1 //===- LoopPassManager.h - Loop pass management -----------------*- 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 /// \file 9 /// 10 /// This header provides classes for managing a pipeline of passes over loops 11 /// in LLVM IR. 12 /// 13 /// The primary loop pass pipeline is managed in a very particular way to 14 /// provide a set of core guarantees: 15 /// 1) Loops are, where possible, in simplified form. 16 /// 2) Loops are *always* in LCSSA form. 17 /// 3) A collection of Loop-specific analysis results are available: 18 /// - LoopInfo 19 /// - DominatorTree 20 /// - ScalarEvolution 21 /// - AAManager 22 /// 4) All loop passes preserve #1 (where possible), #2, and #3. 23 /// 5) Loop passes run over each loop in the loop nest from the innermost to 24 /// the outermost. Specifically, all inner loops are processed before 25 /// passes run over outer loops. When running the pipeline across an inner 26 /// loop creates new inner loops, those are added and processed in this 27 /// order as well. 28 /// 29 /// This process is designed to facilitate transformations which simplify, 30 /// reduce, and remove loops. For passes which are more oriented towards 31 /// optimizing loops, especially optimizing loop *nests* instead of single 32 /// loops in isolation, this framework is less interesting. 33 /// 34 //===----------------------------------------------------------------------===// 35 36 #ifndef LLVM_TRANSFORMS_SCALAR_LOOPPASSMANAGER_H 37 #define LLVM_TRANSFORMS_SCALAR_LOOPPASSMANAGER_H 38 39 #include "llvm/ADT/PriorityWorklist.h" 40 #include "llvm/Analysis/LoopAnalysisManager.h" 41 #include "llvm/Analysis/LoopInfo.h" 42 #include "llvm/Analysis/LoopNestAnalysis.h" 43 #include "llvm/IR/Dominators.h" 44 #include "llvm/IR/PassInstrumentation.h" 45 #include "llvm/IR/PassManager.h" 46 #include "llvm/Transforms/Utils/LCSSA.h" 47 #include "llvm/Transforms/Utils/LoopSimplify.h" 48 #include "llvm/Transforms/Utils/LoopUtils.h" 49 #include <memory> 50 51 namespace llvm { 52 53 // Forward declarations of an update tracking API used in the pass manager. 54 class LPMUpdater; 55 56 namespace { 57 58 template <typename PassT> 59 using HasRunOnLoopT = decltype(std::declval<PassT>().run( 60 std::declval<Loop &>(), std::declval<LoopAnalysisManager &>(), 61 std::declval<LoopStandardAnalysisResults &>(), 62 std::declval<LPMUpdater &>())); 63 64 } // namespace 65 66 // Explicit specialization and instantiation declarations for the pass manager. 67 // See the comments on the definition of the specialization for details on how 68 // it differs from the primary template. 69 template <> 70 class PassManager<Loop, LoopAnalysisManager, LoopStandardAnalysisResults &, 71 LPMUpdater &> 72 : public PassInfoMixin< 73 PassManager<Loop, LoopAnalysisManager, LoopStandardAnalysisResults &, 74 LPMUpdater &>> { 75 public: PassManager()76 explicit PassManager() {} 77 78 // FIXME: These are equivalent to the default move constructor/move 79 // assignment. However, using = default triggers linker errors due to the 80 // explicit instantiations below. Find a way to use the default and remove the 81 // duplicated code here. PassManager(PassManager && Arg)82 PassManager(PassManager &&Arg) 83 : IsLoopNestPass(std::move(Arg.IsLoopNestPass)), 84 LoopPasses(std::move(Arg.LoopPasses)), 85 LoopNestPasses(std::move(Arg.LoopNestPasses)) {} 86 87 PassManager &operator=(PassManager &&RHS) { 88 IsLoopNestPass = std::move(RHS.IsLoopNestPass); 89 LoopPasses = std::move(RHS.LoopPasses); 90 LoopNestPasses = std::move(RHS.LoopNestPasses); 91 return *this; 92 } 93 94 PreservedAnalyses run(Loop &L, LoopAnalysisManager &AM, 95 LoopStandardAnalysisResults &AR, LPMUpdater &U); 96 97 /// Add either a loop pass or a loop-nest pass to the pass manager. Append \p 98 /// Pass to the list of loop passes if it has a dedicated \fn run() method for 99 /// loops and to the list of loop-nest passes if the \fn run() method is for 100 /// loop-nests instead. Also append whether \p Pass is loop-nest pass or not 101 /// to the end of \var IsLoopNestPass so we can easily identify the types of 102 /// passes in the pass manager later. 103 template <typename PassT> 104 std::enable_if_t<is_detected<HasRunOnLoopT, PassT>::value> addPass(PassT && Pass)105 addPass(PassT &&Pass) { 106 using LoopPassModelT = 107 detail::PassModel<Loop, PassT, PreservedAnalyses, LoopAnalysisManager, 108 LoopStandardAnalysisResults &, LPMUpdater &>; 109 IsLoopNestPass.push_back(false); 110 LoopPasses.emplace_back(new LoopPassModelT(std::forward<PassT>(Pass))); 111 } 112 113 template <typename PassT> 114 std::enable_if_t<!is_detected<HasRunOnLoopT, PassT>::value> addPass(PassT && Pass)115 addPass(PassT &&Pass) { 116 using LoopNestPassModelT = 117 detail::PassModel<LoopNest, PassT, PreservedAnalyses, 118 LoopAnalysisManager, LoopStandardAnalysisResults &, 119 LPMUpdater &>; 120 IsLoopNestPass.push_back(true); 121 LoopNestPasses.emplace_back( 122 new LoopNestPassModelT(std::forward<PassT>(Pass))); 123 } 124 125 // Specializations of `addPass` for `RepeatedPass`. These are necessary since 126 // `RepeatedPass` has a templated `run` method that will result in incorrect 127 // detection of `HasRunOnLoopT`. 128 template <typename PassT> 129 std::enable_if_t<is_detected<HasRunOnLoopT, PassT>::value> addPass(RepeatedPass<PassT> && Pass)130 addPass(RepeatedPass<PassT> &&Pass) { 131 using RepeatedLoopPassModelT = 132 detail::PassModel<Loop, RepeatedPass<PassT>, PreservedAnalyses, 133 LoopAnalysisManager, LoopStandardAnalysisResults &, 134 LPMUpdater &>; 135 IsLoopNestPass.push_back(false); 136 LoopPasses.emplace_back(new RepeatedLoopPassModelT(std::move(Pass))); 137 } 138 139 template <typename PassT> 140 std::enable_if_t<!is_detected<HasRunOnLoopT, PassT>::value> addPass(RepeatedPass<PassT> && Pass)141 addPass(RepeatedPass<PassT> &&Pass) { 142 using RepeatedLoopNestPassModelT = 143 detail::PassModel<LoopNest, RepeatedPass<PassT>, PreservedAnalyses, 144 LoopAnalysisManager, LoopStandardAnalysisResults &, 145 LPMUpdater &>; 146 IsLoopNestPass.push_back(true); 147 LoopNestPasses.emplace_back( 148 new RepeatedLoopNestPassModelT(std::move(Pass))); 149 } 150 isEmpty()151 bool isEmpty() const { return LoopPasses.empty() && LoopNestPasses.empty(); } 152 isRequired()153 static bool isRequired() { return true; } 154 getNumLoopPasses()155 size_t getNumLoopPasses() const { return LoopPasses.size(); } getNumLoopNestPasses()156 size_t getNumLoopNestPasses() const { return LoopNestPasses.size(); } 157 158 protected: 159 using LoopPassConceptT = 160 detail::PassConcept<Loop, LoopAnalysisManager, 161 LoopStandardAnalysisResults &, LPMUpdater &>; 162 using LoopNestPassConceptT = 163 detail::PassConcept<LoopNest, LoopAnalysisManager, 164 LoopStandardAnalysisResults &, LPMUpdater &>; 165 166 // BitVector that identifies whether the passes are loop passes or loop-nest 167 // passes (true for loop-nest passes). 168 BitVector IsLoopNestPass; 169 std::vector<std::unique_ptr<LoopPassConceptT>> LoopPasses; 170 std::vector<std::unique_ptr<LoopNestPassConceptT>> LoopNestPasses; 171 172 /// Run either a loop pass or a loop-nest pass. Returns `None` if 173 /// PassInstrumentation's BeforePass returns false. Otherwise, returns the 174 /// preserved analyses of the pass. 175 template <typename IRUnitT, typename PassT> 176 Optional<PreservedAnalyses> 177 runSinglePass(IRUnitT &IR, PassT &Pass, LoopAnalysisManager &AM, 178 LoopStandardAnalysisResults &AR, LPMUpdater &U, 179 PassInstrumentation &PI); 180 181 PreservedAnalyses runWithLoopNestPasses(Loop &L, LoopAnalysisManager &AM, 182 LoopStandardAnalysisResults &AR, 183 LPMUpdater &U); 184 PreservedAnalyses runWithoutLoopNestPasses(Loop &L, LoopAnalysisManager &AM, 185 LoopStandardAnalysisResults &AR, 186 LPMUpdater &U); 187 188 private: getLoopFromIR(Loop & L)189 static const Loop &getLoopFromIR(Loop &L) { return L; } getLoopFromIR(LoopNest & LN)190 static const Loop &getLoopFromIR(LoopNest &LN) { 191 return LN.getOutermostLoop(); 192 } 193 }; 194 195 /// The Loop pass manager. 196 /// 197 /// See the documentation for the PassManager template for details. It runs 198 /// a sequence of Loop passes over each Loop that the manager is run over. This 199 /// typedef serves as a convenient way to refer to this construct. 200 typedef PassManager<Loop, LoopAnalysisManager, LoopStandardAnalysisResults &, 201 LPMUpdater &> 202 LoopPassManager; 203 204 /// A partial specialization of the require analysis template pass to forward 205 /// the extra parameters from a transformation's run method to the 206 /// AnalysisManager's getResult. 207 template <typename AnalysisT> 208 struct RequireAnalysisPass<AnalysisT, Loop, LoopAnalysisManager, 209 LoopStandardAnalysisResults &, LPMUpdater &> 210 : PassInfoMixin< 211 RequireAnalysisPass<AnalysisT, Loop, LoopAnalysisManager, 212 LoopStandardAnalysisResults &, LPMUpdater &>> { 213 PreservedAnalyses run(Loop &L, LoopAnalysisManager &AM, 214 LoopStandardAnalysisResults &AR, LPMUpdater &) { 215 (void)AM.template getResult<AnalysisT>(L, AR); 216 return PreservedAnalyses::all(); 217 } 218 }; 219 220 /// An alias template to easily name a require analysis loop pass. 221 template <typename AnalysisT> 222 using RequireAnalysisLoopPass = 223 RequireAnalysisPass<AnalysisT, Loop, LoopAnalysisManager, 224 LoopStandardAnalysisResults &, LPMUpdater &>; 225 226 class FunctionToLoopPassAdaptor; 227 228 /// This class provides an interface for updating the loop pass manager based 229 /// on mutations to the loop nest. 230 /// 231 /// A reference to an instance of this class is passed as an argument to each 232 /// Loop pass, and Loop passes should use it to update LPM infrastructure if 233 /// they modify the loop nest structure. 234 /// 235 /// \c LPMUpdater comes with two modes: the loop mode and the loop-nest mode. In 236 /// loop mode, all the loops in the function will be pushed into the worklist 237 /// and when new loops are added to the pipeline, their subloops are also 238 /// inserted recursively. On the other hand, in loop-nest mode, only top-level 239 /// loops are contained in the worklist and the addition of new (top-level) 240 /// loops will not trigger the addition of their subloops. 241 class LPMUpdater { 242 public: 243 /// This can be queried by loop passes which run other loop passes (like pass 244 /// managers) to know whether the loop needs to be skipped due to updates to 245 /// the loop nest. 246 /// 247 /// If this returns true, the loop object may have been deleted, so passes 248 /// should take care not to touch the object. 249 bool skipCurrentLoop() const { return SkipCurrentLoop; } 250 251 /// Loop passes should use this method to indicate they have deleted a loop 252 /// from the nest. 253 /// 254 /// Note that this loop must either be the current loop or a subloop of the 255 /// current loop. This routine must be called prior to removing the loop from 256 /// the loop nest. 257 /// 258 /// If this is called for the current loop, in addition to clearing any 259 /// state, this routine will mark that the current loop should be skipped by 260 /// the rest of the pass management infrastructure. 261 void markLoopAsDeleted(Loop &L, llvm::StringRef Name) { 262 assert((!LoopNestMode || CurrentL == &L) && 263 "L should be a top-level loop in loop-nest mode."); 264 LAM.clear(L, Name); 265 assert((&L == CurrentL || CurrentL->contains(&L)) && 266 "Cannot delete a loop outside of the " 267 "subloop tree currently being processed."); 268 if (&L == CurrentL) 269 SkipCurrentLoop = true; 270 } 271 272 void setParentLoop(Loop *L) { 273 #ifdef LLVM_ENABLE_ABI_BREAKING_CHECKS 274 ParentL = L; 275 #endif 276 } 277 278 /// Loop passes should use this method to indicate they have added new child 279 /// loops of the current loop. 280 /// 281 /// \p NewChildLoops must contain only the immediate children. Any nested 282 /// loops within them will be visited in postorder as usual for the loop pass 283 /// manager. 284 void addChildLoops(ArrayRef<Loop *> NewChildLoops) { 285 assert(!LoopNestMode && 286 "Child loops should not be pushed in loop-nest mode."); 287 // Insert ourselves back into the worklist first, as this loop should be 288 // revisited after all the children have been processed. 289 Worklist.insert(CurrentL); 290 291 #ifndef NDEBUG 292 for (Loop *NewL : NewChildLoops) 293 assert(NewL->getParentLoop() == CurrentL && "All of the new loops must " 294 "be immediate children of " 295 "the current loop!"); 296 #endif 297 298 appendLoopsToWorklist(NewChildLoops, Worklist); 299 300 // Also skip further processing of the current loop--it will be revisited 301 // after all of its newly added children are accounted for. 302 SkipCurrentLoop = true; 303 } 304 305 /// Loop passes should use this method to indicate they have added new 306 /// sibling loops to the current loop. 307 /// 308 /// \p NewSibLoops must only contain the immediate sibling loops. Any nested 309 /// loops within them will be visited in postorder as usual for the loop pass 310 /// manager. 311 void addSiblingLoops(ArrayRef<Loop *> NewSibLoops) { 312 #if defined(LLVM_ENABLE_ABI_BREAKING_CHECKS) && !defined(NDEBUG) 313 for (Loop *NewL : NewSibLoops) 314 assert(NewL->getParentLoop() == ParentL && 315 "All of the new loops must be siblings of the current loop!"); 316 #endif 317 318 if (LoopNestMode) 319 Worklist.insert(NewSibLoops); 320 else 321 appendLoopsToWorklist(NewSibLoops, Worklist); 322 323 // No need to skip the current loop or revisit it, as sibling loops 324 // shouldn't impact anything. 325 } 326 327 /// Restart the current loop. 328 /// 329 /// Loop passes should call this method to indicate the current loop has been 330 /// sufficiently changed that it should be re-visited from the begining of 331 /// the loop pass pipeline rather than continuing. 332 void revisitCurrentLoop() { 333 // Tell the currently in-flight pipeline to stop running. 334 SkipCurrentLoop = true; 335 336 // And insert ourselves back into the worklist. 337 Worklist.insert(CurrentL); 338 } 339 340 private: 341 friend class llvm::FunctionToLoopPassAdaptor; 342 343 /// The \c FunctionToLoopPassAdaptor's worklist of loops to process. 344 SmallPriorityWorklist<Loop *, 4> &Worklist; 345 346 /// The analysis manager for use in the current loop nest. 347 LoopAnalysisManager &LAM; 348 349 Loop *CurrentL; 350 bool SkipCurrentLoop; 351 const bool LoopNestMode; 352 353 #ifdef LLVM_ENABLE_ABI_BREAKING_CHECKS 354 // In debug builds we also track the parent loop to implement asserts even in 355 // the face of loop deletion. 356 Loop *ParentL; 357 #endif 358 359 LPMUpdater(SmallPriorityWorklist<Loop *, 4> &Worklist, 360 LoopAnalysisManager &LAM, bool LoopNestMode = false) 361 : Worklist(Worklist), LAM(LAM), LoopNestMode(LoopNestMode) {} 362 }; 363 364 template <typename IRUnitT, typename PassT> 365 Optional<PreservedAnalyses> LoopPassManager::runSinglePass( 366 IRUnitT &IR, PassT &Pass, LoopAnalysisManager &AM, 367 LoopStandardAnalysisResults &AR, LPMUpdater &U, PassInstrumentation &PI) { 368 // Get the loop in case of Loop pass and outermost loop in case of LoopNest 369 // pass which is to be passed to BeforePass and AfterPass call backs. 370 const Loop &L = getLoopFromIR(IR); 371 // Check the PassInstrumentation's BeforePass callbacks before running the 372 // pass, skip its execution completely if asked to (callback returns false). 373 if (!PI.runBeforePass<Loop>(*Pass, L)) 374 return None; 375 376 PreservedAnalyses PA; 377 { 378 TimeTraceScope TimeScope(Pass->name(), IR.getName()); 379 PA = Pass->run(IR, AM, AR, U); 380 } 381 382 // do not pass deleted Loop into the instrumentation 383 if (U.skipCurrentLoop()) 384 PI.runAfterPassInvalidated<IRUnitT>(*Pass, PA); 385 else 386 PI.runAfterPass<Loop>(*Pass, L, PA); 387 return PA; 388 } 389 390 /// Adaptor that maps from a function to its loops. 391 /// 392 /// Designed to allow composition of a LoopPass(Manager) and a 393 /// FunctionPassManager. Note that if this pass is constructed with a \c 394 /// FunctionAnalysisManager it will run the \c LoopAnalysisManagerFunctionProxy 395 /// analysis prior to running the loop passes over the function to enable a \c 396 /// LoopAnalysisManager to be used within this run safely. 397 /// 398 /// The adaptor comes with two modes: the loop mode and the loop-nest mode, and 399 /// the worklist updater lived inside will be in the same mode as the adaptor 400 /// (refer to the documentation of \c LPMUpdater for more detailed explanation). 401 /// Specifically, in loop mode, all loops in the funciton will be pushed into 402 /// the worklist and processed by \p Pass, while only top-level loops are 403 /// processed in loop-nest mode. Please refer to the various specializations of 404 /// \fn createLoopFunctionToLoopPassAdaptor to see when loop mode and loop-nest 405 /// mode are used. 406 class FunctionToLoopPassAdaptor 407 : public PassInfoMixin<FunctionToLoopPassAdaptor> { 408 public: 409 using PassConceptT = 410 detail::PassConcept<Loop, LoopAnalysisManager, 411 LoopStandardAnalysisResults &, LPMUpdater &>; 412 413 explicit FunctionToLoopPassAdaptor(std::unique_ptr<PassConceptT> Pass, 414 bool UseMemorySSA = false, 415 bool UseBlockFrequencyInfo = false, 416 bool LoopNestMode = false) 417 : Pass(std::move(Pass)), LoopCanonicalizationFPM(), 418 UseMemorySSA(UseMemorySSA), 419 UseBlockFrequencyInfo(UseBlockFrequencyInfo), 420 LoopNestMode(LoopNestMode) { 421 LoopCanonicalizationFPM.addPass(LoopSimplifyPass()); 422 LoopCanonicalizationFPM.addPass(LCSSAPass()); 423 } 424 425 /// Runs the loop passes across every loop in the function. 426 PreservedAnalyses run(Function &F, FunctionAnalysisManager &AM); 427 428 static bool isRequired() { return true; } 429 430 bool isLoopNestMode() const { return LoopNestMode; } 431 432 private: 433 std::unique_ptr<PassConceptT> Pass; 434 435 FunctionPassManager LoopCanonicalizationFPM; 436 437 bool UseMemorySSA = false; 438 bool UseBlockFrequencyInfo = false; 439 const bool LoopNestMode; 440 }; 441 442 /// A function to deduce a loop pass type and wrap it in the templated 443 /// adaptor. 444 /// 445 /// If \p Pass is a loop pass, the returned adaptor will be in loop mode. 446 template <typename LoopPassT> 447 inline std::enable_if_t<is_detected<HasRunOnLoopT, LoopPassT>::value, 448 FunctionToLoopPassAdaptor> 449 createFunctionToLoopPassAdaptor(LoopPassT &&Pass, bool UseMemorySSA = false, 450 bool UseBlockFrequencyInfo = false) { 451 using PassModelT = 452 detail::PassModel<Loop, LoopPassT, PreservedAnalyses, LoopAnalysisManager, 453 LoopStandardAnalysisResults &, LPMUpdater &>; 454 return FunctionToLoopPassAdaptor( 455 std::make_unique<PassModelT>(std::forward<LoopPassT>(Pass)), UseMemorySSA, 456 UseBlockFrequencyInfo, false); 457 } 458 459 /// If \p Pass is a loop-nest pass, \p Pass will first be wrapped into a 460 /// \c LoopPassManager and the returned adaptor will be in loop-nest mode. 461 template <typename LoopNestPassT> 462 inline std::enable_if_t<!is_detected<HasRunOnLoopT, LoopNestPassT>::value, 463 FunctionToLoopPassAdaptor> 464 createFunctionToLoopPassAdaptor(LoopNestPassT &&Pass, bool UseMemorySSA = false, 465 bool UseBlockFrequencyInfo = false) { 466 LoopPassManager LPM; 467 LPM.addPass(std::forward<LoopNestPassT>(Pass)); 468 using PassModelT = 469 detail::PassModel<Loop, LoopPassManager, PreservedAnalyses, 470 LoopAnalysisManager, LoopStandardAnalysisResults &, 471 LPMUpdater &>; 472 return FunctionToLoopPassAdaptor(std::make_unique<PassModelT>(std::move(LPM)), 473 UseMemorySSA, UseBlockFrequencyInfo, true); 474 } 475 476 /// If \p Pass is an instance of \c LoopPassManager, the returned adaptor will 477 /// be in loop-nest mode if the pass manager contains only loop-nest passes. 478 template <> 479 inline FunctionToLoopPassAdaptor 480 createFunctionToLoopPassAdaptor<LoopPassManager>(LoopPassManager &&LPM, 481 bool UseMemorySSA, 482 bool UseBlockFrequencyInfo) { 483 // Check if LPM contains any loop pass and if it does not, returns an adaptor 484 // in loop-nest mode. 485 using PassModelT = 486 detail::PassModel<Loop, LoopPassManager, PreservedAnalyses, 487 LoopAnalysisManager, LoopStandardAnalysisResults &, 488 LPMUpdater &>; 489 bool LoopNestMode = (LPM.getNumLoopPasses() == 0); 490 return FunctionToLoopPassAdaptor(std::make_unique<PassModelT>(std::move(LPM)), 491 UseMemorySSA, UseBlockFrequencyInfo, 492 LoopNestMode); 493 } 494 495 /// Pass for printing a loop's contents as textual IR. 496 class PrintLoopPass : public PassInfoMixin<PrintLoopPass> { 497 raw_ostream &OS; 498 std::string Banner; 499 500 public: 501 PrintLoopPass(); 502 PrintLoopPass(raw_ostream &OS, const std::string &Banner = ""); 503 504 PreservedAnalyses run(Loop &L, LoopAnalysisManager &, 505 LoopStandardAnalysisResults &, LPMUpdater &); 506 }; 507 } 508 509 #endif // LLVM_TRANSFORMS_SCALAR_LOOPPASSMANAGER_H 510