1 //===---- MachineOutliner.cpp - Outline instructions -----------*- C++ -*-===// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 /// 9 /// \file 10 /// Replaces repeated sequences of instructions with function calls. 11 /// 12 /// This works by placing every instruction from every basic block in a 13 /// suffix tree, and repeatedly querying that tree for repeated sequences of 14 /// instructions. If a sequence of instructions appears often, then it ought 15 /// to be beneficial to pull out into a function. 16 /// 17 /// The MachineOutliner communicates with a given target using hooks defined in 18 /// TargetInstrInfo.h. The target supplies the outliner with information on how 19 /// a specific sequence of instructions should be outlined. This information 20 /// is used to deduce the number of instructions necessary to 21 /// 22 /// * Create an outlined function 23 /// * Call that outlined function 24 /// 25 /// Targets must implement 26 /// * getOutliningCandidateInfo 27 /// * buildOutlinedFrame 28 /// * insertOutlinedCall 29 /// * isFunctionSafeToOutlineFrom 30 /// 31 /// in order to make use of the MachineOutliner. 32 /// 33 /// This was originally presented at the 2016 LLVM Developers' Meeting in the 34 /// talk "Reducing Code Size Using Outlining". For a high-level overview of 35 /// how this pass works, the talk is available on YouTube at 36 /// 37 /// https://www.youtube.com/watch?v=yorld-WSOeU 38 /// 39 /// The slides for the talk are available at 40 /// 41 /// http://www.llvm.org/devmtg/2016-11/Slides/Paquette-Outliner.pdf 42 /// 43 /// The talk provides an overview of how the outliner finds candidates and 44 /// ultimately outlines them. It describes how the main data structure for this 45 /// pass, the suffix tree, is queried and purged for candidates. It also gives 46 /// a simplified suffix tree construction algorithm for suffix trees based off 47 /// of the algorithm actually used here, Ukkonen's algorithm. 48 /// 49 /// For the original RFC for this pass, please see 50 /// 51 /// http://lists.llvm.org/pipermail/llvm-dev/2016-August/104170.html 52 /// 53 /// For more information on the suffix tree data structure, please see 54 /// https://www.cs.helsinki.fi/u/ukkonen/SuffixT1withFigs.pdf 55 /// 56 //===----------------------------------------------------------------------===// 57 #include "llvm/CodeGen/MachineOutliner.h" 58 #include "llvm/ADT/DenseMap.h" 59 #include "llvm/ADT/SmallSet.h" 60 #include "llvm/ADT/Statistic.h" 61 #include "llvm/ADT/Twine.h" 62 #include "llvm/CodeGen/MachineFunction.h" 63 #include "llvm/CodeGen/MachineModuleInfo.h" 64 #include "llvm/CodeGen/MachineOptimizationRemarkEmitter.h" 65 #include "llvm/CodeGen/MachineRegisterInfo.h" 66 #include "llvm/CodeGen/Passes.h" 67 #include "llvm/CodeGen/TargetInstrInfo.h" 68 #include "llvm/CodeGen/TargetSubtargetInfo.h" 69 #include "llvm/IR/DIBuilder.h" 70 #include "llvm/IR/IRBuilder.h" 71 #include "llvm/IR/Mangler.h" 72 #include "llvm/InitializePasses.h" 73 #include "llvm/Support/CommandLine.h" 74 #include "llvm/Support/Debug.h" 75 #include "llvm/Support/SuffixTree.h" 76 #include "llvm/Support/raw_ostream.h" 77 #include <functional> 78 #include <tuple> 79 #include <vector> 80 81 #define DEBUG_TYPE "machine-outliner" 82 83 using namespace llvm; 84 using namespace ore; 85 using namespace outliner; 86 87 STATISTIC(NumOutlined, "Number of candidates outlined"); 88 STATISTIC(FunctionsCreated, "Number of functions created"); 89 90 // Set to true if the user wants the outliner to run on linkonceodr linkage 91 // functions. This is false by default because the linker can dedupe linkonceodr 92 // functions. Since the outliner is confined to a single module (modulo LTO), 93 // this is off by default. It should, however, be the default behaviour in 94 // LTO. 95 static cl::opt<bool> EnableLinkOnceODROutlining( 96 "enable-linkonceodr-outlining", cl::Hidden, 97 cl::desc("Enable the machine outliner on linkonceodr functions"), 98 cl::init(false)); 99 100 /// Number of times to re-run the outliner. This is not the total number of runs 101 /// as the outliner will run at least one time. The default value is set to 0, 102 /// meaning the outliner will run one time and rerun zero times after that. 103 static cl::opt<unsigned> OutlinerReruns( 104 "machine-outliner-reruns", cl::init(0), cl::Hidden, 105 cl::desc( 106 "Number of times to rerun the outliner after the initial outline")); 107 108 namespace { 109 110 /// Maps \p MachineInstrs to unsigned integers and stores the mappings. 111 struct InstructionMapper { 112 113 /// The next available integer to assign to a \p MachineInstr that 114 /// cannot be outlined. 115 /// 116 /// Set to -3 for compatability with \p DenseMapInfo<unsigned>. 117 unsigned IllegalInstrNumber = -3; 118 119 /// The next available integer to assign to a \p MachineInstr that can 120 /// be outlined. 121 unsigned LegalInstrNumber = 0; 122 123 /// Correspondence from \p MachineInstrs to unsigned integers. 124 DenseMap<MachineInstr *, unsigned, MachineInstrExpressionTrait> 125 InstructionIntegerMap; 126 127 /// Correspondence between \p MachineBasicBlocks and target-defined flags. 128 DenseMap<MachineBasicBlock *, unsigned> MBBFlagsMap; 129 130 /// The vector of unsigned integers that the module is mapped to. 131 std::vector<unsigned> UnsignedVec; 132 133 /// Stores the location of the instruction associated with the integer 134 /// at index i in \p UnsignedVec for each index i. 135 std::vector<MachineBasicBlock::iterator> InstrList; 136 137 // Set if we added an illegal number in the previous step. 138 // Since each illegal number is unique, we only need one of them between 139 // each range of legal numbers. This lets us make sure we don't add more 140 // than one illegal number per range. 141 bool AddedIllegalLastTime = false; 142 143 /// Maps \p *It to a legal integer. 144 /// 145 /// Updates \p CanOutlineWithPrevInstr, \p HaveLegalRange, \p InstrListForMBB, 146 /// \p UnsignedVecForMBB, \p InstructionIntegerMap, and \p LegalInstrNumber. 147 /// 148 /// \returns The integer that \p *It was mapped to. 149 unsigned mapToLegalUnsigned( 150 MachineBasicBlock::iterator &It, bool &CanOutlineWithPrevInstr, 151 bool &HaveLegalRange, unsigned &NumLegalInBlock, 152 std::vector<unsigned> &UnsignedVecForMBB, 153 std::vector<MachineBasicBlock::iterator> &InstrListForMBB) { 154 // We added something legal, so we should unset the AddedLegalLastTime 155 // flag. 156 AddedIllegalLastTime = false; 157 158 // If we have at least two adjacent legal instructions (which may have 159 // invisible instructions in between), remember that. 160 if (CanOutlineWithPrevInstr) 161 HaveLegalRange = true; 162 CanOutlineWithPrevInstr = true; 163 164 // Keep track of the number of legal instructions we insert. 165 NumLegalInBlock++; 166 167 // Get the integer for this instruction or give it the current 168 // LegalInstrNumber. 169 InstrListForMBB.push_back(It); 170 MachineInstr &MI = *It; 171 bool WasInserted; 172 DenseMap<MachineInstr *, unsigned, MachineInstrExpressionTrait>::iterator 173 ResultIt; 174 std::tie(ResultIt, WasInserted) = 175 InstructionIntegerMap.insert(std::make_pair(&MI, LegalInstrNumber)); 176 unsigned MINumber = ResultIt->second; 177 178 // There was an insertion. 179 if (WasInserted) 180 LegalInstrNumber++; 181 182 UnsignedVecForMBB.push_back(MINumber); 183 184 // Make sure we don't overflow or use any integers reserved by the DenseMap. 185 if (LegalInstrNumber >= IllegalInstrNumber) 186 report_fatal_error("Instruction mapping overflow!"); 187 188 assert(LegalInstrNumber != DenseMapInfo<unsigned>::getEmptyKey() && 189 "Tried to assign DenseMap tombstone or empty key to instruction."); 190 assert(LegalInstrNumber != DenseMapInfo<unsigned>::getTombstoneKey() && 191 "Tried to assign DenseMap tombstone or empty key to instruction."); 192 193 return MINumber; 194 } 195 196 /// Maps \p *It to an illegal integer. 197 /// 198 /// Updates \p InstrListForMBB, \p UnsignedVecForMBB, and \p 199 /// IllegalInstrNumber. 200 /// 201 /// \returns The integer that \p *It was mapped to. 202 unsigned mapToIllegalUnsigned( 203 MachineBasicBlock::iterator &It, bool &CanOutlineWithPrevInstr, 204 std::vector<unsigned> &UnsignedVecForMBB, 205 std::vector<MachineBasicBlock::iterator> &InstrListForMBB) { 206 // Can't outline an illegal instruction. Set the flag. 207 CanOutlineWithPrevInstr = false; 208 209 // Only add one illegal number per range of legal numbers. 210 if (AddedIllegalLastTime) 211 return IllegalInstrNumber; 212 213 // Remember that we added an illegal number last time. 214 AddedIllegalLastTime = true; 215 unsigned MINumber = IllegalInstrNumber; 216 217 InstrListForMBB.push_back(It); 218 UnsignedVecForMBB.push_back(IllegalInstrNumber); 219 IllegalInstrNumber--; 220 221 assert(LegalInstrNumber < IllegalInstrNumber && 222 "Instruction mapping overflow!"); 223 224 assert(IllegalInstrNumber != DenseMapInfo<unsigned>::getEmptyKey() && 225 "IllegalInstrNumber cannot be DenseMap tombstone or empty key!"); 226 227 assert(IllegalInstrNumber != DenseMapInfo<unsigned>::getTombstoneKey() && 228 "IllegalInstrNumber cannot be DenseMap tombstone or empty key!"); 229 230 return MINumber; 231 } 232 233 /// Transforms a \p MachineBasicBlock into a \p vector of \p unsigneds 234 /// and appends it to \p UnsignedVec and \p InstrList. 235 /// 236 /// Two instructions are assigned the same integer if they are identical. 237 /// If an instruction is deemed unsafe to outline, then it will be assigned an 238 /// unique integer. The resulting mapping is placed into a suffix tree and 239 /// queried for candidates. 240 /// 241 /// \param MBB The \p MachineBasicBlock to be translated into integers. 242 /// \param TII \p TargetInstrInfo for the function. 243 void convertToUnsignedVec(MachineBasicBlock &MBB, 244 const TargetInstrInfo &TII) { 245 unsigned Flags = 0; 246 247 // Don't even map in this case. 248 if (!TII.isMBBSafeToOutlineFrom(MBB, Flags)) 249 return; 250 251 // Store info for the MBB for later outlining. 252 MBBFlagsMap[&MBB] = Flags; 253 254 MachineBasicBlock::iterator It = MBB.begin(); 255 256 // The number of instructions in this block that will be considered for 257 // outlining. 258 unsigned NumLegalInBlock = 0; 259 260 // True if we have at least two legal instructions which aren't separated 261 // by an illegal instruction. 262 bool HaveLegalRange = false; 263 264 // True if we can perform outlining given the last mapped (non-invisible) 265 // instruction. This lets us know if we have a legal range. 266 bool CanOutlineWithPrevInstr = false; 267 268 // FIXME: Should this all just be handled in the target, rather than using 269 // repeated calls to getOutliningType? 270 std::vector<unsigned> UnsignedVecForMBB; 271 std::vector<MachineBasicBlock::iterator> InstrListForMBB; 272 273 for (MachineBasicBlock::iterator Et = MBB.end(); It != Et; ++It) { 274 // Keep track of where this instruction is in the module. 275 switch (TII.getOutliningType(It, Flags)) { 276 case InstrType::Illegal: 277 mapToIllegalUnsigned(It, CanOutlineWithPrevInstr, UnsignedVecForMBB, 278 InstrListForMBB); 279 break; 280 281 case InstrType::Legal: 282 mapToLegalUnsigned(It, CanOutlineWithPrevInstr, HaveLegalRange, 283 NumLegalInBlock, UnsignedVecForMBB, InstrListForMBB); 284 break; 285 286 case InstrType::LegalTerminator: 287 mapToLegalUnsigned(It, CanOutlineWithPrevInstr, HaveLegalRange, 288 NumLegalInBlock, UnsignedVecForMBB, InstrListForMBB); 289 // The instruction also acts as a terminator, so we have to record that 290 // in the string. 291 mapToIllegalUnsigned(It, CanOutlineWithPrevInstr, UnsignedVecForMBB, 292 InstrListForMBB); 293 break; 294 295 case InstrType::Invisible: 296 // Normally this is set by mapTo(Blah)Unsigned, but we just want to 297 // skip this instruction. So, unset the flag here. 298 AddedIllegalLastTime = false; 299 break; 300 } 301 } 302 303 // Are there enough legal instructions in the block for outlining to be 304 // possible? 305 if (HaveLegalRange) { 306 // After we're done every insertion, uniquely terminate this part of the 307 // "string". This makes sure we won't match across basic block or function 308 // boundaries since the "end" is encoded uniquely and thus appears in no 309 // repeated substring. 310 mapToIllegalUnsigned(It, CanOutlineWithPrevInstr, UnsignedVecForMBB, 311 InstrListForMBB); 312 InstrList.insert(InstrList.end(), InstrListForMBB.begin(), 313 InstrListForMBB.end()); 314 UnsignedVec.insert(UnsignedVec.end(), UnsignedVecForMBB.begin(), 315 UnsignedVecForMBB.end()); 316 } 317 } 318 319 InstructionMapper() { 320 // Make sure that the implementation of DenseMapInfo<unsigned> hasn't 321 // changed. 322 assert(DenseMapInfo<unsigned>::getEmptyKey() == (unsigned)-1 && 323 "DenseMapInfo<unsigned>'s empty key isn't -1!"); 324 assert(DenseMapInfo<unsigned>::getTombstoneKey() == (unsigned)-2 && 325 "DenseMapInfo<unsigned>'s tombstone key isn't -2!"); 326 } 327 }; 328 329 /// An interprocedural pass which finds repeated sequences of 330 /// instructions and replaces them with calls to functions. 331 /// 332 /// Each instruction is mapped to an unsigned integer and placed in a string. 333 /// The resulting mapping is then placed in a \p SuffixTree. The \p SuffixTree 334 /// is then repeatedly queried for repeated sequences of instructions. Each 335 /// non-overlapping repeated sequence is then placed in its own 336 /// \p MachineFunction and each instance is then replaced with a call to that 337 /// function. 338 struct MachineOutliner : public ModulePass { 339 340 static char ID; 341 342 /// Set to true if the outliner should consider functions with 343 /// linkonceodr linkage. 344 bool OutlineFromLinkOnceODRs = false; 345 346 /// The current repeat number of machine outlining. 347 unsigned OutlineRepeatedNum = 0; 348 349 /// Set to true if the outliner should run on all functions in the module 350 /// considered safe for outlining. 351 /// Set to true by default for compatibility with llc's -run-pass option. 352 /// Set when the pass is constructed in TargetPassConfig. 353 bool RunOnAllFunctions = true; 354 355 StringRef getPassName() const override { return "Machine Outliner"; } 356 357 void getAnalysisUsage(AnalysisUsage &AU) const override { 358 AU.addRequired<MachineModuleInfoWrapperPass>(); 359 AU.addPreserved<MachineModuleInfoWrapperPass>(); 360 AU.setPreservesAll(); 361 ModulePass::getAnalysisUsage(AU); 362 } 363 364 MachineOutliner() : ModulePass(ID) { 365 initializeMachineOutlinerPass(*PassRegistry::getPassRegistry()); 366 } 367 368 /// Remark output explaining that not outlining a set of candidates would be 369 /// better than outlining that set. 370 void emitNotOutliningCheaperRemark( 371 unsigned StringLen, std::vector<Candidate> &CandidatesForRepeatedSeq, 372 OutlinedFunction &OF); 373 374 /// Remark output explaining that a function was outlined. 375 void emitOutlinedFunctionRemark(OutlinedFunction &OF); 376 377 /// Find all repeated substrings that satisfy the outlining cost model by 378 /// constructing a suffix tree. 379 /// 380 /// If a substring appears at least twice, then it must be represented by 381 /// an internal node which appears in at least two suffixes. Each suffix 382 /// is represented by a leaf node. To do this, we visit each internal node 383 /// in the tree, using the leaf children of each internal node. If an 384 /// internal node represents a beneficial substring, then we use each of 385 /// its leaf children to find the locations of its substring. 386 /// 387 /// \param Mapper Contains outlining mapping information. 388 /// \param[out] FunctionList Filled with a list of \p OutlinedFunctions 389 /// each type of candidate. 390 void findCandidates(InstructionMapper &Mapper, 391 std::vector<OutlinedFunction> &FunctionList); 392 393 /// Replace the sequences of instructions represented by \p OutlinedFunctions 394 /// with calls to functions. 395 /// 396 /// \param M The module we are outlining from. 397 /// \param FunctionList A list of functions to be inserted into the module. 398 /// \param Mapper Contains the instruction mappings for the module. 399 bool outline(Module &M, std::vector<OutlinedFunction> &FunctionList, 400 InstructionMapper &Mapper, unsigned &OutlinedFunctionNum); 401 402 /// Creates a function for \p OF and inserts it into the module. 403 MachineFunction *createOutlinedFunction(Module &M, OutlinedFunction &OF, 404 InstructionMapper &Mapper, 405 unsigned Name); 406 407 /// Calls 'doOutline()' 1 + OutlinerReruns times. 408 bool runOnModule(Module &M) override; 409 410 /// Construct a suffix tree on the instructions in \p M and outline repeated 411 /// strings from that tree. 412 bool doOutline(Module &M, unsigned &OutlinedFunctionNum); 413 414 /// Return a DISubprogram for OF if one exists, and null otherwise. Helper 415 /// function for remark emission. 416 DISubprogram *getSubprogramOrNull(const OutlinedFunction &OF) { 417 for (const Candidate &C : OF.Candidates) 418 if (MachineFunction *MF = C.getMF()) 419 if (DISubprogram *SP = MF->getFunction().getSubprogram()) 420 return SP; 421 return nullptr; 422 } 423 424 /// Populate and \p InstructionMapper with instruction-to-integer mappings. 425 /// These are used to construct a suffix tree. 426 void populateMapper(InstructionMapper &Mapper, Module &M, 427 MachineModuleInfo &MMI); 428 429 /// Initialize information necessary to output a size remark. 430 /// FIXME: This should be handled by the pass manager, not the outliner. 431 /// FIXME: This is nearly identical to the initSizeRemarkInfo in the legacy 432 /// pass manager. 433 void initSizeRemarkInfo(const Module &M, const MachineModuleInfo &MMI, 434 StringMap<unsigned> &FunctionToInstrCount); 435 436 /// Emit the remark. 437 // FIXME: This should be handled by the pass manager, not the outliner. 438 void 439 emitInstrCountChangedRemark(const Module &M, const MachineModuleInfo &MMI, 440 const StringMap<unsigned> &FunctionToInstrCount); 441 }; 442 } // Anonymous namespace. 443 444 char MachineOutliner::ID = 0; 445 446 namespace llvm { 447 ModulePass *createMachineOutlinerPass(bool RunOnAllFunctions) { 448 MachineOutliner *OL = new MachineOutliner(); 449 OL->RunOnAllFunctions = RunOnAllFunctions; 450 return OL; 451 } 452 453 } // namespace llvm 454 455 INITIALIZE_PASS(MachineOutliner, DEBUG_TYPE, "Machine Function Outliner", false, 456 false) 457 458 void MachineOutliner::emitNotOutliningCheaperRemark( 459 unsigned StringLen, std::vector<Candidate> &CandidatesForRepeatedSeq, 460 OutlinedFunction &OF) { 461 // FIXME: Right now, we arbitrarily choose some Candidate from the 462 // OutlinedFunction. This isn't necessarily fixed, nor does it have to be. 463 // We should probably sort these by function name or something to make sure 464 // the remarks are stable. 465 Candidate &C = CandidatesForRepeatedSeq.front(); 466 MachineOptimizationRemarkEmitter MORE(*(C.getMF()), nullptr); 467 MORE.emit([&]() { 468 MachineOptimizationRemarkMissed R(DEBUG_TYPE, "NotOutliningCheaper", 469 C.front()->getDebugLoc(), C.getMBB()); 470 R << "Did not outline " << NV("Length", StringLen) << " instructions" 471 << " from " << NV("NumOccurrences", CandidatesForRepeatedSeq.size()) 472 << " locations." 473 << " Bytes from outlining all occurrences (" 474 << NV("OutliningCost", OF.getOutliningCost()) << ")" 475 << " >= Unoutlined instruction bytes (" 476 << NV("NotOutliningCost", OF.getNotOutlinedCost()) << ")" 477 << " (Also found at: "; 478 479 // Tell the user the other places the candidate was found. 480 for (unsigned i = 1, e = CandidatesForRepeatedSeq.size(); i < e; i++) { 481 R << NV((Twine("OtherStartLoc") + Twine(i)).str(), 482 CandidatesForRepeatedSeq[i].front()->getDebugLoc()); 483 if (i != e - 1) 484 R << ", "; 485 } 486 487 R << ")"; 488 return R; 489 }); 490 } 491 492 void MachineOutliner::emitOutlinedFunctionRemark(OutlinedFunction &OF) { 493 MachineBasicBlock *MBB = &*OF.MF->begin(); 494 MachineOptimizationRemarkEmitter MORE(*OF.MF, nullptr); 495 MachineOptimizationRemark R(DEBUG_TYPE, "OutlinedFunction", 496 MBB->findDebugLoc(MBB->begin()), MBB); 497 R << "Saved " << NV("OutliningBenefit", OF.getBenefit()) << " bytes by " 498 << "outlining " << NV("Length", OF.getNumInstrs()) << " instructions " 499 << "from " << NV("NumOccurrences", OF.getOccurrenceCount()) 500 << " locations. " 501 << "(Found at: "; 502 503 // Tell the user the other places the candidate was found. 504 for (size_t i = 0, e = OF.Candidates.size(); i < e; i++) { 505 506 R << NV((Twine("StartLoc") + Twine(i)).str(), 507 OF.Candidates[i].front()->getDebugLoc()); 508 if (i != e - 1) 509 R << ", "; 510 } 511 512 R << ")"; 513 514 MORE.emit(R); 515 } 516 517 void MachineOutliner::findCandidates( 518 InstructionMapper &Mapper, std::vector<OutlinedFunction> &FunctionList) { 519 FunctionList.clear(); 520 SuffixTree ST(Mapper.UnsignedVec); 521 522 // First, find all of the repeated substrings in the tree of minimum length 523 // 2. 524 std::vector<Candidate> CandidatesForRepeatedSeq; 525 for (auto It = ST.begin(), Et = ST.end(); It != Et; ++It) { 526 CandidatesForRepeatedSeq.clear(); 527 SuffixTree::RepeatedSubstring RS = *It; 528 unsigned StringLen = RS.Length; 529 for (const unsigned &StartIdx : RS.StartIndices) { 530 unsigned EndIdx = StartIdx + StringLen - 1; 531 // Trick: Discard some candidates that would be incompatible with the 532 // ones we've already found for this sequence. This will save us some 533 // work in candidate selection. 534 // 535 // If two candidates overlap, then we can't outline them both. This 536 // happens when we have candidates that look like, say 537 // 538 // AA (where each "A" is an instruction). 539 // 540 // We might have some portion of the module that looks like this: 541 // AAAAAA (6 A's) 542 // 543 // In this case, there are 5 different copies of "AA" in this range, but 544 // at most 3 can be outlined. If only outlining 3 of these is going to 545 // be unbeneficial, then we ought to not bother. 546 // 547 // Note that two things DON'T overlap when they look like this: 548 // start1...end1 .... start2...end2 549 // That is, one must either 550 // * End before the other starts 551 // * Start after the other ends 552 if (std::all_of( 553 CandidatesForRepeatedSeq.begin(), CandidatesForRepeatedSeq.end(), 554 [&StartIdx, &EndIdx](const Candidate &C) { 555 return (EndIdx < C.getStartIdx() || StartIdx > C.getEndIdx()); 556 })) { 557 // It doesn't overlap with anything, so we can outline it. 558 // Each sequence is over [StartIt, EndIt]. 559 // Save the candidate and its location. 560 561 MachineBasicBlock::iterator StartIt = Mapper.InstrList[StartIdx]; 562 MachineBasicBlock::iterator EndIt = Mapper.InstrList[EndIdx]; 563 MachineBasicBlock *MBB = StartIt->getParent(); 564 565 CandidatesForRepeatedSeq.emplace_back(StartIdx, StringLen, StartIt, 566 EndIt, MBB, FunctionList.size(), 567 Mapper.MBBFlagsMap[MBB]); 568 } 569 } 570 571 // We've found something we might want to outline. 572 // Create an OutlinedFunction to store it and check if it'd be beneficial 573 // to outline. 574 if (CandidatesForRepeatedSeq.size() < 2) 575 continue; 576 577 // Arbitrarily choose a TII from the first candidate. 578 // FIXME: Should getOutliningCandidateInfo move to TargetMachine? 579 const TargetInstrInfo *TII = 580 CandidatesForRepeatedSeq[0].getMF()->getSubtarget().getInstrInfo(); 581 582 OutlinedFunction OF = 583 TII->getOutliningCandidateInfo(CandidatesForRepeatedSeq); 584 585 // If we deleted too many candidates, then there's nothing worth outlining. 586 // FIXME: This should take target-specified instruction sizes into account. 587 if (OF.Candidates.size() < 2) 588 continue; 589 590 // Is it better to outline this candidate than not? 591 if (OF.getBenefit() < 1) { 592 emitNotOutliningCheaperRemark(StringLen, CandidatesForRepeatedSeq, OF); 593 continue; 594 } 595 596 FunctionList.push_back(OF); 597 } 598 } 599 600 MachineFunction *MachineOutliner::createOutlinedFunction( 601 Module &M, OutlinedFunction &OF, InstructionMapper &Mapper, unsigned Name) { 602 603 // Create the function name. This should be unique. 604 // FIXME: We should have a better naming scheme. This should be stable, 605 // regardless of changes to the outliner's cost model/traversal order. 606 std::string FunctionName = "OUTLINED_FUNCTION_"; 607 if (OutlineRepeatedNum > 0) 608 FunctionName += std::to_string(OutlineRepeatedNum + 1) + "_"; 609 FunctionName += std::to_string(Name); 610 611 // Create the function using an IR-level function. 612 LLVMContext &C = M.getContext(); 613 Function *F = Function::Create(FunctionType::get(Type::getVoidTy(C), false), 614 Function::ExternalLinkage, FunctionName, M); 615 616 // NOTE: If this is linkonceodr, then we can take advantage of linker deduping 617 // which gives us better results when we outline from linkonceodr functions. 618 F->setLinkage(GlobalValue::InternalLinkage); 619 F->setUnnamedAddr(GlobalValue::UnnamedAddr::Global); 620 621 // Set optsize/minsize, so we don't insert padding between outlined 622 // functions. 623 F->addFnAttr(Attribute::OptimizeForSize); 624 F->addFnAttr(Attribute::MinSize); 625 626 // Include target features from an arbitrary candidate for the outlined 627 // function. This makes sure the outlined function knows what kinds of 628 // instructions are going into it. This is fine, since all parent functions 629 // must necessarily support the instructions that are in the outlined region. 630 Candidate &FirstCand = OF.Candidates.front(); 631 const Function &ParentFn = FirstCand.getMF()->getFunction(); 632 if (ParentFn.hasFnAttribute("target-features")) 633 F->addFnAttr(ParentFn.getFnAttribute("target-features")); 634 635 // Set nounwind, so we don't generate eh_frame. 636 if (llvm::all_of(OF.Candidates, [](const outliner::Candidate &C) { 637 return C.getMF()->getFunction().hasFnAttribute(Attribute::NoUnwind); 638 })) 639 F->addFnAttr(Attribute::NoUnwind); 640 641 BasicBlock *EntryBB = BasicBlock::Create(C, "entry", F); 642 IRBuilder<> Builder(EntryBB); 643 Builder.CreateRetVoid(); 644 645 MachineModuleInfo &MMI = getAnalysis<MachineModuleInfoWrapperPass>().getMMI(); 646 MachineFunction &MF = MMI.getOrCreateMachineFunction(*F); 647 MachineBasicBlock &MBB = *MF.CreateMachineBasicBlock(); 648 const TargetSubtargetInfo &STI = MF.getSubtarget(); 649 const TargetInstrInfo &TII = *STI.getInstrInfo(); 650 651 // Insert the new function into the module. 652 MF.insert(MF.begin(), &MBB); 653 654 MachineFunction *OriginalMF = FirstCand.front()->getMF(); 655 const std::vector<MCCFIInstruction> &Instrs = 656 OriginalMF->getFrameInstructions(); 657 for (auto I = FirstCand.front(), E = std::next(FirstCand.back()); I != E; 658 ++I) { 659 MachineInstr *NewMI = MF.CloneMachineInstr(&*I); 660 if (I->isCFIInstruction()) { 661 unsigned CFIIndex = NewMI->getOperand(0).getCFIIndex(); 662 MCCFIInstruction CFI = Instrs[CFIIndex]; 663 (void)MF.addFrameInst(CFI); 664 } 665 NewMI->dropMemRefs(MF); 666 667 // Don't keep debug information for outlined instructions. 668 NewMI->setDebugLoc(DebugLoc()); 669 MBB.insert(MBB.end(), NewMI); 670 } 671 672 // Set normal properties for a late MachineFunction. 673 MF.getProperties().reset(MachineFunctionProperties::Property::IsSSA); 674 MF.getProperties().set(MachineFunctionProperties::Property::NoPHIs); 675 MF.getProperties().set(MachineFunctionProperties::Property::NoVRegs); 676 MF.getProperties().set(MachineFunctionProperties::Property::TracksLiveness); 677 MF.getRegInfo().freezeReservedRegs(MF); 678 679 // Compute live-in set for outlined fn 680 const MachineRegisterInfo &MRI = MF.getRegInfo(); 681 const TargetRegisterInfo &TRI = *MRI.getTargetRegisterInfo(); 682 LivePhysRegs LiveIns(TRI); 683 for (auto &Cand : OF.Candidates) { 684 // Figure out live-ins at the first instruction. 685 MachineBasicBlock &OutlineBB = *Cand.front()->getParent(); 686 LivePhysRegs CandLiveIns(TRI); 687 CandLiveIns.addLiveOuts(OutlineBB); 688 for (const MachineInstr &MI : 689 reverse(make_range(Cand.front(), OutlineBB.end()))) 690 CandLiveIns.stepBackward(MI); 691 692 // The live-in set for the outlined function is the union of the live-ins 693 // from all the outlining points. 694 for (MCPhysReg Reg : make_range(CandLiveIns.begin(), CandLiveIns.end())) 695 LiveIns.addReg(Reg); 696 } 697 addLiveIns(MBB, LiveIns); 698 699 TII.buildOutlinedFrame(MBB, MF, OF); 700 701 // If there's a DISubprogram associated with this outlined function, then 702 // emit debug info for the outlined function. 703 if (DISubprogram *SP = getSubprogramOrNull(OF)) { 704 // We have a DISubprogram. Get its DICompileUnit. 705 DICompileUnit *CU = SP->getUnit(); 706 DIBuilder DB(M, true, CU); 707 DIFile *Unit = SP->getFile(); 708 Mangler Mg; 709 // Get the mangled name of the function for the linkage name. 710 std::string Dummy; 711 llvm::raw_string_ostream MangledNameStream(Dummy); 712 Mg.getNameWithPrefix(MangledNameStream, F, false); 713 714 DISubprogram *OutlinedSP = DB.createFunction( 715 Unit /* Context */, F->getName(), StringRef(MangledNameStream.str()), 716 Unit /* File */, 717 0 /* Line 0 is reserved for compiler-generated code. */, 718 DB.createSubroutineType(DB.getOrCreateTypeArray(None)), /* void type */ 719 0, /* Line 0 is reserved for compiler-generated code. */ 720 DINode::DIFlags::FlagArtificial /* Compiler-generated code. */, 721 /* Outlined code is optimized code by definition. */ 722 DISubprogram::SPFlagDefinition | DISubprogram::SPFlagOptimized); 723 724 // Don't add any new variables to the subprogram. 725 DB.finalizeSubprogram(OutlinedSP); 726 727 // Attach subprogram to the function. 728 F->setSubprogram(OutlinedSP); 729 // We're done with the DIBuilder. 730 DB.finalize(); 731 } 732 733 return &MF; 734 } 735 736 bool MachineOutliner::outline(Module &M, 737 std::vector<OutlinedFunction> &FunctionList, 738 InstructionMapper &Mapper, 739 unsigned &OutlinedFunctionNum) { 740 741 bool OutlinedSomething = false; 742 743 // Sort by benefit. The most beneficial functions should be outlined first. 744 llvm::stable_sort(FunctionList, [](const OutlinedFunction &LHS, 745 const OutlinedFunction &RHS) { 746 return LHS.getBenefit() > RHS.getBenefit(); 747 }); 748 749 // Walk over each function, outlining them as we go along. Functions are 750 // outlined greedily, based off the sort above. 751 for (OutlinedFunction &OF : FunctionList) { 752 // If we outlined something that overlapped with a candidate in a previous 753 // step, then we can't outline from it. 754 erase_if(OF.Candidates, [&Mapper](Candidate &C) { 755 return std::any_of( 756 Mapper.UnsignedVec.begin() + C.getStartIdx(), 757 Mapper.UnsignedVec.begin() + C.getEndIdx() + 1, 758 [](unsigned I) { return (I == static_cast<unsigned>(-1)); }); 759 }); 760 761 // If we made it unbeneficial to outline this function, skip it. 762 if (OF.getBenefit() < 1) 763 continue; 764 765 // It's beneficial. Create the function and outline its sequence's 766 // occurrences. 767 OF.MF = createOutlinedFunction(M, OF, Mapper, OutlinedFunctionNum); 768 emitOutlinedFunctionRemark(OF); 769 FunctionsCreated++; 770 OutlinedFunctionNum++; // Created a function, move to the next name. 771 MachineFunction *MF = OF.MF; 772 const TargetSubtargetInfo &STI = MF->getSubtarget(); 773 const TargetInstrInfo &TII = *STI.getInstrInfo(); 774 775 // Replace occurrences of the sequence with calls to the new function. 776 for (Candidate &C : OF.Candidates) { 777 MachineBasicBlock &MBB = *C.getMBB(); 778 MachineBasicBlock::iterator StartIt = C.front(); 779 MachineBasicBlock::iterator EndIt = C.back(); 780 781 // Insert the call. 782 auto CallInst = TII.insertOutlinedCall(M, MBB, StartIt, *MF, C); 783 784 // If the caller tracks liveness, then we need to make sure that 785 // anything we outline doesn't break liveness assumptions. The outlined 786 // functions themselves currently don't track liveness, but we should 787 // make sure that the ranges we yank things out of aren't wrong. 788 if (MBB.getParent()->getProperties().hasProperty( 789 MachineFunctionProperties::Property::TracksLiveness)) { 790 // The following code is to add implicit def operands to the call 791 // instruction. It also updates call site information for moved 792 // code. 793 SmallSet<Register, 2> UseRegs, DefRegs; 794 // Copy over the defs in the outlined range. 795 // First inst in outlined range <-- Anything that's defined in this 796 // ... .. range has to be added as an 797 // implicit Last inst in outlined range <-- def to the call 798 // instruction. Also remove call site information for outlined block 799 // of code. The exposed uses need to be copied in the outlined range. 800 for (MachineBasicBlock::reverse_iterator 801 Iter = EndIt.getReverse(), 802 Last = std::next(CallInst.getReverse()); 803 Iter != Last; Iter++) { 804 MachineInstr *MI = &*Iter; 805 for (MachineOperand &MOP : MI->operands()) { 806 // Skip over anything that isn't a register. 807 if (!MOP.isReg()) 808 continue; 809 810 if (MOP.isDef()) { 811 // Introduce DefRegs set to skip the redundant register. 812 DefRegs.insert(MOP.getReg()); 813 if (UseRegs.count(MOP.getReg())) 814 // Since the regiester is modeled as defined, 815 // it is not necessary to be put in use register set. 816 UseRegs.erase(MOP.getReg()); 817 } else if (!MOP.isUndef()) { 818 // Any register which is not undefined should 819 // be put in the use register set. 820 UseRegs.insert(MOP.getReg()); 821 } 822 } 823 if (MI->isCandidateForCallSiteEntry()) 824 MI->getMF()->eraseCallSiteInfo(MI); 825 } 826 827 for (const Register &I : DefRegs) 828 // If it's a def, add it to the call instruction. 829 CallInst->addOperand( 830 MachineOperand::CreateReg(I, true, /* isDef = true */ 831 true /* isImp = true */)); 832 833 for (const Register &I : UseRegs) 834 // If it's a exposed use, add it to the call instruction. 835 CallInst->addOperand( 836 MachineOperand::CreateReg(I, false, /* isDef = false */ 837 true /* isImp = true */)); 838 } 839 840 // Erase from the point after where the call was inserted up to, and 841 // including, the final instruction in the sequence. 842 // Erase needs one past the end, so we need std::next there too. 843 MBB.erase(std::next(StartIt), std::next(EndIt)); 844 845 // Keep track of what we removed by marking them all as -1. 846 std::for_each(Mapper.UnsignedVec.begin() + C.getStartIdx(), 847 Mapper.UnsignedVec.begin() + C.getEndIdx() + 1, 848 [](unsigned &I) { I = static_cast<unsigned>(-1); }); 849 OutlinedSomething = true; 850 851 // Statistics. 852 NumOutlined++; 853 } 854 } 855 856 LLVM_DEBUG(dbgs() << "OutlinedSomething = " << OutlinedSomething << "\n";); 857 return OutlinedSomething; 858 } 859 860 void MachineOutliner::populateMapper(InstructionMapper &Mapper, Module &M, 861 MachineModuleInfo &MMI) { 862 // Build instruction mappings for each function in the module. Start by 863 // iterating over each Function in M. 864 for (Function &F : M) { 865 866 // If there's nothing in F, then there's no reason to try and outline from 867 // it. 868 if (F.empty()) 869 continue; 870 871 // There's something in F. Check if it has a MachineFunction associated with 872 // it. 873 MachineFunction *MF = MMI.getMachineFunction(F); 874 875 // If it doesn't, then there's nothing to outline from. Move to the next 876 // Function. 877 if (!MF) 878 continue; 879 880 const TargetInstrInfo *TII = MF->getSubtarget().getInstrInfo(); 881 882 if (!RunOnAllFunctions && !TII->shouldOutlineFromFunctionByDefault(*MF)) 883 continue; 884 885 // We have a MachineFunction. Ask the target if it's suitable for outlining. 886 // If it isn't, then move on to the next Function in the module. 887 if (!TII->isFunctionSafeToOutlineFrom(*MF, OutlineFromLinkOnceODRs)) 888 continue; 889 890 // We have a function suitable for outlining. Iterate over every 891 // MachineBasicBlock in MF and try to map its instructions to a list of 892 // unsigned integers. 893 for (MachineBasicBlock &MBB : *MF) { 894 // If there isn't anything in MBB, then there's no point in outlining from 895 // it. 896 // If there are fewer than 2 instructions in the MBB, then it can't ever 897 // contain something worth outlining. 898 // FIXME: This should be based off of the maximum size in B of an outlined 899 // call versus the size in B of the MBB. 900 if (MBB.empty() || MBB.size() < 2) 901 continue; 902 903 // Check if MBB could be the target of an indirect branch. If it is, then 904 // we don't want to outline from it. 905 if (MBB.hasAddressTaken()) 906 continue; 907 908 // MBB is suitable for outlining. Map it to a list of unsigneds. 909 Mapper.convertToUnsignedVec(MBB, *TII); 910 } 911 } 912 } 913 914 void MachineOutliner::initSizeRemarkInfo( 915 const Module &M, const MachineModuleInfo &MMI, 916 StringMap<unsigned> &FunctionToInstrCount) { 917 // Collect instruction counts for every function. We'll use this to emit 918 // per-function size remarks later. 919 for (const Function &F : M) { 920 MachineFunction *MF = MMI.getMachineFunction(F); 921 922 // We only care about MI counts here. If there's no MachineFunction at this 923 // point, then there won't be after the outliner runs, so let's move on. 924 if (!MF) 925 continue; 926 FunctionToInstrCount[F.getName().str()] = MF->getInstructionCount(); 927 } 928 } 929 930 void MachineOutliner::emitInstrCountChangedRemark( 931 const Module &M, const MachineModuleInfo &MMI, 932 const StringMap<unsigned> &FunctionToInstrCount) { 933 // Iterate over each function in the module and emit remarks. 934 // Note that we won't miss anything by doing this, because the outliner never 935 // deletes functions. 936 for (const Function &F : M) { 937 MachineFunction *MF = MMI.getMachineFunction(F); 938 939 // The outliner never deletes functions. If we don't have a MF here, then we 940 // didn't have one prior to outlining either. 941 if (!MF) 942 continue; 943 944 std::string Fname = std::string(F.getName()); 945 unsigned FnCountAfter = MF->getInstructionCount(); 946 unsigned FnCountBefore = 0; 947 948 // Check if the function was recorded before. 949 auto It = FunctionToInstrCount.find(Fname); 950 951 // Did we have a previously-recorded size? If yes, then set FnCountBefore 952 // to that. 953 if (It != FunctionToInstrCount.end()) 954 FnCountBefore = It->second; 955 956 // Compute the delta and emit a remark if there was a change. 957 int64_t FnDelta = static_cast<int64_t>(FnCountAfter) - 958 static_cast<int64_t>(FnCountBefore); 959 if (FnDelta == 0) 960 continue; 961 962 MachineOptimizationRemarkEmitter MORE(*MF, nullptr); 963 MORE.emit([&]() { 964 MachineOptimizationRemarkAnalysis R("size-info", "FunctionMISizeChange", 965 DiagnosticLocation(), &MF->front()); 966 R << DiagnosticInfoOptimizationBase::Argument("Pass", "Machine Outliner") 967 << ": Function: " 968 << DiagnosticInfoOptimizationBase::Argument("Function", F.getName()) 969 << ": MI instruction count changed from " 970 << DiagnosticInfoOptimizationBase::Argument("MIInstrsBefore", 971 FnCountBefore) 972 << " to " 973 << DiagnosticInfoOptimizationBase::Argument("MIInstrsAfter", 974 FnCountAfter) 975 << "; Delta: " 976 << DiagnosticInfoOptimizationBase::Argument("Delta", FnDelta); 977 return R; 978 }); 979 } 980 } 981 982 bool MachineOutliner::runOnModule(Module &M) { 983 // Check if there's anything in the module. If it's empty, then there's 984 // nothing to outline. 985 if (M.empty()) 986 return false; 987 988 // Number to append to the current outlined function. 989 unsigned OutlinedFunctionNum = 0; 990 991 OutlineRepeatedNum = 0; 992 if (!doOutline(M, OutlinedFunctionNum)) 993 return false; 994 995 for (unsigned I = 0; I < OutlinerReruns; ++I) { 996 OutlinedFunctionNum = 0; 997 OutlineRepeatedNum++; 998 if (!doOutline(M, OutlinedFunctionNum)) { 999 LLVM_DEBUG({ 1000 dbgs() << "Did not outline on iteration " << I + 2 << " out of " 1001 << OutlinerReruns + 1 << "\n"; 1002 }); 1003 break; 1004 } 1005 } 1006 1007 return true; 1008 } 1009 1010 bool MachineOutliner::doOutline(Module &M, unsigned &OutlinedFunctionNum) { 1011 MachineModuleInfo &MMI = getAnalysis<MachineModuleInfoWrapperPass>().getMMI(); 1012 1013 // If the user passed -enable-machine-outliner=always or 1014 // -enable-machine-outliner, the pass will run on all functions in the module. 1015 // Otherwise, if the target supports default outlining, it will run on all 1016 // functions deemed by the target to be worth outlining from by default. Tell 1017 // the user how the outliner is running. 1018 LLVM_DEBUG({ 1019 dbgs() << "Machine Outliner: Running on "; 1020 if (RunOnAllFunctions) 1021 dbgs() << "all functions"; 1022 else 1023 dbgs() << "target-default functions"; 1024 dbgs() << "\n"; 1025 }); 1026 1027 // If the user specifies that they want to outline from linkonceodrs, set 1028 // it here. 1029 OutlineFromLinkOnceODRs = EnableLinkOnceODROutlining; 1030 InstructionMapper Mapper; 1031 1032 // Prepare instruction mappings for the suffix tree. 1033 populateMapper(Mapper, M, MMI); 1034 std::vector<OutlinedFunction> FunctionList; 1035 1036 // Find all of the outlining candidates. 1037 findCandidates(Mapper, FunctionList); 1038 1039 // If we've requested size remarks, then collect the MI counts of every 1040 // function before outlining, and the MI counts after outlining. 1041 // FIXME: This shouldn't be in the outliner at all; it should ultimately be 1042 // the pass manager's responsibility. 1043 // This could pretty easily be placed in outline instead, but because we 1044 // really ultimately *don't* want this here, it's done like this for now 1045 // instead. 1046 1047 // Check if we want size remarks. 1048 bool ShouldEmitSizeRemarks = M.shouldEmitInstrCountChangedRemark(); 1049 StringMap<unsigned> FunctionToInstrCount; 1050 if (ShouldEmitSizeRemarks) 1051 initSizeRemarkInfo(M, MMI, FunctionToInstrCount); 1052 1053 // Outline each of the candidates and return true if something was outlined. 1054 bool OutlinedSomething = 1055 outline(M, FunctionList, Mapper, OutlinedFunctionNum); 1056 1057 // If we outlined something, we definitely changed the MI count of the 1058 // module. If we've asked for size remarks, then output them. 1059 // FIXME: This should be in the pass manager. 1060 if (ShouldEmitSizeRemarks && OutlinedSomething) 1061 emitInstrCountChangedRemark(M, MMI, FunctionToInstrCount); 1062 1063 LLVM_DEBUG({ 1064 if (!OutlinedSomething) 1065 dbgs() << "Stopped outlining at iteration " << OutlineRepeatedNum 1066 << " because no changes were found.\n"; 1067 }); 1068 1069 return OutlinedSomething; 1070 } 1071