1 //===- HexagonOptAddrMode.cpp ---------------------------------------------===// 2 // 3 // The LLVM Compiler Infrastructure 4 // 5 // This file is distributed under the University of Illinois Open Source 6 // License. See LICENSE.TXT for details. 7 // 8 //===----------------------------------------------------------------------===// 9 // This implements a Hexagon-specific pass to optimize addressing mode for 10 // load/store instructions. 11 //===----------------------------------------------------------------------===// 12 13 #include "HexagonInstrInfo.h" 14 #include "HexagonSubtarget.h" 15 #include "MCTargetDesc/HexagonBaseInfo.h" 16 #include "RDFGraph.h" 17 #include "RDFLiveness.h" 18 #include "RDFRegisters.h" 19 #include "llvm/ADT/DenseMap.h" 20 #include "llvm/ADT/DenseSet.h" 21 #include "llvm/ADT/StringRef.h" 22 #include "llvm/CodeGen/MachineBasicBlock.h" 23 #include "llvm/CodeGen/MachineDominanceFrontier.h" 24 #include "llvm/CodeGen/MachineDominators.h" 25 #include "llvm/CodeGen/MachineFunction.h" 26 #include "llvm/CodeGen/MachineFunctionPass.h" 27 #include "llvm/CodeGen/MachineInstr.h" 28 #include "llvm/CodeGen/MachineInstrBuilder.h" 29 #include "llvm/CodeGen/MachineOperand.h" 30 #include "llvm/MC/MCInstrDesc.h" 31 #include "llvm/Pass.h" 32 #include "llvm/Support/CommandLine.h" 33 #include "llvm/Support/Debug.h" 34 #include "llvm/Support/ErrorHandling.h" 35 #include "llvm/Support/raw_ostream.h" 36 #include "llvm/Target/TargetSubtargetInfo.h" 37 #include <cassert> 38 #include <cstdint> 39 40 #define DEBUG_TYPE "opt-addr-mode" 41 42 using namespace llvm; 43 using namespace rdf; 44 45 static cl::opt<int> CodeGrowthLimit("hexagon-amode-growth-limit", 46 cl::Hidden, cl::init(0), cl::desc("Code growth limit for address mode " 47 "optimization")); 48 49 namespace llvm { 50 51 FunctionPass *createHexagonOptAddrMode(); 52 void initializeHexagonOptAddrModePass(PassRegistry&); 53 54 } // end namespace llvm 55 56 namespace { 57 58 class HexagonOptAddrMode : public MachineFunctionPass { 59 public: 60 static char ID; 61 62 HexagonOptAddrMode() : MachineFunctionPass(ID) {} 63 64 StringRef getPassName() const override { 65 return "Optimize addressing mode of load/store"; 66 } 67 68 void getAnalysisUsage(AnalysisUsage &AU) const override { 69 MachineFunctionPass::getAnalysisUsage(AU); 70 AU.addRequired<MachineDominatorTree>(); 71 AU.addRequired<MachineDominanceFrontier>(); 72 AU.setPreservesAll(); 73 } 74 75 bool runOnMachineFunction(MachineFunction &MF) override; 76 77 private: 78 using MISetType = DenseSet<MachineInstr *>; 79 using InstrEvalMap = DenseMap<MachineInstr *, bool>; 80 81 const HexagonInstrInfo *HII = nullptr; 82 MachineDominatorTree *MDT = nullptr; 83 DataFlowGraph *DFG = nullptr; 84 DataFlowGraph::DefStackMap DefM; 85 Liveness *LV = nullptr; 86 MISetType Deleted; 87 88 bool processBlock(NodeAddr<BlockNode *> BA); 89 bool xformUseMI(MachineInstr *TfrMI, MachineInstr *UseMI, 90 NodeAddr<UseNode *> UseN, unsigned UseMOnum); 91 bool analyzeUses(unsigned DefR, const NodeList &UNodeList, 92 InstrEvalMap &InstrEvalResult, short &SizeInc); 93 bool hasRepForm(MachineInstr &MI, unsigned TfrDefR); 94 bool canRemoveAddasl(NodeAddr<StmtNode *> AddAslSN, MachineInstr &MI, 95 const NodeList &UNodeList); 96 void getAllRealUses(NodeAddr<StmtNode *> SN, NodeList &UNodeList); 97 bool allValidCandidates(NodeAddr<StmtNode *> SA, NodeList &UNodeList); 98 short getBaseWithLongOffset(const MachineInstr &MI) const; 99 bool changeStore(MachineInstr *OldMI, MachineOperand ImmOp, 100 unsigned ImmOpNum); 101 bool changeLoad(MachineInstr *OldMI, MachineOperand ImmOp, unsigned ImmOpNum); 102 bool changeAddAsl(NodeAddr<UseNode *> AddAslUN, MachineInstr *AddAslMI, 103 const MachineOperand &ImmOp, unsigned ImmOpNum); 104 }; 105 106 } // end anonymous namespace 107 108 char HexagonOptAddrMode::ID = 0; 109 110 INITIALIZE_PASS_BEGIN(HexagonOptAddrMode, "amode-opt", 111 "Optimize addressing mode", false, false) 112 INITIALIZE_PASS_DEPENDENCY(MachineDominatorTree) 113 INITIALIZE_PASS_DEPENDENCY(MachineDominanceFrontier) 114 INITIALIZE_PASS_END(HexagonOptAddrMode, "amode-opt", "Optimize addressing mode", 115 false, false) 116 117 bool HexagonOptAddrMode::hasRepForm(MachineInstr &MI, unsigned TfrDefR) { 118 const MCInstrDesc &MID = MI.getDesc(); 119 120 if ((!MID.mayStore() && !MID.mayLoad()) || HII->isPredicated(MI)) 121 return false; 122 123 if (MID.mayStore()) { 124 MachineOperand StOp = MI.getOperand(MI.getNumOperands() - 1); 125 if (StOp.isReg() && StOp.getReg() == TfrDefR) 126 return false; 127 } 128 129 if (HII->getAddrMode(MI) == HexagonII::BaseRegOffset) 130 // Tranform to Absolute plus register offset. 131 return (HII->changeAddrMode_rr_ur(MI) >= 0); 132 else if (HII->getAddrMode(MI) == HexagonII::BaseImmOffset) 133 // Tranform to absolute addressing mode. 134 return (HII->changeAddrMode_io_abs(MI) >= 0); 135 136 return false; 137 } 138 139 // Check if addasl instruction can be removed. This is possible only 140 // if it's feeding to only load/store instructions with base + register 141 // offset as these instruction can be tranformed to use 'absolute plus 142 // shifted register offset'. 143 // ex: 144 // Rs = ##foo 145 // Rx = addasl(Rs, Rt, #2) 146 // Rd = memw(Rx + #28) 147 // Above three instructions can be replaced with Rd = memw(Rt<<#2 + ##foo+28) 148 149 bool HexagonOptAddrMode::canRemoveAddasl(NodeAddr<StmtNode *> AddAslSN, 150 MachineInstr &MI, 151 const NodeList &UNodeList) { 152 // check offset size in addasl. if 'offset > 3' return false 153 const MachineOperand &OffsetOp = MI.getOperand(3); 154 if (!OffsetOp.isImm() || OffsetOp.getImm() > 3) 155 return false; 156 157 unsigned OffsetReg = MI.getOperand(2).getReg(); 158 RegisterRef OffsetRR; 159 NodeId OffsetRegRD = 0; 160 for (NodeAddr<UseNode *> UA : AddAslSN.Addr->members_if(DFG->IsUse, *DFG)) { 161 RegisterRef RR = UA.Addr->getRegRef(*DFG); 162 if (OffsetReg == RR.Reg) { 163 OffsetRR = RR; 164 OffsetRegRD = UA.Addr->getReachingDef(); 165 } 166 } 167 168 for (auto I = UNodeList.rbegin(), E = UNodeList.rend(); I != E; ++I) { 169 NodeAddr<UseNode *> UA = *I; 170 NodeAddr<InstrNode *> IA = UA.Addr->getOwner(*DFG); 171 if (UA.Addr->getFlags() & NodeAttrs::PhiRef) 172 return false; 173 NodeAddr<RefNode*> AA = LV->getNearestAliasedRef(OffsetRR, IA); 174 if ((DFG->IsDef(AA) && AA.Id != OffsetRegRD) || 175 AA.Addr->getReachingDef() != OffsetRegRD) 176 return false; 177 178 MachineInstr &UseMI = *NodeAddr<StmtNode *>(IA).Addr->getCode(); 179 NodeAddr<DefNode *> OffsetRegDN = DFG->addr<DefNode *>(OffsetRegRD); 180 // Reaching Def to an offset register can't be a phi. 181 if ((OffsetRegDN.Addr->getFlags() & NodeAttrs::PhiRef) && 182 MI.getParent() != UseMI.getParent()) 183 return false; 184 185 const MCInstrDesc &UseMID = UseMI.getDesc(); 186 if ((!UseMID.mayLoad() && !UseMID.mayStore()) || 187 HII->getAddrMode(UseMI) != HexagonII::BaseImmOffset || 188 getBaseWithLongOffset(UseMI) < 0) 189 return false; 190 191 // Addasl output can't be a store value. 192 if (UseMID.mayStore() && UseMI.getOperand(2).isReg() && 193 UseMI.getOperand(2).getReg() == MI.getOperand(0).getReg()) 194 return false; 195 196 for (auto &Mo : UseMI.operands()) 197 if (Mo.isFI()) 198 return false; 199 } 200 return true; 201 } 202 203 bool HexagonOptAddrMode::allValidCandidates(NodeAddr<StmtNode *> SA, 204 NodeList &UNodeList) { 205 for (auto I = UNodeList.rbegin(), E = UNodeList.rend(); I != E; ++I) { 206 NodeAddr<UseNode *> UN = *I; 207 RegisterRef UR = UN.Addr->getRegRef(*DFG); 208 NodeSet Visited, Defs; 209 const auto &P = LV->getAllReachingDefsRec(UR, UN, Visited, Defs); 210 if (!P.second) { 211 DEBUG({ 212 dbgs() << "*** Unable to collect all reaching defs for use ***\n" 213 << PrintNode<UseNode*>(UN, *DFG) << '\n' 214 << "The program's complexity may exceed the limits.\n"; 215 }); 216 return false; 217 } 218 const auto &ReachingDefs = P.first; 219 if (ReachingDefs.size() > 1) { 220 DEBUG({ 221 dbgs() << "*** Multiple Reaching Defs found!!! ***\n"; 222 for (auto DI : ReachingDefs) { 223 NodeAddr<UseNode *> DA = DFG->addr<UseNode *>(DI); 224 NodeAddr<StmtNode *> TempIA = DA.Addr->getOwner(*DFG); 225 dbgs() << "\t\t[Reaching Def]: " 226 << Print<NodeAddr<InstrNode *>>(TempIA, *DFG) << "\n"; 227 } 228 }); 229 return false; 230 } 231 } 232 return true; 233 } 234 235 void HexagonOptAddrMode::getAllRealUses(NodeAddr<StmtNode *> SA, 236 NodeList &UNodeList) { 237 for (NodeAddr<DefNode *> DA : SA.Addr->members_if(DFG->IsDef, *DFG)) { 238 DEBUG(dbgs() << "\t\t[DefNode]: " << Print<NodeAddr<DefNode *>>(DA, *DFG) 239 << "\n"); 240 RegisterRef DR = DFG->getPRI().normalize(DA.Addr->getRegRef(*DFG)); 241 242 auto UseSet = LV->getAllReachedUses(DR, DA); 243 244 for (auto UI : UseSet) { 245 NodeAddr<UseNode *> UA = DFG->addr<UseNode *>(UI); 246 DEBUG({ 247 NodeAddr<StmtNode *> TempIA = UA.Addr->getOwner(*DFG); 248 dbgs() << "\t\t\t[Reached Use]: " 249 << Print<NodeAddr<InstrNode *>>(TempIA, *DFG) << "\n"; 250 }); 251 252 if (UA.Addr->getFlags() & NodeAttrs::PhiRef) { 253 NodeAddr<PhiNode *> PA = UA.Addr->getOwner(*DFG); 254 NodeId id = PA.Id; 255 const Liveness::RefMap &phiUse = LV->getRealUses(id); 256 DEBUG(dbgs() << "\t\t\t\tphi real Uses" 257 << Print<Liveness::RefMap>(phiUse, *DFG) << "\n"); 258 if (!phiUse.empty()) { 259 for (auto I : phiUse) { 260 if (!DFG->getPRI().alias(RegisterRef(I.first), DR)) 261 continue; 262 auto phiUseSet = I.second; 263 for (auto phiUI : phiUseSet) { 264 NodeAddr<UseNode *> phiUA = DFG->addr<UseNode *>(phiUI.first); 265 UNodeList.push_back(phiUA); 266 } 267 } 268 } 269 } else 270 UNodeList.push_back(UA); 271 } 272 } 273 } 274 275 bool HexagonOptAddrMode::analyzeUses(unsigned tfrDefR, 276 const NodeList &UNodeList, 277 InstrEvalMap &InstrEvalResult, 278 short &SizeInc) { 279 bool KeepTfr = false; 280 bool HasRepInstr = false; 281 InstrEvalResult.clear(); 282 283 for (auto I = UNodeList.rbegin(), E = UNodeList.rend(); I != E; ++I) { 284 bool CanBeReplaced = false; 285 NodeAddr<UseNode *> UN = *I; 286 NodeAddr<StmtNode *> SN = UN.Addr->getOwner(*DFG); 287 MachineInstr &MI = *SN.Addr->getCode(); 288 const MCInstrDesc &MID = MI.getDesc(); 289 if ((MID.mayLoad() || MID.mayStore())) { 290 if (!hasRepForm(MI, tfrDefR)) { 291 KeepTfr = true; 292 continue; 293 } 294 SizeInc++; 295 CanBeReplaced = true; 296 } else if (MI.getOpcode() == Hexagon::S2_addasl_rrri) { 297 NodeList AddaslUseList; 298 299 DEBUG(dbgs() << "\nGetting ReachedUses for === " << MI << "\n"); 300 getAllRealUses(SN, AddaslUseList); 301 // Process phi nodes. 302 if (allValidCandidates(SN, AddaslUseList) && 303 canRemoveAddasl(SN, MI, AddaslUseList)) { 304 SizeInc += AddaslUseList.size(); 305 SizeInc -= 1; // Reduce size by 1 as addasl itself can be removed. 306 CanBeReplaced = true; 307 } else 308 SizeInc++; 309 } else 310 // Currently, only load/store and addasl are handled. 311 // Some other instructions to consider - 312 // A2_add -> A2_addi 313 // M4_mpyrr_addr -> M4_mpyrr_addi 314 KeepTfr = true; 315 316 InstrEvalResult[&MI] = CanBeReplaced; 317 HasRepInstr |= CanBeReplaced; 318 } 319 320 // Reduce total size by 2 if original tfr can be deleted. 321 if (!KeepTfr) 322 SizeInc -= 2; 323 324 return HasRepInstr; 325 } 326 327 bool HexagonOptAddrMode::changeLoad(MachineInstr *OldMI, MachineOperand ImmOp, 328 unsigned ImmOpNum) { 329 bool Changed = false; 330 MachineBasicBlock *BB = OldMI->getParent(); 331 auto UsePos = MachineBasicBlock::iterator(OldMI); 332 MachineBasicBlock::instr_iterator InsertPt = UsePos.getInstrIterator(); 333 ++InsertPt; 334 unsigned OpStart; 335 unsigned OpEnd = OldMI->getNumOperands(); 336 MachineInstrBuilder MIB; 337 338 if (ImmOpNum == 1) { 339 if (HII->getAddrMode(*OldMI) == HexagonII::BaseRegOffset) { 340 short NewOpCode = HII->changeAddrMode_rr_ur(*OldMI); 341 assert(NewOpCode >= 0 && "Invalid New opcode\n"); 342 MIB = BuildMI(*BB, InsertPt, OldMI->getDebugLoc(), HII->get(NewOpCode)); 343 MIB.add(OldMI->getOperand(0)); 344 MIB.add(OldMI->getOperand(2)); 345 MIB.add(OldMI->getOperand(3)); 346 MIB.add(ImmOp); 347 OpStart = 4; 348 Changed = true; 349 } else if (HII->getAddrMode(*OldMI) == HexagonII::BaseImmOffset) { 350 short NewOpCode = HII->changeAddrMode_io_abs(*OldMI); 351 assert(NewOpCode >= 0 && "Invalid New opcode\n"); 352 MIB = BuildMI(*BB, InsertPt, OldMI->getDebugLoc(), HII->get(NewOpCode)) 353 .add(OldMI->getOperand(0)); 354 const GlobalValue *GV = ImmOp.getGlobal(); 355 int64_t Offset = ImmOp.getOffset() + OldMI->getOperand(2).getImm(); 356 357 MIB.addGlobalAddress(GV, Offset, ImmOp.getTargetFlags()); 358 OpStart = 3; 359 Changed = true; 360 } else 361 Changed = false; 362 363 DEBUG(dbgs() << "[Changing]: " << *OldMI << "\n"); 364 DEBUG(dbgs() << "[TO]: " << MIB << "\n"); 365 } else if (ImmOpNum == 2 && OldMI->getOperand(3).getImm() == 0) { 366 short NewOpCode = HII->changeAddrMode_rr_io(*OldMI); 367 assert(NewOpCode >= 0 && "Invalid New opcode\n"); 368 MIB = BuildMI(*BB, InsertPt, OldMI->getDebugLoc(), HII->get(NewOpCode)); 369 MIB.add(OldMI->getOperand(0)); 370 MIB.add(OldMI->getOperand(1)); 371 MIB.add(ImmOp); 372 OpStart = 4; 373 Changed = true; 374 DEBUG(dbgs() << "[Changing]: " << *OldMI << "\n"); 375 DEBUG(dbgs() << "[TO]: " << MIB << "\n"); 376 } 377 378 if (Changed) 379 for (unsigned i = OpStart; i < OpEnd; ++i) 380 MIB.add(OldMI->getOperand(i)); 381 382 return Changed; 383 } 384 385 bool HexagonOptAddrMode::changeStore(MachineInstr *OldMI, MachineOperand ImmOp, 386 unsigned ImmOpNum) { 387 bool Changed = false; 388 unsigned OpStart; 389 unsigned OpEnd = OldMI->getNumOperands(); 390 MachineBasicBlock *BB = OldMI->getParent(); 391 auto UsePos = MachineBasicBlock::iterator(OldMI); 392 MachineBasicBlock::instr_iterator InsertPt = UsePos.getInstrIterator(); 393 ++InsertPt; 394 MachineInstrBuilder MIB; 395 if (ImmOpNum == 0) { 396 if (HII->getAddrMode(*OldMI) == HexagonII::BaseRegOffset) { 397 short NewOpCode = HII->changeAddrMode_rr_ur(*OldMI); 398 assert(NewOpCode >= 0 && "Invalid New opcode\n"); 399 MIB = BuildMI(*BB, InsertPt, OldMI->getDebugLoc(), HII->get(NewOpCode)); 400 MIB.add(OldMI->getOperand(1)); 401 MIB.add(OldMI->getOperand(2)); 402 MIB.add(ImmOp); 403 MIB.add(OldMI->getOperand(3)); 404 OpStart = 4; 405 } else if (HII->getAddrMode(*OldMI) == HexagonII::BaseImmOffset) { 406 short NewOpCode = HII->changeAddrMode_io_abs(*OldMI); 407 assert(NewOpCode >= 0 && "Invalid New opcode\n"); 408 MIB = BuildMI(*BB, InsertPt, OldMI->getDebugLoc(), HII->get(NewOpCode)); 409 const GlobalValue *GV = ImmOp.getGlobal(); 410 int64_t Offset = ImmOp.getOffset() + OldMI->getOperand(1).getImm(); 411 MIB.addGlobalAddress(GV, Offset, ImmOp.getTargetFlags()); 412 MIB.add(OldMI->getOperand(2)); 413 OpStart = 3; 414 } 415 Changed = true; 416 DEBUG(dbgs() << "[Changing]: " << *OldMI << "\n"); 417 DEBUG(dbgs() << "[TO]: " << MIB << "\n"); 418 } else if (ImmOpNum == 1 && OldMI->getOperand(2).getImm() == 0) { 419 short NewOpCode = HII->changeAddrMode_rr_io(*OldMI); 420 assert(NewOpCode >= 0 && "Invalid New opcode\n"); 421 MIB = BuildMI(*BB, InsertPt, OldMI->getDebugLoc(), HII->get(NewOpCode)); 422 MIB.add(OldMI->getOperand(0)); 423 MIB.add(ImmOp); 424 MIB.add(OldMI->getOperand(1)); 425 OpStart = 2; 426 Changed = true; 427 DEBUG(dbgs() << "[Changing]: " << *OldMI << "\n"); 428 DEBUG(dbgs() << "[TO]: " << MIB << "\n"); 429 } 430 if (Changed) 431 for (unsigned i = OpStart; i < OpEnd; ++i) 432 MIB.add(OldMI->getOperand(i)); 433 434 return Changed; 435 } 436 437 short HexagonOptAddrMode::getBaseWithLongOffset(const MachineInstr &MI) const { 438 if (HII->getAddrMode(MI) == HexagonII::BaseImmOffset) { 439 short TempOpCode = HII->changeAddrMode_io_rr(MI); 440 return HII->changeAddrMode_rr_ur(TempOpCode); 441 } 442 return HII->changeAddrMode_rr_ur(MI); 443 } 444 445 bool HexagonOptAddrMode::changeAddAsl(NodeAddr<UseNode *> AddAslUN, 446 MachineInstr *AddAslMI, 447 const MachineOperand &ImmOp, 448 unsigned ImmOpNum) { 449 NodeAddr<StmtNode *> SA = AddAslUN.Addr->getOwner(*DFG); 450 451 DEBUG(dbgs() << "Processing addasl :" << *AddAslMI << "\n"); 452 453 NodeList UNodeList; 454 getAllRealUses(SA, UNodeList); 455 456 for (auto I = UNodeList.rbegin(), E = UNodeList.rend(); I != E; ++I) { 457 NodeAddr<UseNode *> UseUN = *I; 458 assert(!(UseUN.Addr->getFlags() & NodeAttrs::PhiRef) && 459 "Can't transform this 'AddAsl' instruction!"); 460 461 NodeAddr<StmtNode *> UseIA = UseUN.Addr->getOwner(*DFG); 462 DEBUG(dbgs() << "[InstrNode]: " << Print<NodeAddr<InstrNode *>>(UseIA, *DFG) 463 << "\n"); 464 MachineInstr *UseMI = UseIA.Addr->getCode(); 465 DEBUG(dbgs() << "[MI <BB#" << UseMI->getParent()->getNumber() 466 << ">]: " << *UseMI << "\n"); 467 const MCInstrDesc &UseMID = UseMI->getDesc(); 468 assert(HII->getAddrMode(*UseMI) == HexagonII::BaseImmOffset); 469 470 auto UsePos = MachineBasicBlock::iterator(UseMI); 471 MachineBasicBlock::instr_iterator InsertPt = UsePos.getInstrIterator(); 472 short NewOpCode = getBaseWithLongOffset(*UseMI); 473 assert(NewOpCode >= 0 && "Invalid New opcode\n"); 474 475 unsigned OpStart; 476 unsigned OpEnd = UseMI->getNumOperands(); 477 478 MachineBasicBlock *BB = UseMI->getParent(); 479 MachineInstrBuilder MIB = 480 BuildMI(*BB, InsertPt, UseMI->getDebugLoc(), HII->get(NewOpCode)); 481 // change mem(Rs + # ) -> mem(Rt << # + ##) 482 if (UseMID.mayLoad()) { 483 MIB.add(UseMI->getOperand(0)); 484 MIB.add(AddAslMI->getOperand(2)); 485 MIB.add(AddAslMI->getOperand(3)); 486 const GlobalValue *GV = ImmOp.getGlobal(); 487 MIB.addGlobalAddress(GV, UseMI->getOperand(2).getImm()+ImmOp.getOffset(), 488 ImmOp.getTargetFlags()); 489 OpStart = 3; 490 } else if (UseMID.mayStore()) { 491 MIB.add(AddAslMI->getOperand(2)); 492 MIB.add(AddAslMI->getOperand(3)); 493 const GlobalValue *GV = ImmOp.getGlobal(); 494 MIB.addGlobalAddress(GV, UseMI->getOperand(1).getImm()+ImmOp.getOffset(), 495 ImmOp.getTargetFlags()); 496 MIB.add(UseMI->getOperand(2)); 497 OpStart = 3; 498 } else 499 llvm_unreachable("Unhandled instruction"); 500 501 for (unsigned i = OpStart; i < OpEnd; ++i) 502 MIB.add(UseMI->getOperand(i)); 503 504 Deleted.insert(UseMI); 505 } 506 507 return true; 508 } 509 510 bool HexagonOptAddrMode::xformUseMI(MachineInstr *TfrMI, MachineInstr *UseMI, 511 NodeAddr<UseNode *> UseN, 512 unsigned UseMOnum) { 513 const MachineOperand ImmOp = TfrMI->getOperand(1); 514 const MCInstrDesc &MID = UseMI->getDesc(); 515 unsigned Changed = false; 516 if (MID.mayLoad()) 517 Changed = changeLoad(UseMI, ImmOp, UseMOnum); 518 else if (MID.mayStore()) 519 Changed = changeStore(UseMI, ImmOp, UseMOnum); 520 else if (UseMI->getOpcode() == Hexagon::S2_addasl_rrri) 521 Changed = changeAddAsl(UseN, UseMI, ImmOp, UseMOnum); 522 523 if (Changed) 524 Deleted.insert(UseMI); 525 526 return Changed; 527 } 528 529 bool HexagonOptAddrMode::processBlock(NodeAddr<BlockNode *> BA) { 530 bool Changed = false; 531 532 for (auto IA : BA.Addr->members(*DFG)) { 533 if (!DFG->IsCode<NodeAttrs::Stmt>(IA)) 534 continue; 535 536 NodeAddr<StmtNode *> SA = IA; 537 MachineInstr *MI = SA.Addr->getCode(); 538 if (MI->getOpcode() != Hexagon::A2_tfrsi || 539 !MI->getOperand(1).isGlobal()) 540 continue; 541 542 DEBUG(dbgs() << "[Analyzing " << HII->getName(MI->getOpcode()) << "]: " 543 << *MI << "\n\t[InstrNode]: " 544 << Print<NodeAddr<InstrNode *>>(IA, *DFG) << '\n'); 545 546 NodeList UNodeList; 547 getAllRealUses(SA, UNodeList); 548 549 if (!allValidCandidates(SA, UNodeList)) 550 continue; 551 552 short SizeInc = 0; 553 unsigned DefR = MI->getOperand(0).getReg(); 554 InstrEvalMap InstrEvalResult; 555 556 // Analyze all uses and calculate increase in size. Perform the optimization 557 // only if there is no increase in size. 558 if (!analyzeUses(DefR, UNodeList, InstrEvalResult, SizeInc)) 559 continue; 560 if (SizeInc > CodeGrowthLimit) 561 continue; 562 563 bool KeepTfr = false; 564 565 DEBUG(dbgs() << "\t[Total reached uses] : " << UNodeList.size() << "\n"); 566 DEBUG(dbgs() << "\t[Processing Reached Uses] ===\n"); 567 for (auto I = UNodeList.rbegin(), E = UNodeList.rend(); I != E; ++I) { 568 NodeAddr<UseNode *> UseN = *I; 569 assert(!(UseN.Addr->getFlags() & NodeAttrs::PhiRef) && 570 "Found a PhiRef node as a real reached use!!"); 571 572 NodeAddr<StmtNode *> OwnerN = UseN.Addr->getOwner(*DFG); 573 MachineInstr *UseMI = OwnerN.Addr->getCode(); 574 DEBUG(dbgs() << "\t\t[MI <BB#" << UseMI->getParent()->getNumber() 575 << ">]: " << *UseMI << "\n"); 576 577 int UseMOnum = -1; 578 unsigned NumOperands = UseMI->getNumOperands(); 579 for (unsigned j = 0; j < NumOperands - 1; ++j) { 580 const MachineOperand &op = UseMI->getOperand(j); 581 if (op.isReg() && op.isUse() && DefR == op.getReg()) 582 UseMOnum = j; 583 } 584 assert(UseMOnum >= 0 && "Invalid reached use!"); 585 586 if (InstrEvalResult[UseMI]) 587 // Change UseMI if replacement is possible. 588 Changed |= xformUseMI(MI, UseMI, UseN, UseMOnum); 589 else 590 KeepTfr = true; 591 } 592 if (!KeepTfr) 593 Deleted.insert(MI); 594 } 595 return Changed; 596 } 597 598 bool HexagonOptAddrMode::runOnMachineFunction(MachineFunction &MF) { 599 if (skipFunction(*MF.getFunction())) 600 return false; 601 602 bool Changed = false; 603 auto &HST = MF.getSubtarget<HexagonSubtarget>(); 604 auto &MRI = MF.getRegInfo(); 605 HII = HST.getInstrInfo(); 606 const auto &MDF = getAnalysis<MachineDominanceFrontier>(); 607 MDT = &getAnalysis<MachineDominatorTree>(); 608 const auto &TRI = *MF.getSubtarget().getRegisterInfo(); 609 const TargetOperandInfo TOI(*HII); 610 611 DataFlowGraph G(MF, *HII, TRI, *MDT, MDF, TOI); 612 // Need to keep dead phis because we can propagate uses of registers into 613 // nodes dominated by those would-be phis. 614 G.build(BuildOptions::KeepDeadPhis); 615 DFG = &G; 616 617 Liveness L(MRI, *DFG); 618 L.computePhiInfo(); 619 LV = &L; 620 621 Deleted.clear(); 622 NodeAddr<FuncNode *> FA = DFG->getFunc(); 623 DEBUG(dbgs() << "==== [RefMap#]=====:\n " 624 << Print<NodeAddr<FuncNode *>>(FA, *DFG) << "\n"); 625 626 for (NodeAddr<BlockNode *> BA : FA.Addr->members(*DFG)) 627 Changed |= processBlock(BA); 628 629 for (auto MI : Deleted) 630 MI->eraseFromParent(); 631 632 if (Changed) { 633 G.build(); 634 L.computeLiveIns(); 635 L.resetLiveIns(); 636 L.resetKills(); 637 } 638 639 return Changed; 640 } 641 642 //===----------------------------------------------------------------------===// 643 // Public Constructor Functions 644 //===----------------------------------------------------------------------===// 645 646 FunctionPass *llvm::createHexagonOptAddrMode() { 647 return new HexagonOptAddrMode(); 648 } 649