1 //===-- RegisterPressure.cpp - Dynamic Register Pressure ------------------===// 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 // 10 // This file implements the RegisterPressure class which can be used to track 11 // MachineInstr level register pressure. 12 // 13 //===----------------------------------------------------------------------===// 14 15 #include "llvm/CodeGen/RegisterPressure.h" 16 #include "llvm/CodeGen/LiveInterval.h" 17 #include "llvm/CodeGen/LiveIntervalAnalysis.h" 18 #include "llvm/CodeGen/MachineRegisterInfo.h" 19 #include "llvm/CodeGen/RegisterClassInfo.h" 20 #include "llvm/Support/Debug.h" 21 #include "llvm/Support/raw_ostream.h" 22 #include "llvm/Target/TargetMachine.h" 23 24 using namespace llvm; 25 26 /// Increase pressure for each pressure set provided by TargetRegisterInfo. 27 static void increaseSetPressure(std::vector<unsigned> &CurrSetPressure, 28 std::vector<unsigned> &MaxSetPressure, 29 const int *PSet, unsigned Weight) { 30 for (; *PSet != -1; ++PSet) { 31 CurrSetPressure[*PSet] += Weight; 32 if (&CurrSetPressure != &MaxSetPressure 33 && CurrSetPressure[*PSet] > MaxSetPressure[*PSet]) { 34 MaxSetPressure[*PSet] = CurrSetPressure[*PSet]; 35 } 36 } 37 } 38 39 /// Decrease pressure for each pressure set provided by TargetRegisterInfo. 40 static void decreaseSetPressure(std::vector<unsigned> &CurrSetPressure, 41 const int *PSet, unsigned Weight) { 42 for (; *PSet != -1; ++PSet) { 43 assert(CurrSetPressure[*PSet] >= Weight && "register pressure underflow"); 44 CurrSetPressure[*PSet] -= Weight; 45 } 46 } 47 48 /// Directly increase pressure only within this RegisterPressure result. 49 void RegisterPressure::increase(unsigned Reg, const TargetRegisterInfo *TRI, 50 const MachineRegisterInfo *MRI) { 51 if (TargetRegisterInfo::isVirtualRegister(Reg)) { 52 const TargetRegisterClass *RC = MRI->getRegClass(Reg); 53 increaseSetPressure(MaxSetPressure, MaxSetPressure, 54 TRI->getRegClassPressureSets(RC), 55 TRI->getRegClassWeight(RC).RegWeight); 56 } 57 else { 58 increaseSetPressure(MaxSetPressure, MaxSetPressure, 59 TRI->getRegUnitPressureSets(Reg), 60 TRI->getRegUnitWeight(Reg)); 61 } 62 } 63 64 /// Directly decrease pressure only within this RegisterPressure result. 65 void RegisterPressure::decrease(unsigned Reg, const TargetRegisterInfo *TRI, 66 const MachineRegisterInfo *MRI) { 67 if (TargetRegisterInfo::isVirtualRegister(Reg)) { 68 const TargetRegisterClass *RC = MRI->getRegClass(Reg); 69 decreaseSetPressure(MaxSetPressure, TRI->getRegClassPressureSets(RC), 70 TRI->getRegClassWeight(RC).RegWeight); 71 } 72 else { 73 decreaseSetPressure(MaxSetPressure, TRI->getRegUnitPressureSets(Reg), 74 TRI->getRegUnitWeight(Reg)); 75 } 76 } 77 78 #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP) 79 void llvm::dumpRegSetPressure(ArrayRef<unsigned> SetPressure, 80 const TargetRegisterInfo *TRI) { 81 bool Empty = true; 82 for (unsigned i = 0, e = SetPressure.size(); i < e; ++i) { 83 if (SetPressure[i] != 0) { 84 dbgs() << TRI->getRegPressureSetName(i) << "=" << SetPressure[i] << '\n'; 85 Empty = false; 86 } 87 } 88 if (Empty) 89 dbgs() << "\n"; 90 } 91 92 void RegisterPressure::dump(const TargetRegisterInfo *TRI) const { 93 dbgs() << "Max Pressure: "; 94 dumpRegSetPressure(MaxSetPressure, TRI); 95 dbgs() << "Live In: "; 96 for (unsigned i = 0, e = LiveInRegs.size(); i < e; ++i) 97 dbgs() << PrintReg(LiveInRegs[i], TRI) << " "; 98 dbgs() << '\n'; 99 dbgs() << "Live Out: "; 100 for (unsigned i = 0, e = LiveOutRegs.size(); i < e; ++i) 101 dbgs() << PrintReg(LiveOutRegs[i], TRI) << " "; 102 dbgs() << '\n'; 103 } 104 105 void RegPressureTracker::dump() const { 106 if (!isTopClosed() || !isBottomClosed()) { 107 dbgs() << "Curr Pressure: "; 108 dumpRegSetPressure(CurrSetPressure, TRI); 109 } 110 P.dump(TRI); 111 } 112 #endif 113 114 /// Increase the current pressure as impacted by these registers and bump 115 /// the high water mark if needed. 116 void RegPressureTracker::increaseRegPressure(ArrayRef<unsigned> Regs) { 117 for (unsigned I = 0, E = Regs.size(); I != E; ++I) { 118 if (TargetRegisterInfo::isVirtualRegister(Regs[I])) { 119 const TargetRegisterClass *RC = MRI->getRegClass(Regs[I]); 120 increaseSetPressure(CurrSetPressure, P.MaxSetPressure, 121 TRI->getRegClassPressureSets(RC), 122 TRI->getRegClassWeight(RC).RegWeight); 123 } 124 else { 125 increaseSetPressure(CurrSetPressure, P.MaxSetPressure, 126 TRI->getRegUnitPressureSets(Regs[I]), 127 TRI->getRegUnitWeight(Regs[I])); 128 } 129 } 130 } 131 132 /// Simply decrease the current pressure as impacted by these registers. 133 void RegPressureTracker::decreaseRegPressure(ArrayRef<unsigned> Regs) { 134 for (unsigned I = 0, E = Regs.size(); I != E; ++I) { 135 if (TargetRegisterInfo::isVirtualRegister(Regs[I])) { 136 const TargetRegisterClass *RC = MRI->getRegClass(Regs[I]); 137 decreaseSetPressure(CurrSetPressure, 138 TRI->getRegClassPressureSets(RC), 139 TRI->getRegClassWeight(RC).RegWeight); 140 } 141 else { 142 decreaseSetPressure(CurrSetPressure, TRI->getRegUnitPressureSets(Regs[I]), 143 TRI->getRegUnitWeight(Regs[I])); 144 } 145 } 146 } 147 148 /// Clear the result so it can be used for another round of pressure tracking. 149 void IntervalPressure::reset() { 150 TopIdx = BottomIdx = SlotIndex(); 151 MaxSetPressure.clear(); 152 LiveInRegs.clear(); 153 LiveOutRegs.clear(); 154 } 155 156 /// Clear the result so it can be used for another round of pressure tracking. 157 void RegionPressure::reset() { 158 TopPos = BottomPos = MachineBasicBlock::const_iterator(); 159 MaxSetPressure.clear(); 160 LiveInRegs.clear(); 161 LiveOutRegs.clear(); 162 } 163 164 /// If the current top is not less than or equal to the next index, open it. 165 /// We happen to need the SlotIndex for the next top for pressure update. 166 void IntervalPressure::openTop(SlotIndex NextTop) { 167 if (TopIdx <= NextTop) 168 return; 169 TopIdx = SlotIndex(); 170 LiveInRegs.clear(); 171 } 172 173 /// If the current top is the previous instruction (before receding), open it. 174 void RegionPressure::openTop(MachineBasicBlock::const_iterator PrevTop) { 175 if (TopPos != PrevTop) 176 return; 177 TopPos = MachineBasicBlock::const_iterator(); 178 LiveInRegs.clear(); 179 } 180 181 /// If the current bottom is not greater than the previous index, open it. 182 void IntervalPressure::openBottom(SlotIndex PrevBottom) { 183 if (BottomIdx > PrevBottom) 184 return; 185 BottomIdx = SlotIndex(); 186 LiveInRegs.clear(); 187 } 188 189 /// If the current bottom is the previous instr (before advancing), open it. 190 void RegionPressure::openBottom(MachineBasicBlock::const_iterator PrevBottom) { 191 if (BottomPos != PrevBottom) 192 return; 193 BottomPos = MachineBasicBlock::const_iterator(); 194 LiveInRegs.clear(); 195 } 196 197 const LiveInterval *RegPressureTracker::getInterval(unsigned Reg) const { 198 if (TargetRegisterInfo::isVirtualRegister(Reg)) 199 return &LIS->getInterval(Reg); 200 return LIS->getCachedRegUnit(Reg); 201 } 202 203 /// Setup the RegPressureTracker. 204 /// 205 /// TODO: Add support for pressure without LiveIntervals. 206 void RegPressureTracker::init(const MachineFunction *mf, 207 const RegisterClassInfo *rci, 208 const LiveIntervals *lis, 209 const MachineBasicBlock *mbb, 210 MachineBasicBlock::const_iterator pos, 211 bool ShouldTrackUntiedDefs) 212 { 213 MF = mf; 214 TRI = MF->getTarget().getRegisterInfo(); 215 RCI = rci; 216 MRI = &MF->getRegInfo(); 217 MBB = mbb; 218 TrackUntiedDefs = ShouldTrackUntiedDefs; 219 220 if (RequireIntervals) { 221 assert(lis && "IntervalPressure requires LiveIntervals"); 222 LIS = lis; 223 } 224 225 CurrPos = pos; 226 CurrSetPressure.assign(TRI->getNumRegPressureSets(), 0); 227 LiveThruPressure.clear(); 228 229 if (RequireIntervals) 230 static_cast<IntervalPressure&>(P).reset(); 231 else 232 static_cast<RegionPressure&>(P).reset(); 233 P.MaxSetPressure = CurrSetPressure; 234 235 LiveRegs.PhysRegs.clear(); 236 LiveRegs.PhysRegs.setUniverse(TRI->getNumRegs()); 237 LiveRegs.VirtRegs.clear(); 238 LiveRegs.VirtRegs.setUniverse(MRI->getNumVirtRegs()); 239 UntiedDefs.clear(); 240 if (TrackUntiedDefs) 241 UntiedDefs.setUniverse(MRI->getNumVirtRegs()); 242 } 243 244 /// Does this pressure result have a valid top position and live ins. 245 bool RegPressureTracker::isTopClosed() const { 246 if (RequireIntervals) 247 return static_cast<IntervalPressure&>(P).TopIdx.isValid(); 248 return (static_cast<RegionPressure&>(P).TopPos == 249 MachineBasicBlock::const_iterator()); 250 } 251 252 /// Does this pressure result have a valid bottom position and live outs. 253 bool RegPressureTracker::isBottomClosed() const { 254 if (RequireIntervals) 255 return static_cast<IntervalPressure&>(P).BottomIdx.isValid(); 256 return (static_cast<RegionPressure&>(P).BottomPos == 257 MachineBasicBlock::const_iterator()); 258 } 259 260 261 SlotIndex RegPressureTracker::getCurrSlot() const { 262 MachineBasicBlock::const_iterator IdxPos = CurrPos; 263 while (IdxPos != MBB->end() && IdxPos->isDebugValue()) 264 ++IdxPos; 265 if (IdxPos == MBB->end()) 266 return LIS->getMBBEndIdx(MBB); 267 return LIS->getInstructionIndex(IdxPos).getRegSlot(); 268 } 269 270 /// Set the boundary for the top of the region and summarize live ins. 271 void RegPressureTracker::closeTop() { 272 if (RequireIntervals) 273 static_cast<IntervalPressure&>(P).TopIdx = getCurrSlot(); 274 else 275 static_cast<RegionPressure&>(P).TopPos = CurrPos; 276 277 assert(P.LiveInRegs.empty() && "inconsistent max pressure result"); 278 P.LiveInRegs.reserve(LiveRegs.PhysRegs.size() + LiveRegs.VirtRegs.size()); 279 P.LiveInRegs.append(LiveRegs.PhysRegs.begin(), LiveRegs.PhysRegs.end()); 280 for (SparseSet<unsigned>::const_iterator I = 281 LiveRegs.VirtRegs.begin(), E = LiveRegs.VirtRegs.end(); I != E; ++I) 282 P.LiveInRegs.push_back(*I); 283 std::sort(P.LiveInRegs.begin(), P.LiveInRegs.end()); 284 P.LiveInRegs.erase(std::unique(P.LiveInRegs.begin(), P.LiveInRegs.end()), 285 P.LiveInRegs.end()); 286 } 287 288 /// Set the boundary for the bottom of the region and summarize live outs. 289 void RegPressureTracker::closeBottom() { 290 if (RequireIntervals) 291 static_cast<IntervalPressure&>(P).BottomIdx = getCurrSlot(); 292 else 293 static_cast<RegionPressure&>(P).BottomPos = CurrPos; 294 295 assert(P.LiveOutRegs.empty() && "inconsistent max pressure result"); 296 P.LiveOutRegs.reserve(LiveRegs.PhysRegs.size() + LiveRegs.VirtRegs.size()); 297 P.LiveOutRegs.append(LiveRegs.PhysRegs.begin(), LiveRegs.PhysRegs.end()); 298 for (SparseSet<unsigned>::const_iterator I = 299 LiveRegs.VirtRegs.begin(), E = LiveRegs.VirtRegs.end(); I != E; ++I) 300 P.LiveOutRegs.push_back(*I); 301 std::sort(P.LiveOutRegs.begin(), P.LiveOutRegs.end()); 302 P.LiveOutRegs.erase(std::unique(P.LiveOutRegs.begin(), P.LiveOutRegs.end()), 303 P.LiveOutRegs.end()); 304 } 305 306 /// Finalize the region boundaries and record live ins and live outs. 307 void RegPressureTracker::closeRegion() { 308 if (!isTopClosed() && !isBottomClosed()) { 309 assert(LiveRegs.PhysRegs.empty() && LiveRegs.VirtRegs.empty() && 310 "no region boundary"); 311 return; 312 } 313 if (!isBottomClosed()) 314 closeBottom(); 315 else if (!isTopClosed()) 316 closeTop(); 317 // If both top and bottom are closed, do nothing. 318 } 319 320 /// The register tracker is unaware of global liveness so ignores normal 321 /// live-thru ranges. However, two-address or coalesced chains can also lead 322 /// to live ranges with no holes. Count these to inform heuristics that we 323 /// can never drop below this pressure. 324 void RegPressureTracker::initLiveThru(const RegPressureTracker &RPTracker) { 325 LiveThruPressure.assign(TRI->getNumRegPressureSets(), 0); 326 assert(isBottomClosed() && "need bottom-up tracking to intialize."); 327 for (unsigned i = 0, e = P.LiveOutRegs.size(); i < e; ++i) { 328 unsigned Reg = P.LiveOutRegs[i]; 329 if (TargetRegisterInfo::isVirtualRegister(Reg) 330 && !RPTracker.hasUntiedDef(Reg)) { 331 const TargetRegisterClass *RC = MRI->getRegClass(Reg); 332 increaseSetPressure(LiveThruPressure, LiveThruPressure, 333 TRI->getRegClassPressureSets(RC), 334 TRI->getRegClassWeight(RC).RegWeight); 335 } 336 } 337 } 338 339 /// \brief Convenient wrapper for checking membership in RegisterOperands. 340 static bool containsReg(ArrayRef<unsigned> Regs, unsigned Reg) { 341 return std::find(Regs.begin(), Regs.end(), Reg) != Regs.end(); 342 } 343 344 /// Collect this instruction's unique uses and defs into SmallVectors for 345 /// processing defs and uses in order. 346 class RegisterOperands { 347 const TargetRegisterInfo *TRI; 348 const MachineRegisterInfo *MRI; 349 350 public: 351 SmallVector<unsigned, 8> Uses; 352 SmallVector<unsigned, 8> Defs; 353 SmallVector<unsigned, 8> DeadDefs; 354 355 RegisterOperands(const TargetRegisterInfo *tri, 356 const MachineRegisterInfo *mri): TRI(tri), MRI(mri) {} 357 358 /// Push this operand's register onto the correct vector. 359 void collect(const MachineOperand &MO) { 360 if (!MO.isReg() || !MO.getReg()) 361 return; 362 if (MO.readsReg()) 363 pushRegUnits(MO.getReg(), Uses); 364 if (MO.isDef()) { 365 if (MO.isDead()) 366 pushRegUnits(MO.getReg(), DeadDefs); 367 else 368 pushRegUnits(MO.getReg(), Defs); 369 } 370 } 371 372 protected: 373 void pushRegUnits(unsigned Reg, SmallVectorImpl<unsigned> &Regs) { 374 if (TargetRegisterInfo::isVirtualRegister(Reg)) { 375 if (containsReg(Regs, Reg)) 376 return; 377 Regs.push_back(Reg); 378 } 379 else if (MRI->isAllocatable(Reg)) { 380 for (MCRegUnitIterator Units(Reg, TRI); Units.isValid(); ++Units) { 381 if (containsReg(Regs, *Units)) 382 continue; 383 Regs.push_back(*Units); 384 } 385 } 386 } 387 }; 388 389 /// Collect physical and virtual register operands. 390 static void collectOperands(const MachineInstr *MI, 391 RegisterOperands &RegOpers) { 392 for (ConstMIBundleOperands OperI(MI); OperI.isValid(); ++OperI) 393 RegOpers.collect(*OperI); 394 395 // Remove redundant physreg dead defs. 396 SmallVectorImpl<unsigned>::iterator I = 397 std::remove_if(RegOpers.DeadDefs.begin(), RegOpers.DeadDefs.end(), 398 std::bind1st(std::ptr_fun(containsReg), RegOpers.Defs)); 399 RegOpers.DeadDefs.erase(I, RegOpers.DeadDefs.end()); 400 } 401 402 /// Force liveness of registers. 403 void RegPressureTracker::addLiveRegs(ArrayRef<unsigned> Regs) { 404 for (unsigned i = 0, e = Regs.size(); i != e; ++i) { 405 if (LiveRegs.insert(Regs[i])) 406 increaseRegPressure(Regs[i]); 407 } 408 } 409 410 /// Add Reg to the live in set and increase max pressure. 411 void RegPressureTracker::discoverLiveIn(unsigned Reg) { 412 assert(!LiveRegs.contains(Reg) && "avoid bumping max pressure twice"); 413 if (containsReg(P.LiveInRegs, Reg)) 414 return; 415 416 // At live in discovery, unconditionally increase the high water mark. 417 P.LiveInRegs.push_back(Reg); 418 P.increase(Reg, TRI, MRI); 419 } 420 421 /// Add Reg to the live out set and increase max pressure. 422 void RegPressureTracker::discoverLiveOut(unsigned Reg) { 423 assert(!LiveRegs.contains(Reg) && "avoid bumping max pressure twice"); 424 if (containsReg(P.LiveOutRegs, Reg)) 425 return; 426 427 // At live out discovery, unconditionally increase the high water mark. 428 P.LiveOutRegs.push_back(Reg); 429 P.increase(Reg, TRI, MRI); 430 } 431 432 /// Recede across the previous instruction. 433 bool RegPressureTracker::recede() { 434 // Check for the top of the analyzable region. 435 if (CurrPos == MBB->begin()) { 436 closeRegion(); 437 return false; 438 } 439 if (!isBottomClosed()) 440 closeBottom(); 441 442 // Open the top of the region using block iterators. 443 if (!RequireIntervals && isTopClosed()) 444 static_cast<RegionPressure&>(P).openTop(CurrPos); 445 446 // Find the previous instruction. 447 do 448 --CurrPos; 449 while (CurrPos != MBB->begin() && CurrPos->isDebugValue()); 450 451 if (CurrPos->isDebugValue()) { 452 closeRegion(); 453 return false; 454 } 455 SlotIndex SlotIdx; 456 if (RequireIntervals) 457 SlotIdx = LIS->getInstructionIndex(CurrPos).getRegSlot(); 458 459 // Open the top of the region using slot indexes. 460 if (RequireIntervals && isTopClosed()) 461 static_cast<IntervalPressure&>(P).openTop(SlotIdx); 462 463 RegisterOperands RegOpers(TRI, MRI); 464 collectOperands(CurrPos, RegOpers); 465 466 // Boost pressure for all dead defs together. 467 increaseRegPressure(RegOpers.DeadDefs); 468 decreaseRegPressure(RegOpers.DeadDefs); 469 470 // Kill liveness at live defs. 471 // TODO: consider earlyclobbers? 472 for (unsigned i = 0, e = RegOpers.Defs.size(); i < e; ++i) { 473 unsigned Reg = RegOpers.Defs[i]; 474 if (LiveRegs.erase(Reg)) 475 decreaseRegPressure(Reg); 476 else 477 discoverLiveOut(Reg); 478 } 479 480 // Generate liveness for uses. 481 for (unsigned i = 0, e = RegOpers.Uses.size(); i < e; ++i) { 482 unsigned Reg = RegOpers.Uses[i]; 483 if (!LiveRegs.contains(Reg)) { 484 // Adjust liveouts if LiveIntervals are available. 485 if (RequireIntervals) { 486 const LiveInterval *LI = getInterval(Reg); 487 if (LI && !LI->killedAt(SlotIdx)) 488 discoverLiveOut(Reg); 489 } 490 increaseRegPressure(Reg); 491 LiveRegs.insert(Reg); 492 } 493 } 494 if (TrackUntiedDefs) { 495 for (unsigned i = 0, e = RegOpers.Defs.size(); i < e; ++i) { 496 unsigned Reg = RegOpers.Defs[i]; 497 if (TargetRegisterInfo::isVirtualRegister(Reg) && !LiveRegs.contains(Reg)) 498 UntiedDefs.insert(Reg); 499 } 500 } 501 return true; 502 } 503 504 /// Advance across the current instruction. 505 bool RegPressureTracker::advance() { 506 assert(!TrackUntiedDefs && "unsupported mode"); 507 508 // Check for the bottom of the analyzable region. 509 if (CurrPos == MBB->end()) { 510 closeRegion(); 511 return false; 512 } 513 if (!isTopClosed()) 514 closeTop(); 515 516 SlotIndex SlotIdx; 517 if (RequireIntervals) 518 SlotIdx = getCurrSlot(); 519 520 // Open the bottom of the region using slot indexes. 521 if (isBottomClosed()) { 522 if (RequireIntervals) 523 static_cast<IntervalPressure&>(P).openBottom(SlotIdx); 524 else 525 static_cast<RegionPressure&>(P).openBottom(CurrPos); 526 } 527 528 RegisterOperands RegOpers(TRI, MRI); 529 collectOperands(CurrPos, RegOpers); 530 531 for (unsigned i = 0, e = RegOpers.Uses.size(); i < e; ++i) { 532 unsigned Reg = RegOpers.Uses[i]; 533 // Discover live-ins. 534 bool isLive = LiveRegs.contains(Reg); 535 if (!isLive) 536 discoverLiveIn(Reg); 537 // Kill liveness at last uses. 538 bool lastUse = false; 539 if (RequireIntervals) { 540 const LiveInterval *LI = getInterval(Reg); 541 lastUse = LI && LI->killedAt(SlotIdx); 542 } 543 else { 544 // Allocatable physregs are always single-use before register rewriting. 545 lastUse = !TargetRegisterInfo::isVirtualRegister(Reg); 546 } 547 if (lastUse && isLive) { 548 LiveRegs.erase(Reg); 549 decreaseRegPressure(Reg); 550 } 551 else if (!lastUse && !isLive) 552 increaseRegPressure(Reg); 553 } 554 555 // Generate liveness for defs. 556 for (unsigned i = 0, e = RegOpers.Defs.size(); i < e; ++i) { 557 unsigned Reg = RegOpers.Defs[i]; 558 if (LiveRegs.insert(Reg)) 559 increaseRegPressure(Reg); 560 } 561 562 // Boost pressure for all dead defs together. 563 increaseRegPressure(RegOpers.DeadDefs); 564 decreaseRegPressure(RegOpers.DeadDefs); 565 566 // Find the next instruction. 567 do 568 ++CurrPos; 569 while (CurrPos != MBB->end() && CurrPos->isDebugValue()); 570 return true; 571 } 572 573 /// Find the max change in excess pressure across all sets. 574 static void computeExcessPressureDelta(ArrayRef<unsigned> OldPressureVec, 575 ArrayRef<unsigned> NewPressureVec, 576 RegPressureDelta &Delta, 577 const RegisterClassInfo *RCI, 578 ArrayRef<unsigned> LiveThruPressureVec) { 579 int ExcessUnits = 0; 580 unsigned PSetID = ~0U; 581 for (unsigned i = 0, e = OldPressureVec.size(); i < e; ++i) { 582 unsigned POld = OldPressureVec[i]; 583 unsigned PNew = NewPressureVec[i]; 584 int PDiff = (int)PNew - (int)POld; 585 if (!PDiff) // No change in this set in the common case. 586 continue; 587 // Only consider change beyond the limit. 588 unsigned Limit = RCI->getRegPressureSetLimit(i); 589 if (!LiveThruPressureVec.empty()) 590 Limit += LiveThruPressureVec[i]; 591 592 if (Limit > POld) { 593 if (Limit > PNew) 594 PDiff = 0; // Under the limit 595 else 596 PDiff = PNew - Limit; // Just exceeded limit. 597 } 598 else if (Limit > PNew) 599 PDiff = Limit - POld; // Just obeyed limit. 600 601 if (PDiff) { 602 ExcessUnits = PDiff; 603 PSetID = i; 604 break; 605 } 606 } 607 Delta.Excess.PSetID = PSetID; 608 Delta.Excess.UnitIncrease = ExcessUnits; 609 } 610 611 /// Find the max change in max pressure that either surpasses a critical PSet 612 /// limit or exceeds the current MaxPressureLimit. 613 /// 614 /// FIXME: comparing each element of the old and new MaxPressure vectors here is 615 /// silly. It's done now to demonstrate the concept but will go away with a 616 /// RegPressureTracker API change to work with pressure differences. 617 static void computeMaxPressureDelta(ArrayRef<unsigned> OldMaxPressureVec, 618 ArrayRef<unsigned> NewMaxPressureVec, 619 ArrayRef<PressureElement> CriticalPSets, 620 ArrayRef<unsigned> MaxPressureLimit, 621 RegPressureDelta &Delta) { 622 Delta.CriticalMax = PressureElement(); 623 Delta.CurrentMax = PressureElement(); 624 625 unsigned CritIdx = 0, CritEnd = CriticalPSets.size(); 626 for (unsigned i = 0, e = OldMaxPressureVec.size(); i < e; ++i) { 627 unsigned POld = OldMaxPressureVec[i]; 628 unsigned PNew = NewMaxPressureVec[i]; 629 if (PNew == POld) // No change in this set in the common case. 630 continue; 631 632 if (!Delta.CriticalMax.isValid()) { 633 while (CritIdx != CritEnd && CriticalPSets[CritIdx].PSetID < i) 634 ++CritIdx; 635 636 if (CritIdx != CritEnd && CriticalPSets[CritIdx].PSetID == i) { 637 int PDiff = (int)PNew - (int)CriticalPSets[CritIdx].UnitIncrease; 638 if (PDiff > 0) { 639 Delta.CriticalMax.PSetID = i; 640 Delta.CriticalMax.UnitIncrease = PDiff; 641 } 642 } 643 } 644 // Find the first increase above MaxPressureLimit. 645 // (Ignores negative MDiff). 646 if (!Delta.CurrentMax.isValid()) { 647 int MDiff = (int)PNew - (int)MaxPressureLimit[i]; 648 if (MDiff > 0) { 649 Delta.CurrentMax.PSetID = i; 650 Delta.CurrentMax.UnitIncrease = MDiff; 651 if (CritIdx == CritEnd || Delta.CriticalMax.isValid()) 652 break; 653 } 654 } 655 } 656 } 657 658 /// Record the upward impact of a single instruction on current register 659 /// pressure. Unlike the advance/recede pressure tracking interface, this does 660 /// not discover live in/outs. 661 /// 662 /// This is intended for speculative queries. It leaves pressure inconsistent 663 /// with the current position, so must be restored by the caller. 664 void RegPressureTracker::bumpUpwardPressure(const MachineInstr *MI) { 665 assert(!MI->isDebugValue() && "Expect a nondebug instruction."); 666 667 // Account for register pressure similar to RegPressureTracker::recede(). 668 RegisterOperands RegOpers(TRI, MRI); 669 collectOperands(MI, RegOpers); 670 671 // Boost max pressure for all dead defs together. 672 // Since CurrSetPressure and MaxSetPressure 673 increaseRegPressure(RegOpers.DeadDefs); 674 decreaseRegPressure(RegOpers.DeadDefs); 675 676 // Kill liveness at live defs. 677 for (unsigned i = 0, e = RegOpers.Defs.size(); i < e; ++i) { 678 unsigned Reg = RegOpers.Defs[i]; 679 if (!containsReg(RegOpers.Uses, Reg)) 680 decreaseRegPressure(Reg); 681 } 682 // Generate liveness for uses. 683 for (unsigned i = 0, e = RegOpers.Uses.size(); i < e; ++i) { 684 unsigned Reg = RegOpers.Uses[i]; 685 if (!LiveRegs.contains(Reg)) 686 increaseRegPressure(Reg); 687 } 688 } 689 690 /// Consider the pressure increase caused by traversing this instruction 691 /// bottom-up. Find the pressure set with the most change beyond its pressure 692 /// limit based on the tracker's current pressure, and return the change in 693 /// number of register units of that pressure set introduced by this 694 /// instruction. 695 /// 696 /// This assumes that the current LiveOut set is sufficient. 697 /// 698 /// FIXME: This is expensive for an on-the-fly query. We need to cache the 699 /// result per-SUnit with enough information to adjust for the current 700 /// scheduling position. But this works as a proof of concept. 701 void RegPressureTracker:: 702 getMaxUpwardPressureDelta(const MachineInstr *MI, RegPressureDelta &Delta, 703 ArrayRef<PressureElement> CriticalPSets, 704 ArrayRef<unsigned> MaxPressureLimit) { 705 // Snapshot Pressure. 706 // FIXME: The snapshot heap space should persist. But I'm planning to 707 // summarize the pressure effect so we don't need to snapshot at all. 708 std::vector<unsigned> SavedPressure = CurrSetPressure; 709 std::vector<unsigned> SavedMaxPressure = P.MaxSetPressure; 710 711 bumpUpwardPressure(MI); 712 713 computeExcessPressureDelta(SavedPressure, CurrSetPressure, Delta, RCI, 714 LiveThruPressure); 715 computeMaxPressureDelta(SavedMaxPressure, P.MaxSetPressure, CriticalPSets, 716 MaxPressureLimit, Delta); 717 assert(Delta.CriticalMax.UnitIncrease >= 0 && 718 Delta.CurrentMax.UnitIncrease >= 0 && "cannot decrease max pressure"); 719 720 // Restore the tracker's state. 721 P.MaxSetPressure.swap(SavedMaxPressure); 722 CurrSetPressure.swap(SavedPressure); 723 } 724 725 /// Helper to find a vreg use between two indices [PriorUseIdx, NextUseIdx). 726 static bool findUseBetween(unsigned Reg, 727 SlotIndex PriorUseIdx, SlotIndex NextUseIdx, 728 const MachineRegisterInfo *MRI, 729 const LiveIntervals *LIS) { 730 for (MachineRegisterInfo::use_nodbg_iterator 731 UI = MRI->use_nodbg_begin(Reg), UE = MRI->use_nodbg_end(); 732 UI != UE; UI.skipInstruction()) { 733 const MachineInstr* MI = &*UI; 734 if (MI->isDebugValue()) 735 continue; 736 SlotIndex InstSlot = LIS->getInstructionIndex(MI).getRegSlot(); 737 if (InstSlot >= PriorUseIdx && InstSlot < NextUseIdx) 738 return true; 739 } 740 return false; 741 } 742 743 /// Record the downward impact of a single instruction on current register 744 /// pressure. Unlike the advance/recede pressure tracking interface, this does 745 /// not discover live in/outs. 746 /// 747 /// This is intended for speculative queries. It leaves pressure inconsistent 748 /// with the current position, so must be restored by the caller. 749 void RegPressureTracker::bumpDownwardPressure(const MachineInstr *MI) { 750 assert(!MI->isDebugValue() && "Expect a nondebug instruction."); 751 752 // Account for register pressure similar to RegPressureTracker::recede(). 753 RegisterOperands RegOpers(TRI, MRI); 754 collectOperands(MI, RegOpers); 755 756 // Kill liveness at last uses. Assume allocatable physregs are single-use 757 // rather than checking LiveIntervals. 758 SlotIndex SlotIdx; 759 if (RequireIntervals) 760 SlotIdx = LIS->getInstructionIndex(MI).getRegSlot(); 761 762 for (unsigned i = 0, e = RegOpers.Uses.size(); i < e; ++i) { 763 unsigned Reg = RegOpers.Uses[i]; 764 if (RequireIntervals) { 765 // FIXME: allow the caller to pass in the list of vreg uses that remain 766 // to be bottom-scheduled to avoid searching uses at each query. 767 SlotIndex CurrIdx = getCurrSlot(); 768 const LiveInterval *LI = getInterval(Reg); 769 if (LI && LI->killedAt(SlotIdx) 770 && !findUseBetween(Reg, CurrIdx, SlotIdx, MRI, LIS)) { 771 decreaseRegPressure(Reg); 772 } 773 } 774 else if (!TargetRegisterInfo::isVirtualRegister(Reg)) { 775 // Allocatable physregs are always single-use before register rewriting. 776 decreaseRegPressure(Reg); 777 } 778 } 779 780 // Generate liveness for defs. 781 increaseRegPressure(RegOpers.Defs); 782 783 // Boost pressure for all dead defs together. 784 increaseRegPressure(RegOpers.DeadDefs); 785 decreaseRegPressure(RegOpers.DeadDefs); 786 } 787 788 /// Consider the pressure increase caused by traversing this instruction 789 /// top-down. Find the register class with the most change in its pressure limit 790 /// based on the tracker's current pressure, and return the number of excess 791 /// register units of that pressure set introduced by this instruction. 792 /// 793 /// This assumes that the current LiveIn set is sufficient. 794 void RegPressureTracker:: 795 getMaxDownwardPressureDelta(const MachineInstr *MI, RegPressureDelta &Delta, 796 ArrayRef<PressureElement> CriticalPSets, 797 ArrayRef<unsigned> MaxPressureLimit) { 798 // Snapshot Pressure. 799 std::vector<unsigned> SavedPressure = CurrSetPressure; 800 std::vector<unsigned> SavedMaxPressure = P.MaxSetPressure; 801 802 bumpDownwardPressure(MI); 803 804 computeExcessPressureDelta(SavedPressure, CurrSetPressure, Delta, RCI, 805 LiveThruPressure); 806 computeMaxPressureDelta(SavedMaxPressure, P.MaxSetPressure, CriticalPSets, 807 MaxPressureLimit, Delta); 808 assert(Delta.CriticalMax.UnitIncrease >= 0 && 809 Delta.CurrentMax.UnitIncrease >= 0 && "cannot decrease max pressure"); 810 811 // Restore the tracker's state. 812 P.MaxSetPressure.swap(SavedMaxPressure); 813 CurrSetPressure.swap(SavedPressure); 814 } 815 816 /// Get the pressure of each PSet after traversing this instruction bottom-up. 817 void RegPressureTracker:: 818 getUpwardPressure(const MachineInstr *MI, 819 std::vector<unsigned> &PressureResult, 820 std::vector<unsigned> &MaxPressureResult) { 821 // Snapshot pressure. 822 PressureResult = CurrSetPressure; 823 MaxPressureResult = P.MaxSetPressure; 824 825 bumpUpwardPressure(MI); 826 827 // Current pressure becomes the result. Restore current pressure. 828 P.MaxSetPressure.swap(MaxPressureResult); 829 CurrSetPressure.swap(PressureResult); 830 } 831 832 /// Get the pressure of each PSet after traversing this instruction top-down. 833 void RegPressureTracker:: 834 getDownwardPressure(const MachineInstr *MI, 835 std::vector<unsigned> &PressureResult, 836 std::vector<unsigned> &MaxPressureResult) { 837 // Snapshot pressure. 838 PressureResult = CurrSetPressure; 839 MaxPressureResult = P.MaxSetPressure; 840 841 bumpDownwardPressure(MI); 842 843 // Current pressure becomes the result. Restore current pressure. 844 P.MaxSetPressure.swap(MaxPressureResult); 845 CurrSetPressure.swap(PressureResult); 846 } 847
