10b57cec5SDimitry Andric //===- HexagonOptAddrMode.cpp ---------------------------------------------===// 20b57cec5SDimitry Andric // 30b57cec5SDimitry Andric // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 40b57cec5SDimitry Andric // See https://llvm.org/LICENSE.txt for license information. 50b57cec5SDimitry Andric // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 60b57cec5SDimitry Andric // 70b57cec5SDimitry Andric //===----------------------------------------------------------------------===// 80b57cec5SDimitry Andric // This implements a Hexagon-specific pass to optimize addressing mode for 90b57cec5SDimitry Andric // load/store instructions. 100b57cec5SDimitry Andric //===----------------------------------------------------------------------===// 110b57cec5SDimitry Andric 120b57cec5SDimitry Andric #include "HexagonInstrInfo.h" 130b57cec5SDimitry Andric #include "HexagonSubtarget.h" 140b57cec5SDimitry Andric #include "MCTargetDesc/HexagonBaseInfo.h" 150b57cec5SDimitry Andric #include "llvm/ADT/DenseMap.h" 160b57cec5SDimitry Andric #include "llvm/ADT/DenseSet.h" 170b57cec5SDimitry Andric #include "llvm/ADT/StringRef.h" 180b57cec5SDimitry Andric #include "llvm/CodeGen/MachineBasicBlock.h" 190b57cec5SDimitry Andric #include "llvm/CodeGen/MachineDominanceFrontier.h" 200b57cec5SDimitry Andric #include "llvm/CodeGen/MachineDominators.h" 210b57cec5SDimitry Andric #include "llvm/CodeGen/MachineFunction.h" 220b57cec5SDimitry Andric #include "llvm/CodeGen/MachineFunctionPass.h" 230b57cec5SDimitry Andric #include "llvm/CodeGen/MachineInstr.h" 240b57cec5SDimitry Andric #include "llvm/CodeGen/MachineInstrBuilder.h" 250b57cec5SDimitry Andric #include "llvm/CodeGen/MachineOperand.h" 260b57cec5SDimitry Andric #include "llvm/CodeGen/MachineRegisterInfo.h" 27*0946e70aSDimitry Andric #include "llvm/CodeGen/RDFGraph.h" 28*0946e70aSDimitry Andric #include "llvm/CodeGen/RDFLiveness.h" 29*0946e70aSDimitry Andric #include "llvm/CodeGen/RDFRegisters.h" 300b57cec5SDimitry Andric #include "llvm/CodeGen/TargetSubtargetInfo.h" 31480093f4SDimitry Andric #include "llvm/InitializePasses.h" 320b57cec5SDimitry Andric #include "llvm/MC/MCInstrDesc.h" 330b57cec5SDimitry Andric #include "llvm/Pass.h" 340b57cec5SDimitry Andric #include "llvm/Support/CommandLine.h" 350b57cec5SDimitry Andric #include "llvm/Support/Debug.h" 360b57cec5SDimitry Andric #include "llvm/Support/ErrorHandling.h" 370b57cec5SDimitry Andric #include "llvm/Support/raw_ostream.h" 380b57cec5SDimitry Andric #include <cassert> 390b57cec5SDimitry Andric #include <cstdint> 400b57cec5SDimitry Andric 410b57cec5SDimitry Andric #define DEBUG_TYPE "opt-addr-mode" 420b57cec5SDimitry Andric 430b57cec5SDimitry Andric using namespace llvm; 440b57cec5SDimitry Andric using namespace rdf; 450b57cec5SDimitry Andric 460b57cec5SDimitry Andric static cl::opt<int> CodeGrowthLimit("hexagon-amode-growth-limit", 470b57cec5SDimitry Andric cl::Hidden, cl::init(0), cl::desc("Code growth limit for address mode " 480b57cec5SDimitry Andric "optimization")); 490b57cec5SDimitry Andric 500b57cec5SDimitry Andric namespace llvm { 510b57cec5SDimitry Andric 520b57cec5SDimitry Andric FunctionPass *createHexagonOptAddrMode(); 530b57cec5SDimitry Andric void initializeHexagonOptAddrModePass(PassRegistry&); 540b57cec5SDimitry Andric 550b57cec5SDimitry Andric } // end namespace llvm 560b57cec5SDimitry Andric 570b57cec5SDimitry Andric namespace { 580b57cec5SDimitry Andric 590b57cec5SDimitry Andric class HexagonOptAddrMode : public MachineFunctionPass { 600b57cec5SDimitry Andric public: 610b57cec5SDimitry Andric static char ID; 620b57cec5SDimitry Andric 630b57cec5SDimitry Andric HexagonOptAddrMode() : MachineFunctionPass(ID) {} 640b57cec5SDimitry Andric 650b57cec5SDimitry Andric StringRef getPassName() const override { 660b57cec5SDimitry Andric return "Optimize addressing mode of load/store"; 670b57cec5SDimitry Andric } 680b57cec5SDimitry Andric 690b57cec5SDimitry Andric void getAnalysisUsage(AnalysisUsage &AU) const override { 700b57cec5SDimitry Andric MachineFunctionPass::getAnalysisUsage(AU); 710b57cec5SDimitry Andric AU.addRequired<MachineDominatorTree>(); 720b57cec5SDimitry Andric AU.addRequired<MachineDominanceFrontier>(); 730b57cec5SDimitry Andric AU.setPreservesAll(); 740b57cec5SDimitry Andric } 750b57cec5SDimitry Andric 760b57cec5SDimitry Andric bool runOnMachineFunction(MachineFunction &MF) override; 770b57cec5SDimitry Andric 780b57cec5SDimitry Andric private: 790b57cec5SDimitry Andric using MISetType = DenseSet<MachineInstr *>; 800b57cec5SDimitry Andric using InstrEvalMap = DenseMap<MachineInstr *, bool>; 810b57cec5SDimitry Andric 820b57cec5SDimitry Andric MachineRegisterInfo *MRI = nullptr; 830b57cec5SDimitry Andric const HexagonInstrInfo *HII = nullptr; 840b57cec5SDimitry Andric const HexagonRegisterInfo *HRI = nullptr; 850b57cec5SDimitry Andric MachineDominatorTree *MDT = nullptr; 860b57cec5SDimitry Andric DataFlowGraph *DFG = nullptr; 870b57cec5SDimitry Andric DataFlowGraph::DefStackMap DefM; 880b57cec5SDimitry Andric Liveness *LV = nullptr; 890b57cec5SDimitry Andric MISetType Deleted; 900b57cec5SDimitry Andric 910b57cec5SDimitry Andric bool processBlock(NodeAddr<BlockNode *> BA); 920b57cec5SDimitry Andric bool xformUseMI(MachineInstr *TfrMI, MachineInstr *UseMI, 930b57cec5SDimitry Andric NodeAddr<UseNode *> UseN, unsigned UseMOnum); 940b57cec5SDimitry Andric bool processAddUses(NodeAddr<StmtNode *> AddSN, MachineInstr *AddMI, 950b57cec5SDimitry Andric const NodeList &UNodeList); 960b57cec5SDimitry Andric bool updateAddUses(MachineInstr *AddMI, MachineInstr *UseMI); 970b57cec5SDimitry Andric bool analyzeUses(unsigned DefR, const NodeList &UNodeList, 980b57cec5SDimitry Andric InstrEvalMap &InstrEvalResult, short &SizeInc); 990b57cec5SDimitry Andric bool hasRepForm(MachineInstr &MI, unsigned TfrDefR); 1000b57cec5SDimitry Andric bool canRemoveAddasl(NodeAddr<StmtNode *> AddAslSN, MachineInstr &MI, 1010b57cec5SDimitry Andric const NodeList &UNodeList); 1020b57cec5SDimitry Andric bool isSafeToExtLR(NodeAddr<StmtNode *> SN, MachineInstr *MI, 1030b57cec5SDimitry Andric unsigned LRExtReg, const NodeList &UNodeList); 1040b57cec5SDimitry Andric void getAllRealUses(NodeAddr<StmtNode *> SN, NodeList &UNodeList); 1050b57cec5SDimitry Andric bool allValidCandidates(NodeAddr<StmtNode *> SA, NodeList &UNodeList); 1060b57cec5SDimitry Andric short getBaseWithLongOffset(const MachineInstr &MI) const; 1070b57cec5SDimitry Andric bool changeStore(MachineInstr *OldMI, MachineOperand ImmOp, 1080b57cec5SDimitry Andric unsigned ImmOpNum); 1090b57cec5SDimitry Andric bool changeLoad(MachineInstr *OldMI, MachineOperand ImmOp, unsigned ImmOpNum); 1100b57cec5SDimitry Andric bool changeAddAsl(NodeAddr<UseNode *> AddAslUN, MachineInstr *AddAslMI, 1110b57cec5SDimitry Andric const MachineOperand &ImmOp, unsigned ImmOpNum); 1120b57cec5SDimitry Andric bool isValidOffset(MachineInstr *MI, int Offset); 1130b57cec5SDimitry Andric }; 1140b57cec5SDimitry Andric 1150b57cec5SDimitry Andric } // end anonymous namespace 1160b57cec5SDimitry Andric 1170b57cec5SDimitry Andric char HexagonOptAddrMode::ID = 0; 1180b57cec5SDimitry Andric 1190b57cec5SDimitry Andric INITIALIZE_PASS_BEGIN(HexagonOptAddrMode, "amode-opt", 1200b57cec5SDimitry Andric "Optimize addressing mode", false, false) 1210b57cec5SDimitry Andric INITIALIZE_PASS_DEPENDENCY(MachineDominatorTree) 1220b57cec5SDimitry Andric INITIALIZE_PASS_DEPENDENCY(MachineDominanceFrontier) 1230b57cec5SDimitry Andric INITIALIZE_PASS_END(HexagonOptAddrMode, "amode-opt", "Optimize addressing mode", 1240b57cec5SDimitry Andric false, false) 1250b57cec5SDimitry Andric 1260b57cec5SDimitry Andric bool HexagonOptAddrMode::hasRepForm(MachineInstr &MI, unsigned TfrDefR) { 1270b57cec5SDimitry Andric const MCInstrDesc &MID = MI.getDesc(); 1280b57cec5SDimitry Andric 1290b57cec5SDimitry Andric if ((!MID.mayStore() && !MID.mayLoad()) || HII->isPredicated(MI)) 1300b57cec5SDimitry Andric return false; 1310b57cec5SDimitry Andric 1320b57cec5SDimitry Andric if (MID.mayStore()) { 1330b57cec5SDimitry Andric MachineOperand StOp = MI.getOperand(MI.getNumOperands() - 1); 1340b57cec5SDimitry Andric if (StOp.isReg() && StOp.getReg() == TfrDefR) 1350b57cec5SDimitry Andric return false; 1360b57cec5SDimitry Andric } 1370b57cec5SDimitry Andric 1380b57cec5SDimitry Andric if (HII->getAddrMode(MI) == HexagonII::BaseRegOffset) 1390b57cec5SDimitry Andric // Tranform to Absolute plus register offset. 1400b57cec5SDimitry Andric return (HII->changeAddrMode_rr_ur(MI) >= 0); 1410b57cec5SDimitry Andric else if (HII->getAddrMode(MI) == HexagonII::BaseImmOffset) 1420b57cec5SDimitry Andric // Tranform to absolute addressing mode. 1430b57cec5SDimitry Andric return (HII->changeAddrMode_io_abs(MI) >= 0); 1440b57cec5SDimitry Andric 1450b57cec5SDimitry Andric return false; 1460b57cec5SDimitry Andric } 1470b57cec5SDimitry Andric 1480b57cec5SDimitry Andric // Check if addasl instruction can be removed. This is possible only 1490b57cec5SDimitry Andric // if it's feeding to only load/store instructions with base + register 1500b57cec5SDimitry Andric // offset as these instruction can be tranformed to use 'absolute plus 1510b57cec5SDimitry Andric // shifted register offset'. 1520b57cec5SDimitry Andric // ex: 1530b57cec5SDimitry Andric // Rs = ##foo 1540b57cec5SDimitry Andric // Rx = addasl(Rs, Rt, #2) 1550b57cec5SDimitry Andric // Rd = memw(Rx + #28) 1560b57cec5SDimitry Andric // Above three instructions can be replaced with Rd = memw(Rt<<#2 + ##foo+28) 1570b57cec5SDimitry Andric 1580b57cec5SDimitry Andric bool HexagonOptAddrMode::canRemoveAddasl(NodeAddr<StmtNode *> AddAslSN, 1590b57cec5SDimitry Andric MachineInstr &MI, 1600b57cec5SDimitry Andric const NodeList &UNodeList) { 1610b57cec5SDimitry Andric // check offset size in addasl. if 'offset > 3' return false 1620b57cec5SDimitry Andric const MachineOperand &OffsetOp = MI.getOperand(3); 1630b57cec5SDimitry Andric if (!OffsetOp.isImm() || OffsetOp.getImm() > 3) 1640b57cec5SDimitry Andric return false; 1650b57cec5SDimitry Andric 1668bcb0991SDimitry Andric Register OffsetReg = MI.getOperand(2).getReg(); 1670b57cec5SDimitry Andric RegisterRef OffsetRR; 1680b57cec5SDimitry Andric NodeId OffsetRegRD = 0; 1690b57cec5SDimitry Andric for (NodeAddr<UseNode *> UA : AddAslSN.Addr->members_if(DFG->IsUse, *DFG)) { 1700b57cec5SDimitry Andric RegisterRef RR = UA.Addr->getRegRef(*DFG); 1710b57cec5SDimitry Andric if (OffsetReg == RR.Reg) { 1720b57cec5SDimitry Andric OffsetRR = RR; 1730b57cec5SDimitry Andric OffsetRegRD = UA.Addr->getReachingDef(); 1740b57cec5SDimitry Andric } 1750b57cec5SDimitry Andric } 1760b57cec5SDimitry Andric 1770b57cec5SDimitry Andric for (auto I = UNodeList.rbegin(), E = UNodeList.rend(); I != E; ++I) { 1780b57cec5SDimitry Andric NodeAddr<UseNode *> UA = *I; 1790b57cec5SDimitry Andric NodeAddr<InstrNode *> IA = UA.Addr->getOwner(*DFG); 1800b57cec5SDimitry Andric if (UA.Addr->getFlags() & NodeAttrs::PhiRef) 1810b57cec5SDimitry Andric return false; 1820b57cec5SDimitry Andric NodeAddr<RefNode*> AA = LV->getNearestAliasedRef(OffsetRR, IA); 1830b57cec5SDimitry Andric if ((DFG->IsDef(AA) && AA.Id != OffsetRegRD) || 1840b57cec5SDimitry Andric AA.Addr->getReachingDef() != OffsetRegRD) 1850b57cec5SDimitry Andric return false; 1860b57cec5SDimitry Andric 1870b57cec5SDimitry Andric MachineInstr &UseMI = *NodeAddr<StmtNode *>(IA).Addr->getCode(); 1880b57cec5SDimitry Andric NodeAddr<DefNode *> OffsetRegDN = DFG->addr<DefNode *>(OffsetRegRD); 1890b57cec5SDimitry Andric // Reaching Def to an offset register can't be a phi. 1900b57cec5SDimitry Andric if ((OffsetRegDN.Addr->getFlags() & NodeAttrs::PhiRef) && 1910b57cec5SDimitry Andric MI.getParent() != UseMI.getParent()) 1920b57cec5SDimitry Andric return false; 1930b57cec5SDimitry Andric 1940b57cec5SDimitry Andric const MCInstrDesc &UseMID = UseMI.getDesc(); 1950b57cec5SDimitry Andric if ((!UseMID.mayLoad() && !UseMID.mayStore()) || 1960b57cec5SDimitry Andric HII->getAddrMode(UseMI) != HexagonII::BaseImmOffset || 1970b57cec5SDimitry Andric getBaseWithLongOffset(UseMI) < 0) 1980b57cec5SDimitry Andric return false; 1990b57cec5SDimitry Andric 2000b57cec5SDimitry Andric // Addasl output can't be a store value. 2010b57cec5SDimitry Andric if (UseMID.mayStore() && UseMI.getOperand(2).isReg() && 2020b57cec5SDimitry Andric UseMI.getOperand(2).getReg() == MI.getOperand(0).getReg()) 2030b57cec5SDimitry Andric return false; 2040b57cec5SDimitry Andric 2050b57cec5SDimitry Andric for (auto &Mo : UseMI.operands()) 2060b57cec5SDimitry Andric if (Mo.isFI()) 2070b57cec5SDimitry Andric return false; 2080b57cec5SDimitry Andric } 2090b57cec5SDimitry Andric return true; 2100b57cec5SDimitry Andric } 2110b57cec5SDimitry Andric 2120b57cec5SDimitry Andric bool HexagonOptAddrMode::allValidCandidates(NodeAddr<StmtNode *> SA, 2130b57cec5SDimitry Andric NodeList &UNodeList) { 2140b57cec5SDimitry Andric for (auto I = UNodeList.rbegin(), E = UNodeList.rend(); I != E; ++I) { 2150b57cec5SDimitry Andric NodeAddr<UseNode *> UN = *I; 2160b57cec5SDimitry Andric RegisterRef UR = UN.Addr->getRegRef(*DFG); 2170b57cec5SDimitry Andric NodeSet Visited, Defs; 2180b57cec5SDimitry Andric const auto &P = LV->getAllReachingDefsRec(UR, UN, Visited, Defs); 2190b57cec5SDimitry Andric if (!P.second) { 2200b57cec5SDimitry Andric LLVM_DEBUG({ 2210b57cec5SDimitry Andric dbgs() << "*** Unable to collect all reaching defs for use ***\n" 2220b57cec5SDimitry Andric << PrintNode<UseNode*>(UN, *DFG) << '\n' 2230b57cec5SDimitry Andric << "The program's complexity may exceed the limits.\n"; 2240b57cec5SDimitry Andric }); 2250b57cec5SDimitry Andric return false; 2260b57cec5SDimitry Andric } 2270b57cec5SDimitry Andric const auto &ReachingDefs = P.first; 2280b57cec5SDimitry Andric if (ReachingDefs.size() > 1) { 2290b57cec5SDimitry Andric LLVM_DEBUG({ 2300b57cec5SDimitry Andric dbgs() << "*** Multiple Reaching Defs found!!! ***\n"; 2310b57cec5SDimitry Andric for (auto DI : ReachingDefs) { 2320b57cec5SDimitry Andric NodeAddr<UseNode *> DA = DFG->addr<UseNode *>(DI); 2330b57cec5SDimitry Andric NodeAddr<StmtNode *> TempIA = DA.Addr->getOwner(*DFG); 2340b57cec5SDimitry Andric dbgs() << "\t\t[Reaching Def]: " 2350b57cec5SDimitry Andric << Print<NodeAddr<InstrNode *>>(TempIA, *DFG) << "\n"; 2360b57cec5SDimitry Andric } 2370b57cec5SDimitry Andric }); 2380b57cec5SDimitry Andric return false; 2390b57cec5SDimitry Andric } 2400b57cec5SDimitry Andric } 2410b57cec5SDimitry Andric return true; 2420b57cec5SDimitry Andric } 2430b57cec5SDimitry Andric 2440b57cec5SDimitry Andric void HexagonOptAddrMode::getAllRealUses(NodeAddr<StmtNode *> SA, 2450b57cec5SDimitry Andric NodeList &UNodeList) { 2460b57cec5SDimitry Andric for (NodeAddr<DefNode *> DA : SA.Addr->members_if(DFG->IsDef, *DFG)) { 2470b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "\t\t[DefNode]: " 2480b57cec5SDimitry Andric << Print<NodeAddr<DefNode *>>(DA, *DFG) << "\n"); 2490b57cec5SDimitry Andric RegisterRef DR = DFG->getPRI().normalize(DA.Addr->getRegRef(*DFG)); 2500b57cec5SDimitry Andric 2510b57cec5SDimitry Andric auto UseSet = LV->getAllReachedUses(DR, DA); 2520b57cec5SDimitry Andric 2530b57cec5SDimitry Andric for (auto UI : UseSet) { 2540b57cec5SDimitry Andric NodeAddr<UseNode *> UA = DFG->addr<UseNode *>(UI); 2550b57cec5SDimitry Andric LLVM_DEBUG({ 2560b57cec5SDimitry Andric NodeAddr<StmtNode *> TempIA = UA.Addr->getOwner(*DFG); 2570b57cec5SDimitry Andric dbgs() << "\t\t\t[Reached Use]: " 2580b57cec5SDimitry Andric << Print<NodeAddr<InstrNode *>>(TempIA, *DFG) << "\n"; 2590b57cec5SDimitry Andric }); 2600b57cec5SDimitry Andric 2610b57cec5SDimitry Andric if (UA.Addr->getFlags() & NodeAttrs::PhiRef) { 2620b57cec5SDimitry Andric NodeAddr<PhiNode *> PA = UA.Addr->getOwner(*DFG); 2630b57cec5SDimitry Andric NodeId id = PA.Id; 2640b57cec5SDimitry Andric const Liveness::RefMap &phiUse = LV->getRealUses(id); 2650b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "\t\t\t\tphi real Uses" 2660b57cec5SDimitry Andric << Print<Liveness::RefMap>(phiUse, *DFG) << "\n"); 2670b57cec5SDimitry Andric if (!phiUse.empty()) { 2680b57cec5SDimitry Andric for (auto I : phiUse) { 2690b57cec5SDimitry Andric if (!DFG->getPRI().alias(RegisterRef(I.first), DR)) 2700b57cec5SDimitry Andric continue; 2710b57cec5SDimitry Andric auto phiUseSet = I.second; 2720b57cec5SDimitry Andric for (auto phiUI : phiUseSet) { 2730b57cec5SDimitry Andric NodeAddr<UseNode *> phiUA = DFG->addr<UseNode *>(phiUI.first); 2740b57cec5SDimitry Andric UNodeList.push_back(phiUA); 2750b57cec5SDimitry Andric } 2760b57cec5SDimitry Andric } 2770b57cec5SDimitry Andric } 2780b57cec5SDimitry Andric } else 2790b57cec5SDimitry Andric UNodeList.push_back(UA); 2800b57cec5SDimitry Andric } 2810b57cec5SDimitry Andric } 2820b57cec5SDimitry Andric } 2830b57cec5SDimitry Andric 2840b57cec5SDimitry Andric bool HexagonOptAddrMode::isSafeToExtLR(NodeAddr<StmtNode *> SN, 2850b57cec5SDimitry Andric MachineInstr *MI, unsigned LRExtReg, 2860b57cec5SDimitry Andric const NodeList &UNodeList) { 2870b57cec5SDimitry Andric RegisterRef LRExtRR; 2880b57cec5SDimitry Andric NodeId LRExtRegRD = 0; 2890b57cec5SDimitry Andric // Iterate through all the UseNodes in SN and find the reaching def 2900b57cec5SDimitry Andric // for the LRExtReg. 2910b57cec5SDimitry Andric for (NodeAddr<UseNode *> UA : SN.Addr->members_if(DFG->IsUse, *DFG)) { 2920b57cec5SDimitry Andric RegisterRef RR = UA.Addr->getRegRef(*DFG); 2930b57cec5SDimitry Andric if (LRExtReg == RR.Reg) { 2940b57cec5SDimitry Andric LRExtRR = RR; 2950b57cec5SDimitry Andric LRExtRegRD = UA.Addr->getReachingDef(); 2960b57cec5SDimitry Andric } 2970b57cec5SDimitry Andric } 2980b57cec5SDimitry Andric 2990b57cec5SDimitry Andric for (auto I = UNodeList.rbegin(), E = UNodeList.rend(); I != E; ++I) { 3000b57cec5SDimitry Andric NodeAddr<UseNode *> UA = *I; 3010b57cec5SDimitry Andric NodeAddr<InstrNode *> IA = UA.Addr->getOwner(*DFG); 3020b57cec5SDimitry Andric // The reaching def of LRExtRR at load/store node should be same as the 3030b57cec5SDimitry Andric // one reaching at the SN. 3040b57cec5SDimitry Andric if (UA.Addr->getFlags() & NodeAttrs::PhiRef) 3050b57cec5SDimitry Andric return false; 3060b57cec5SDimitry Andric NodeAddr<RefNode*> AA = LV->getNearestAliasedRef(LRExtRR, IA); 3070b57cec5SDimitry Andric if ((DFG->IsDef(AA) && AA.Id != LRExtRegRD) || 3080b57cec5SDimitry Andric AA.Addr->getReachingDef() != LRExtRegRD) { 3090b57cec5SDimitry Andric LLVM_DEBUG( 3100b57cec5SDimitry Andric dbgs() << "isSafeToExtLR: Returning false; another reaching def\n"); 3110b57cec5SDimitry Andric return false; 3120b57cec5SDimitry Andric } 3130b57cec5SDimitry Andric 3140b57cec5SDimitry Andric MachineInstr *UseMI = NodeAddr<StmtNode *>(IA).Addr->getCode(); 3150b57cec5SDimitry Andric NodeAddr<DefNode *> LRExtRegDN = DFG->addr<DefNode *>(LRExtRegRD); 3160b57cec5SDimitry Andric // Reaching Def to LRExtReg can't be a phi. 3170b57cec5SDimitry Andric if ((LRExtRegDN.Addr->getFlags() & NodeAttrs::PhiRef) && 3180b57cec5SDimitry Andric MI->getParent() != UseMI->getParent()) 3190b57cec5SDimitry Andric return false; 3200b57cec5SDimitry Andric } 3210b57cec5SDimitry Andric return true; 3220b57cec5SDimitry Andric } 3230b57cec5SDimitry Andric 3240b57cec5SDimitry Andric bool HexagonOptAddrMode::isValidOffset(MachineInstr *MI, int Offset) { 3250b57cec5SDimitry Andric unsigned AlignMask = 0; 3260b57cec5SDimitry Andric switch (HII->getMemAccessSize(*MI)) { 3270b57cec5SDimitry Andric case HexagonII::MemAccessSize::DoubleWordAccess: 3280b57cec5SDimitry Andric AlignMask = 0x7; 3290b57cec5SDimitry Andric break; 3300b57cec5SDimitry Andric case HexagonII::MemAccessSize::WordAccess: 3310b57cec5SDimitry Andric AlignMask = 0x3; 3320b57cec5SDimitry Andric break; 3330b57cec5SDimitry Andric case HexagonII::MemAccessSize::HalfWordAccess: 3340b57cec5SDimitry Andric AlignMask = 0x1; 3350b57cec5SDimitry Andric break; 3360b57cec5SDimitry Andric case HexagonII::MemAccessSize::ByteAccess: 3370b57cec5SDimitry Andric AlignMask = 0x0; 3380b57cec5SDimitry Andric break; 3390b57cec5SDimitry Andric default: 3400b57cec5SDimitry Andric return false; 3410b57cec5SDimitry Andric } 3420b57cec5SDimitry Andric 3430b57cec5SDimitry Andric if ((AlignMask & Offset) != 0) 3440b57cec5SDimitry Andric return false; 3450b57cec5SDimitry Andric return HII->isValidOffset(MI->getOpcode(), Offset, HRI, false); 3460b57cec5SDimitry Andric } 3470b57cec5SDimitry Andric 3480b57cec5SDimitry Andric bool HexagonOptAddrMode::processAddUses(NodeAddr<StmtNode *> AddSN, 3490b57cec5SDimitry Andric MachineInstr *AddMI, 3500b57cec5SDimitry Andric const NodeList &UNodeList) { 3510b57cec5SDimitry Andric 3528bcb0991SDimitry Andric Register AddDefR = AddMI->getOperand(0).getReg(); 3530b57cec5SDimitry Andric for (auto I = UNodeList.rbegin(), E = UNodeList.rend(); I != E; ++I) { 3540b57cec5SDimitry Andric NodeAddr<UseNode *> UN = *I; 3550b57cec5SDimitry Andric NodeAddr<StmtNode *> SN = UN.Addr->getOwner(*DFG); 3560b57cec5SDimitry Andric MachineInstr *MI = SN.Addr->getCode(); 3570b57cec5SDimitry Andric const MCInstrDesc &MID = MI->getDesc(); 3580b57cec5SDimitry Andric if ((!MID.mayLoad() && !MID.mayStore()) || 3590b57cec5SDimitry Andric HII->getAddrMode(*MI) != HexagonII::BaseImmOffset || 3600b57cec5SDimitry Andric HII->isHVXVec(*MI)) 3610b57cec5SDimitry Andric return false; 3620b57cec5SDimitry Andric 3630b57cec5SDimitry Andric MachineOperand BaseOp = MID.mayLoad() ? MI->getOperand(1) 3640b57cec5SDimitry Andric : MI->getOperand(0); 3650b57cec5SDimitry Andric 3660b57cec5SDimitry Andric if (!BaseOp.isReg() || BaseOp.getReg() != AddDefR) 3670b57cec5SDimitry Andric return false; 3680b57cec5SDimitry Andric 3690b57cec5SDimitry Andric MachineOperand OffsetOp = MID.mayLoad() ? MI->getOperand(2) 3700b57cec5SDimitry Andric : MI->getOperand(1); 3710b57cec5SDimitry Andric if (!OffsetOp.isImm()) 3720b57cec5SDimitry Andric return false; 3730b57cec5SDimitry Andric 3740b57cec5SDimitry Andric int64_t newOffset = OffsetOp.getImm() + AddMI->getOperand(2).getImm(); 3750b57cec5SDimitry Andric if (!isValidOffset(MI, newOffset)) 3760b57cec5SDimitry Andric return false; 3770b57cec5SDimitry Andric 3780b57cec5SDimitry Andric // Since we'll be extending the live range of Rt in the following example, 3790b57cec5SDimitry Andric // make sure that is safe. another definition of Rt doesn't exist between 'add' 3800b57cec5SDimitry Andric // and load/store instruction. 3810b57cec5SDimitry Andric // 3820b57cec5SDimitry Andric // Ex: Rx= add(Rt,#10) 3830b57cec5SDimitry Andric // memw(Rx+#0) = Rs 3840b57cec5SDimitry Andric // will be replaced with => memw(Rt+#10) = Rs 3858bcb0991SDimitry Andric Register BaseReg = AddMI->getOperand(1).getReg(); 3860b57cec5SDimitry Andric if (!isSafeToExtLR(AddSN, AddMI, BaseReg, UNodeList)) 3870b57cec5SDimitry Andric return false; 3880b57cec5SDimitry Andric } 3890b57cec5SDimitry Andric 3900b57cec5SDimitry Andric // Update all the uses of 'add' with the appropriate base and offset 3910b57cec5SDimitry Andric // values. 3920b57cec5SDimitry Andric bool Changed = false; 3930b57cec5SDimitry Andric for (auto I = UNodeList.rbegin(), E = UNodeList.rend(); I != E; ++I) { 3940b57cec5SDimitry Andric NodeAddr<UseNode *> UseN = *I; 3950b57cec5SDimitry Andric assert(!(UseN.Addr->getFlags() & NodeAttrs::PhiRef) && 3960b57cec5SDimitry Andric "Found a PhiRef node as a real reached use!!"); 3970b57cec5SDimitry Andric 3980b57cec5SDimitry Andric NodeAddr<StmtNode *> OwnerN = UseN.Addr->getOwner(*DFG); 3990b57cec5SDimitry Andric MachineInstr *UseMI = OwnerN.Addr->getCode(); 4000b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "\t\t[MI <BB#" << UseMI->getParent()->getNumber() 4010b57cec5SDimitry Andric << ">]: " << *UseMI << "\n"); 4020b57cec5SDimitry Andric Changed |= updateAddUses(AddMI, UseMI); 4030b57cec5SDimitry Andric } 4040b57cec5SDimitry Andric 4050b57cec5SDimitry Andric if (Changed) 4060b57cec5SDimitry Andric Deleted.insert(AddMI); 4070b57cec5SDimitry Andric 4080b57cec5SDimitry Andric return Changed; 4090b57cec5SDimitry Andric } 4100b57cec5SDimitry Andric 4110b57cec5SDimitry Andric bool HexagonOptAddrMode::updateAddUses(MachineInstr *AddMI, 4120b57cec5SDimitry Andric MachineInstr *UseMI) { 4130b57cec5SDimitry Andric const MachineOperand ImmOp = AddMI->getOperand(2); 4140b57cec5SDimitry Andric const MachineOperand AddRegOp = AddMI->getOperand(1); 4158bcb0991SDimitry Andric Register newReg = AddRegOp.getReg(); 4160b57cec5SDimitry Andric const MCInstrDesc &MID = UseMI->getDesc(); 4170b57cec5SDimitry Andric 4180b57cec5SDimitry Andric MachineOperand &BaseOp = MID.mayLoad() ? UseMI->getOperand(1) 4190b57cec5SDimitry Andric : UseMI->getOperand(0); 4200b57cec5SDimitry Andric MachineOperand &OffsetOp = MID.mayLoad() ? UseMI->getOperand(2) 4210b57cec5SDimitry Andric : UseMI->getOperand(1); 4220b57cec5SDimitry Andric BaseOp.setReg(newReg); 4230b57cec5SDimitry Andric BaseOp.setIsUndef(AddRegOp.isUndef()); 4240b57cec5SDimitry Andric BaseOp.setImplicit(AddRegOp.isImplicit()); 4250b57cec5SDimitry Andric OffsetOp.setImm(ImmOp.getImm() + OffsetOp.getImm()); 4260b57cec5SDimitry Andric MRI->clearKillFlags(newReg); 4270b57cec5SDimitry Andric 4280b57cec5SDimitry Andric return true; 4290b57cec5SDimitry Andric } 4300b57cec5SDimitry Andric 4310b57cec5SDimitry Andric bool HexagonOptAddrMode::analyzeUses(unsigned tfrDefR, 4320b57cec5SDimitry Andric const NodeList &UNodeList, 4330b57cec5SDimitry Andric InstrEvalMap &InstrEvalResult, 4340b57cec5SDimitry Andric short &SizeInc) { 4350b57cec5SDimitry Andric bool KeepTfr = false; 4360b57cec5SDimitry Andric bool HasRepInstr = false; 4370b57cec5SDimitry Andric InstrEvalResult.clear(); 4380b57cec5SDimitry Andric 4390b57cec5SDimitry Andric for (auto I = UNodeList.rbegin(), E = UNodeList.rend(); I != E; ++I) { 4400b57cec5SDimitry Andric bool CanBeReplaced = false; 4410b57cec5SDimitry Andric NodeAddr<UseNode *> UN = *I; 4420b57cec5SDimitry Andric NodeAddr<StmtNode *> SN = UN.Addr->getOwner(*DFG); 4430b57cec5SDimitry Andric MachineInstr &MI = *SN.Addr->getCode(); 4440b57cec5SDimitry Andric const MCInstrDesc &MID = MI.getDesc(); 4450b57cec5SDimitry Andric if ((MID.mayLoad() || MID.mayStore())) { 4460b57cec5SDimitry Andric if (!hasRepForm(MI, tfrDefR)) { 4470b57cec5SDimitry Andric KeepTfr = true; 4480b57cec5SDimitry Andric continue; 4490b57cec5SDimitry Andric } 4500b57cec5SDimitry Andric SizeInc++; 4510b57cec5SDimitry Andric CanBeReplaced = true; 4520b57cec5SDimitry Andric } else if (MI.getOpcode() == Hexagon::S2_addasl_rrri) { 4530b57cec5SDimitry Andric NodeList AddaslUseList; 4540b57cec5SDimitry Andric 4550b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "\nGetting ReachedUses for === " << MI << "\n"); 4560b57cec5SDimitry Andric getAllRealUses(SN, AddaslUseList); 4570b57cec5SDimitry Andric // Process phi nodes. 4580b57cec5SDimitry Andric if (allValidCandidates(SN, AddaslUseList) && 4590b57cec5SDimitry Andric canRemoveAddasl(SN, MI, AddaslUseList)) { 4600b57cec5SDimitry Andric SizeInc += AddaslUseList.size(); 4610b57cec5SDimitry Andric SizeInc -= 1; // Reduce size by 1 as addasl itself can be removed. 4620b57cec5SDimitry Andric CanBeReplaced = true; 4630b57cec5SDimitry Andric } else 4640b57cec5SDimitry Andric SizeInc++; 4650b57cec5SDimitry Andric } else 4660b57cec5SDimitry Andric // Currently, only load/store and addasl are handled. 4670b57cec5SDimitry Andric // Some other instructions to consider - 4680b57cec5SDimitry Andric // A2_add -> A2_addi 4690b57cec5SDimitry Andric // M4_mpyrr_addr -> M4_mpyrr_addi 4700b57cec5SDimitry Andric KeepTfr = true; 4710b57cec5SDimitry Andric 4720b57cec5SDimitry Andric InstrEvalResult[&MI] = CanBeReplaced; 4730b57cec5SDimitry Andric HasRepInstr |= CanBeReplaced; 4740b57cec5SDimitry Andric } 4750b57cec5SDimitry Andric 4760b57cec5SDimitry Andric // Reduce total size by 2 if original tfr can be deleted. 4770b57cec5SDimitry Andric if (!KeepTfr) 4780b57cec5SDimitry Andric SizeInc -= 2; 4790b57cec5SDimitry Andric 4800b57cec5SDimitry Andric return HasRepInstr; 4810b57cec5SDimitry Andric } 4820b57cec5SDimitry Andric 4830b57cec5SDimitry Andric bool HexagonOptAddrMode::changeLoad(MachineInstr *OldMI, MachineOperand ImmOp, 4840b57cec5SDimitry Andric unsigned ImmOpNum) { 4850b57cec5SDimitry Andric bool Changed = false; 4860b57cec5SDimitry Andric MachineBasicBlock *BB = OldMI->getParent(); 4870b57cec5SDimitry Andric auto UsePos = MachineBasicBlock::iterator(OldMI); 4880b57cec5SDimitry Andric MachineBasicBlock::instr_iterator InsertPt = UsePos.getInstrIterator(); 4890b57cec5SDimitry Andric ++InsertPt; 4900b57cec5SDimitry Andric unsigned OpStart; 4910b57cec5SDimitry Andric unsigned OpEnd = OldMI->getNumOperands(); 4920b57cec5SDimitry Andric MachineInstrBuilder MIB; 4930b57cec5SDimitry Andric 4940b57cec5SDimitry Andric if (ImmOpNum == 1) { 4950b57cec5SDimitry Andric if (HII->getAddrMode(*OldMI) == HexagonII::BaseRegOffset) { 4960b57cec5SDimitry Andric short NewOpCode = HII->changeAddrMode_rr_ur(*OldMI); 4970b57cec5SDimitry Andric assert(NewOpCode >= 0 && "Invalid New opcode\n"); 4980b57cec5SDimitry Andric MIB = BuildMI(*BB, InsertPt, OldMI->getDebugLoc(), HII->get(NewOpCode)); 4990b57cec5SDimitry Andric MIB.add(OldMI->getOperand(0)); 5000b57cec5SDimitry Andric MIB.add(OldMI->getOperand(2)); 5010b57cec5SDimitry Andric MIB.add(OldMI->getOperand(3)); 5020b57cec5SDimitry Andric MIB.add(ImmOp); 5030b57cec5SDimitry Andric OpStart = 4; 5040b57cec5SDimitry Andric Changed = true; 5050b57cec5SDimitry Andric } else if (HII->getAddrMode(*OldMI) == HexagonII::BaseImmOffset && 5060b57cec5SDimitry Andric OldMI->getOperand(2).isImm()) { 5070b57cec5SDimitry Andric short NewOpCode = HII->changeAddrMode_io_abs(*OldMI); 5080b57cec5SDimitry Andric assert(NewOpCode >= 0 && "Invalid New opcode\n"); 5090b57cec5SDimitry Andric MIB = BuildMI(*BB, InsertPt, OldMI->getDebugLoc(), HII->get(NewOpCode)) 5100b57cec5SDimitry Andric .add(OldMI->getOperand(0)); 5110b57cec5SDimitry Andric const GlobalValue *GV = ImmOp.getGlobal(); 5120b57cec5SDimitry Andric int64_t Offset = ImmOp.getOffset() + OldMI->getOperand(2).getImm(); 5130b57cec5SDimitry Andric 5140b57cec5SDimitry Andric MIB.addGlobalAddress(GV, Offset, ImmOp.getTargetFlags()); 5150b57cec5SDimitry Andric OpStart = 3; 5160b57cec5SDimitry Andric Changed = true; 5170b57cec5SDimitry Andric } else 5180b57cec5SDimitry Andric Changed = false; 5190b57cec5SDimitry Andric 5200b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "[Changing]: " << *OldMI << "\n"); 5210b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "[TO]: " << *MIB << "\n"); 5220b57cec5SDimitry Andric } else if (ImmOpNum == 2) { 5230b57cec5SDimitry Andric if (OldMI->getOperand(3).isImm() && OldMI->getOperand(3).getImm() == 0) { 5240b57cec5SDimitry Andric short NewOpCode = HII->changeAddrMode_rr_io(*OldMI); 5250b57cec5SDimitry Andric assert(NewOpCode >= 0 && "Invalid New opcode\n"); 5260b57cec5SDimitry Andric MIB = BuildMI(*BB, InsertPt, OldMI->getDebugLoc(), HII->get(NewOpCode)); 5270b57cec5SDimitry Andric MIB.add(OldMI->getOperand(0)); 5280b57cec5SDimitry Andric MIB.add(OldMI->getOperand(1)); 5290b57cec5SDimitry Andric MIB.add(ImmOp); 5300b57cec5SDimitry Andric OpStart = 4; 5310b57cec5SDimitry Andric Changed = true; 5320b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "[Changing]: " << *OldMI << "\n"); 5330b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "[TO]: " << *MIB << "\n"); 5340b57cec5SDimitry Andric } 5350b57cec5SDimitry Andric } 5360b57cec5SDimitry Andric 5370b57cec5SDimitry Andric if (Changed) 5380b57cec5SDimitry Andric for (unsigned i = OpStart; i < OpEnd; ++i) 5390b57cec5SDimitry Andric MIB.add(OldMI->getOperand(i)); 5400b57cec5SDimitry Andric 5410b57cec5SDimitry Andric return Changed; 5420b57cec5SDimitry Andric } 5430b57cec5SDimitry Andric 5440b57cec5SDimitry Andric bool HexagonOptAddrMode::changeStore(MachineInstr *OldMI, MachineOperand ImmOp, 5450b57cec5SDimitry Andric unsigned ImmOpNum) { 5460b57cec5SDimitry Andric bool Changed = false; 5478bcb0991SDimitry Andric unsigned OpStart = 0; 5480b57cec5SDimitry Andric unsigned OpEnd = OldMI->getNumOperands(); 5490b57cec5SDimitry Andric MachineBasicBlock *BB = OldMI->getParent(); 5500b57cec5SDimitry Andric auto UsePos = MachineBasicBlock::iterator(OldMI); 5510b57cec5SDimitry Andric MachineBasicBlock::instr_iterator InsertPt = UsePos.getInstrIterator(); 5520b57cec5SDimitry Andric ++InsertPt; 5530b57cec5SDimitry Andric MachineInstrBuilder MIB; 5540b57cec5SDimitry Andric if (ImmOpNum == 0) { 5550b57cec5SDimitry Andric if (HII->getAddrMode(*OldMI) == HexagonII::BaseRegOffset) { 5560b57cec5SDimitry Andric short NewOpCode = HII->changeAddrMode_rr_ur(*OldMI); 5570b57cec5SDimitry Andric assert(NewOpCode >= 0 && "Invalid New opcode\n"); 5580b57cec5SDimitry Andric MIB = BuildMI(*BB, InsertPt, OldMI->getDebugLoc(), HII->get(NewOpCode)); 5590b57cec5SDimitry Andric MIB.add(OldMI->getOperand(1)); 5600b57cec5SDimitry Andric MIB.add(OldMI->getOperand(2)); 5610b57cec5SDimitry Andric MIB.add(ImmOp); 5620b57cec5SDimitry Andric MIB.add(OldMI->getOperand(3)); 5630b57cec5SDimitry Andric OpStart = 4; 5640b57cec5SDimitry Andric } else if (HII->getAddrMode(*OldMI) == HexagonII::BaseImmOffset) { 5650b57cec5SDimitry Andric short NewOpCode = HII->changeAddrMode_io_abs(*OldMI); 5660b57cec5SDimitry Andric assert(NewOpCode >= 0 && "Invalid New opcode\n"); 5670b57cec5SDimitry Andric MIB = BuildMI(*BB, InsertPt, OldMI->getDebugLoc(), HII->get(NewOpCode)); 5680b57cec5SDimitry Andric const GlobalValue *GV = ImmOp.getGlobal(); 5690b57cec5SDimitry Andric int64_t Offset = ImmOp.getOffset() + OldMI->getOperand(1).getImm(); 5700b57cec5SDimitry Andric MIB.addGlobalAddress(GV, Offset, ImmOp.getTargetFlags()); 5710b57cec5SDimitry Andric MIB.add(OldMI->getOperand(2)); 5720b57cec5SDimitry Andric OpStart = 3; 5730b57cec5SDimitry Andric } 5740b57cec5SDimitry Andric Changed = true; 5750b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "[Changing]: " << *OldMI << "\n"); 5760b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "[TO]: " << *MIB << "\n"); 5770b57cec5SDimitry Andric } else if (ImmOpNum == 1 && OldMI->getOperand(2).getImm() == 0) { 5780b57cec5SDimitry Andric short NewOpCode = HII->changeAddrMode_rr_io(*OldMI); 5790b57cec5SDimitry Andric assert(NewOpCode >= 0 && "Invalid New opcode\n"); 5800b57cec5SDimitry Andric MIB = BuildMI(*BB, InsertPt, OldMI->getDebugLoc(), HII->get(NewOpCode)); 5810b57cec5SDimitry Andric MIB.add(OldMI->getOperand(0)); 5820b57cec5SDimitry Andric MIB.add(ImmOp); 5830b57cec5SDimitry Andric OpStart = 3; 5840b57cec5SDimitry Andric Changed = true; 5850b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "[Changing]: " << *OldMI << "\n"); 5860b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "[TO]: " << *MIB << "\n"); 5870b57cec5SDimitry Andric } 5880b57cec5SDimitry Andric if (Changed) 5890b57cec5SDimitry Andric for (unsigned i = OpStart; i < OpEnd; ++i) 5900b57cec5SDimitry Andric MIB.add(OldMI->getOperand(i)); 5910b57cec5SDimitry Andric 5920b57cec5SDimitry Andric return Changed; 5930b57cec5SDimitry Andric } 5940b57cec5SDimitry Andric 5950b57cec5SDimitry Andric short HexagonOptAddrMode::getBaseWithLongOffset(const MachineInstr &MI) const { 5960b57cec5SDimitry Andric if (HII->getAddrMode(MI) == HexagonII::BaseImmOffset) { 5970b57cec5SDimitry Andric short TempOpCode = HII->changeAddrMode_io_rr(MI); 5980b57cec5SDimitry Andric return HII->changeAddrMode_rr_ur(TempOpCode); 5990b57cec5SDimitry Andric } 6000b57cec5SDimitry Andric return HII->changeAddrMode_rr_ur(MI); 6010b57cec5SDimitry Andric } 6020b57cec5SDimitry Andric 6030b57cec5SDimitry Andric bool HexagonOptAddrMode::changeAddAsl(NodeAddr<UseNode *> AddAslUN, 6040b57cec5SDimitry Andric MachineInstr *AddAslMI, 6050b57cec5SDimitry Andric const MachineOperand &ImmOp, 6060b57cec5SDimitry Andric unsigned ImmOpNum) { 6070b57cec5SDimitry Andric NodeAddr<StmtNode *> SA = AddAslUN.Addr->getOwner(*DFG); 6080b57cec5SDimitry Andric 6090b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "Processing addasl :" << *AddAslMI << "\n"); 6100b57cec5SDimitry Andric 6110b57cec5SDimitry Andric NodeList UNodeList; 6120b57cec5SDimitry Andric getAllRealUses(SA, UNodeList); 6130b57cec5SDimitry Andric 6140b57cec5SDimitry Andric for (auto I = UNodeList.rbegin(), E = UNodeList.rend(); I != E; ++I) { 6150b57cec5SDimitry Andric NodeAddr<UseNode *> UseUN = *I; 6160b57cec5SDimitry Andric assert(!(UseUN.Addr->getFlags() & NodeAttrs::PhiRef) && 6170b57cec5SDimitry Andric "Can't transform this 'AddAsl' instruction!"); 6180b57cec5SDimitry Andric 6190b57cec5SDimitry Andric NodeAddr<StmtNode *> UseIA = UseUN.Addr->getOwner(*DFG); 6200b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "[InstrNode]: " 6210b57cec5SDimitry Andric << Print<NodeAddr<InstrNode *>>(UseIA, *DFG) << "\n"); 6220b57cec5SDimitry Andric MachineInstr *UseMI = UseIA.Addr->getCode(); 6230b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "[MI <" << printMBBReference(*UseMI->getParent()) 6240b57cec5SDimitry Andric << ">]: " << *UseMI << "\n"); 6250b57cec5SDimitry Andric const MCInstrDesc &UseMID = UseMI->getDesc(); 6260b57cec5SDimitry Andric assert(HII->getAddrMode(*UseMI) == HexagonII::BaseImmOffset); 6270b57cec5SDimitry Andric 6280b57cec5SDimitry Andric auto UsePos = MachineBasicBlock::iterator(UseMI); 6290b57cec5SDimitry Andric MachineBasicBlock::instr_iterator InsertPt = UsePos.getInstrIterator(); 6300b57cec5SDimitry Andric short NewOpCode = getBaseWithLongOffset(*UseMI); 6310b57cec5SDimitry Andric assert(NewOpCode >= 0 && "Invalid New opcode\n"); 6320b57cec5SDimitry Andric 6330b57cec5SDimitry Andric unsigned OpStart; 6340b57cec5SDimitry Andric unsigned OpEnd = UseMI->getNumOperands(); 6350b57cec5SDimitry Andric 6360b57cec5SDimitry Andric MachineBasicBlock *BB = UseMI->getParent(); 6370b57cec5SDimitry Andric MachineInstrBuilder MIB = 6380b57cec5SDimitry Andric BuildMI(*BB, InsertPt, UseMI->getDebugLoc(), HII->get(NewOpCode)); 6390b57cec5SDimitry Andric // change mem(Rs + # ) -> mem(Rt << # + ##) 6400b57cec5SDimitry Andric if (UseMID.mayLoad()) { 6410b57cec5SDimitry Andric MIB.add(UseMI->getOperand(0)); 6420b57cec5SDimitry Andric MIB.add(AddAslMI->getOperand(2)); 6430b57cec5SDimitry Andric MIB.add(AddAslMI->getOperand(3)); 6440b57cec5SDimitry Andric const GlobalValue *GV = ImmOp.getGlobal(); 6450b57cec5SDimitry Andric MIB.addGlobalAddress(GV, UseMI->getOperand(2).getImm()+ImmOp.getOffset(), 6460b57cec5SDimitry Andric ImmOp.getTargetFlags()); 6470b57cec5SDimitry Andric OpStart = 3; 6480b57cec5SDimitry Andric } else if (UseMID.mayStore()) { 6490b57cec5SDimitry Andric MIB.add(AddAslMI->getOperand(2)); 6500b57cec5SDimitry Andric MIB.add(AddAslMI->getOperand(3)); 6510b57cec5SDimitry Andric const GlobalValue *GV = ImmOp.getGlobal(); 6520b57cec5SDimitry Andric MIB.addGlobalAddress(GV, UseMI->getOperand(1).getImm()+ImmOp.getOffset(), 6530b57cec5SDimitry Andric ImmOp.getTargetFlags()); 6540b57cec5SDimitry Andric MIB.add(UseMI->getOperand(2)); 6550b57cec5SDimitry Andric OpStart = 3; 6560b57cec5SDimitry Andric } else 6570b57cec5SDimitry Andric llvm_unreachable("Unhandled instruction"); 6580b57cec5SDimitry Andric 6590b57cec5SDimitry Andric for (unsigned i = OpStart; i < OpEnd; ++i) 6600b57cec5SDimitry Andric MIB.add(UseMI->getOperand(i)); 6610b57cec5SDimitry Andric 6620b57cec5SDimitry Andric Deleted.insert(UseMI); 6630b57cec5SDimitry Andric } 6640b57cec5SDimitry Andric 6650b57cec5SDimitry Andric return true; 6660b57cec5SDimitry Andric } 6670b57cec5SDimitry Andric 6680b57cec5SDimitry Andric bool HexagonOptAddrMode::xformUseMI(MachineInstr *TfrMI, MachineInstr *UseMI, 6690b57cec5SDimitry Andric NodeAddr<UseNode *> UseN, 6700b57cec5SDimitry Andric unsigned UseMOnum) { 6710b57cec5SDimitry Andric const MachineOperand ImmOp = TfrMI->getOperand(1); 6720b57cec5SDimitry Andric const MCInstrDesc &MID = UseMI->getDesc(); 6730b57cec5SDimitry Andric unsigned Changed = false; 6740b57cec5SDimitry Andric if (MID.mayLoad()) 6750b57cec5SDimitry Andric Changed = changeLoad(UseMI, ImmOp, UseMOnum); 6760b57cec5SDimitry Andric else if (MID.mayStore()) 6770b57cec5SDimitry Andric Changed = changeStore(UseMI, ImmOp, UseMOnum); 6780b57cec5SDimitry Andric else if (UseMI->getOpcode() == Hexagon::S2_addasl_rrri) 6790b57cec5SDimitry Andric Changed = changeAddAsl(UseN, UseMI, ImmOp, UseMOnum); 6800b57cec5SDimitry Andric 6810b57cec5SDimitry Andric if (Changed) 6820b57cec5SDimitry Andric Deleted.insert(UseMI); 6830b57cec5SDimitry Andric 6840b57cec5SDimitry Andric return Changed; 6850b57cec5SDimitry Andric } 6860b57cec5SDimitry Andric 6870b57cec5SDimitry Andric bool HexagonOptAddrMode::processBlock(NodeAddr<BlockNode *> BA) { 6880b57cec5SDimitry Andric bool Changed = false; 6890b57cec5SDimitry Andric 6900b57cec5SDimitry Andric for (auto IA : BA.Addr->members(*DFG)) { 6910b57cec5SDimitry Andric if (!DFG->IsCode<NodeAttrs::Stmt>(IA)) 6920b57cec5SDimitry Andric continue; 6930b57cec5SDimitry Andric 6940b57cec5SDimitry Andric NodeAddr<StmtNode *> SA = IA; 6950b57cec5SDimitry Andric MachineInstr *MI = SA.Addr->getCode(); 6960b57cec5SDimitry Andric if ((MI->getOpcode() != Hexagon::A2_tfrsi || 6970b57cec5SDimitry Andric !MI->getOperand(1).isGlobal()) && 6980b57cec5SDimitry Andric (MI->getOpcode() != Hexagon::A2_addi || 6990b57cec5SDimitry Andric !MI->getOperand(2).isImm() || HII->isConstExtended(*MI))) 7000b57cec5SDimitry Andric continue; 7010b57cec5SDimitry Andric 7020b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "[Analyzing " << HII->getName(MI->getOpcode()) 7030b57cec5SDimitry Andric << "]: " << *MI << "\n\t[InstrNode]: " 7040b57cec5SDimitry Andric << Print<NodeAddr<InstrNode *>>(IA, *DFG) << '\n'); 7050b57cec5SDimitry Andric 7060b57cec5SDimitry Andric NodeList UNodeList; 7070b57cec5SDimitry Andric getAllRealUses(SA, UNodeList); 7080b57cec5SDimitry Andric 7090b57cec5SDimitry Andric if (!allValidCandidates(SA, UNodeList)) 7100b57cec5SDimitry Andric continue; 7110b57cec5SDimitry Andric 7120b57cec5SDimitry Andric // Analyze all uses of 'add'. If the output of 'add' is used as an address 7130b57cec5SDimitry Andric // in the base+immediate addressing mode load/store instructions, see if 7140b57cec5SDimitry Andric // they can be updated to use the immediate value as an offet. Thus, 7150b57cec5SDimitry Andric // providing us the opportunity to eliminate 'add'. 7160b57cec5SDimitry Andric // Ex: Rx= add(Rt,#12) 7170b57cec5SDimitry Andric // memw(Rx+#0) = Rs 7180b57cec5SDimitry Andric // This can be replaced with memw(Rt+#12) = Rs 7190b57cec5SDimitry Andric // 7200b57cec5SDimitry Andric // This transformation is only performed if all uses can be updated and 7210b57cec5SDimitry Andric // the offset isn't required to be constant extended. 7220b57cec5SDimitry Andric if (MI->getOpcode() == Hexagon::A2_addi) { 7230b57cec5SDimitry Andric Changed |= processAddUses(SA, MI, UNodeList); 7240b57cec5SDimitry Andric continue; 7250b57cec5SDimitry Andric } 7260b57cec5SDimitry Andric 7270b57cec5SDimitry Andric short SizeInc = 0; 7288bcb0991SDimitry Andric Register DefR = MI->getOperand(0).getReg(); 7290b57cec5SDimitry Andric InstrEvalMap InstrEvalResult; 7300b57cec5SDimitry Andric 7310b57cec5SDimitry Andric // Analyze all uses and calculate increase in size. Perform the optimization 7320b57cec5SDimitry Andric // only if there is no increase in size. 7330b57cec5SDimitry Andric if (!analyzeUses(DefR, UNodeList, InstrEvalResult, SizeInc)) 7340b57cec5SDimitry Andric continue; 7350b57cec5SDimitry Andric if (SizeInc > CodeGrowthLimit) 7360b57cec5SDimitry Andric continue; 7370b57cec5SDimitry Andric 7380b57cec5SDimitry Andric bool KeepTfr = false; 7390b57cec5SDimitry Andric 7400b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "\t[Total reached uses] : " << UNodeList.size() 7410b57cec5SDimitry Andric << "\n"); 7420b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "\t[Processing Reached Uses] ===\n"); 7430b57cec5SDimitry Andric for (auto I = UNodeList.rbegin(), E = UNodeList.rend(); I != E; ++I) { 7440b57cec5SDimitry Andric NodeAddr<UseNode *> UseN = *I; 7450b57cec5SDimitry Andric assert(!(UseN.Addr->getFlags() & NodeAttrs::PhiRef) && 7460b57cec5SDimitry Andric "Found a PhiRef node as a real reached use!!"); 7470b57cec5SDimitry Andric 7480b57cec5SDimitry Andric NodeAddr<StmtNode *> OwnerN = UseN.Addr->getOwner(*DFG); 7490b57cec5SDimitry Andric MachineInstr *UseMI = OwnerN.Addr->getCode(); 7500b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "\t\t[MI <" << printMBBReference(*UseMI->getParent()) 7510b57cec5SDimitry Andric << ">]: " << *UseMI << "\n"); 7520b57cec5SDimitry Andric 7530b57cec5SDimitry Andric int UseMOnum = -1; 7540b57cec5SDimitry Andric unsigned NumOperands = UseMI->getNumOperands(); 7550b57cec5SDimitry Andric for (unsigned j = 0; j < NumOperands - 1; ++j) { 7560b57cec5SDimitry Andric const MachineOperand &op = UseMI->getOperand(j); 7570b57cec5SDimitry Andric if (op.isReg() && op.isUse() && DefR == op.getReg()) 7580b57cec5SDimitry Andric UseMOnum = j; 7590b57cec5SDimitry Andric } 7600b57cec5SDimitry Andric // It is possible that the register will not be found in any operand. 7610b57cec5SDimitry Andric // This could happen, for example, when DefR = R4, but the used 7620b57cec5SDimitry Andric // register is D2. 7630b57cec5SDimitry Andric 7640b57cec5SDimitry Andric // Change UseMI if replacement is possible. If any replacement failed, 7650b57cec5SDimitry Andric // or wasn't attempted, make sure to keep the TFR. 7660b57cec5SDimitry Andric bool Xformed = false; 7670b57cec5SDimitry Andric if (UseMOnum >= 0 && InstrEvalResult[UseMI]) 7680b57cec5SDimitry Andric Xformed = xformUseMI(MI, UseMI, UseN, UseMOnum); 7690b57cec5SDimitry Andric Changed |= Xformed; 7700b57cec5SDimitry Andric KeepTfr |= !Xformed; 7710b57cec5SDimitry Andric } 7720b57cec5SDimitry Andric if (!KeepTfr) 7730b57cec5SDimitry Andric Deleted.insert(MI); 7740b57cec5SDimitry Andric } 7750b57cec5SDimitry Andric return Changed; 7760b57cec5SDimitry Andric } 7770b57cec5SDimitry Andric 7780b57cec5SDimitry Andric bool HexagonOptAddrMode::runOnMachineFunction(MachineFunction &MF) { 7790b57cec5SDimitry Andric if (skipFunction(MF.getFunction())) 7800b57cec5SDimitry Andric return false; 7810b57cec5SDimitry Andric 7820b57cec5SDimitry Andric bool Changed = false; 7830b57cec5SDimitry Andric auto &HST = MF.getSubtarget<HexagonSubtarget>(); 7840b57cec5SDimitry Andric MRI = &MF.getRegInfo(); 7850b57cec5SDimitry Andric HII = HST.getInstrInfo(); 7860b57cec5SDimitry Andric HRI = HST.getRegisterInfo(); 7870b57cec5SDimitry Andric const auto &MDF = getAnalysis<MachineDominanceFrontier>(); 7880b57cec5SDimitry Andric MDT = &getAnalysis<MachineDominatorTree>(); 7890b57cec5SDimitry Andric const TargetOperandInfo TOI(*HII); 7900b57cec5SDimitry Andric 7910b57cec5SDimitry Andric DataFlowGraph G(MF, *HII, *HRI, *MDT, MDF, TOI); 7920b57cec5SDimitry Andric // Need to keep dead phis because we can propagate uses of registers into 7930b57cec5SDimitry Andric // nodes dominated by those would-be phis. 7940b57cec5SDimitry Andric G.build(BuildOptions::KeepDeadPhis); 7950b57cec5SDimitry Andric DFG = &G; 7960b57cec5SDimitry Andric 7970b57cec5SDimitry Andric Liveness L(*MRI, *DFG); 7980b57cec5SDimitry Andric L.computePhiInfo(); 7990b57cec5SDimitry Andric LV = &L; 8000b57cec5SDimitry Andric 8010b57cec5SDimitry Andric Deleted.clear(); 8020b57cec5SDimitry Andric NodeAddr<FuncNode *> FA = DFG->getFunc(); 8030b57cec5SDimitry Andric LLVM_DEBUG(dbgs() << "==== [RefMap#]=====:\n " 8040b57cec5SDimitry Andric << Print<NodeAddr<FuncNode *>>(FA, *DFG) << "\n"); 8050b57cec5SDimitry Andric 8060b57cec5SDimitry Andric for (NodeAddr<BlockNode *> BA : FA.Addr->members(*DFG)) 8070b57cec5SDimitry Andric Changed |= processBlock(BA); 8080b57cec5SDimitry Andric 8090b57cec5SDimitry Andric for (auto MI : Deleted) 8100b57cec5SDimitry Andric MI->eraseFromParent(); 8110b57cec5SDimitry Andric 8120b57cec5SDimitry Andric if (Changed) { 8130b57cec5SDimitry Andric G.build(); 8140b57cec5SDimitry Andric L.computeLiveIns(); 8150b57cec5SDimitry Andric L.resetLiveIns(); 8160b57cec5SDimitry Andric L.resetKills(); 8170b57cec5SDimitry Andric } 8180b57cec5SDimitry Andric 8190b57cec5SDimitry Andric return Changed; 8200b57cec5SDimitry Andric } 8210b57cec5SDimitry Andric 8220b57cec5SDimitry Andric //===----------------------------------------------------------------------===// 8230b57cec5SDimitry Andric // Public Constructor Functions 8240b57cec5SDimitry Andric //===----------------------------------------------------------------------===// 8250b57cec5SDimitry Andric 8260b57cec5SDimitry Andric FunctionPass *llvm::createHexagonOptAddrMode() { 8270b57cec5SDimitry Andric return new HexagonOptAddrMode(); 8280b57cec5SDimitry Andric } 829