forked from OSchip/llvm-project
384 lines
13 KiB
C++
384 lines
13 KiB
C++
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//===- BasicTargetTransformInfo.cpp - Basic target-independent TTI impl ---===//
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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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/// \file
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/// This file provides the implementation of a basic TargetTransformInfo pass
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/// predicated on the target abstractions present in the target independent
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/// code generator. It uses these (primarily TargetLowering) to model as much
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/// of the TTI query interface as possible. It is included by most targets so
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/// that they can specialize only a small subset of the query space.
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///
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//===----------------------------------------------------------------------===//
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#define DEBUG_TYPE "basictti"
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#include "llvm/CodeGen/Passes.h"
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#include "llvm/Target/TargetLowering.h"
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#include "llvm/TargetTransformInfo.h"
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#include <utility>
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using namespace llvm;
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namespace {
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class BasicTTI : public ImmutablePass, public TargetTransformInfo {
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const TargetLowering *TLI;
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/// Estimate the overhead of scalarizing an instruction. Insert and Extract
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/// are set if the result needs to be inserted and/or extracted from vectors.
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unsigned getScalarizationOverhead(Type *Ty, bool Insert, bool Extract) const;
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public:
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BasicTTI() : ImmutablePass(ID), TLI(0) {
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llvm_unreachable("This pass cannot be directly constructed");
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}
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BasicTTI(const TargetLowering *TLI) : ImmutablePass(ID), TLI(TLI) {
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initializeBasicTTIPass(*PassRegistry::getPassRegistry());
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}
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virtual void initializePass() {
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pushTTIStack(this);
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}
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virtual void finalizePass() {
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popTTIStack();
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}
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virtual void getAnalysisUsage(AnalysisUsage &AU) const {
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TargetTransformInfo::getAnalysisUsage(AU);
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}
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/// Pass identification.
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static char ID;
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/// Provide necessary pointer adjustments for the two base classes.
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virtual void *getAdjustedAnalysisPointer(const void *ID) {
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if (ID == &TargetTransformInfo::ID)
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return (TargetTransformInfo*)this;
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return this;
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}
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/// \name Scalar TTI Implementations
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/// @{
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virtual bool isLegalAddImmediate(int64_t imm) const;
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virtual bool isLegalICmpImmediate(int64_t imm) const;
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virtual bool isLegalAddressingMode(Type *Ty, GlobalValue *BaseGV,
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int64_t BaseOffset, bool HasBaseReg,
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int64_t Scale) const;
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virtual bool isTruncateFree(Type *Ty1, Type *Ty2) const;
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virtual bool isTypeLegal(Type *Ty) const;
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virtual unsigned getJumpBufAlignment() const;
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virtual unsigned getJumpBufSize() const;
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virtual bool shouldBuildLookupTables() const;
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/// @}
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/// \name Vector TTI Implementations
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/// @{
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virtual unsigned getNumberOfRegisters(bool Vector) const;
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virtual unsigned getArithmeticInstrCost(unsigned Opcode, Type *Ty) const;
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virtual unsigned getShuffleCost(ShuffleKind Kind, Type *Tp,
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int Index, Type *SubTp) const;
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virtual unsigned getCastInstrCost(unsigned Opcode, Type *Dst,
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Type *Src) const;
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virtual unsigned getCFInstrCost(unsigned Opcode) const;
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virtual unsigned getCmpSelInstrCost(unsigned Opcode, Type *ValTy,
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Type *CondTy) const;
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virtual unsigned getVectorInstrCost(unsigned Opcode, Type *Val,
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unsigned Index) const;
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virtual unsigned getMemoryOpCost(unsigned Opcode, Type *Src,
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unsigned Alignment,
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unsigned AddressSpace) const;
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virtual unsigned getIntrinsicInstrCost(Intrinsic::ID, Type *RetTy,
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ArrayRef<Type*> Tys) const;
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virtual unsigned getNumberOfParts(Type *Tp) const;
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/// @}
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};
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}
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INITIALIZE_AG_PASS(BasicTTI, TargetTransformInfo, "basictti",
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"Target independent code generator's TTI", true, true, false)
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char BasicTTI::ID = 0;
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ImmutablePass *
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llvm::createBasicTargetTransformInfoPass(const TargetLowering *TLI) {
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return new BasicTTI(TLI);
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}
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bool BasicTTI::isLegalAddImmediate(int64_t imm) const {
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return TLI->isLegalAddImmediate(imm);
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}
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bool BasicTTI::isLegalICmpImmediate(int64_t imm) const {
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return TLI->isLegalICmpImmediate(imm);
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}
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bool BasicTTI::isLegalAddressingMode(Type *Ty, GlobalValue *BaseGV,
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int64_t BaseOffset, bool HasBaseReg,
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int64_t Scale) const {
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AddrMode AM;
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AM.BaseGV = BaseGV;
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AM.BaseOffs = BaseOffset;
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AM.HasBaseReg = HasBaseReg;
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AM.Scale = Scale;
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return TLI->isLegalAddressingMode(AM, Ty);
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}
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bool BasicTTI::isTruncateFree(Type *Ty1, Type *Ty2) const {
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return TLI->isTruncateFree(Ty1, Ty2);
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}
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bool BasicTTI::isTypeLegal(Type *Ty) const {
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EVT T = TLI->getValueType(Ty);
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return TLI->isTypeLegal(T);
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}
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unsigned BasicTTI::getJumpBufAlignment() const {
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return TLI->getJumpBufAlignment();
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}
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unsigned BasicTTI::getJumpBufSize() const {
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return TLI->getJumpBufSize();
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}
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bool BasicTTI::shouldBuildLookupTables() const {
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return TLI->supportJumpTables() &&
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(TLI->isOperationLegalOrCustom(ISD::BR_JT, MVT::Other) ||
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TLI->isOperationLegalOrCustom(ISD::BRIND, MVT::Other));
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}
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//===----------------------------------------------------------------------===//
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//
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// Calls used by the vectorizers.
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//
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//===----------------------------------------------------------------------===//
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unsigned BasicTTI::getScalarizationOverhead(Type *Ty, bool Insert,
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bool Extract) const {
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assert (Ty->isVectorTy() && "Can only scalarize vectors");
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unsigned Cost = 0;
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for (int i = 0, e = Ty->getVectorNumElements(); i < e; ++i) {
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if (Insert)
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Cost += TopTTI->getVectorInstrCost(Instruction::InsertElement, Ty, i);
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if (Extract)
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Cost += TopTTI->getVectorInstrCost(Instruction::ExtractElement, Ty, i);
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}
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return Cost;
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}
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unsigned BasicTTI::getNumberOfRegisters(bool Vector) const {
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return 1;
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}
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unsigned BasicTTI::getArithmeticInstrCost(unsigned Opcode, Type *Ty) const {
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// Check if any of the operands are vector operands.
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int ISD = TLI->InstructionOpcodeToISD(Opcode);
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assert(ISD && "Invalid opcode");
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std::pair<unsigned, MVT> LT = TLI->getTypeLegalizationCost(Ty);
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if (TLI->isOperationLegalOrPromote(ISD, LT.second)) {
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// The operation is legal. Assume it costs 1.
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// If the type is split to multiple registers, assume that thre is some
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// overhead to this.
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// TODO: Once we have extract/insert subvector cost we need to use them.
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if (LT.first > 1)
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return LT.first * 2;
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return LT.first * 1;
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}
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if (!TLI->isOperationExpand(ISD, LT.second)) {
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// If the operation is custom lowered then assume
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// thare the code is twice as expensive.
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return LT.first * 2;
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}
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// Else, assume that we need to scalarize this op.
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if (Ty->isVectorTy()) {
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unsigned Num = Ty->getVectorNumElements();
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unsigned Cost = TopTTI->getArithmeticInstrCost(Opcode, Ty->getScalarType());
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// return the cost of multiple scalar invocation plus the cost of inserting
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// and extracting the values.
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return getScalarizationOverhead(Ty, true, true) + Num * Cost;
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}
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// We don't know anything about this scalar instruction.
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return 1;
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}
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unsigned BasicTTI::getShuffleCost(ShuffleKind Kind, Type *Tp, int Index,
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Type *SubTp) const {
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return 1;
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}
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unsigned BasicTTI::getCastInstrCost(unsigned Opcode, Type *Dst,
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Type *Src) const {
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int ISD = TLI->InstructionOpcodeToISD(Opcode);
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assert(ISD && "Invalid opcode");
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std::pair<unsigned, MVT> SrcLT = TLI->getTypeLegalizationCost(Src);
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std::pair<unsigned, MVT> DstLT = TLI->getTypeLegalizationCost(Dst);
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// Handle scalar conversions.
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if (!Src->isVectorTy() && !Dst->isVectorTy()) {
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// Scalar bitcasts are usually free.
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if (Opcode == Instruction::BitCast)
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return 0;
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if (Opcode == Instruction::Trunc &&
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TLI->isTruncateFree(SrcLT.second, DstLT.second))
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return 0;
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if (Opcode == Instruction::ZExt &&
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TLI->isZExtFree(SrcLT.second, DstLT.second))
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return 0;
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// Just check the op cost. If the operation is legal then assume it costs 1.
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if (!TLI->isOperationExpand(ISD, DstLT.second))
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return 1;
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// Assume that illegal scalar instruction are expensive.
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return 4;
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}
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// Check vector-to-vector casts.
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if (Dst->isVectorTy() && Src->isVectorTy()) {
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// If the cast is between same-sized registers, then the check is simple.
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if (SrcLT.first == DstLT.first &&
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SrcLT.second.getSizeInBits() == DstLT.second.getSizeInBits()) {
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// Bitcast between types that are legalized to the same type are free.
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if (Opcode == Instruction::BitCast || Opcode == Instruction::Trunc)
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return 0;
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// Assume that Zext is done using AND.
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if (Opcode == Instruction::ZExt)
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return 1;
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// Assume that sext is done using SHL and SRA.
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if (Opcode == Instruction::SExt)
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return 2;
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// Just check the op cost. If the operation is legal then assume it costs
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// 1 and multiply by the type-legalization overhead.
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if (!TLI->isOperationExpand(ISD, DstLT.second))
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return SrcLT.first * 1;
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}
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// If we are converting vectors and the operation is illegal, or
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// if the vectors are legalized to different types, estimate the
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// scalarization costs.
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unsigned Num = Dst->getVectorNumElements();
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unsigned Cost = TopTTI->getCastInstrCost(Opcode, Dst->getScalarType(),
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Src->getScalarType());
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// Return the cost of multiple scalar invocation plus the cost of
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// inserting and extracting the values.
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return getScalarizationOverhead(Dst, true, true) + Num * Cost;
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}
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// We already handled vector-to-vector and scalar-to-scalar conversions. This
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// is where we handle bitcast between vectors and scalars. We need to assume
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// that the conversion is scalarized in one way or another.
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if (Opcode == Instruction::BitCast)
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// Illegal bitcasts are done by storing and loading from a stack slot.
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return (Src->isVectorTy()? getScalarizationOverhead(Src, false, true):0) +
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(Dst->isVectorTy()? getScalarizationOverhead(Dst, true, false):0);
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llvm_unreachable("Unhandled cast");
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}
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unsigned BasicTTI::getCFInstrCost(unsigned Opcode) const {
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// Branches are assumed to be predicted.
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return 0;
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}
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unsigned BasicTTI::getCmpSelInstrCost(unsigned Opcode, Type *ValTy,
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Type *CondTy) const {
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int ISD = TLI->InstructionOpcodeToISD(Opcode);
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assert(ISD && "Invalid opcode");
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// Selects on vectors are actually vector selects.
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if (ISD == ISD::SELECT) {
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assert(CondTy && "CondTy must exist");
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if (CondTy->isVectorTy())
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ISD = ISD::VSELECT;
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}
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std::pair<unsigned, MVT> LT = TLI->getTypeLegalizationCost(ValTy);
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if (!TLI->isOperationExpand(ISD, LT.second)) {
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// The operation is legal. Assume it costs 1. Multiply
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// by the type-legalization overhead.
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return LT.first * 1;
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}
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// Otherwise, assume that the cast is scalarized.
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if (ValTy->isVectorTy()) {
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unsigned Num = ValTy->getVectorNumElements();
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if (CondTy)
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CondTy = CondTy->getScalarType();
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unsigned Cost = TopTTI->getCmpSelInstrCost(Opcode, ValTy->getScalarType(),
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CondTy);
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// Return the cost of multiple scalar invocation plus the cost of inserting
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// and extracting the values.
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return getScalarizationOverhead(ValTy, true, false) + Num * Cost;
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}
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// Unknown scalar opcode.
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return 1;
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}
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unsigned BasicTTI::getVectorInstrCost(unsigned Opcode, Type *Val,
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unsigned Index) const {
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return 1;
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}
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unsigned BasicTTI::getMemoryOpCost(unsigned Opcode, Type *Src,
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unsigned Alignment,
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unsigned AddressSpace) const {
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assert(!Src->isVoidTy() && "Invalid type");
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std::pair<unsigned, MVT> LT = TLI->getTypeLegalizationCost(Src);
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// Assume that all loads of legal types cost 1.
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return LT.first;
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}
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unsigned BasicTTI::getIntrinsicInstrCost(Intrinsic::ID, Type *RetTy,
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ArrayRef<Type *> Tys) const {
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// assume that we need to scalarize this intrinsic.
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unsigned ScalarizationCost = 0;
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unsigned ScalarCalls = 1;
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if (RetTy->isVectorTy()) {
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ScalarizationCost = getScalarizationOverhead(RetTy, true, false);
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ScalarCalls = std::max(ScalarCalls, RetTy->getVectorNumElements());
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}
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for (unsigned i = 0, ie = Tys.size(); i != ie; ++i) {
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if (Tys[i]->isVectorTy()) {
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ScalarizationCost += getScalarizationOverhead(Tys[i], false, true);
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ScalarCalls = std::max(ScalarCalls, RetTy->getVectorNumElements());
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}
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}
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return ScalarCalls + ScalarizationCost;
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}
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unsigned BasicTTI::getNumberOfParts(Type *Tp) const {
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std::pair<unsigned, MVT> LT = TLI->getTypeLegalizationCost(Tp);
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return LT.first;
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}
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