
return nullptr;
}
Offsets = GEP->getOperand(1);
unsigned OffsetsElemCount =
cast<FixedVectorType>(Offsets->getType())->getNumElements();
// Paranoid check whether the number of parallel lanes is the same
assert(Ty->getNumElements() == OffsetsElemCount);
ZExtInst *ZextOffs = dyn_cast<ZExtInst>(Offsets);
if (ZextOffs)
Offsets = ZextOffs->getOperand(0);
FixedVectorType *OffsetType = cast<FixedVectorType>(Offsets->getType());
// If the offsets are already being zext-ed to <N x i32>, that relieves us of
// having to make sure that they won't overflow.
if (!ZextOffs || cast<FixedVectorType>(ZextOffs->getDestTy())
->getElementType()
->getScalarSizeInBits() != 32)
if (!checkOffsetSize(Offsets, OffsetsElemCount))
return nullptr;
// The offset sizes have been checked; if any truncating or zext-ing is
// required to fix them, do that now
if (Ty != Offsets->getType()) {
if ((Ty->getElementType()->getScalarSizeInBits() <
OffsetType->getElementType()->getScalarSizeInBits())) {
Offsets = Builder.CreateTrunc(Offsets, Ty);
} else {
Offsets = Builder.CreateZExt(Offsets, VectorType::getInteger(Ty));
}
}
// If none of the checks failed, return the gep's base pointer
LLVM_DEBUG(dbgs() << "masked gathers/scatters: found correct offsets\n");
return GEPPtr;
}
void MVEGatherScatterLowering::lookThroughBitcast(Value *&Ptr) {
// Look through bitcast instruction if #elements is the same
if (auto *BitCast = dyn_cast<BitCastInst>(Ptr)) {
auto *BCTy = cast<FixedVectorType>(BitCast->getType());
auto *BCSrcTy = cast<FixedVectorType>(BitCast->getOperand(0)->getType());
if (BCTy->getNumElements() == BCSrcTy->getNumElements()) {
LLVM_DEBUG(
dbgs() << "masked gathers/scatters: looking through bitcast\n");
Ptr = BitCast->getOperand(0);
}
}
}
int MVEGatherScatterLowering::computeScale(unsigned GEPElemSize,
unsigned MemoryElemSize) {
// This can be a 32bit load/store scaled by 4, a 16bit load/store scaled by 2,
// or a 8bit, 16bit or 32bit load/store scaled by 1
if (GEPElemSize == 32 && MemoryElemSize == 32)
return 2;
else if (GEPElemSize == 16 && MemoryElemSize == 16)
return 1;
else if (GEPElemSize == 8)
return 0;
LLVM_DEBUG(dbgs() << "masked gathers/scatters: incorrect scale. Can't "
<< "create intrinsic\n");
return -1;
}
Optional<int64_t> MVEGatherScatterLowering::getIfConst(const Value *V) {
const Constant *C = dyn_cast<Constant>(V);
if (C != nullptr)
return Optional<int64_t>{C->getUniqueInteger().getSExtValue()};
if (!isa<Instruction>(V))
return Optional<int64_t>{};
const Instruction *I = cast<Instruction>(V);
if (I->getOpcode() == Instruction::Add ||
I->getOpcode() == Instruction::Mul) {
Optional<int64_t> Op0 = getIfConst(I->getOperand(0));
Optional<int64_t> Op1 = getIfConst(I->getOperand(1));
if (!Op0 || !Op1)
return Optional<int64_t>{};
if (I->getOpcode() == Instruction::Add)
return Optional<int64_t>{Op0.getValue() + Op1.getValue()};
if (I->getOpcode() == Instruction::Mul)
return Optional<int64_t>{Op0.getValue() * Op1.getValue()};
}
return Optional<int64_t>{};
}
std::pair<Value *, int64_t>
MVEGatherScatterLowering::getVarAndConst(Value *Inst, int TypeScale) {
std::pair<Value *, int64_t> ReturnFalse =
std::pair<Value *, int64_t>(nullptr, 0);
// At this point, the instruction we're looking at must be an add or we
// bail out
Instruction *Add = dyn_cast<Instruction>(Inst);
if (Add == nullptr || Add->getOpcode() != Instruction::Add)
return ReturnFalse;
Value *Summand;
Optional<int64_t> Const;
// Find out which operand the value that is increased is
if ((Const = getIfConst(Add->getOperand(0))))
Summand = Add->getOperand(1);
else if ((Const = getIfConst(Add->getOperand(1))))
Summand = Add->getOperand(0);
else
return ReturnFalse;
// Check that the constant is small enough for an incrementing gather
int64_t Immediate = Const.getValue() << TypeScale;
if (Immediate > 512 || Immediate < -512 || Immediate % 4 != 0)
return ReturnFalse;
return std::pair<Value *, int64_t>(Summand, Immediate);
}
Value *MVEGatherScatterLowering::lowerGather(IntrinsicInst *I) {
using namespace PatternMatch;
LLVM_DEBUG(dbgs() << "masked gathers: checking transform preconditions\n");
// @llvm.masked.gather.*(Ptrs, alignment, Mask, Src0)
// Attempt to turn the masked gather in I into a MVE intrinsic
// Potentially optimising the addressing modes as we do so.
auto *Ty = cast<FixedVectorType>(I->getType());
Value *Ptr = I->getArgOperand(0);
Align Alignment = cast<ConstantInt>(I->getArgOperand(1))->getAlignValue();
Value *Mask = I->getArgOperand(2);
Value *PassThru = I->getArgOperand(3);
if (!isLegalTypeAndAlignment(Ty->getNumElements(), Ty->getScalarSizeInBits(),
Alignment))
return nullptr;
lookThroughBitcast(Ptr);
assert(Ptr->getType()->isVectorTy() && "Unexpected pointer type");
IRBuilder<> Builder(I->getContext());
Builder.SetInsertPoint(I);
Builder.SetCurrentDebugLocation(I->getDebugLoc());
Instruction *Root = I;
Value *Load = tryCreateMaskedGatherOffset(I, Ptr, Root, Builder);
if (!Load)
Load = tryCreateMaskedGatherBase(I, Ptr, Builder);
if (!Load)
return nullptr;
if (!isa<UndefValue>(PassThru) && !match(PassThru, m_Zero())) {
LLVM_DEBUG(dbgs() << "masked gathers: found non-trivial passthru - "
<< "creating select\n");
Load = Builder.CreateSelect(Mask, Load, PassThru);
}
Root->replaceAllUsesWith(Load);
Root->eraseFromParent();
if (Root != I)
// If this was an extending gather, we need to get rid of the sext/zext
// sext/zext as well as of the gather itself
I->eraseFromParent();
LLVM_DEBUG(dbgs() << "masked gathers: successfully built masked gather\n");
return Load;
}
Value *MVEGatherScatterLowering::tryCreateMaskedGatherBase(IntrinsicInst *I,
Value *Ptr,
IRBuilder<> &Builder,
int64_t Increment) {
using namespace PatternMatch;
auto *Ty = cast<FixedVectorType>(I->getType());
LLVM_DEBUG(dbgs() << "masked gathers: loading from vector of pointers\n");
if (Ty->getNumElements() != 4 || Ty->getScalarSizeInBits() != 32)
// Can't build an intrinsic for this
return nullptr;
Value *Mask = I->getArgOperand(2);
if (match(Mask, m_One()))
return Builder.CreateIntrinsic(Intrinsic::arm_mve_vldr_gather_base,
{Ty, Ptr->getType()},
{Ptr, Builder.getInt32(Increment)});
else
return Builder.CreateIntrinsic(
Intrinsic::arm_mve_vldr_gather_base_predicated,
{Ty, Ptr->getType(), Mask->getType()},
{Ptr, Builder.getInt32(Increment), Mask});
}
Value *MVEGatherScatterLowering::tryCreateMaskedGatherBaseWB(
IntrinsicInst *I, Value *Ptr, IRBuilder<> &Builder, int64_t Increment) {
using namespace PatternMatch;
auto *Ty = cast<FixedVectorType>(I->getType());
LLVM_DEBUG(
dbgs()
<< "masked gathers: loading from vector of pointers with writeback\n");
if (Ty->getNumElements() != 4 || Ty->getScalarSizeInBits() != 32)
// Can't build an intrinsic for this
return nullptr;
Value *Mask = I->getArgOperand(2);
if (match(Mask, m_One()))
return Builder.CreateIntrinsic(Intrinsic::arm_mve_vldr_gather_base_wb,
{Ty, Ptr->getType()},
{Ptr, Builder.getInt32(Increment)});
else
return Builder.CreateIntrinsic(
Intrinsic::arm_mve_vldr_gather_base_wb_predicated,
{Ty, Ptr->getType(), Mask->getType()},
{Ptr, Builder.getInt32(Increment), Mask});
}
Value *MVEGatherScatterLowering::tryCreateMaskedGatherOffset(
IntrinsicInst *I, Value *Ptr, Instruction *&Root, IRBuilder<> &Builder) {
using namespace PatternMatch;
Type *OriginalTy = I->getType();
Type *ResultTy = OriginalTy;
unsigned Unsigned = 1;
// The size of the gather was already checked in isLegalTypeAndAlignment;
// if it was not a full vector width an appropriate extend should follow.
auto *Extend = Root;
if (OriginalTy->getPrimitiveSizeInBits() < 128) {
// Only transform gathers with exactly one use
if (!I->hasOneUse())
return nullptr;
// The correct root to replace is not the CallInst itself, but the
// instruction which extends it
Extend = cast<Instruction>(*I->users().begin());
if (isa<SExtInst>(Extend)) {
Unsigned = 0;
} else if (!isa<ZExtInst>(Extend)) {
LLVM_DEBUG(dbgs() << "masked gathers: extend needed but not provided. "
<< "Expanding\n");
return nullptr;
}
LLVM_DEBUG(dbgs() << "masked gathers: found an extending gather\n");
ResultTy = Extend->getType();
// The final size of the gather must be a full vector width
if (ResultTy->getPrimitiveSizeInBits() != 128) {
LLVM_DEBUG(dbgs() << "masked gathers: extending from the wrong type. "
<< "Expanding\n");
return nullptr;
}
}
GetElementPtrInst *GEP = dyn_cast<GetElementPtrInst>(Ptr);
Value *Offsets;
Value *BasePtr =
checkGEP(Offsets, cast<FixedVectorType>(ResultTy), GEP, Builder);
if (!BasePtr)
return nullptr;
// Check whether the offset is a constant increment that could be merged into
// a QI gather
Value *Load = tryCreateIncrementingGatScat(I, BasePtr, Offsets, GEP, Builder);
if (Load)
return Load;
int Scale = computeScale(
BasePtr->getType()->getPointerElementType()->getPrimitiveSizeInBits(),
OriginalTy->getScalarSizeInBits());
if (Scale == -1)
return nullptr;
Root = Extend;
Value *Mask = I->getArgOperand(2);
if (!match(Mask, m_One()))
return Builder.CreateIntrinsic(
Intrinsic::arm_mve_vldr_gather_offset_predicated,
{ResultTy, BasePtr->getType(), Offsets->getType(), Mask->getType()},
{BasePtr, Offsets, Builder.getInt32(OriginalTy->getScalarSizeInBits()),
Builder.getInt32(Scale), Builder.getInt32(Unsigned), Mask});
else
return Builder.CreateIntrinsic(
Intrinsic::arm_mve_vldr_gather_offset,
{ResultTy, BasePtr->getType(), Offsets->getType()},
{BasePtr, Offsets, Builder.getInt32(OriginalTy->getScalarSizeInBits()),
Builder.getInt32(Scale), Builder.getInt32(Unsigned)});
}
Value *MVEGatherScatterLowering::lowerScatter(IntrinsicInst *I) {
using namespace PatternMatch;
LLVM_DEBUG(dbgs() << "masked scatters: checking transform preconditions\n");
// @llvm.masked.scatter.*(data, ptrs, alignment, mask)
// Attempt to turn the masked scatter in I into a MVE intrinsic
// Potentially optimising the addressing modes as we do so.
Value *Input = I->getArgOperand(0);
Value *Ptr = I->getArgOperand(1);
Align Alignment = cast<ConstantInt>(I->getArgOperand(2))->getAlignValue();
auto *Ty = cast<FixedVectorType>(Input->getType());
if (!isLegalTypeAndAlignment(Ty->getNumElements(), Ty->getScalarSizeInBits(),
Alignment))
return nullptr;
lookThroughBitcast(Ptr);
assert(Ptr->getType()->isVectorTy() && "Unexpected pointer type");
IRBuilder<> Builder(I->getContext());
Builder.SetInsertPoint(I);
Builder.SetCurrentDebugLocation(I->getDebugLoc());
Value *Store = tryCreateMaskedScatterOffset(I, Ptr, Builder);
if (!Store)
Store = tryCreateMaskedScatterBase(I, Ptr, Builder);
if (!Store)
return nullptr;
LLVM_DEBUG(dbgs() << "masked scatters: successfully built masked scatter\n");
I->eraseFromParent();
return Store;
}
Value *MVEGatherScatterLowering::tryCreateMaskedScatterBase(
IntrinsicInst *I, Value *Ptr, IRBuilder<> &Builder, int64_t Increment) {
using namespace PatternMatch;
Value *Input = I->getArgOperand(0);
auto *Ty = cast<FixedVectorType>(Input->getType());
// Only QR variants allow truncating
if (!(Ty->getNumElements() == 4 && Ty->getScalarSizeInBits() == 32)) {
// Can't build an intrinsic for this
return nullptr;
}
Value *Mask = I->getArgOperand(3);
// int_arm_mve_vstr_scatter_base(_predicated) addr, offset, data(, mask)
LLVM_DEBUG(dbgs() << "masked scatters: storing to a vector of pointers\n");
if (match(Mask, m_One()))
return Builder.CreateIntrinsic(Intrinsic::arm_mve_vstr_scatter_base,
{Ptr->getType(), Input->getType()},
{Ptr, Builder.getInt32(Increment), Input});
else
return Builder.CreateIntrinsic(
Intrinsic::arm_mve_vstr_scatter_base_predicated,
{Ptr->getType(), Input->getType(), Mask->getType()},
{Ptr, Builder.getInt32(Increment), Input, Mask});
}
Value *MVEGatherScatterLowering::tryCreateMaskedScatterBaseWB(
IntrinsicInst *I, Value *Ptr, IRBuilder<> &Builder, int64_t Increment) {
using namespace PatternMatch;
Value *Input = I->getArgOperand(0);
auto *Ty = cast<FixedVectorType>(Input->getType());
LLVM_DEBUG(
dbgs()
<< "masked scatters: storing to a vector of pointers with writeback\n");
if (Ty->getNumElements() != 4 || Ty->getScalarSizeInBits() != 32)
// Can't build an intrinsic for this
return nullptr;
Value *Mask = I->getArgOperand(3);
if (match(Mask, m_One()))
return Builder.CreateIntrinsic(Intrinsic::arm_mve_vstr_scatter_base_wb,
{Ptr->getType(), Input->getType()},
{Ptr, Builder.getInt32(Increment), Input});
else
return Builder.CreateIntrinsic(
Intrinsic::arm_mve_vstr_scatter_base_wb_predicated,
{Ptr->getType(), Input->getType(), Mask->getType()},
{Ptr, Builder.getInt32(Increment), Input, Mask});
}
Value *MVEGatherScatterLowering::tryCreateMaskedScatterOffset(
IntrinsicInst *I, Value *Ptr, IRBuilder<> &Builder) {
using namespace PatternMatch;
Value *Input = I->getArgOperand(0);
Value *Mask = I->getArgOperand(3);
Type *InputTy = Input->getType();
Type *MemoryTy = InputTy;
LLVM_DEBUG(dbgs() << "masked scatters: getelementpointer found. Storing"
<< " to base + vector of offsets\n");
// If the input has been truncated, try to integrate that trunc into the
// scatter instruction (we don't care about alignment here)
if (TruncInst *Trunc = dyn_cast<TruncInst>(Input)) {
Value *PreTrunc = Trunc->getOperand(0);
Type *PreTruncTy = PreTrunc->getType();
if (PreTruncTy->getPrimitiveSizeInBits() == 128) {
Input = PreTrunc;
InputTy = PreTruncTy;
}
}
if (InputTy->getPrimitiveSizeInBits() != 128) {
LLVM_DEBUG(
dbgs() << "masked scatters: cannot create scatters for non-standard"
<< " input types. Expanding.\n");
return nullptr;
}
GetElementPtrInst *GEP = dyn_cast<GetElementPtrInst>(Ptr);
Value *Offsets;
Value *BasePtr =
checkGEP(Offsets, cast<FixedVectorType>(InputTy), GEP, Builder);
if (!BasePtr)
return nullptr;
// Check whether the offset is a constant increment that could be merged into
// a QI gather
Value *Store =
tryCreateIncrementingGatScat(I, BasePtr, Offsets, GEP, Builder);
if (Store)
return Store;
int Scale = computeScale(
BasePtr->getType()->getPointerElementType()->getPrimitiveSizeInBits(),
MemoryTy->getScalarSizeInBits());
if (Scale == -1)
return nullptr;
if (!match(Mask, m_One()))
return Builder.CreateIntrinsic(
Intrinsic::arm_mve_vstr_scatter_offset_predicated,
{BasePtr->getType(), Offsets->getType(), Input->getType(),
Mask->getType()},
{BasePtr, Offsets, Input,
Builder.getInt32(MemoryTy->getScalarSizeInBits()),
Builder.getInt32(Scale), Mask});
else
return Builder.CreateIntrinsic(
Intrinsic::arm_mve_vstr_scatter_offset,
{BasePtr->getType(), Offsets->getType(), Input->getType()},
{BasePtr, Offsets, Input,
Builder.getInt32(MemoryTy->getScalarSizeInBits()),
Builder.getInt32(Scale)});
}
Value *MVEGatherScatterLowering::tryCreateIncrementingGatScat(
IntrinsicInst *I, Value *BasePtr, Value *Offsets, GetElementPtrInst *GEP,
IRBuilder<> &Builder) {
FixedVectorType *Ty;
if (I->getIntrinsicID() == Intrinsic::masked_gather)
Ty = cast<FixedVectorType>(I->getType());
else
Ty = cast<FixedVectorType>(I->getArgOperand(0)->getType());
// Incrementing gathers only exist for v4i32
if (Ty->getNumElements() != 4 ||
Ty->getScalarSizeInBits() != 32)
return nullptr;
Loop *L = LI->getLoopFor(I->getParent());
if (L == nullptr)
// Incrementing gathers are not beneficial outside of a loop
return nullptr;
LLVM_DEBUG(dbgs() << "masked gathers/scatters: trying to build incrementing "
"wb gather/scatter\n");
// The gep was in charge of making sure the offsets are scaled correctly
// - calculate that factor so it can be applied by hand
DataLayout DT = I->getParent()->getParent()->getParent()->getDataLayout();
int TypeScale =
computeScale(DT.getTypeSizeInBits(GEP->getOperand(0)->getType()),
DT.getTypeSizeInBits(GEP->getType()) /
cast<FixedVectorType>(GEP->getType())->getNumElements());
if (TypeScale == -1)
return nullptr;
if (GEP->hasOneUse()) {
// Only in this case do we want to build a wb gather, because the wb will
// change the phi which does affect other users of the gep (which will still
// be using the phi in the old way)
Value *Load =
tryCreateIncrementingWBGatScat(I, BasePtr, Offsets, TypeScale, Builder);
if (Load != nullptr)
return Load;
}
LLVM_DEBUG(dbgs() << "masked gathers/scatters: trying to build incrementing "
"non-wb gather/scatter\n");
std::pair<Value *, int64_t> Add = getVarAndConst(Offsets, TypeScale);
if (Add.first == nullptr)
return nullptr;
Value *OffsetsIncoming = Add.first;
int64_t Immediate = Add.second;
// Make sure the offsets are scaled correctly
Instruction *ScaledOffsets = BinaryOperator::Create(
Instruction::Shl, OffsetsIncoming,
Builder.CreateVectorSplat(Ty->getNumElements(), Builder.getInt32(TypeScale)),
"ScaledIndex", I);
// Add the base to the offsets
OffsetsIncoming = BinaryOperator::Create(
Instruction::Add, ScaledOffsets,
Builder.CreateVectorSplat(
Ty->getNumElements(),
Builder.CreatePtrToInt(
BasePtr,
cast<VectorType>(ScaledOffsets->getType())->getElementType())),
"StartIndex", I);
if (I->getIntrinsicID() == Intrinsic::masked_gather)
return cast<IntrinsicInst>(
tryCreateMaskedGatherBase(I, OffsetsIncoming, Builder, Immediate));
else
return cast<IntrinsicInst>(
tryCreateMaskedScatterBase(I, OffsetsIncoming, Builder, Immediate));
}
Value *MVEGatherScatterLowering::tryCreateIncrementingWBGatScat(
IntrinsicInst *I, Value *BasePtr, Value *Offsets, unsigned TypeScale,
IRBuilder<> &Builder) {
// Check whether this gather's offset is incremented by a constant - if so,
// and the load is of the right type, we can merge this into a QI gather
Loop *L = LI->getLoopFor(I->getParent());
// Offsets that are worth merging into this instruction will be incremented
// by a constant, thus we're looking for an add of a phi and a constant
PHINode *Phi = dyn_cast<PHINode>(Offsets);
if (Phi == nullptr || Phi->getNumIncomingValues() != 2 ||
Phi->getParent() != L->getHeader() || Phi->getNumUses() != 2)
// No phi means no IV to write back to; if there is a phi, we expect it
// to have exactly two incoming values; the only phis we are interested in
// will be loop IV's and have exactly two uses, one in their increment and
// one in the gather's gep
return nullptr;
unsigned IncrementIndex =
Phi->getIncomingBlock(0) == L->getLoopLatch() ? 0 : 1;
// Look through the phi to the phi increment
Offsets = Phi->getIncomingValue(IncrementIndex);
std::pair<Value *, int64_t> Add = getVarAndConst(Offsets, TypeScale);
if (Add.first == nullptr)
return nullptr;
Value *OffsetsIncoming = Add.first;
int64_t Immediate = Add.second;
if (OffsetsIncoming != Phi)
// Then the increment we are looking at is not an increment of the
// induction variable, and we don't want to do a writeback
return nullptr;
Builder.SetInsertPoint(&Phi->getIncomingBlock(1 - IncrementIndex)->back());
unsigned NumElems =
cast<FixedVectorType>(OffsetsIncoming->getType())->getNumElements();
// Make sure the offsets are scaled correctly
Instruction *ScaledOffsets = BinaryOperator::Create(
Instruction::Shl, Phi->getIncomingValue(1 - IncrementIndex),
Builder.CreateVectorSplat(NumElems, Builder.getInt32(TypeScale)),
"ScaledIndex", &Phi->getIncomingBlock(1 - IncrementIndex)->back());
// Add the base to the offsets
OffsetsIncoming = BinaryOperator::Create(
Instruction::Add, ScaledOffsets,
Builder.CreateVectorSplat(
NumElems,
Builder.CreatePtrToInt(
BasePtr,
cast<VectorType>(ScaledOffsets->getType())->getElementType())),
"StartIndex", &Phi->getIncomingBlock(1 - IncrementIndex)->back());
// The gather is pre-incrementing
OffsetsIncoming = BinaryOperator::Create(
Instruction::Sub, OffsetsIncoming,
Builder.CreateVectorSplat(NumElems, Builder.getInt32(Immediate)),
"PreIncrementStartIndex",
&Phi->getIncomingBlock(1 - IncrementIndex)->back());
Phi->setIncomingValue(1 - IncrementIndex, OffsetsIncoming);
Builder.SetInsertPoint(I);
Value *EndResult;
Value *NewInduction;
if (I->getIntrinsicID() == Intrinsic::masked_gather) {
// Build the incrementing gather
Value *Load = tryCreateMaskedGatherBaseWB(I, Phi, Builder, Immediate);
// One value to be handed to whoever uses the gather, one is the loop
// increment
EndResult = Builder.CreateExtractValue(Load, 0, "Gather");
NewInduction = Builder.CreateExtractValue(Load, 1, "GatherIncrement");
} else {
// Build the incrementing scatter
NewInduction = tryCreateMaskedScatterBaseWB(I, Phi, Builder, Immediate);
EndResult = NewInduction;
}
Instruction *AddInst = cast<Instruction>(Offsets);
AddInst->replaceAllUsesWith(NewInduction);
AddInst->eraseFromParent();
Phi->setIncomingValue(IncrementIndex, NewInduction);
return EndResult;
}
void MVEGatherScatterLowering::pushOutAdd(PHINode *&Phi,
Value *OffsSecondOperand,
unsigned StartIndex) {
LLVM_DEBUG(dbgs() << "masked gathers/scatters: optimising add instruction\n");
Instruction *InsertionPoint =
&cast<Instruction>(Phi->getIncomingBlock(StartIndex)->back());
// Initialize the phi with a vector that contains a sum of the constants
Instruction *NewIndex = BinaryOperator::Create(
Instruction::Add, Phi->getIncomingValue(StartIndex), OffsSecondOperand,
"PushedOutAdd", InsertionPoint);
unsigned IncrementIndex = StartIndex == 0 ? 1 : 0;
// Order such that start index comes first (this reduces mov's)
Phi->addIncoming(NewIndex, Phi->getIncomingBlock(StartIndex));
Phi->addIncoming(Phi->getIncomingValue(IncrementIndex),
Phi->getIncomingBlock(IncrementIndex));
Phi->removeIncomingValue(IncrementIndex);
Phi->removeIncomingValue(StartIndex);
}
void MVEGatherScatterLowering::pushOutMul(PHINode *&Phi,
Value *IncrementPerRound,
Value *OffsSecondOperand,
unsigned LoopIncrement,
IRBuilder<> &Builder) {
LLVM_DEBUG(dbgs() << "masked gathers/scatters: optimising mul instruction\n");
// Create a new scalar add outside of the loop and transform it to a splat
// by which loop variable can be incremented
Instruction *InsertionPoint = &cast<Instruction>(
Phi->getIncomingBlock(LoopIncrement == 1 ? 0 : 1)->back());
// Create a new index
Value *StartIndex = BinaryOperator::Create(
Instruction::Mul, Phi->getIncomingValue(LoopIncrement == 1 ? 0 : 1),
OffsSecondOperand, "PushedOutMul", InsertionPoint);
Instruction *Product =
BinaryOperator::Create(Instruction::Mul, IncrementPerRound,
OffsSecondOperand, "Product", InsertionPoint);
// Increment NewIndex by Product instead of the multiplication
Instruction *NewIncrement = BinaryOperator::Create(
Instruction::Add, Phi, Product, "IncrementPushedOutMul",
cast<Instruction>(Phi->getIncomingBlock(LoopIncrement)->back())
.getPrevNode());
Phi->addIncoming(StartIndex,
Phi->getIncomingBlock(LoopIncrement == 1 ? 0 : 1));
Phi->addIncoming(NewIncrement, Phi->getIncomingBlock(LoopIncrement));
Phi->removeIncomingValue((unsigned)0);
Phi->removeIncomingValue((unsigned)0);
}
// Check whether all usages of this instruction are as offsets of
// gathers/scatters or simple arithmetics only used by gathers/scatters
static bool hasAllGatScatUsers(Instruction *I) {
if (I->hasNUses(0)) {
return false;
}
bool Gatscat = true;
for (User *U : I->users()) {
if (!isa<Instruction>(U))
return false;
if (isa<GetElementPtrInst>(U) ||
isGatherScatter(dyn_cast<IntrinsicInst>(U))) {
return Gatscat;
} else {
unsigned OpCode = cast<Instruction>(U)->getOpcode();
if ((OpCode == Instruction::Add || OpCode == Instruction::Mul) &&
hasAllGatScatUsers(cast<Instruction>(U))) {
continue;
}
return false;
}
}
return Gatscat;
}
bool MVEGatherScatterLowering::optimiseOffsets(Value *Offsets, BasicBlock *BB,
LoopInfo *LI) {
LLVM_DEBUG(dbgs() << "masked gathers/scatters: trying to optimize\n");
// Optimise the addresses of gathers/scatters by moving invariant
// calculations out of the loop
if (!isa<Instruction>(Offsets))
return false;
Instruction *Offs = cast<Instruction>(Offsets);
if (Offs->getOpcode() != Instruction::Add &&
Offs->getOpcode() != Instruction::Mul)
return false;
Loop *L = LI->getLoopFor(BB);
if (L == nullptr)
return false;
if (!Offs->hasOneUse()) {
if (!hasAllGatScatUsers(Offs))
return false;
}
// Find out which, if any, operand of the instruction
// is a phi node
PHINode *Phi;
int OffsSecondOp;
if (isa<PHINode>(Offs->getOperand(0))) {
Phi = cast<PHINode>(Offs->getOperand(0));
OffsSecondOp = 1;
} else if (isa<PHINode>(Offs->getOperand(1))) {
Phi = cast<PHINode>(Offs->getOperand(1));
OffsSecondOp = 0;
} else {
bool Changed = true;
if (isa<Instruction>(Offs->getOperand(0)) &&
L->contains(cast<Instruction>(Offs->getOperand(0))))
Changed |= optimiseOffsets(Offs->getOperand(0), BB, LI);
if (isa<Instruction>(Offs->getOperand(1)) &&
L->contains(cast<Instruction>(Offs->getOperand(1))))
Changed |= optimiseOffsets(Offs->getOperand(1), BB, LI);
if (!Changed) {
return false;
} else {
if (isa<PHINode>(Offs->getOperand(0))) {
Phi = cast<PHINode>(Offs->getOperand(0));
OffsSecondOp = 1;
} else if (isa<PHINode>(Offs->getOperand(1))) {
Phi = cast<PHINode>(Offs->getOperand(1));
OffsSecondOp = 0;
} else {
return false;
}
}
}
// A phi node we want to perform this function on should be from the
// loop header, and shouldn't have more than 2 incoming values
if (Phi->getParent() != L->getHeader() ||
Phi->getNumIncomingValues() != 2)
return false;
// The phi must be an induction variable
int IncrementingBlock = -1;
for (int i = 0; i < 2; i++)
if (auto *Op = dyn_cast<Instruction>(Phi->getIncomingValue(i)))
if (Op->getOpcode() == Instruction::Add &&
(Op->getOperand(0) == Phi || Op->getOperand(1) == Phi))
IncrementingBlock = i;
if (IncrementingBlock == -1)
return false;
Instruction *IncInstruction =
cast<Instruction>(Phi->getIncomingValue(IncrementingBlock));
// If the phi is not used by anything else, we can just adapt it when
// replacing the instruction; if it is, we'll have to duplicate it
PHINode *NewPhi;
Value *IncrementPerRound = IncInstruction->getOperand(
(IncInstruction->getOperand(0) == Phi) ? 1 : 0);
// Get the value that is added to/multiplied with the phi
Value *OffsSecondOperand = Offs->getOperand(OffsSecondOp);
if (IncrementPerRound->getType() != OffsSecondOperand->getType() ||
!L->isLoopInvariant(OffsSecondOperand))
// Something has gone wrong, abort
return false;
// Only proceed if the increment per round is a constant or an instruction
// which does not originate from within the loop
if (!isa<Constant>(IncrementPerRound) &&
!(isa<Instruction>(IncrementPerRound) &&
!L->contains(cast<Instruction>(IncrementPerRound))))
return false;
if (Phi->getNumUses() == 2) {
// No other users -> reuse existing phi (One user is the instruction
// we're looking at, the other is the phi increment)
if (IncInstruction->getNumUses() != 1) {
// If the incrementing instruction does have more users than
// our phi, we need to copy it
IncInstruction = BinaryOperator::Create(
Instruction::BinaryOps(IncInstruction->getOpcode()), Phi,
IncrementPerRound, "LoopIncrement", IncInstruction);
Phi->setIncomingValue(IncrementingBlock, IncInstruction);
}
NewPhi = Phi;
} else {
// There are other users -> create a new phi
NewPhi = PHINode::Create(Phi->getType(), 0, "NewPhi", Phi);
std::vector<Value *> Increases;
// Copy the incoming values of the old phi
NewPhi->addIncoming(Phi->getIncomingValue(IncrementingBlock == 1 ? 0 : 1),
Phi->getIncomingBlock(IncrementingBlock == 1 ? 0 : 1));
IncInstruction = BinaryOperator::Create(
Instruction::BinaryOps(IncInstruction->getOpcode()), NewPhi,
IncrementPerRound, "LoopIncrement", IncInstruction);
NewPhi->addIncoming(IncInstruction,
Phi->getIncomingBlock(IncrementingBlock));
IncrementingBlock = 1;
}
IRBuilder<> Builder(BB->getContext());
Builder.SetInsertPoint(Phi);
Builder.SetCurrentDebugLocation(Offs->getDebugLoc());
switch (Offs->getOpcode()) {
case Instruction::Add:
pushOutAdd(NewPhi, OffsSecondOperand, IncrementingBlock == 1 ? 0 : 1);
break;
case Instruction::Mul:
pushOutMul(NewPhi, IncrementPerRound, OffsSecondOperand, IncrementingBlock,
Builder);
break;
default:
return false;
}
LLVM_DEBUG(
dbgs() << "masked gathers/scatters: simplified loop variable add/mul\n");
// The instruction has now been "absorbed" into the phi value
Offs->replaceAllUsesWith(NewPhi);
if (Offs->hasNUses(0))
Offs->eraseFromParent();
// Clean up the old increment in case it's unused because we built a new
// one
if (IncInstruction->hasNUses(0))
IncInstruction->eraseFromParent();
return true;
}
static Value *CheckAndCreateOffsetAdd(Value *X, Value *Y, Value *GEP,
IRBuilder<> &Builder) {
// Splat the non-vector value to a vector of the given type - if the value is
// a constant (and its value isn't too big), we can even use this opportunity
// to scale it to the size of the vector elements
auto FixSummands = [&Builder](FixedVectorType *&VT, Value *&NonVectorVal) {
ConstantInt *Const;
if ((Const = dyn_cast<ConstantInt>(NonVectorVal)) &&
VT->getElementType() != NonVectorVal->getType()) {
unsigned TargetElemSize = VT->getElementType()->getPrimitiveSizeInBits();
uint64_t N = Const->getZExtValue();
if (N < (unsigned)(1 << (TargetElemSize - 1))) {
NonVectorVal = Builder.CreateVectorSplat(
VT->getNumElements(), Builder.getIntN(TargetElemSize, N));
return;
}
}
NonVectorVal =
Builder.CreateVectorSplat(VT->getNumElements(), NonVectorVal);
};
FixedVectorType *XElType = dyn_cast<FixedVectorType>(X->getType());
FixedVectorType *YElType = dyn_cast<FixedVectorType>(Y->getType());
// If one of X, Y is not a vector, we have to splat it in order
// to add the two of them.
if (XElType && !YElType) {
FixSummands(XElType, Y);
YElType = cast<FixedVectorType>(Y->getType());
} else if (YElType && !XElType) {
FixSummands(YElType, X);
XElType = cast<FixedVectorType>(X->getType());
}
assert(XElType && YElType && "Unknown vector types");
// Check that the summands are of compatible types
if (XElType != YElType) {
LLVM_DEBUG(dbgs() << "masked gathers/scatters: incompatible gep offsets\n");
return nullptr;
}
if (XElType->getElementType()->getScalarSizeInBits() != 32) {
// Check that by adding the vectors we do not accidentally
// create an overflow
Constant *ConstX = dyn_cast<Constant>(X);
Constant *ConstY = dyn_cast<Constant>(Y);
if (!ConstX || !ConstY)
return nullptr;
unsigned TargetElemSize = 128 / XElType->getNumElements();
for (unsigned i = 0; i < XElType->getNumElements(); i++) {
ConstantInt *ConstXEl =
dyn_cast<ConstantInt>(ConstX->getAggregateElement(i));
ConstantInt *ConstYEl =
dyn_cast<ConstantInt>(ConstY->getAggregateElement(i));
if (!ConstXEl || !ConstYEl ||
ConstXEl->getZExtValue() + ConstYEl->getZExtValue() >=
(unsigned)(1 << (TargetElemSize - 1)))
return nullptr;
}
}
Value *Add = Builder.CreateAdd(X, Y);
FixedVectorType *GEPType = cast<FixedVectorType>(GEP->getType());
if (checkOffsetSize(Add, GEPType->getNumElements()))
return Add;
else
return nullptr;
}
Value *MVEGatherScatterLowering::foldGEP(GetElementPtrInst *GEP,
Value *&Offsets,
IRBuilder<> &Builder) {
Value *GEPPtr = GEP->getPointerOperand();
Offsets = GEP->getOperand(1);
// We only merge geps with constant offsets, because only for those
// we can make sure that we do not cause an overflow
if (!isa<Constant>(Offsets))
return nullptr;
GetElementPtrInst *BaseGEP;
if ((BaseGEP = dyn_cast<GetElementPtrInst>(GEPPtr))) {
// Merge the two geps into one
Value *BaseBasePtr = foldGEP(BaseGEP, Offsets, Builder);
if (!BaseBasePtr)
return nullptr;
Offsets =
CheckAndCreateOffsetAdd(Offsets, GEP->getOperand(1), GEP, Builder);
if (Offsets == nullptr)
return nullptr;
return BaseBasePtr;
}
return GEPPtr;
}
bool MVEGatherScatterLowering::optimiseAddress(Value *Address, BasicBlock *BB,
LoopInfo *LI) {
GetElementPtrInst *GEP = dyn_cast<GetElementPtrInst>(Address);
if (!GEP)
return false;
bool Changed = false;
if (GEP->hasOneUse() &&
dyn_cast<GetElementPtrInst>(GEP->getPointerOperand())) {
IRBuilder<> Builder(GEP->getContext());
Builder.SetInsertPoint(GEP);
Builder.SetCurrentDebugLocation(GEP->getDebugLoc());
Value *Offsets;
Value *Base = foldGEP(GEP, Offsets, Builder);
// We only want to merge the geps if there is a real chance that they can be
// used by an MVE gather; thus the offset has to have the correct size
// (always i32 if it is not of vector type) and the base has to be a
// pointer.
if (Offsets && Base && Base != GEP) {
PointerType *BaseType = cast<PointerType>(Base->getType());
GetElementPtrInst *NewAddress = GetElementPtrInst::Create(
BaseType->getPointerElementType(), Base, Offsets, "gep.merged", GEP);
GEP->replaceAllUsesWith(NewAddress);
GEP = NewAddress;
Changed = true;
}
}
Changed |= optimiseOffsets(GEP->getOperand(1), GEP->getParent(), LI);
return Changed;
}
bool MVEGatherScatterLowering::runOnFunction(Function &F) {
if (!EnableMaskedGatherScatters)
return false;
auto &TPC = getAnalysis<TargetPassConfig>();
auto &TM = TPC.getTM<TargetMachine>();
auto *ST = &TM.getSubtarget<ARMSubtarget>(F);
if (!ST->hasMVEIntegerOps())
return false;
LI = &getAnalysis<LoopInfoWrapperPass>().getLoopInfo();
SmallVector<IntrinsicInst *, 4> Gathers;
SmallVector<IntrinsicInst *, 4> Scatters;
bool Changed = false;
for (BasicBlock &BB : F) {
Changed |= SimplifyInstructionsInBlock(&BB);
for (Instruction &I : BB) {
IntrinsicInst *II = dyn_cast<IntrinsicInst>(&I);
if (II && II->getIntrinsicID() == Intrinsic::masked_gather &&
isa<FixedVectorType>(II->getType())) {
Gathers.push_back(II);
Changed |= optimiseAddress(II->getArgOperand(0), II->getParent(), LI);
} else if (II && II->getIntrinsicID() == Intrinsic::masked_scatter &&
isa<FixedVectorType>(II->getArgOperand(0)->getType())) {
Scatters.push_back(II);
Changed |= optimiseAddress(II->getArgOperand(1), II->getParent(), LI);
}
}
}
for (unsigned i = 0; i < Gathers.size(); i++) {
IntrinsicInst *I = Gathers[i];
Value *L = lowerGather(I);
if (L == nullptr)
continue;
// Get rid of any now dead instructions
SimplifyInstructionsInBlock(cast<Instruction>(L)->getParent());
Changed = true;
}
for (unsigned i = 0; i < Scatters.size(); i++) {
IntrinsicInst *I = Scatters[i];
Value *S = lowerScatter(I);
if (S == nullptr)
continue;
// Get rid of any now dead instructions
SimplifyInstructionsInBlock(cast<Instruction>(S)->getParent());
Changed = true;
}
return Changed;
}
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