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1271774638
The patch https://reviews.llvm.org/D101469 is intended to enable loop unrolling, not interleaved access vectorization. The method bool enableInterleavedAccessVectorization() should not be implemented.
189 lines
6.3 KiB
C++
189 lines
6.3 KiB
C++
//===- RISCVTargetTransformInfo.h - RISC-V specific TTI ---------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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/// \file
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/// This file defines a TargetTransformInfo::Concept conforming object specific
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/// to the RISC-V target machine. It uses the target's detailed information to
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/// provide more precise answers to certain TTI queries, while letting the
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/// target independent and default TTI implementations handle the rest.
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///
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_LIB_TARGET_RISCV_RISCVTARGETTRANSFORMINFO_H
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#define LLVM_LIB_TARGET_RISCV_RISCVTARGETTRANSFORMINFO_H
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#include "RISCVSubtarget.h"
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#include "RISCVTargetMachine.h"
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#include "llvm/Analysis/TargetTransformInfo.h"
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#include "llvm/CodeGen/BasicTTIImpl.h"
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#include "llvm/IR/Function.h"
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namespace llvm {
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class RISCVTTIImpl : public BasicTTIImplBase<RISCVTTIImpl> {
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using BaseT = BasicTTIImplBase<RISCVTTIImpl>;
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using TTI = TargetTransformInfo;
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friend BaseT;
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const RISCVSubtarget *ST;
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const RISCVTargetLowering *TLI;
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const RISCVSubtarget *getST() const { return ST; }
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const RISCVTargetLowering *getTLI() const { return TLI; }
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public:
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explicit RISCVTTIImpl(const RISCVTargetMachine *TM, const Function &F)
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: BaseT(TM, F.getParent()->getDataLayout()), ST(TM->getSubtargetImpl(F)),
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TLI(ST->getTargetLowering()) {}
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InstructionCost getIntImmCost(const APInt &Imm, Type *Ty,
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TTI::TargetCostKind CostKind);
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InstructionCost getIntImmCostInst(unsigned Opcode, unsigned Idx,
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const APInt &Imm, Type *Ty,
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TTI::TargetCostKind CostKind,
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Instruction *Inst = nullptr);
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InstructionCost getIntImmCostIntrin(Intrinsic::ID IID, unsigned Idx,
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const APInt &Imm, Type *Ty,
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TTI::TargetCostKind CostKind);
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TargetTransformInfo::PopcntSupportKind getPopcntSupport(unsigned TyWidth);
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bool shouldExpandReduction(const IntrinsicInst *II) const;
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bool supportsScalableVectors() const { return ST->hasStdExtV(); }
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Optional<unsigned> getMaxVScale() const;
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TypeSize getRegisterBitWidth(TargetTransformInfo::RegisterKind K) const {
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switch (K) {
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case TargetTransformInfo::RGK_Scalar:
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return TypeSize::getFixed(ST->getXLen());
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case TargetTransformInfo::RGK_FixedWidthVector:
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return TypeSize::getFixed(
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ST->hasStdExtV() ? ST->getMinRVVVectorSizeInBits() : 0);
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case TargetTransformInfo::RGK_ScalableVector:
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return TypeSize::getScalable(
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ST->hasStdExtV() ? ST->getMinRVVVectorSizeInBits() : 0);
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}
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llvm_unreachable("Unsupported register kind");
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}
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InstructionCost getGatherScatterOpCost(unsigned Opcode, Type *DataTy,
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const Value *Ptr, bool VariableMask,
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Align Alignment,
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TTI::TargetCostKind CostKind,
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const Instruction *I);
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bool isLegalElementTypeForRVV(Type *ScalarTy) const {
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if (ScalarTy->isPointerTy())
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return true;
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if (ScalarTy->isIntegerTy(8) || ScalarTy->isIntegerTy(16) ||
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ScalarTy->isIntegerTy(32) || ScalarTy->isIntegerTy(64))
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return true;
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if (ScalarTy->isHalfTy())
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return ST->hasStdExtZfh();
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if (ScalarTy->isFloatTy())
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return ST->hasStdExtF();
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if (ScalarTy->isDoubleTy())
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return ST->hasStdExtD();
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return false;
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}
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bool isLegalMaskedLoadStore(Type *DataType, Align Alignment) {
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if (!ST->hasStdExtV())
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return false;
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// Only support fixed vectors if we know the minimum vector size.
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if (isa<FixedVectorType>(DataType) && ST->getMinRVVVectorSizeInBits() == 0)
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return false;
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if (Alignment <
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DL.getTypeStoreSize(DataType->getScalarType()).getFixedSize())
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return false;
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return isLegalElementTypeForRVV(DataType->getScalarType());
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}
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bool isLegalMaskedLoad(Type *DataType, Align Alignment) {
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return isLegalMaskedLoadStore(DataType, Alignment);
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}
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bool isLegalMaskedStore(Type *DataType, Align Alignment) {
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return isLegalMaskedLoadStore(DataType, Alignment);
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}
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bool isLegalMaskedGatherScatter(Type *DataType, Align Alignment) {
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if (!ST->hasStdExtV())
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return false;
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// Only support fixed vectors if we know the minimum vector size.
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if (isa<FixedVectorType>(DataType) && ST->getMinRVVVectorSizeInBits() == 0)
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return false;
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if (Alignment <
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DL.getTypeStoreSize(DataType->getScalarType()).getFixedSize())
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return false;
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return isLegalElementTypeForRVV(DataType->getScalarType());
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}
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bool isLegalMaskedGather(Type *DataType, Align Alignment) {
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return isLegalMaskedGatherScatter(DataType, Alignment);
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}
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bool isLegalMaskedScatter(Type *DataType, Align Alignment) {
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return isLegalMaskedGatherScatter(DataType, Alignment);
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}
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/// \returns How the target needs this vector-predicated operation to be
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/// transformed.
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TargetTransformInfo::VPLegalization
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getVPLegalizationStrategy(const VPIntrinsic &PI) const {
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using VPLegalization = TargetTransformInfo::VPLegalization;
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return VPLegalization(VPLegalization::Legal, VPLegalization::Legal);
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}
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bool isLegalToVectorizeReduction(const RecurrenceDescriptor &RdxDesc,
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ElementCount VF) const {
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if (!ST->hasStdExtV())
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return false;
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if (!VF.isScalable())
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return true;
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Type *Ty = RdxDesc.getRecurrenceType();
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if (!isLegalElementTypeForRVV(Ty))
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return false;
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switch (RdxDesc.getRecurrenceKind()) {
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case RecurKind::Add:
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case RecurKind::FAdd:
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case RecurKind::And:
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case RecurKind::Or:
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case RecurKind::Xor:
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case RecurKind::SMin:
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case RecurKind::SMax:
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case RecurKind::UMin:
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case RecurKind::UMax:
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case RecurKind::FMin:
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case RecurKind::FMax:
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return true;
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default:
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return false;
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}
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}
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unsigned getMaxInterleaveFactor(unsigned VF) {
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return ST->getMaxInterleaveFactor();
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}
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};
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} // end namespace llvm
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#endif // LLVM_LIB_TARGET_RISCV_RISCVTARGETTRANSFORMINFO_H
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