forked from OSchip/llvm-project
512 lines
19 KiB
C++
512 lines
19 KiB
C++
//===- llvm/Analysis/TargetTransformInfo.cpp ------------------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Analysis/TargetTransformInfo.h"
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#include "llvm/Analysis/TargetTransformInfoImpl.h"
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#include "llvm/IR/CallSite.h"
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#include "llvm/IR/DataLayout.h"
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#include "llvm/IR/Instruction.h"
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#include "llvm/IR/Instructions.h"
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#include "llvm/IR/IntrinsicInst.h"
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#include "llvm/IR/Module.h"
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#include "llvm/IR/Operator.h"
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#include "llvm/Support/ErrorHandling.h"
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#include <utility>
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using namespace llvm;
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#define DEBUG_TYPE "tti"
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namespace {
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/// \brief No-op implementation of the TTI interface using the utility base
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/// classes.
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///
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/// This is used when no target specific information is available.
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struct NoTTIImpl : TargetTransformInfoImplCRTPBase<NoTTIImpl> {
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explicit NoTTIImpl(const DataLayout &DL)
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: TargetTransformInfoImplCRTPBase<NoTTIImpl>(DL) {}
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};
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}
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TargetTransformInfo::TargetTransformInfo(const DataLayout &DL)
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: TTIImpl(new Model<NoTTIImpl>(NoTTIImpl(DL))) {}
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TargetTransformInfo::~TargetTransformInfo() {}
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TargetTransformInfo::TargetTransformInfo(TargetTransformInfo &&Arg)
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: TTIImpl(std::move(Arg.TTIImpl)) {}
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TargetTransformInfo &TargetTransformInfo::operator=(TargetTransformInfo &&RHS) {
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TTIImpl = std::move(RHS.TTIImpl);
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return *this;
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}
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int TargetTransformInfo::getOperationCost(unsigned Opcode, Type *Ty,
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Type *OpTy) const {
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int Cost = TTIImpl->getOperationCost(Opcode, Ty, OpTy);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getCallCost(FunctionType *FTy, int NumArgs) const {
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int Cost = TTIImpl->getCallCost(FTy, NumArgs);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getCallCost(const Function *F,
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ArrayRef<const Value *> Arguments) const {
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int Cost = TTIImpl->getCallCost(F, Arguments);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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unsigned TargetTransformInfo::getInliningThresholdMultiplier() const {
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return TTIImpl->getInliningThresholdMultiplier();
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}
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int TargetTransformInfo::getGEPCost(Type *PointeeType, const Value *Ptr,
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ArrayRef<const Value *> Operands) const {
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return TTIImpl->getGEPCost(PointeeType, Ptr, Operands);
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}
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int TargetTransformInfo::getIntrinsicCost(
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Intrinsic::ID IID, Type *RetTy, ArrayRef<const Value *> Arguments) const {
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int Cost = TTIImpl->getIntrinsicCost(IID, RetTy, Arguments);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getUserCost(const User *U) const {
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int Cost = TTIImpl->getUserCost(U);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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bool TargetTransformInfo::hasBranchDivergence() const {
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return TTIImpl->hasBranchDivergence();
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}
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bool TargetTransformInfo::isSourceOfDivergence(const Value *V) const {
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return TTIImpl->isSourceOfDivergence(V);
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}
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bool TargetTransformInfo::isLoweredToCall(const Function *F) const {
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return TTIImpl->isLoweredToCall(F);
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}
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void TargetTransformInfo::getUnrollingPreferences(
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Loop *L, UnrollingPreferences &UP) const {
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return TTIImpl->getUnrollingPreferences(L, UP);
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}
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bool TargetTransformInfo::isLegalAddImmediate(int64_t Imm) const {
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return TTIImpl->isLegalAddImmediate(Imm);
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}
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bool TargetTransformInfo::isLegalICmpImmediate(int64_t Imm) const {
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return TTIImpl->isLegalICmpImmediate(Imm);
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}
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bool TargetTransformInfo::isLegalAddressingMode(Type *Ty, GlobalValue *BaseGV,
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int64_t BaseOffset,
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bool HasBaseReg,
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int64_t Scale,
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unsigned AddrSpace) const {
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return TTIImpl->isLegalAddressingMode(Ty, BaseGV, BaseOffset, HasBaseReg,
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Scale, AddrSpace);
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}
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bool TargetTransformInfo::isLegalMaskedStore(Type *DataType) const {
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return TTIImpl->isLegalMaskedStore(DataType);
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}
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bool TargetTransformInfo::isLegalMaskedLoad(Type *DataType) const {
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return TTIImpl->isLegalMaskedLoad(DataType);
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}
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bool TargetTransformInfo::isLegalMaskedGather(Type *DataType) const {
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return TTIImpl->isLegalMaskedGather(DataType);
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}
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bool TargetTransformInfo::isLegalMaskedScatter(Type *DataType) const {
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return TTIImpl->isLegalMaskedGather(DataType);
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}
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int TargetTransformInfo::getScalingFactorCost(Type *Ty, GlobalValue *BaseGV,
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int64_t BaseOffset,
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bool HasBaseReg,
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int64_t Scale,
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unsigned AddrSpace) const {
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int Cost = TTIImpl->getScalingFactorCost(Ty, BaseGV, BaseOffset, HasBaseReg,
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Scale, AddrSpace);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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bool TargetTransformInfo::isFoldableMemAccessOffset(Instruction *I,
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int64_t Offset) const {
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return TTIImpl->isFoldableMemAccessOffset(I, Offset);
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}
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bool TargetTransformInfo::isTruncateFree(Type *Ty1, Type *Ty2) const {
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return TTIImpl->isTruncateFree(Ty1, Ty2);
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}
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bool TargetTransformInfo::isProfitableToHoist(Instruction *I) const {
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return TTIImpl->isProfitableToHoist(I);
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}
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bool TargetTransformInfo::isTypeLegal(Type *Ty) const {
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return TTIImpl->isTypeLegal(Ty);
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}
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unsigned TargetTransformInfo::getJumpBufAlignment() const {
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return TTIImpl->getJumpBufAlignment();
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}
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unsigned TargetTransformInfo::getJumpBufSize() const {
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return TTIImpl->getJumpBufSize();
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}
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bool TargetTransformInfo::shouldBuildLookupTables() const {
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return TTIImpl->shouldBuildLookupTables();
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}
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bool TargetTransformInfo::shouldBuildLookupTablesForConstant(Constant *C) const {
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return TTIImpl->shouldBuildLookupTablesForConstant(C);
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}
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bool TargetTransformInfo::enableAggressiveInterleaving(bool LoopHasReductions) const {
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return TTIImpl->enableAggressiveInterleaving(LoopHasReductions);
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}
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bool TargetTransformInfo::enableInterleavedAccessVectorization() const {
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return TTIImpl->enableInterleavedAccessVectorization();
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}
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bool TargetTransformInfo::isFPVectorizationPotentiallyUnsafe() const {
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return TTIImpl->isFPVectorizationPotentiallyUnsafe();
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}
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bool TargetTransformInfo::allowsMisalignedMemoryAccesses(LLVMContext &Context,
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unsigned BitWidth,
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unsigned AddressSpace,
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unsigned Alignment,
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bool *Fast) const {
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return TTIImpl->allowsMisalignedMemoryAccesses(Context, BitWidth, AddressSpace,
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Alignment, Fast);
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}
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TargetTransformInfo::PopcntSupportKind
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TargetTransformInfo::getPopcntSupport(unsigned IntTyWidthInBit) const {
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return TTIImpl->getPopcntSupport(IntTyWidthInBit);
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}
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bool TargetTransformInfo::haveFastSqrt(Type *Ty) const {
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return TTIImpl->haveFastSqrt(Ty);
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}
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int TargetTransformInfo::getFPOpCost(Type *Ty) const {
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int Cost = TTIImpl->getFPOpCost(Ty);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getIntImmCodeSizeCost(unsigned Opcode, unsigned Idx,
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const APInt &Imm,
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Type *Ty) const {
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int Cost = TTIImpl->getIntImmCodeSizeCost(Opcode, Idx, Imm, Ty);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getIntImmCost(const APInt &Imm, Type *Ty) const {
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int Cost = TTIImpl->getIntImmCost(Imm, Ty);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getIntImmCost(unsigned Opcode, unsigned Idx,
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const APInt &Imm, Type *Ty) const {
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int Cost = TTIImpl->getIntImmCost(Opcode, Idx, Imm, Ty);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getIntImmCost(Intrinsic::ID IID, unsigned Idx,
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const APInt &Imm, Type *Ty) const {
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int Cost = TTIImpl->getIntImmCost(IID, Idx, Imm, Ty);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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unsigned TargetTransformInfo::getNumberOfRegisters(bool Vector) const {
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return TTIImpl->getNumberOfRegisters(Vector);
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}
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unsigned TargetTransformInfo::getRegisterBitWidth(bool Vector) const {
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return TTIImpl->getRegisterBitWidth(Vector);
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}
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unsigned TargetTransformInfo::getCacheLineSize() const {
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return TTIImpl->getCacheLineSize();
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}
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unsigned TargetTransformInfo::getPrefetchDistance() const {
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return TTIImpl->getPrefetchDistance();
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}
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unsigned TargetTransformInfo::getMinPrefetchStride() const {
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return TTIImpl->getMinPrefetchStride();
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}
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unsigned TargetTransformInfo::getMaxPrefetchIterationsAhead() const {
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return TTIImpl->getMaxPrefetchIterationsAhead();
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}
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unsigned TargetTransformInfo::getMaxInterleaveFactor(unsigned VF) const {
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return TTIImpl->getMaxInterleaveFactor(VF);
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}
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int TargetTransformInfo::getArithmeticInstrCost(
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unsigned Opcode, Type *Ty, OperandValueKind Opd1Info,
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OperandValueKind Opd2Info, OperandValueProperties Opd1PropInfo,
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OperandValueProperties Opd2PropInfo) const {
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int Cost = TTIImpl->getArithmeticInstrCost(Opcode, Ty, Opd1Info, Opd2Info,
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Opd1PropInfo, Opd2PropInfo);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getShuffleCost(ShuffleKind Kind, Type *Ty, int Index,
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Type *SubTp) const {
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int Cost = TTIImpl->getShuffleCost(Kind, Ty, Index, SubTp);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getCastInstrCost(unsigned Opcode, Type *Dst,
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Type *Src) const {
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int Cost = TTIImpl->getCastInstrCost(Opcode, Dst, Src);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getExtractWithExtendCost(unsigned Opcode, Type *Dst,
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VectorType *VecTy,
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unsigned Index) const {
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int Cost = TTIImpl->getExtractWithExtendCost(Opcode, Dst, VecTy, Index);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getCFInstrCost(unsigned Opcode) const {
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int Cost = TTIImpl->getCFInstrCost(Opcode);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getCmpSelInstrCost(unsigned Opcode, Type *ValTy,
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Type *CondTy) const {
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int Cost = TTIImpl->getCmpSelInstrCost(Opcode, ValTy, CondTy);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getVectorInstrCost(unsigned Opcode, Type *Val,
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unsigned Index) const {
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int Cost = TTIImpl->getVectorInstrCost(Opcode, Val, Index);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getMemoryOpCost(unsigned Opcode, Type *Src,
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unsigned Alignment,
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unsigned AddressSpace) const {
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int Cost = TTIImpl->getMemoryOpCost(Opcode, Src, Alignment, AddressSpace);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getMaskedMemoryOpCost(unsigned Opcode, Type *Src,
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unsigned Alignment,
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unsigned AddressSpace) const {
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int Cost =
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TTIImpl->getMaskedMemoryOpCost(Opcode, Src, Alignment, AddressSpace);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getGatherScatterOpCost(unsigned Opcode, Type *DataTy,
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Value *Ptr, bool VariableMask,
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unsigned Alignment) const {
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int Cost = TTIImpl->getGatherScatterOpCost(Opcode, DataTy, Ptr, VariableMask,
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Alignment);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getInterleavedMemoryOpCost(
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unsigned Opcode, Type *VecTy, unsigned Factor, ArrayRef<unsigned> Indices,
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unsigned Alignment, unsigned AddressSpace) const {
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int Cost = TTIImpl->getInterleavedMemoryOpCost(Opcode, VecTy, Factor, Indices,
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Alignment, AddressSpace);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getIntrinsicInstrCost(Intrinsic::ID ID, Type *RetTy,
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ArrayRef<Type *> Tys,
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FastMathFlags FMF) const {
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int Cost = TTIImpl->getIntrinsicInstrCost(ID, RetTy, Tys, FMF);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getIntrinsicInstrCost(Intrinsic::ID ID, Type *RetTy,
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ArrayRef<Value *> Args,
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FastMathFlags FMF) const {
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int Cost = TTIImpl->getIntrinsicInstrCost(ID, RetTy, Args, FMF);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getCallInstrCost(Function *F, Type *RetTy,
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ArrayRef<Type *> Tys) const {
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int Cost = TTIImpl->getCallInstrCost(F, RetTy, Tys);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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unsigned TargetTransformInfo::getNumberOfParts(Type *Tp) const {
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return TTIImpl->getNumberOfParts(Tp);
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}
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int TargetTransformInfo::getAddressComputationCost(Type *Tp,
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bool IsComplex) const {
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int Cost = TTIImpl->getAddressComputationCost(Tp, IsComplex);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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int TargetTransformInfo::getReductionCost(unsigned Opcode, Type *Ty,
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bool IsPairwiseForm) const {
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int Cost = TTIImpl->getReductionCost(Opcode, Ty, IsPairwiseForm);
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assert(Cost >= 0 && "TTI should not produce negative costs!");
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return Cost;
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}
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unsigned
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TargetTransformInfo::getCostOfKeepingLiveOverCall(ArrayRef<Type *> Tys) const {
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return TTIImpl->getCostOfKeepingLiveOverCall(Tys);
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}
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bool TargetTransformInfo::getTgtMemIntrinsic(IntrinsicInst *Inst,
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MemIntrinsicInfo &Info) const {
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return TTIImpl->getTgtMemIntrinsic(Inst, Info);
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}
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Value *TargetTransformInfo::getOrCreateResultFromMemIntrinsic(
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IntrinsicInst *Inst, Type *ExpectedType) const {
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return TTIImpl->getOrCreateResultFromMemIntrinsic(Inst, ExpectedType);
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}
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bool TargetTransformInfo::areInlineCompatible(const Function *Caller,
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const Function *Callee) const {
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return TTIImpl->areInlineCompatible(Caller, Callee);
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}
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unsigned TargetTransformInfo::getLoadStoreVecRegBitWidth(unsigned AS) const {
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return TTIImpl->getLoadStoreVecRegBitWidth(AS);
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}
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bool TargetTransformInfo::isLegalToVectorizeLoad(LoadInst *LI) const {
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return TTIImpl->isLegalToVectorizeLoad(LI);
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}
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bool TargetTransformInfo::isLegalToVectorizeStore(StoreInst *SI) const {
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return TTIImpl->isLegalToVectorizeStore(SI);
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}
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bool TargetTransformInfo::isLegalToVectorizeLoadChain(
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unsigned ChainSizeInBytes, unsigned Alignment, unsigned AddrSpace) const {
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return TTIImpl->isLegalToVectorizeLoadChain(ChainSizeInBytes, Alignment,
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AddrSpace);
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}
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bool TargetTransformInfo::isLegalToVectorizeStoreChain(
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unsigned ChainSizeInBytes, unsigned Alignment, unsigned AddrSpace) const {
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return TTIImpl->isLegalToVectorizeStoreChain(ChainSizeInBytes, Alignment,
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AddrSpace);
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}
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unsigned TargetTransformInfo::getLoadVectorFactor(unsigned VF,
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unsigned LoadSize,
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unsigned ChainSizeInBytes,
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VectorType *VecTy) const {
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return TTIImpl->getLoadVectorFactor(VF, LoadSize, ChainSizeInBytes, VecTy);
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}
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unsigned TargetTransformInfo::getStoreVectorFactor(unsigned VF,
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unsigned StoreSize,
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unsigned ChainSizeInBytes,
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VectorType *VecTy) const {
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return TTIImpl->getStoreVectorFactor(VF, StoreSize, ChainSizeInBytes, VecTy);
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}
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TargetTransformInfo::Concept::~Concept() {}
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TargetIRAnalysis::TargetIRAnalysis() : TTICallback(&getDefaultTTI) {}
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TargetIRAnalysis::TargetIRAnalysis(
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std::function<Result(const Function &)> TTICallback)
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: TTICallback(std::move(TTICallback)) {}
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TargetIRAnalysis::Result TargetIRAnalysis::run(const Function &F,
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FunctionAnalysisManager &) {
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return TTICallback(F);
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}
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char TargetIRAnalysis::PassID;
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TargetIRAnalysis::Result TargetIRAnalysis::getDefaultTTI(const Function &F) {
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return Result(F.getParent()->getDataLayout());
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}
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// Register the basic pass.
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INITIALIZE_PASS(TargetTransformInfoWrapperPass, "tti",
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"Target Transform Information", false, true)
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char TargetTransformInfoWrapperPass::ID = 0;
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void TargetTransformInfoWrapperPass::anchor() {}
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TargetTransformInfoWrapperPass::TargetTransformInfoWrapperPass()
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: ImmutablePass(ID) {
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initializeTargetTransformInfoWrapperPassPass(
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*PassRegistry::getPassRegistry());
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}
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TargetTransformInfoWrapperPass::TargetTransformInfoWrapperPass(
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TargetIRAnalysis TIRA)
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: ImmutablePass(ID), TIRA(std::move(TIRA)) {
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initializeTargetTransformInfoWrapperPassPass(
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*PassRegistry::getPassRegistry());
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}
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TargetTransformInfo &TargetTransformInfoWrapperPass::getTTI(const Function &F) {
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FunctionAnalysisManager DummyFAM;
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TTI = TIRA.run(F, DummyFAM);
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return *TTI;
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}
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ImmutablePass *
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llvm::createTargetTransformInfoWrapperPass(TargetIRAnalysis TIRA) {
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return new TargetTransformInfoWrapperPass(std::move(TIRA));
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}
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