[Alignment][NFC] Convert StoreInst to MaybeAlign
[llvm-complete.git] / lib / Transforms / Instrumentation / ControlHeightReduction.cpp
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1 //===-- ControlHeightReduction.cpp - Control Height Reduction -------------===//
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 // This pass merges conditional blocks of code and reduces the number of
10 // conditional branches in the hot paths based on profiles.
12 //===----------------------------------------------------------------------===//
14 #include "llvm/Transforms/Instrumentation/ControlHeightReduction.h"
15 #include "llvm/ADT/DenseMap.h"
16 #include "llvm/ADT/DenseSet.h"
17 #include "llvm/ADT/SmallVector.h"
18 #include "llvm/ADT/StringSet.h"
19 #include "llvm/Analysis/BlockFrequencyInfo.h"
20 #include "llvm/Analysis/GlobalsModRef.h"
21 #include "llvm/Analysis/OptimizationRemarkEmitter.h"
22 #include "llvm/Analysis/ProfileSummaryInfo.h"
23 #include "llvm/Analysis/RegionInfo.h"
24 #include "llvm/Analysis/RegionIterator.h"
25 #include "llvm/Analysis/ValueTracking.h"
26 #include "llvm/IR/CFG.h"
27 #include "llvm/IR/Dominators.h"
28 #include "llvm/IR/IRBuilder.h"
29 #include "llvm/IR/MDBuilder.h"
30 #include "llvm/Support/BranchProbability.h"
31 #include "llvm/Support/MemoryBuffer.h"
32 #include "llvm/Transforms/Utils.h"
33 #include "llvm/Transforms/Utils/BasicBlockUtils.h"
34 #include "llvm/Transforms/Utils/Cloning.h"
35 #include "llvm/Transforms/Utils/ValueMapper.h"
37 #include <set>
38 #include <sstream>
40 using namespace llvm;
42 #define DEBUG_TYPE "chr"
44 #define CHR_DEBUG(X) LLVM_DEBUG(X)
46 static cl::opt<bool> ForceCHR("force-chr", cl::init(false), cl::Hidden,
47 cl::desc("Apply CHR for all functions"));
49 static cl::opt<double> CHRBiasThreshold(
50 "chr-bias-threshold", cl::init(0.99), cl::Hidden,
51 cl::desc("CHR considers a branch bias greater than this ratio as biased"));
53 static cl::opt<unsigned> CHRMergeThreshold(
54 "chr-merge-threshold", cl::init(2), cl::Hidden,
55 cl::desc("CHR merges a group of N branches/selects where N >= this value"));
57 static cl::opt<std::string> CHRModuleList(
58 "chr-module-list", cl::init(""), cl::Hidden,
59 cl::desc("Specify file to retrieve the list of modules to apply CHR to"));
61 static cl::opt<std::string> CHRFunctionList(
62 "chr-function-list", cl::init(""), cl::Hidden,
63 cl::desc("Specify file to retrieve the list of functions to apply CHR to"));
65 static StringSet<> CHRModules;
66 static StringSet<> CHRFunctions;
68 static void parseCHRFilterFiles() {
69 if (!CHRModuleList.empty()) {
70 auto FileOrErr = MemoryBuffer::getFile(CHRModuleList);
71 if (!FileOrErr) {
72 errs() << "Error: Couldn't read the chr-module-list file " << CHRModuleList << "\n";
73 std::exit(1);
75 StringRef Buf = FileOrErr->get()->getBuffer();
76 SmallVector<StringRef, 0> Lines;
77 Buf.split(Lines, '\n');
78 for (StringRef Line : Lines) {
79 Line = Line.trim();
80 if (!Line.empty())
81 CHRModules.insert(Line);
84 if (!CHRFunctionList.empty()) {
85 auto FileOrErr = MemoryBuffer::getFile(CHRFunctionList);
86 if (!FileOrErr) {
87 errs() << "Error: Couldn't read the chr-function-list file " << CHRFunctionList << "\n";
88 std::exit(1);
90 StringRef Buf = FileOrErr->get()->getBuffer();
91 SmallVector<StringRef, 0> Lines;
92 Buf.split(Lines, '\n');
93 for (StringRef Line : Lines) {
94 Line = Line.trim();
95 if (!Line.empty())
96 CHRFunctions.insert(Line);
101 namespace {
102 class ControlHeightReductionLegacyPass : public FunctionPass {
103 public:
104 static char ID;
106 ControlHeightReductionLegacyPass() : FunctionPass(ID) {
107 initializeControlHeightReductionLegacyPassPass(
108 *PassRegistry::getPassRegistry());
109 parseCHRFilterFiles();
112 bool runOnFunction(Function &F) override;
113 void getAnalysisUsage(AnalysisUsage &AU) const override {
114 AU.addRequired<BlockFrequencyInfoWrapperPass>();
115 AU.addRequired<DominatorTreeWrapperPass>();
116 AU.addRequired<ProfileSummaryInfoWrapperPass>();
117 AU.addRequired<RegionInfoPass>();
118 AU.addPreserved<GlobalsAAWrapperPass>();
121 } // end anonymous namespace
123 char ControlHeightReductionLegacyPass::ID = 0;
125 INITIALIZE_PASS_BEGIN(ControlHeightReductionLegacyPass,
126 "chr",
127 "Reduce control height in the hot paths",
128 false, false)
129 INITIALIZE_PASS_DEPENDENCY(BlockFrequencyInfoWrapperPass)
130 INITIALIZE_PASS_DEPENDENCY(DominatorTreeWrapperPass)
131 INITIALIZE_PASS_DEPENDENCY(ProfileSummaryInfoWrapperPass)
132 INITIALIZE_PASS_DEPENDENCY(RegionInfoPass)
133 INITIALIZE_PASS_END(ControlHeightReductionLegacyPass,
134 "chr",
135 "Reduce control height in the hot paths",
136 false, false)
138 FunctionPass *llvm::createControlHeightReductionLegacyPass() {
139 return new ControlHeightReductionLegacyPass();
142 namespace {
144 struct CHRStats {
145 CHRStats() : NumBranches(0), NumBranchesDelta(0),
146 WeightedNumBranchesDelta(0) {}
147 void print(raw_ostream &OS) const {
148 OS << "CHRStats: NumBranches " << NumBranches
149 << " NumBranchesDelta " << NumBranchesDelta
150 << " WeightedNumBranchesDelta " << WeightedNumBranchesDelta;
152 uint64_t NumBranches; // The original number of conditional branches /
153 // selects
154 uint64_t NumBranchesDelta; // The decrease of the number of conditional
155 // branches / selects in the hot paths due to CHR.
156 uint64_t WeightedNumBranchesDelta; // NumBranchesDelta weighted by the profile
157 // count at the scope entry.
160 // RegInfo - some properties of a Region.
161 struct RegInfo {
162 RegInfo() : R(nullptr), HasBranch(false) {}
163 RegInfo(Region *RegionIn) : R(RegionIn), HasBranch(false) {}
164 Region *R;
165 bool HasBranch;
166 SmallVector<SelectInst *, 8> Selects;
169 typedef DenseMap<Region *, DenseSet<Instruction *>> HoistStopMapTy;
171 // CHRScope - a sequence of regions to CHR together. It corresponds to a
172 // sequence of conditional blocks. It can have subscopes which correspond to
173 // nested conditional blocks. Nested CHRScopes form a tree.
174 class CHRScope {
175 public:
176 CHRScope(RegInfo RI) : BranchInsertPoint(nullptr) {
177 assert(RI.R && "Null RegionIn");
178 RegInfos.push_back(RI);
181 Region *getParentRegion() {
182 assert(RegInfos.size() > 0 && "Empty CHRScope");
183 Region *Parent = RegInfos[0].R->getParent();
184 assert(Parent && "Unexpected to call this on the top-level region");
185 return Parent;
188 BasicBlock *getEntryBlock() {
189 assert(RegInfos.size() > 0 && "Empty CHRScope");
190 return RegInfos.front().R->getEntry();
193 BasicBlock *getExitBlock() {
194 assert(RegInfos.size() > 0 && "Empty CHRScope");
195 return RegInfos.back().R->getExit();
198 bool appendable(CHRScope *Next) {
199 // The next scope is appendable only if this scope is directly connected to
200 // it (which implies it post-dominates this scope) and this scope dominates
201 // it (no edge to the next scope outside this scope).
202 BasicBlock *NextEntry = Next->getEntryBlock();
203 if (getExitBlock() != NextEntry)
204 // Not directly connected.
205 return false;
206 Region *LastRegion = RegInfos.back().R;
207 for (BasicBlock *Pred : predecessors(NextEntry))
208 if (!LastRegion->contains(Pred))
209 // There's an edge going into the entry of the next scope from outside
210 // of this scope.
211 return false;
212 return true;
215 void append(CHRScope *Next) {
216 assert(RegInfos.size() > 0 && "Empty CHRScope");
217 assert(Next->RegInfos.size() > 0 && "Empty CHRScope");
218 assert(getParentRegion() == Next->getParentRegion() &&
219 "Must be siblings");
220 assert(getExitBlock() == Next->getEntryBlock() &&
221 "Must be adjacent");
222 for (RegInfo &RI : Next->RegInfos)
223 RegInfos.push_back(RI);
224 for (CHRScope *Sub : Next->Subs)
225 Subs.push_back(Sub);
228 void addSub(CHRScope *SubIn) {
229 #ifndef NDEBUG
230 bool IsChild = false;
231 for (RegInfo &RI : RegInfos)
232 if (RI.R == SubIn->getParentRegion()) {
233 IsChild = true;
234 break;
236 assert(IsChild && "Must be a child");
237 #endif
238 Subs.push_back(SubIn);
241 // Split this scope at the boundary region into two, which will belong to the
242 // tail and returns the tail.
243 CHRScope *split(Region *Boundary) {
244 assert(Boundary && "Boundary null");
245 assert(RegInfos.begin()->R != Boundary &&
246 "Can't be split at beginning");
247 auto BoundaryIt = std::find_if(RegInfos.begin(), RegInfos.end(),
248 [&Boundary](const RegInfo& RI) {
249 return Boundary == RI.R;
251 if (BoundaryIt == RegInfos.end())
252 return nullptr;
253 SmallVector<RegInfo, 8> TailRegInfos;
254 SmallVector<CHRScope *, 8> TailSubs;
255 TailRegInfos.insert(TailRegInfos.begin(), BoundaryIt, RegInfos.end());
256 RegInfos.resize(BoundaryIt - RegInfos.begin());
257 DenseSet<Region *> TailRegionSet;
258 for (RegInfo &RI : TailRegInfos)
259 TailRegionSet.insert(RI.R);
260 for (auto It = Subs.begin(); It != Subs.end(); ) {
261 CHRScope *Sub = *It;
262 assert(Sub && "null Sub");
263 Region *Parent = Sub->getParentRegion();
264 if (TailRegionSet.count(Parent)) {
265 TailSubs.push_back(Sub);
266 It = Subs.erase(It);
267 } else {
268 assert(std::find_if(RegInfos.begin(), RegInfos.end(),
269 [&Parent](const RegInfo& RI) {
270 return Parent == RI.R;
271 }) != RegInfos.end() &&
272 "Must be in head");
273 ++It;
276 assert(HoistStopMap.empty() && "MapHoistStops must be empty");
277 return new CHRScope(TailRegInfos, TailSubs);
280 bool contains(Instruction *I) const {
281 BasicBlock *Parent = I->getParent();
282 for (const RegInfo &RI : RegInfos)
283 if (RI.R->contains(Parent))
284 return true;
285 return false;
288 void print(raw_ostream &OS) const;
290 SmallVector<RegInfo, 8> RegInfos; // Regions that belong to this scope
291 SmallVector<CHRScope *, 8> Subs; // Subscopes.
293 // The instruction at which to insert the CHR conditional branch (and hoist
294 // the dependent condition values).
295 Instruction *BranchInsertPoint;
297 // True-biased and false-biased regions (conditional blocks),
298 // respectively. Used only for the outermost scope and includes regions in
299 // subscopes. The rest are unbiased.
300 DenseSet<Region *> TrueBiasedRegions;
301 DenseSet<Region *> FalseBiasedRegions;
302 // Among the biased regions, the regions that get CHRed.
303 SmallVector<RegInfo, 8> CHRRegions;
305 // True-biased and false-biased selects, respectively. Used only for the
306 // outermost scope and includes ones in subscopes.
307 DenseSet<SelectInst *> TrueBiasedSelects;
308 DenseSet<SelectInst *> FalseBiasedSelects;
310 // Map from one of the above regions to the instructions to stop
311 // hoisting instructions at through use-def chains.
312 HoistStopMapTy HoistStopMap;
314 private:
315 CHRScope(SmallVector<RegInfo, 8> &RegInfosIn,
316 SmallVector<CHRScope *, 8> &SubsIn)
317 : RegInfos(RegInfosIn), Subs(SubsIn), BranchInsertPoint(nullptr) {}
320 class CHR {
321 public:
322 CHR(Function &Fin, BlockFrequencyInfo &BFIin, DominatorTree &DTin,
323 ProfileSummaryInfo &PSIin, RegionInfo &RIin,
324 OptimizationRemarkEmitter &OREin)
325 : F(Fin), BFI(BFIin), DT(DTin), PSI(PSIin), RI(RIin), ORE(OREin) {}
327 ~CHR() {
328 for (CHRScope *Scope : Scopes) {
329 delete Scope;
333 bool run();
335 private:
336 // See the comments in CHR::run() for the high level flow of the algorithm and
337 // what the following functions do.
339 void findScopes(SmallVectorImpl<CHRScope *> &Output) {
340 Region *R = RI.getTopLevelRegion();
341 CHRScope *Scope = findScopes(R, nullptr, nullptr, Output);
342 if (Scope) {
343 Output.push_back(Scope);
346 CHRScope *findScopes(Region *R, Region *NextRegion, Region *ParentRegion,
347 SmallVectorImpl<CHRScope *> &Scopes);
348 CHRScope *findScope(Region *R);
349 void checkScopeHoistable(CHRScope *Scope);
351 void splitScopes(SmallVectorImpl<CHRScope *> &Input,
352 SmallVectorImpl<CHRScope *> &Output);
353 SmallVector<CHRScope *, 8> splitScope(CHRScope *Scope,
354 CHRScope *Outer,
355 DenseSet<Value *> *OuterConditionValues,
356 Instruction *OuterInsertPoint,
357 SmallVectorImpl<CHRScope *> &Output,
358 DenseSet<Instruction *> &Unhoistables);
360 void classifyBiasedScopes(SmallVectorImpl<CHRScope *> &Scopes);
361 void classifyBiasedScopes(CHRScope *Scope, CHRScope *OutermostScope);
363 void filterScopes(SmallVectorImpl<CHRScope *> &Input,
364 SmallVectorImpl<CHRScope *> &Output);
366 void setCHRRegions(SmallVectorImpl<CHRScope *> &Input,
367 SmallVectorImpl<CHRScope *> &Output);
368 void setCHRRegions(CHRScope *Scope, CHRScope *OutermostScope);
370 void sortScopes(SmallVectorImpl<CHRScope *> &Input,
371 SmallVectorImpl<CHRScope *> &Output);
373 void transformScopes(SmallVectorImpl<CHRScope *> &CHRScopes);
374 void transformScopes(CHRScope *Scope, DenseSet<PHINode *> &TrivialPHIs);
375 void cloneScopeBlocks(CHRScope *Scope,
376 BasicBlock *PreEntryBlock,
377 BasicBlock *ExitBlock,
378 Region *LastRegion,
379 ValueToValueMapTy &VMap);
380 BranchInst *createMergedBranch(BasicBlock *PreEntryBlock,
381 BasicBlock *EntryBlock,
382 BasicBlock *NewEntryBlock,
383 ValueToValueMapTy &VMap);
384 void fixupBranchesAndSelects(CHRScope *Scope,
385 BasicBlock *PreEntryBlock,
386 BranchInst *MergedBR,
387 uint64_t ProfileCount);
388 void fixupBranch(Region *R,
389 CHRScope *Scope,
390 IRBuilder<> &IRB,
391 Value *&MergedCondition, BranchProbability &CHRBranchBias);
392 void fixupSelect(SelectInst* SI,
393 CHRScope *Scope,
394 IRBuilder<> &IRB,
395 Value *&MergedCondition, BranchProbability &CHRBranchBias);
396 void addToMergedCondition(bool IsTrueBiased, Value *Cond,
397 Instruction *BranchOrSelect,
398 CHRScope *Scope,
399 IRBuilder<> &IRB,
400 Value *&MergedCondition);
402 Function &F;
403 BlockFrequencyInfo &BFI;
404 DominatorTree &DT;
405 ProfileSummaryInfo &PSI;
406 RegionInfo &RI;
407 OptimizationRemarkEmitter &ORE;
408 CHRStats Stats;
410 // All the true-biased regions in the function
411 DenseSet<Region *> TrueBiasedRegionsGlobal;
412 // All the false-biased regions in the function
413 DenseSet<Region *> FalseBiasedRegionsGlobal;
414 // All the true-biased selects in the function
415 DenseSet<SelectInst *> TrueBiasedSelectsGlobal;
416 // All the false-biased selects in the function
417 DenseSet<SelectInst *> FalseBiasedSelectsGlobal;
418 // A map from biased regions to their branch bias
419 DenseMap<Region *, BranchProbability> BranchBiasMap;
420 // A map from biased selects to their branch bias
421 DenseMap<SelectInst *, BranchProbability> SelectBiasMap;
422 // All the scopes.
423 DenseSet<CHRScope *> Scopes;
426 } // end anonymous namespace
428 static inline
429 raw_ostream LLVM_ATTRIBUTE_UNUSED &operator<<(raw_ostream &OS,
430 const CHRStats &Stats) {
431 Stats.print(OS);
432 return OS;
435 static inline
436 raw_ostream &operator<<(raw_ostream &OS, const CHRScope &Scope) {
437 Scope.print(OS);
438 return OS;
441 static bool shouldApply(Function &F, ProfileSummaryInfo& PSI) {
442 if (ForceCHR)
443 return true;
445 if (!CHRModuleList.empty() || !CHRFunctionList.empty()) {
446 if (CHRModules.count(F.getParent()->getName()))
447 return true;
448 return CHRFunctions.count(F.getName());
451 assert(PSI.hasProfileSummary() && "Empty PSI?");
452 return PSI.isFunctionEntryHot(&F);
455 static void LLVM_ATTRIBUTE_UNUSED dumpIR(Function &F, const char *Label,
456 CHRStats *Stats) {
457 StringRef FuncName = F.getName();
458 StringRef ModuleName = F.getParent()->getName();
459 (void)(FuncName); // Unused in release build.
460 (void)(ModuleName); // Unused in release build.
461 CHR_DEBUG(dbgs() << "CHR IR dump " << Label << " " << ModuleName << " "
462 << FuncName);
463 if (Stats)
464 CHR_DEBUG(dbgs() << " " << *Stats);
465 CHR_DEBUG(dbgs() << "\n");
466 CHR_DEBUG(F.dump());
469 void CHRScope::print(raw_ostream &OS) const {
470 assert(RegInfos.size() > 0 && "Empty CHRScope");
471 OS << "CHRScope[";
472 OS << RegInfos.size() << ", Regions[";
473 for (const RegInfo &RI : RegInfos) {
474 OS << RI.R->getNameStr();
475 if (RI.HasBranch)
476 OS << " B";
477 if (RI.Selects.size() > 0)
478 OS << " S" << RI.Selects.size();
479 OS << ", ";
481 if (RegInfos[0].R->getParent()) {
482 OS << "], Parent " << RegInfos[0].R->getParent()->getNameStr();
483 } else {
484 // top level region
485 OS << "]";
487 OS << ", Subs[";
488 for (CHRScope *Sub : Subs) {
489 OS << *Sub << ", ";
491 OS << "]]";
494 // Return true if the given instruction type can be hoisted by CHR.
495 static bool isHoistableInstructionType(Instruction *I) {
496 return isa<BinaryOperator>(I) || isa<CastInst>(I) || isa<SelectInst>(I) ||
497 isa<GetElementPtrInst>(I) || isa<CmpInst>(I) ||
498 isa<InsertElementInst>(I) || isa<ExtractElementInst>(I) ||
499 isa<ShuffleVectorInst>(I) || isa<ExtractValueInst>(I) ||
500 isa<InsertValueInst>(I);
503 // Return true if the given instruction can be hoisted by CHR.
504 static bool isHoistable(Instruction *I, DominatorTree &DT) {
505 if (!isHoistableInstructionType(I))
506 return false;
507 return isSafeToSpeculativelyExecute(I, nullptr, &DT);
510 // Recursively traverse the use-def chains of the given value and return a set
511 // of the unhoistable base values defined within the scope (excluding the
512 // first-region entry block) or the (hoistable or unhoistable) base values that
513 // are defined outside (including the first-region entry block) of the
514 // scope. The returned set doesn't include constants.
515 static std::set<Value *> getBaseValues(
516 Value *V, DominatorTree &DT,
517 DenseMap<Value *, std::set<Value *>> &Visited) {
518 if (Visited.count(V)) {
519 return Visited[V];
521 std::set<Value *> Result;
522 if (auto *I = dyn_cast<Instruction>(V)) {
523 // We don't stop at a block that's not in the Scope because we would miss some
524 // instructions that are based on the same base values if we stop there.
525 if (!isHoistable(I, DT)) {
526 Result.insert(I);
527 Visited.insert(std::make_pair(V, Result));
528 return Result;
530 // I is hoistable above the Scope.
531 for (Value *Op : I->operands()) {
532 std::set<Value *> OpResult = getBaseValues(Op, DT, Visited);
533 Result.insert(OpResult.begin(), OpResult.end());
535 Visited.insert(std::make_pair(V, Result));
536 return Result;
538 if (isa<Argument>(V)) {
539 Result.insert(V);
540 Visited.insert(std::make_pair(V, Result));
541 return Result;
543 // We don't include others like constants because those won't lead to any
544 // chance of folding of conditions (eg two bit checks merged into one check)
545 // after CHR.
546 Visited.insert(std::make_pair(V, Result));
547 return Result; // empty
550 // Return true if V is already hoisted or can be hoisted (along with its
551 // operands) above the insert point. When it returns true and HoistStops is
552 // non-null, the instructions to stop hoisting at through the use-def chains are
553 // inserted into HoistStops.
554 static bool
555 checkHoistValue(Value *V, Instruction *InsertPoint, DominatorTree &DT,
556 DenseSet<Instruction *> &Unhoistables,
557 DenseSet<Instruction *> *HoistStops,
558 DenseMap<Instruction *, bool> &Visited) {
559 assert(InsertPoint && "Null InsertPoint");
560 if (auto *I = dyn_cast<Instruction>(V)) {
561 if (Visited.count(I)) {
562 return Visited[I];
564 assert(DT.getNode(I->getParent()) && "DT must contain I's parent block");
565 assert(DT.getNode(InsertPoint->getParent()) && "DT must contain Destination");
566 if (Unhoistables.count(I)) {
567 // Don't hoist if they are not to be hoisted.
568 Visited[I] = false;
569 return false;
571 if (DT.dominates(I, InsertPoint)) {
572 // We are already above the insert point. Stop here.
573 if (HoistStops)
574 HoistStops->insert(I);
575 Visited[I] = true;
576 return true;
578 // We aren't not above the insert point, check if we can hoist it above the
579 // insert point.
580 if (isHoistable(I, DT)) {
581 // Check operands first.
582 DenseSet<Instruction *> OpsHoistStops;
583 bool AllOpsHoisted = true;
584 for (Value *Op : I->operands()) {
585 if (!checkHoistValue(Op, InsertPoint, DT, Unhoistables, &OpsHoistStops,
586 Visited)) {
587 AllOpsHoisted = false;
588 break;
591 if (AllOpsHoisted) {
592 CHR_DEBUG(dbgs() << "checkHoistValue " << *I << "\n");
593 if (HoistStops)
594 HoistStops->insert(OpsHoistStops.begin(), OpsHoistStops.end());
595 Visited[I] = true;
596 return true;
599 Visited[I] = false;
600 return false;
602 // Non-instructions are considered hoistable.
603 return true;
606 // Returns true and sets the true probability and false probability of an
607 // MD_prof metadata if it's well-formed.
608 static bool checkMDProf(MDNode *MD, BranchProbability &TrueProb,
609 BranchProbability &FalseProb) {
610 if (!MD) return false;
611 MDString *MDName = cast<MDString>(MD->getOperand(0));
612 if (MDName->getString() != "branch_weights" ||
613 MD->getNumOperands() != 3)
614 return false;
615 ConstantInt *TrueWeight = mdconst::extract<ConstantInt>(MD->getOperand(1));
616 ConstantInt *FalseWeight = mdconst::extract<ConstantInt>(MD->getOperand(2));
617 if (!TrueWeight || !FalseWeight)
618 return false;
619 uint64_t TrueWt = TrueWeight->getValue().getZExtValue();
620 uint64_t FalseWt = FalseWeight->getValue().getZExtValue();
621 uint64_t SumWt = TrueWt + FalseWt;
623 assert(SumWt >= TrueWt && SumWt >= FalseWt &&
624 "Overflow calculating branch probabilities.");
626 TrueProb = BranchProbability::getBranchProbability(TrueWt, SumWt);
627 FalseProb = BranchProbability::getBranchProbability(FalseWt, SumWt);
628 return true;
631 static BranchProbability getCHRBiasThreshold() {
632 return BranchProbability::getBranchProbability(
633 static_cast<uint64_t>(CHRBiasThreshold * 1000000), 1000000);
636 // A helper for CheckBiasedBranch and CheckBiasedSelect. If TrueProb >=
637 // CHRBiasThreshold, put Key into TrueSet and return true. If FalseProb >=
638 // CHRBiasThreshold, put Key into FalseSet and return true. Otherwise, return
639 // false.
640 template <typename K, typename S, typename M>
641 static bool checkBias(K *Key, BranchProbability TrueProb,
642 BranchProbability FalseProb, S &TrueSet, S &FalseSet,
643 M &BiasMap) {
644 BranchProbability Threshold = getCHRBiasThreshold();
645 if (TrueProb >= Threshold) {
646 TrueSet.insert(Key);
647 BiasMap[Key] = TrueProb;
648 return true;
649 } else if (FalseProb >= Threshold) {
650 FalseSet.insert(Key);
651 BiasMap[Key] = FalseProb;
652 return true;
654 return false;
657 // Returns true and insert a region into the right biased set and the map if the
658 // branch of the region is biased.
659 static bool checkBiasedBranch(BranchInst *BI, Region *R,
660 DenseSet<Region *> &TrueBiasedRegionsGlobal,
661 DenseSet<Region *> &FalseBiasedRegionsGlobal,
662 DenseMap<Region *, BranchProbability> &BranchBiasMap) {
663 if (!BI->isConditional())
664 return false;
665 BranchProbability ThenProb, ElseProb;
666 if (!checkMDProf(BI->getMetadata(LLVMContext::MD_prof),
667 ThenProb, ElseProb))
668 return false;
669 BasicBlock *IfThen = BI->getSuccessor(0);
670 BasicBlock *IfElse = BI->getSuccessor(1);
671 assert((IfThen == R->getExit() || IfElse == R->getExit()) &&
672 IfThen != IfElse &&
673 "Invariant from findScopes");
674 if (IfThen == R->getExit()) {
675 // Swap them so that IfThen/ThenProb means going into the conditional code
676 // and IfElse/ElseProb means skipping it.
677 std::swap(IfThen, IfElse);
678 std::swap(ThenProb, ElseProb);
680 CHR_DEBUG(dbgs() << "BI " << *BI << " ");
681 CHR_DEBUG(dbgs() << "ThenProb " << ThenProb << " ");
682 CHR_DEBUG(dbgs() << "ElseProb " << ElseProb << "\n");
683 return checkBias(R, ThenProb, ElseProb,
684 TrueBiasedRegionsGlobal, FalseBiasedRegionsGlobal,
685 BranchBiasMap);
688 // Returns true and insert a select into the right biased set and the map if the
689 // select is biased.
690 static bool checkBiasedSelect(
691 SelectInst *SI, Region *R,
692 DenseSet<SelectInst *> &TrueBiasedSelectsGlobal,
693 DenseSet<SelectInst *> &FalseBiasedSelectsGlobal,
694 DenseMap<SelectInst *, BranchProbability> &SelectBiasMap) {
695 BranchProbability TrueProb, FalseProb;
696 if (!checkMDProf(SI->getMetadata(LLVMContext::MD_prof),
697 TrueProb, FalseProb))
698 return false;
699 CHR_DEBUG(dbgs() << "SI " << *SI << " ");
700 CHR_DEBUG(dbgs() << "TrueProb " << TrueProb << " ");
701 CHR_DEBUG(dbgs() << "FalseProb " << FalseProb << "\n");
702 return checkBias(SI, TrueProb, FalseProb,
703 TrueBiasedSelectsGlobal, FalseBiasedSelectsGlobal,
704 SelectBiasMap);
707 // Returns the instruction at which to hoist the dependent condition values and
708 // insert the CHR branch for a region. This is the terminator branch in the
709 // entry block or the first select in the entry block, if any.
710 static Instruction* getBranchInsertPoint(RegInfo &RI) {
711 Region *R = RI.R;
712 BasicBlock *EntryBB = R->getEntry();
713 // The hoist point is by default the terminator of the entry block, which is
714 // the same as the branch instruction if RI.HasBranch is true.
715 Instruction *HoistPoint = EntryBB->getTerminator();
716 for (SelectInst *SI : RI.Selects) {
717 if (SI->getParent() == EntryBB) {
718 // Pick the first select in Selects in the entry block. Note Selects is
719 // sorted in the instruction order within a block (asserted below).
720 HoistPoint = SI;
721 break;
724 assert(HoistPoint && "Null HoistPoint");
725 #ifndef NDEBUG
726 // Check that HoistPoint is the first one in Selects in the entry block,
727 // if any.
728 DenseSet<Instruction *> EntryBlockSelectSet;
729 for (SelectInst *SI : RI.Selects) {
730 if (SI->getParent() == EntryBB) {
731 EntryBlockSelectSet.insert(SI);
734 for (Instruction &I : *EntryBB) {
735 if (EntryBlockSelectSet.count(&I) > 0) {
736 assert(&I == HoistPoint &&
737 "HoistPoint must be the first one in Selects");
738 break;
741 #endif
742 return HoistPoint;
745 // Find a CHR scope in the given region.
746 CHRScope * CHR::findScope(Region *R) {
747 CHRScope *Result = nullptr;
748 BasicBlock *Entry = R->getEntry();
749 BasicBlock *Exit = R->getExit(); // null if top level.
750 assert(Entry && "Entry must not be null");
751 assert((Exit == nullptr) == (R->isTopLevelRegion()) &&
752 "Only top level region has a null exit");
753 if (Entry)
754 CHR_DEBUG(dbgs() << "Entry " << Entry->getName() << "\n");
755 else
756 CHR_DEBUG(dbgs() << "Entry null\n");
757 if (Exit)
758 CHR_DEBUG(dbgs() << "Exit " << Exit->getName() << "\n");
759 else
760 CHR_DEBUG(dbgs() << "Exit null\n");
761 // Exclude cases where Entry is part of a subregion (hence it doesn't belong
762 // to this region).
763 bool EntryInSubregion = RI.getRegionFor(Entry) != R;
764 if (EntryInSubregion)
765 return nullptr;
766 // Exclude loops
767 for (BasicBlock *Pred : predecessors(Entry))
768 if (R->contains(Pred))
769 return nullptr;
770 if (Exit) {
771 // Try to find an if-then block (check if R is an if-then).
772 // if (cond) {
773 // ...
774 // }
775 auto *BI = dyn_cast<BranchInst>(Entry->getTerminator());
776 if (BI)
777 CHR_DEBUG(dbgs() << "BI.isConditional " << BI->isConditional() << "\n");
778 else
779 CHR_DEBUG(dbgs() << "BI null\n");
780 if (BI && BI->isConditional()) {
781 BasicBlock *S0 = BI->getSuccessor(0);
782 BasicBlock *S1 = BI->getSuccessor(1);
783 CHR_DEBUG(dbgs() << "S0 " << S0->getName() << "\n");
784 CHR_DEBUG(dbgs() << "S1 " << S1->getName() << "\n");
785 if (S0 != S1 && (S0 == Exit || S1 == Exit)) {
786 RegInfo RI(R);
787 RI.HasBranch = checkBiasedBranch(
788 BI, R, TrueBiasedRegionsGlobal, FalseBiasedRegionsGlobal,
789 BranchBiasMap);
790 Result = new CHRScope(RI);
791 Scopes.insert(Result);
792 CHR_DEBUG(dbgs() << "Found a region with a branch\n");
793 ++Stats.NumBranches;
794 if (!RI.HasBranch) {
795 ORE.emit([&]() {
796 return OptimizationRemarkMissed(DEBUG_TYPE, "BranchNotBiased", BI)
797 << "Branch not biased";
804 // Try to look for selects in the direct child blocks (as opposed to in
805 // subregions) of R.
806 // ...
807 // if (..) { // Some subregion
808 // ...
809 // }
810 // if (..) { // Some subregion
811 // ...
812 // }
813 // ...
814 // a = cond ? b : c;
815 // ...
816 SmallVector<SelectInst *, 8> Selects;
817 for (RegionNode *E : R->elements()) {
818 if (E->isSubRegion())
819 continue;
820 // This returns the basic block of E if E is a direct child of R (not a
821 // subregion.)
822 BasicBlock *BB = E->getEntry();
823 // Need to push in the order to make it easier to find the first Select
824 // later.
825 for (Instruction &I : *BB) {
826 if (auto *SI = dyn_cast<SelectInst>(&I)) {
827 Selects.push_back(SI);
828 ++Stats.NumBranches;
832 if (Selects.size() > 0) {
833 auto AddSelects = [&](RegInfo &RI) {
834 for (auto *SI : Selects)
835 if (checkBiasedSelect(SI, RI.R,
836 TrueBiasedSelectsGlobal,
837 FalseBiasedSelectsGlobal,
838 SelectBiasMap))
839 RI.Selects.push_back(SI);
840 else
841 ORE.emit([&]() {
842 return OptimizationRemarkMissed(DEBUG_TYPE, "SelectNotBiased", SI)
843 << "Select not biased";
846 if (!Result) {
847 CHR_DEBUG(dbgs() << "Found a select-only region\n");
848 RegInfo RI(R);
849 AddSelects(RI);
850 Result = new CHRScope(RI);
851 Scopes.insert(Result);
852 } else {
853 CHR_DEBUG(dbgs() << "Found select(s) in a region with a branch\n");
854 AddSelects(Result->RegInfos[0]);
859 if (Result) {
860 checkScopeHoistable(Result);
862 return Result;
865 // Check that any of the branch and the selects in the region could be
866 // hoisted above the the CHR branch insert point (the most dominating of
867 // them, either the branch (at the end of the first block) or the first
868 // select in the first block). If the branch can't be hoisted, drop the
869 // selects in the first blocks.
871 // For example, for the following scope/region with selects, we want to insert
872 // the merged branch right before the first select in the first/entry block by
873 // hoisting c1, c2, c3, and c4.
875 // // Branch insert point here.
876 // a = c1 ? b : c; // Select 1
877 // d = c2 ? e : f; // Select 2
878 // if (c3) { // Branch
879 // ...
880 // c4 = foo() // A call.
881 // g = c4 ? h : i; // Select 3
882 // }
884 // But suppose we can't hoist c4 because it's dependent on the preceding
885 // call. Then, we drop Select 3. Furthermore, if we can't hoist c2, we also drop
886 // Select 2. If we can't hoist c3, we drop Selects 1 & 2.
887 void CHR::checkScopeHoistable(CHRScope *Scope) {
888 RegInfo &RI = Scope->RegInfos[0];
889 Region *R = RI.R;
890 BasicBlock *EntryBB = R->getEntry();
891 auto *Branch = RI.HasBranch ?
892 cast<BranchInst>(EntryBB->getTerminator()) : nullptr;
893 SmallVector<SelectInst *, 8> &Selects = RI.Selects;
894 if (RI.HasBranch || !Selects.empty()) {
895 Instruction *InsertPoint = getBranchInsertPoint(RI);
896 CHR_DEBUG(dbgs() << "InsertPoint " << *InsertPoint << "\n");
897 // Avoid a data dependence from a select or a branch to a(nother)
898 // select. Note no instruction can't data-depend on a branch (a branch
899 // instruction doesn't produce a value).
900 DenseSet<Instruction *> Unhoistables;
901 // Initialize Unhoistables with the selects.
902 for (SelectInst *SI : Selects) {
903 Unhoistables.insert(SI);
905 // Remove Selects that can't be hoisted.
906 for (auto it = Selects.begin(); it != Selects.end(); ) {
907 SelectInst *SI = *it;
908 if (SI == InsertPoint) {
909 ++it;
910 continue;
912 DenseMap<Instruction *, bool> Visited;
913 bool IsHoistable = checkHoistValue(SI->getCondition(), InsertPoint,
914 DT, Unhoistables, nullptr, Visited);
915 if (!IsHoistable) {
916 CHR_DEBUG(dbgs() << "Dropping select " << *SI << "\n");
917 ORE.emit([&]() {
918 return OptimizationRemarkMissed(DEBUG_TYPE,
919 "DropUnhoistableSelect", SI)
920 << "Dropped unhoistable select";
922 it = Selects.erase(it);
923 // Since we are dropping the select here, we also drop it from
924 // Unhoistables.
925 Unhoistables.erase(SI);
926 } else
927 ++it;
929 // Update InsertPoint after potentially removing selects.
930 InsertPoint = getBranchInsertPoint(RI);
931 CHR_DEBUG(dbgs() << "InsertPoint " << *InsertPoint << "\n");
932 if (RI.HasBranch && InsertPoint != Branch) {
933 DenseMap<Instruction *, bool> Visited;
934 bool IsHoistable = checkHoistValue(Branch->getCondition(), InsertPoint,
935 DT, Unhoistables, nullptr, Visited);
936 if (!IsHoistable) {
937 // If the branch isn't hoistable, drop the selects in the entry
938 // block, preferring the branch, which makes the branch the hoist
939 // point.
940 assert(InsertPoint != Branch && "Branch must not be the hoist point");
941 CHR_DEBUG(dbgs() << "Dropping selects in entry block \n");
942 CHR_DEBUG(
943 for (SelectInst *SI : Selects) {
944 dbgs() << "SI " << *SI << "\n";
946 for (SelectInst *SI : Selects) {
947 ORE.emit([&]() {
948 return OptimizationRemarkMissed(DEBUG_TYPE,
949 "DropSelectUnhoistableBranch", SI)
950 << "Dropped select due to unhoistable branch";
953 Selects.erase(std::remove_if(Selects.begin(), Selects.end(),
954 [EntryBB](SelectInst *SI) {
955 return SI->getParent() == EntryBB;
956 }), Selects.end());
957 Unhoistables.clear();
958 InsertPoint = Branch;
961 CHR_DEBUG(dbgs() << "InsertPoint " << *InsertPoint << "\n");
962 #ifndef NDEBUG
963 if (RI.HasBranch) {
964 assert(!DT.dominates(Branch, InsertPoint) &&
965 "Branch can't be already above the hoist point");
966 DenseMap<Instruction *, bool> Visited;
967 assert(checkHoistValue(Branch->getCondition(), InsertPoint,
968 DT, Unhoistables, nullptr, Visited) &&
969 "checkHoistValue for branch");
971 for (auto *SI : Selects) {
972 assert(!DT.dominates(SI, InsertPoint) &&
973 "SI can't be already above the hoist point");
974 DenseMap<Instruction *, bool> Visited;
975 assert(checkHoistValue(SI->getCondition(), InsertPoint, DT,
976 Unhoistables, nullptr, Visited) &&
977 "checkHoistValue for selects");
979 CHR_DEBUG(dbgs() << "Result\n");
980 if (RI.HasBranch) {
981 CHR_DEBUG(dbgs() << "BI " << *Branch << "\n");
983 for (auto *SI : Selects) {
984 CHR_DEBUG(dbgs() << "SI " << *SI << "\n");
986 #endif
990 // Traverse the region tree, find all nested scopes and merge them if possible.
991 CHRScope * CHR::findScopes(Region *R, Region *NextRegion, Region *ParentRegion,
992 SmallVectorImpl<CHRScope *> &Scopes) {
993 CHR_DEBUG(dbgs() << "findScopes " << R->getNameStr() << "\n");
994 CHRScope *Result = findScope(R);
995 // Visit subscopes.
996 CHRScope *ConsecutiveSubscope = nullptr;
997 SmallVector<CHRScope *, 8> Subscopes;
998 for (auto It = R->begin(); It != R->end(); ++It) {
999 const std::unique_ptr<Region> &SubR = *It;
1000 auto NextIt = std::next(It);
1001 Region *NextSubR = NextIt != R->end() ? NextIt->get() : nullptr;
1002 CHR_DEBUG(dbgs() << "Looking at subregion " << SubR.get()->getNameStr()
1003 << "\n");
1004 CHRScope *SubCHRScope = findScopes(SubR.get(), NextSubR, R, Scopes);
1005 if (SubCHRScope) {
1006 CHR_DEBUG(dbgs() << "Subregion Scope " << *SubCHRScope << "\n");
1007 } else {
1008 CHR_DEBUG(dbgs() << "Subregion Scope null\n");
1010 if (SubCHRScope) {
1011 if (!ConsecutiveSubscope)
1012 ConsecutiveSubscope = SubCHRScope;
1013 else if (!ConsecutiveSubscope->appendable(SubCHRScope)) {
1014 Subscopes.push_back(ConsecutiveSubscope);
1015 ConsecutiveSubscope = SubCHRScope;
1016 } else
1017 ConsecutiveSubscope->append(SubCHRScope);
1018 } else {
1019 if (ConsecutiveSubscope) {
1020 Subscopes.push_back(ConsecutiveSubscope);
1022 ConsecutiveSubscope = nullptr;
1025 if (ConsecutiveSubscope) {
1026 Subscopes.push_back(ConsecutiveSubscope);
1028 for (CHRScope *Sub : Subscopes) {
1029 if (Result) {
1030 // Combine it with the parent.
1031 Result->addSub(Sub);
1032 } else {
1033 // Push Subscopes as they won't be combined with the parent.
1034 Scopes.push_back(Sub);
1037 return Result;
1040 static DenseSet<Value *> getCHRConditionValuesForRegion(RegInfo &RI) {
1041 DenseSet<Value *> ConditionValues;
1042 if (RI.HasBranch) {
1043 auto *BI = cast<BranchInst>(RI.R->getEntry()->getTerminator());
1044 ConditionValues.insert(BI->getCondition());
1046 for (SelectInst *SI : RI.Selects) {
1047 ConditionValues.insert(SI->getCondition());
1049 return ConditionValues;
1053 // Determine whether to split a scope depending on the sets of the branch
1054 // condition values of the previous region and the current region. We split
1055 // (return true) it if 1) the condition values of the inner/lower scope can't be
1056 // hoisted up to the outer/upper scope, or 2) the two sets of the condition
1057 // values have an empty intersection (because the combined branch conditions
1058 // won't probably lead to a simpler combined condition).
1059 static bool shouldSplit(Instruction *InsertPoint,
1060 DenseSet<Value *> &PrevConditionValues,
1061 DenseSet<Value *> &ConditionValues,
1062 DominatorTree &DT,
1063 DenseSet<Instruction *> &Unhoistables) {
1064 CHR_DEBUG(
1065 dbgs() << "shouldSplit " << *InsertPoint << " PrevConditionValues ";
1066 for (Value *V : PrevConditionValues) {
1067 dbgs() << *V << ", ";
1069 dbgs() << " ConditionValues ";
1070 for (Value *V : ConditionValues) {
1071 dbgs() << *V << ", ";
1073 dbgs() << "\n");
1074 assert(InsertPoint && "Null InsertPoint");
1075 // If any of Bases isn't hoistable to the hoist point, split.
1076 for (Value *V : ConditionValues) {
1077 DenseMap<Instruction *, bool> Visited;
1078 if (!checkHoistValue(V, InsertPoint, DT, Unhoistables, nullptr, Visited)) {
1079 CHR_DEBUG(dbgs() << "Split. checkHoistValue false " << *V << "\n");
1080 return true; // Not hoistable, split.
1083 // If PrevConditionValues or ConditionValues is empty, don't split to avoid
1084 // unnecessary splits at scopes with no branch/selects. If
1085 // PrevConditionValues and ConditionValues don't intersect at all, split.
1086 if (!PrevConditionValues.empty() && !ConditionValues.empty()) {
1087 // Use std::set as DenseSet doesn't work with set_intersection.
1088 std::set<Value *> PrevBases, Bases;
1089 DenseMap<Value *, std::set<Value *>> Visited;
1090 for (Value *V : PrevConditionValues) {
1091 std::set<Value *> BaseValues = getBaseValues(V, DT, Visited);
1092 PrevBases.insert(BaseValues.begin(), BaseValues.end());
1094 for (Value *V : ConditionValues) {
1095 std::set<Value *> BaseValues = getBaseValues(V, DT, Visited);
1096 Bases.insert(BaseValues.begin(), BaseValues.end());
1098 CHR_DEBUG(
1099 dbgs() << "PrevBases ";
1100 for (Value *V : PrevBases) {
1101 dbgs() << *V << ", ";
1103 dbgs() << " Bases ";
1104 for (Value *V : Bases) {
1105 dbgs() << *V << ", ";
1107 dbgs() << "\n");
1108 std::set<Value *> Intersection;
1109 std::set_intersection(PrevBases.begin(), PrevBases.end(),
1110 Bases.begin(), Bases.end(),
1111 std::inserter(Intersection, Intersection.begin()));
1112 if (Intersection.empty()) {
1113 // Empty intersection, split.
1114 CHR_DEBUG(dbgs() << "Split. Intersection empty\n");
1115 return true;
1118 CHR_DEBUG(dbgs() << "No split\n");
1119 return false; // Don't split.
1122 static void getSelectsInScope(CHRScope *Scope,
1123 DenseSet<Instruction *> &Output) {
1124 for (RegInfo &RI : Scope->RegInfos)
1125 for (SelectInst *SI : RI.Selects)
1126 Output.insert(SI);
1127 for (CHRScope *Sub : Scope->Subs)
1128 getSelectsInScope(Sub, Output);
1131 void CHR::splitScopes(SmallVectorImpl<CHRScope *> &Input,
1132 SmallVectorImpl<CHRScope *> &Output) {
1133 for (CHRScope *Scope : Input) {
1134 assert(!Scope->BranchInsertPoint &&
1135 "BranchInsertPoint must not be set");
1136 DenseSet<Instruction *> Unhoistables;
1137 getSelectsInScope(Scope, Unhoistables);
1138 splitScope(Scope, nullptr, nullptr, nullptr, Output, Unhoistables);
1140 #ifndef NDEBUG
1141 for (CHRScope *Scope : Output) {
1142 assert(Scope->BranchInsertPoint && "BranchInsertPoint must be set");
1144 #endif
1147 SmallVector<CHRScope *, 8> CHR::splitScope(
1148 CHRScope *Scope,
1149 CHRScope *Outer,
1150 DenseSet<Value *> *OuterConditionValues,
1151 Instruction *OuterInsertPoint,
1152 SmallVectorImpl<CHRScope *> &Output,
1153 DenseSet<Instruction *> &Unhoistables) {
1154 if (Outer) {
1155 assert(OuterConditionValues && "Null OuterConditionValues");
1156 assert(OuterInsertPoint && "Null OuterInsertPoint");
1158 bool PrevSplitFromOuter = true;
1159 DenseSet<Value *> PrevConditionValues;
1160 Instruction *PrevInsertPoint = nullptr;
1161 SmallVector<CHRScope *, 8> Splits;
1162 SmallVector<bool, 8> SplitsSplitFromOuter;
1163 SmallVector<DenseSet<Value *>, 8> SplitsConditionValues;
1164 SmallVector<Instruction *, 8> SplitsInsertPoints;
1165 SmallVector<RegInfo, 8> RegInfos(Scope->RegInfos); // Copy
1166 for (RegInfo &RI : RegInfos) {
1167 Instruction *InsertPoint = getBranchInsertPoint(RI);
1168 DenseSet<Value *> ConditionValues = getCHRConditionValuesForRegion(RI);
1169 CHR_DEBUG(
1170 dbgs() << "ConditionValues ";
1171 for (Value *V : ConditionValues) {
1172 dbgs() << *V << ", ";
1174 dbgs() << "\n");
1175 if (RI.R == RegInfos[0].R) {
1176 // First iteration. Check to see if we should split from the outer.
1177 if (Outer) {
1178 CHR_DEBUG(dbgs() << "Outer " << *Outer << "\n");
1179 CHR_DEBUG(dbgs() << "Should split from outer at "
1180 << RI.R->getNameStr() << "\n");
1181 if (shouldSplit(OuterInsertPoint, *OuterConditionValues,
1182 ConditionValues, DT, Unhoistables)) {
1183 PrevConditionValues = ConditionValues;
1184 PrevInsertPoint = InsertPoint;
1185 ORE.emit([&]() {
1186 return OptimizationRemarkMissed(DEBUG_TYPE,
1187 "SplitScopeFromOuter",
1188 RI.R->getEntry()->getTerminator())
1189 << "Split scope from outer due to unhoistable branch/select "
1190 << "and/or lack of common condition values";
1192 } else {
1193 // Not splitting from the outer. Use the outer bases and insert
1194 // point. Union the bases.
1195 PrevSplitFromOuter = false;
1196 PrevConditionValues = *OuterConditionValues;
1197 PrevConditionValues.insert(ConditionValues.begin(),
1198 ConditionValues.end());
1199 PrevInsertPoint = OuterInsertPoint;
1201 } else {
1202 CHR_DEBUG(dbgs() << "Outer null\n");
1203 PrevConditionValues = ConditionValues;
1204 PrevInsertPoint = InsertPoint;
1206 } else {
1207 CHR_DEBUG(dbgs() << "Should split from prev at "
1208 << RI.R->getNameStr() << "\n");
1209 if (shouldSplit(PrevInsertPoint, PrevConditionValues, ConditionValues,
1210 DT, Unhoistables)) {
1211 CHRScope *Tail = Scope->split(RI.R);
1212 Scopes.insert(Tail);
1213 Splits.push_back(Scope);
1214 SplitsSplitFromOuter.push_back(PrevSplitFromOuter);
1215 SplitsConditionValues.push_back(PrevConditionValues);
1216 SplitsInsertPoints.push_back(PrevInsertPoint);
1217 Scope = Tail;
1218 PrevConditionValues = ConditionValues;
1219 PrevInsertPoint = InsertPoint;
1220 PrevSplitFromOuter = true;
1221 ORE.emit([&]() {
1222 return OptimizationRemarkMissed(DEBUG_TYPE,
1223 "SplitScopeFromPrev",
1224 RI.R->getEntry()->getTerminator())
1225 << "Split scope from previous due to unhoistable branch/select "
1226 << "and/or lack of common condition values";
1228 } else {
1229 // Not splitting. Union the bases. Keep the hoist point.
1230 PrevConditionValues.insert(ConditionValues.begin(), ConditionValues.end());
1234 Splits.push_back(Scope);
1235 SplitsSplitFromOuter.push_back(PrevSplitFromOuter);
1236 SplitsConditionValues.push_back(PrevConditionValues);
1237 assert(PrevInsertPoint && "Null PrevInsertPoint");
1238 SplitsInsertPoints.push_back(PrevInsertPoint);
1239 assert(Splits.size() == SplitsConditionValues.size() &&
1240 Splits.size() == SplitsSplitFromOuter.size() &&
1241 Splits.size() == SplitsInsertPoints.size() && "Mismatching sizes");
1242 for (size_t I = 0; I < Splits.size(); ++I) {
1243 CHRScope *Split = Splits[I];
1244 DenseSet<Value *> &SplitConditionValues = SplitsConditionValues[I];
1245 Instruction *SplitInsertPoint = SplitsInsertPoints[I];
1246 SmallVector<CHRScope *, 8> NewSubs;
1247 DenseSet<Instruction *> SplitUnhoistables;
1248 getSelectsInScope(Split, SplitUnhoistables);
1249 for (CHRScope *Sub : Split->Subs) {
1250 SmallVector<CHRScope *, 8> SubSplits = splitScope(
1251 Sub, Split, &SplitConditionValues, SplitInsertPoint, Output,
1252 SplitUnhoistables);
1253 NewSubs.insert(NewSubs.end(), SubSplits.begin(), SubSplits.end());
1255 Split->Subs = NewSubs;
1257 SmallVector<CHRScope *, 8> Result;
1258 for (size_t I = 0; I < Splits.size(); ++I) {
1259 CHRScope *Split = Splits[I];
1260 if (SplitsSplitFromOuter[I]) {
1261 // Split from the outer.
1262 Output.push_back(Split);
1263 Split->BranchInsertPoint = SplitsInsertPoints[I];
1264 CHR_DEBUG(dbgs() << "BranchInsertPoint " << *SplitsInsertPoints[I]
1265 << "\n");
1266 } else {
1267 // Connected to the outer.
1268 Result.push_back(Split);
1271 if (!Outer)
1272 assert(Result.empty() &&
1273 "If no outer (top-level), must return no nested ones");
1274 return Result;
1277 void CHR::classifyBiasedScopes(SmallVectorImpl<CHRScope *> &Scopes) {
1278 for (CHRScope *Scope : Scopes) {
1279 assert(Scope->TrueBiasedRegions.empty() && Scope->FalseBiasedRegions.empty() && "Empty");
1280 classifyBiasedScopes(Scope, Scope);
1281 CHR_DEBUG(
1282 dbgs() << "classifyBiasedScopes " << *Scope << "\n";
1283 dbgs() << "TrueBiasedRegions ";
1284 for (Region *R : Scope->TrueBiasedRegions) {
1285 dbgs() << R->getNameStr() << ", ";
1287 dbgs() << "\n";
1288 dbgs() << "FalseBiasedRegions ";
1289 for (Region *R : Scope->FalseBiasedRegions) {
1290 dbgs() << R->getNameStr() << ", ";
1292 dbgs() << "\n";
1293 dbgs() << "TrueBiasedSelects ";
1294 for (SelectInst *SI : Scope->TrueBiasedSelects) {
1295 dbgs() << *SI << ", ";
1297 dbgs() << "\n";
1298 dbgs() << "FalseBiasedSelects ";
1299 for (SelectInst *SI : Scope->FalseBiasedSelects) {
1300 dbgs() << *SI << ", ";
1302 dbgs() << "\n";);
1306 void CHR::classifyBiasedScopes(CHRScope *Scope, CHRScope *OutermostScope) {
1307 for (RegInfo &RI : Scope->RegInfos) {
1308 if (RI.HasBranch) {
1309 Region *R = RI.R;
1310 if (TrueBiasedRegionsGlobal.count(R) > 0)
1311 OutermostScope->TrueBiasedRegions.insert(R);
1312 else if (FalseBiasedRegionsGlobal.count(R) > 0)
1313 OutermostScope->FalseBiasedRegions.insert(R);
1314 else
1315 llvm_unreachable("Must be biased");
1317 for (SelectInst *SI : RI.Selects) {
1318 if (TrueBiasedSelectsGlobal.count(SI) > 0)
1319 OutermostScope->TrueBiasedSelects.insert(SI);
1320 else if (FalseBiasedSelectsGlobal.count(SI) > 0)
1321 OutermostScope->FalseBiasedSelects.insert(SI);
1322 else
1323 llvm_unreachable("Must be biased");
1326 for (CHRScope *Sub : Scope->Subs) {
1327 classifyBiasedScopes(Sub, OutermostScope);
1331 static bool hasAtLeastTwoBiasedBranches(CHRScope *Scope) {
1332 unsigned NumBiased = Scope->TrueBiasedRegions.size() +
1333 Scope->FalseBiasedRegions.size() +
1334 Scope->TrueBiasedSelects.size() +
1335 Scope->FalseBiasedSelects.size();
1336 return NumBiased >= CHRMergeThreshold;
1339 void CHR::filterScopes(SmallVectorImpl<CHRScope *> &Input,
1340 SmallVectorImpl<CHRScope *> &Output) {
1341 for (CHRScope *Scope : Input) {
1342 // Filter out the ones with only one region and no subs.
1343 if (!hasAtLeastTwoBiasedBranches(Scope)) {
1344 CHR_DEBUG(dbgs() << "Filtered out by biased branches truthy-regions "
1345 << Scope->TrueBiasedRegions.size()
1346 << " falsy-regions " << Scope->FalseBiasedRegions.size()
1347 << " true-selects " << Scope->TrueBiasedSelects.size()
1348 << " false-selects " << Scope->FalseBiasedSelects.size() << "\n");
1349 ORE.emit([&]() {
1350 return OptimizationRemarkMissed(
1351 DEBUG_TYPE,
1352 "DropScopeWithOneBranchOrSelect",
1353 Scope->RegInfos[0].R->getEntry()->getTerminator())
1354 << "Drop scope with < "
1355 << ore::NV("CHRMergeThreshold", CHRMergeThreshold)
1356 << " biased branch(es) or select(s)";
1358 continue;
1360 Output.push_back(Scope);
1364 void CHR::setCHRRegions(SmallVectorImpl<CHRScope *> &Input,
1365 SmallVectorImpl<CHRScope *> &Output) {
1366 for (CHRScope *Scope : Input) {
1367 assert(Scope->HoistStopMap.empty() && Scope->CHRRegions.empty() &&
1368 "Empty");
1369 setCHRRegions(Scope, Scope);
1370 Output.push_back(Scope);
1371 CHR_DEBUG(
1372 dbgs() << "setCHRRegions HoistStopMap " << *Scope << "\n";
1373 for (auto pair : Scope->HoistStopMap) {
1374 Region *R = pair.first;
1375 dbgs() << "Region " << R->getNameStr() << "\n";
1376 for (Instruction *I : pair.second) {
1377 dbgs() << "HoistStop " << *I << "\n";
1380 dbgs() << "CHRRegions" << "\n";
1381 for (RegInfo &RI : Scope->CHRRegions) {
1382 dbgs() << RI.R->getNameStr() << "\n";
1387 void CHR::setCHRRegions(CHRScope *Scope, CHRScope *OutermostScope) {
1388 DenseSet<Instruction *> Unhoistables;
1389 // Put the biased selects in Unhoistables because they should stay where they
1390 // are and constant-folded after CHR (in case one biased select or a branch
1391 // can depend on another biased select.)
1392 for (RegInfo &RI : Scope->RegInfos) {
1393 for (SelectInst *SI : RI.Selects) {
1394 Unhoistables.insert(SI);
1397 Instruction *InsertPoint = OutermostScope->BranchInsertPoint;
1398 for (RegInfo &RI : Scope->RegInfos) {
1399 Region *R = RI.R;
1400 DenseSet<Instruction *> HoistStops;
1401 bool IsHoisted = false;
1402 if (RI.HasBranch) {
1403 assert((OutermostScope->TrueBiasedRegions.count(R) > 0 ||
1404 OutermostScope->FalseBiasedRegions.count(R) > 0) &&
1405 "Must be truthy or falsy");
1406 auto *BI = cast<BranchInst>(R->getEntry()->getTerminator());
1407 // Note checkHoistValue fills in HoistStops.
1408 DenseMap<Instruction *, bool> Visited;
1409 bool IsHoistable = checkHoistValue(BI->getCondition(), InsertPoint, DT,
1410 Unhoistables, &HoistStops, Visited);
1411 assert(IsHoistable && "Must be hoistable");
1412 (void)(IsHoistable); // Unused in release build
1413 IsHoisted = true;
1415 for (SelectInst *SI : RI.Selects) {
1416 assert((OutermostScope->TrueBiasedSelects.count(SI) > 0 ||
1417 OutermostScope->FalseBiasedSelects.count(SI) > 0) &&
1418 "Must be true or false biased");
1419 // Note checkHoistValue fills in HoistStops.
1420 DenseMap<Instruction *, bool> Visited;
1421 bool IsHoistable = checkHoistValue(SI->getCondition(), InsertPoint, DT,
1422 Unhoistables, &HoistStops, Visited);
1423 assert(IsHoistable && "Must be hoistable");
1424 (void)(IsHoistable); // Unused in release build
1425 IsHoisted = true;
1427 if (IsHoisted) {
1428 OutermostScope->CHRRegions.push_back(RI);
1429 OutermostScope->HoistStopMap[R] = HoistStops;
1432 for (CHRScope *Sub : Scope->Subs)
1433 setCHRRegions(Sub, OutermostScope);
1436 bool CHRScopeSorter(CHRScope *Scope1, CHRScope *Scope2) {
1437 return Scope1->RegInfos[0].R->getDepth() < Scope2->RegInfos[0].R->getDepth();
1440 void CHR::sortScopes(SmallVectorImpl<CHRScope *> &Input,
1441 SmallVectorImpl<CHRScope *> &Output) {
1442 Output.resize(Input.size());
1443 llvm::copy(Input, Output.begin());
1444 llvm::stable_sort(Output, CHRScopeSorter);
1447 // Return true if V is already hoisted or was hoisted (along with its operands)
1448 // to the insert point.
1449 static void hoistValue(Value *V, Instruction *HoistPoint, Region *R,
1450 HoistStopMapTy &HoistStopMap,
1451 DenseSet<Instruction *> &HoistedSet,
1452 DenseSet<PHINode *> &TrivialPHIs,
1453 DominatorTree &DT) {
1454 auto IT = HoistStopMap.find(R);
1455 assert(IT != HoistStopMap.end() && "Region must be in hoist stop map");
1456 DenseSet<Instruction *> &HoistStops = IT->second;
1457 if (auto *I = dyn_cast<Instruction>(V)) {
1458 if (I == HoistPoint)
1459 return;
1460 if (HoistStops.count(I))
1461 return;
1462 if (auto *PN = dyn_cast<PHINode>(I))
1463 if (TrivialPHIs.count(PN))
1464 // The trivial phi inserted by the previous CHR scope could replace a
1465 // non-phi in HoistStops. Note that since this phi is at the exit of a
1466 // previous CHR scope, which dominates this scope, it's safe to stop
1467 // hoisting there.
1468 return;
1469 if (HoistedSet.count(I))
1470 // Already hoisted, return.
1471 return;
1472 assert(isHoistableInstructionType(I) && "Unhoistable instruction type");
1473 assert(DT.getNode(I->getParent()) && "DT must contain I's block");
1474 assert(DT.getNode(HoistPoint->getParent()) &&
1475 "DT must contain HoistPoint block");
1476 if (DT.dominates(I, HoistPoint))
1477 // We are already above the hoist point. Stop here. This may be necessary
1478 // when multiple scopes would independently hoist the same
1479 // instruction. Since an outer (dominating) scope would hoist it to its
1480 // entry before an inner (dominated) scope would to its entry, the inner
1481 // scope may see the instruction already hoisted, in which case it
1482 // potentially wrong for the inner scope to hoist it and could cause bad
1483 // IR (non-dominating def), but safe to skip hoisting it instead because
1484 // it's already in a block that dominates the inner scope.
1485 return;
1486 for (Value *Op : I->operands()) {
1487 hoistValue(Op, HoistPoint, R, HoistStopMap, HoistedSet, TrivialPHIs, DT);
1489 I->moveBefore(HoistPoint);
1490 HoistedSet.insert(I);
1491 CHR_DEBUG(dbgs() << "hoistValue " << *I << "\n");
1495 // Hoist the dependent condition values of the branches and the selects in the
1496 // scope to the insert point.
1497 static void hoistScopeConditions(CHRScope *Scope, Instruction *HoistPoint,
1498 DenseSet<PHINode *> &TrivialPHIs,
1499 DominatorTree &DT) {
1500 DenseSet<Instruction *> HoistedSet;
1501 for (const RegInfo &RI : Scope->CHRRegions) {
1502 Region *R = RI.R;
1503 bool IsTrueBiased = Scope->TrueBiasedRegions.count(R);
1504 bool IsFalseBiased = Scope->FalseBiasedRegions.count(R);
1505 if (RI.HasBranch && (IsTrueBiased || IsFalseBiased)) {
1506 auto *BI = cast<BranchInst>(R->getEntry()->getTerminator());
1507 hoistValue(BI->getCondition(), HoistPoint, R, Scope->HoistStopMap,
1508 HoistedSet, TrivialPHIs, DT);
1510 for (SelectInst *SI : RI.Selects) {
1511 bool IsTrueBiased = Scope->TrueBiasedSelects.count(SI);
1512 bool IsFalseBiased = Scope->FalseBiasedSelects.count(SI);
1513 if (!(IsTrueBiased || IsFalseBiased))
1514 continue;
1515 hoistValue(SI->getCondition(), HoistPoint, R, Scope->HoistStopMap,
1516 HoistedSet, TrivialPHIs, DT);
1521 // Negate the predicate if an ICmp if it's used only by branches or selects by
1522 // swapping the operands of the branches or the selects. Returns true if success.
1523 static bool negateICmpIfUsedByBranchOrSelectOnly(ICmpInst *ICmp,
1524 Instruction *ExcludedUser,
1525 CHRScope *Scope) {
1526 for (User *U : ICmp->users()) {
1527 if (U == ExcludedUser)
1528 continue;
1529 if (isa<BranchInst>(U) && cast<BranchInst>(U)->isConditional())
1530 continue;
1531 if (isa<SelectInst>(U) && cast<SelectInst>(U)->getCondition() == ICmp)
1532 continue;
1533 return false;
1535 for (User *U : ICmp->users()) {
1536 if (U == ExcludedUser)
1537 continue;
1538 if (auto *BI = dyn_cast<BranchInst>(U)) {
1539 assert(BI->isConditional() && "Must be conditional");
1540 BI->swapSuccessors();
1541 // Don't need to swap this in terms of
1542 // TrueBiasedRegions/FalseBiasedRegions because true-based/false-based
1543 // mean whehter the branch is likely go into the if-then rather than
1544 // successor0/successor1 and because we can tell which edge is the then or
1545 // the else one by comparing the destination to the region exit block.
1546 continue;
1548 if (auto *SI = dyn_cast<SelectInst>(U)) {
1549 // Swap operands
1550 SI->swapValues();
1551 SI->swapProfMetadata();
1552 if (Scope->TrueBiasedSelects.count(SI)) {
1553 assert(Scope->FalseBiasedSelects.count(SI) == 0 &&
1554 "Must not be already in");
1555 Scope->FalseBiasedSelects.insert(SI);
1556 } else if (Scope->FalseBiasedSelects.count(SI)) {
1557 assert(Scope->TrueBiasedSelects.count(SI) == 0 &&
1558 "Must not be already in");
1559 Scope->TrueBiasedSelects.insert(SI);
1561 continue;
1563 llvm_unreachable("Must be a branch or a select");
1565 ICmp->setPredicate(CmpInst::getInversePredicate(ICmp->getPredicate()));
1566 return true;
1569 // A helper for transformScopes. Insert a trivial phi at the scope exit block
1570 // for a value that's defined in the scope but used outside it (meaning it's
1571 // alive at the exit block).
1572 static void insertTrivialPHIs(CHRScope *Scope,
1573 BasicBlock *EntryBlock, BasicBlock *ExitBlock,
1574 DenseSet<PHINode *> &TrivialPHIs) {
1575 DenseSet<BasicBlock *> BlocksInScopeSet;
1576 SmallVector<BasicBlock *, 8> BlocksInScopeVec;
1577 for (RegInfo &RI : Scope->RegInfos) {
1578 for (BasicBlock *BB : RI.R->blocks()) { // This includes the blocks in the
1579 // sub-Scopes.
1580 BlocksInScopeSet.insert(BB);
1581 BlocksInScopeVec.push_back(BB);
1584 CHR_DEBUG(
1585 dbgs() << "Inserting redudant phis\n";
1586 for (BasicBlock *BB : BlocksInScopeVec) {
1587 dbgs() << "BlockInScope " << BB->getName() << "\n";
1589 for (BasicBlock *BB : BlocksInScopeVec) {
1590 for (Instruction &I : *BB) {
1591 SmallVector<Instruction *, 8> Users;
1592 for (User *U : I.users()) {
1593 if (auto *UI = dyn_cast<Instruction>(U)) {
1594 if (BlocksInScopeSet.count(UI->getParent()) == 0 &&
1595 // Unless there's already a phi for I at the exit block.
1596 !(isa<PHINode>(UI) && UI->getParent() == ExitBlock)) {
1597 CHR_DEBUG(dbgs() << "V " << I << "\n");
1598 CHR_DEBUG(dbgs() << "Used outside scope by user " << *UI << "\n");
1599 Users.push_back(UI);
1600 } else if (UI->getParent() == EntryBlock && isa<PHINode>(UI)) {
1601 // There's a loop backedge from a block that's dominated by this
1602 // scope to the entry block.
1603 CHR_DEBUG(dbgs() << "V " << I << "\n");
1604 CHR_DEBUG(dbgs()
1605 << "Used at entry block (for a back edge) by a phi user "
1606 << *UI << "\n");
1607 Users.push_back(UI);
1611 if (Users.size() > 0) {
1612 // Insert a trivial phi for I (phi [&I, P0], [&I, P1], ...) at
1613 // ExitBlock. Replace I with the new phi in UI unless UI is another
1614 // phi at ExitBlock.
1615 unsigned PredCount = std::distance(pred_begin(ExitBlock),
1616 pred_end(ExitBlock));
1617 PHINode *PN = PHINode::Create(I.getType(), PredCount, "",
1618 &ExitBlock->front());
1619 for (BasicBlock *Pred : predecessors(ExitBlock)) {
1620 PN->addIncoming(&I, Pred);
1622 TrivialPHIs.insert(PN);
1623 CHR_DEBUG(dbgs() << "Insert phi " << *PN << "\n");
1624 for (Instruction *UI : Users) {
1625 for (unsigned J = 0, NumOps = UI->getNumOperands(); J < NumOps; ++J) {
1626 if (UI->getOperand(J) == &I) {
1627 UI->setOperand(J, PN);
1630 CHR_DEBUG(dbgs() << "Updated user " << *UI << "\n");
1637 // Assert that all the CHR regions of the scope have a biased branch or select.
1638 static void LLVM_ATTRIBUTE_UNUSED
1639 assertCHRRegionsHaveBiasedBranchOrSelect(CHRScope *Scope) {
1640 #ifndef NDEBUG
1641 auto HasBiasedBranchOrSelect = [](RegInfo &RI, CHRScope *Scope) {
1642 if (Scope->TrueBiasedRegions.count(RI.R) ||
1643 Scope->FalseBiasedRegions.count(RI.R))
1644 return true;
1645 for (SelectInst *SI : RI.Selects)
1646 if (Scope->TrueBiasedSelects.count(SI) ||
1647 Scope->FalseBiasedSelects.count(SI))
1648 return true;
1649 return false;
1651 for (RegInfo &RI : Scope->CHRRegions) {
1652 assert(HasBiasedBranchOrSelect(RI, Scope) &&
1653 "Must have biased branch or select");
1655 #endif
1658 // Assert that all the condition values of the biased branches and selects have
1659 // been hoisted to the pre-entry block or outside of the scope.
1660 static void LLVM_ATTRIBUTE_UNUSED assertBranchOrSelectConditionHoisted(
1661 CHRScope *Scope, BasicBlock *PreEntryBlock) {
1662 CHR_DEBUG(dbgs() << "Biased regions condition values \n");
1663 for (RegInfo &RI : Scope->CHRRegions) {
1664 Region *R = RI.R;
1665 bool IsTrueBiased = Scope->TrueBiasedRegions.count(R);
1666 bool IsFalseBiased = Scope->FalseBiasedRegions.count(R);
1667 if (RI.HasBranch && (IsTrueBiased || IsFalseBiased)) {
1668 auto *BI = cast<BranchInst>(R->getEntry()->getTerminator());
1669 Value *V = BI->getCondition();
1670 CHR_DEBUG(dbgs() << *V << "\n");
1671 if (auto *I = dyn_cast<Instruction>(V)) {
1672 (void)(I); // Unused in release build.
1673 assert((I->getParent() == PreEntryBlock ||
1674 !Scope->contains(I)) &&
1675 "Must have been hoisted to PreEntryBlock or outside the scope");
1678 for (SelectInst *SI : RI.Selects) {
1679 bool IsTrueBiased = Scope->TrueBiasedSelects.count(SI);
1680 bool IsFalseBiased = Scope->FalseBiasedSelects.count(SI);
1681 if (!(IsTrueBiased || IsFalseBiased))
1682 continue;
1683 Value *V = SI->getCondition();
1684 CHR_DEBUG(dbgs() << *V << "\n");
1685 if (auto *I = dyn_cast<Instruction>(V)) {
1686 (void)(I); // Unused in release build.
1687 assert((I->getParent() == PreEntryBlock ||
1688 !Scope->contains(I)) &&
1689 "Must have been hoisted to PreEntryBlock or outside the scope");
1695 void CHR::transformScopes(CHRScope *Scope, DenseSet<PHINode *> &TrivialPHIs) {
1696 CHR_DEBUG(dbgs() << "transformScopes " << *Scope << "\n");
1698 assert(Scope->RegInfos.size() >= 1 && "Should have at least one Region");
1699 Region *FirstRegion = Scope->RegInfos[0].R;
1700 BasicBlock *EntryBlock = FirstRegion->getEntry();
1701 Region *LastRegion = Scope->RegInfos[Scope->RegInfos.size() - 1].R;
1702 BasicBlock *ExitBlock = LastRegion->getExit();
1703 Optional<uint64_t> ProfileCount = BFI.getBlockProfileCount(EntryBlock);
1705 if (ExitBlock) {
1706 // Insert a trivial phi at the exit block (where the CHR hot path and the
1707 // cold path merges) for a value that's defined in the scope but used
1708 // outside it (meaning it's alive at the exit block). We will add the
1709 // incoming values for the CHR cold paths to it below. Without this, we'd
1710 // miss updating phi's for such values unless there happens to already be a
1711 // phi for that value there.
1712 insertTrivialPHIs(Scope, EntryBlock, ExitBlock, TrivialPHIs);
1715 // Split the entry block of the first region. The new block becomes the new
1716 // entry block of the first region. The old entry block becomes the block to
1717 // insert the CHR branch into. Note DT gets updated. Since DT gets updated
1718 // through the split, we update the entry of the first region after the split,
1719 // and Region only points to the entry and the exit blocks, rather than
1720 // keeping everything in a list or set, the blocks membership and the
1721 // entry/exit blocks of the region are still valid after the split.
1722 CHR_DEBUG(dbgs() << "Splitting entry block " << EntryBlock->getName()
1723 << " at " << *Scope->BranchInsertPoint << "\n");
1724 BasicBlock *NewEntryBlock =
1725 SplitBlock(EntryBlock, Scope->BranchInsertPoint, &DT);
1726 assert(NewEntryBlock->getSinglePredecessor() == EntryBlock &&
1727 "NewEntryBlock's only pred must be EntryBlock");
1728 FirstRegion->replaceEntryRecursive(NewEntryBlock);
1729 BasicBlock *PreEntryBlock = EntryBlock;
1731 ValueToValueMapTy VMap;
1732 // Clone the blocks in the scope (excluding the PreEntryBlock) to split into a
1733 // hot path (originals) and a cold path (clones) and update the PHIs at the
1734 // exit block.
1735 cloneScopeBlocks(Scope, PreEntryBlock, ExitBlock, LastRegion, VMap);
1737 // Replace the old (placeholder) branch with the new (merged) conditional
1738 // branch.
1739 BranchInst *MergedBr = createMergedBranch(PreEntryBlock, EntryBlock,
1740 NewEntryBlock, VMap);
1742 #ifndef NDEBUG
1743 assertCHRRegionsHaveBiasedBranchOrSelect(Scope);
1744 #endif
1746 // Hoist the conditional values of the branches/selects.
1747 hoistScopeConditions(Scope, PreEntryBlock->getTerminator(), TrivialPHIs, DT);
1749 #ifndef NDEBUG
1750 assertBranchOrSelectConditionHoisted(Scope, PreEntryBlock);
1751 #endif
1753 // Create the combined branch condition and constant-fold the branches/selects
1754 // in the hot path.
1755 fixupBranchesAndSelects(Scope, PreEntryBlock, MergedBr,
1756 ProfileCount ? ProfileCount.getValue() : 0);
1759 // A helper for transformScopes. Clone the blocks in the scope (excluding the
1760 // PreEntryBlock) to split into a hot path and a cold path and update the PHIs
1761 // at the exit block.
1762 void CHR::cloneScopeBlocks(CHRScope *Scope,
1763 BasicBlock *PreEntryBlock,
1764 BasicBlock *ExitBlock,
1765 Region *LastRegion,
1766 ValueToValueMapTy &VMap) {
1767 // Clone all the blocks. The original blocks will be the hot-path
1768 // CHR-optimized code and the cloned blocks will be the original unoptimized
1769 // code. This is so that the block pointers from the
1770 // CHRScope/Region/RegionInfo can stay valid in pointing to the hot-path code
1771 // which CHR should apply to.
1772 SmallVector<BasicBlock*, 8> NewBlocks;
1773 for (RegInfo &RI : Scope->RegInfos)
1774 for (BasicBlock *BB : RI.R->blocks()) { // This includes the blocks in the
1775 // sub-Scopes.
1776 assert(BB != PreEntryBlock && "Don't copy the preetntry block");
1777 BasicBlock *NewBB = CloneBasicBlock(BB, VMap, ".nonchr", &F);
1778 NewBlocks.push_back(NewBB);
1779 VMap[BB] = NewBB;
1782 // Place the cloned blocks right after the original blocks (right before the
1783 // exit block of.)
1784 if (ExitBlock)
1785 F.getBasicBlockList().splice(ExitBlock->getIterator(),
1786 F.getBasicBlockList(),
1787 NewBlocks[0]->getIterator(), F.end());
1789 // Update the cloned blocks/instructions to refer to themselves.
1790 for (unsigned i = 0, e = NewBlocks.size(); i != e; ++i)
1791 for (Instruction &I : *NewBlocks[i])
1792 RemapInstruction(&I, VMap,
1793 RF_NoModuleLevelChanges | RF_IgnoreMissingLocals);
1795 // Add the cloned blocks to the PHIs of the exit blocks. ExitBlock is null for
1796 // the top-level region but we don't need to add PHIs. The trivial PHIs
1797 // inserted above will be updated here.
1798 if (ExitBlock)
1799 for (PHINode &PN : ExitBlock->phis())
1800 for (unsigned I = 0, NumOps = PN.getNumIncomingValues(); I < NumOps;
1801 ++I) {
1802 BasicBlock *Pred = PN.getIncomingBlock(I);
1803 if (LastRegion->contains(Pred)) {
1804 Value *V = PN.getIncomingValue(I);
1805 auto It = VMap.find(V);
1806 if (It != VMap.end()) V = It->second;
1807 assert(VMap.find(Pred) != VMap.end() && "Pred must have been cloned");
1808 PN.addIncoming(V, cast<BasicBlock>(VMap[Pred]));
1813 // A helper for transformScope. Replace the old (placeholder) branch with the
1814 // new (merged) conditional branch.
1815 BranchInst *CHR::createMergedBranch(BasicBlock *PreEntryBlock,
1816 BasicBlock *EntryBlock,
1817 BasicBlock *NewEntryBlock,
1818 ValueToValueMapTy &VMap) {
1819 BranchInst *OldBR = cast<BranchInst>(PreEntryBlock->getTerminator());
1820 assert(OldBR->isUnconditional() && OldBR->getSuccessor(0) == NewEntryBlock &&
1821 "SplitBlock did not work correctly!");
1822 assert(NewEntryBlock->getSinglePredecessor() == EntryBlock &&
1823 "NewEntryBlock's only pred must be EntryBlock");
1824 assert(VMap.find(NewEntryBlock) != VMap.end() &&
1825 "NewEntryBlock must have been copied");
1826 OldBR->dropAllReferences();
1827 OldBR->eraseFromParent();
1828 // The true predicate is a placeholder. It will be replaced later in
1829 // fixupBranchesAndSelects().
1830 BranchInst *NewBR = BranchInst::Create(NewEntryBlock,
1831 cast<BasicBlock>(VMap[NewEntryBlock]),
1832 ConstantInt::getTrue(F.getContext()));
1833 PreEntryBlock->getInstList().push_back(NewBR);
1834 assert(NewEntryBlock->getSinglePredecessor() == EntryBlock &&
1835 "NewEntryBlock's only pred must be EntryBlock");
1836 return NewBR;
1839 // A helper for transformScopes. Create the combined branch condition and
1840 // constant-fold the branches/selects in the hot path.
1841 void CHR::fixupBranchesAndSelects(CHRScope *Scope,
1842 BasicBlock *PreEntryBlock,
1843 BranchInst *MergedBR,
1844 uint64_t ProfileCount) {
1845 Value *MergedCondition = ConstantInt::getTrue(F.getContext());
1846 BranchProbability CHRBranchBias(1, 1);
1847 uint64_t NumCHRedBranches = 0;
1848 IRBuilder<> IRB(PreEntryBlock->getTerminator());
1849 for (RegInfo &RI : Scope->CHRRegions) {
1850 Region *R = RI.R;
1851 if (RI.HasBranch) {
1852 fixupBranch(R, Scope, IRB, MergedCondition, CHRBranchBias);
1853 ++NumCHRedBranches;
1855 for (SelectInst *SI : RI.Selects) {
1856 fixupSelect(SI, Scope, IRB, MergedCondition, CHRBranchBias);
1857 ++NumCHRedBranches;
1860 Stats.NumBranchesDelta += NumCHRedBranches - 1;
1861 Stats.WeightedNumBranchesDelta += (NumCHRedBranches - 1) * ProfileCount;
1862 ORE.emit([&]() {
1863 return OptimizationRemark(DEBUG_TYPE,
1864 "CHR",
1865 // Refer to the hot (original) path
1866 MergedBR->getSuccessor(0)->getTerminator())
1867 << "Merged " << ore::NV("NumCHRedBranches", NumCHRedBranches)
1868 << " branches or selects";
1870 MergedBR->setCondition(MergedCondition);
1871 SmallVector<uint32_t, 2> Weights;
1872 Weights.push_back(static_cast<uint32_t>(CHRBranchBias.scale(1000)));
1873 Weights.push_back(static_cast<uint32_t>(CHRBranchBias.getCompl().scale(1000)));
1874 MDBuilder MDB(F.getContext());
1875 MergedBR->setMetadata(LLVMContext::MD_prof, MDB.createBranchWeights(Weights));
1876 CHR_DEBUG(dbgs() << "CHR branch bias " << Weights[0] << ":" << Weights[1]
1877 << "\n");
1880 // A helper for fixupBranchesAndSelects. Add to the combined branch condition
1881 // and constant-fold a branch in the hot path.
1882 void CHR::fixupBranch(Region *R, CHRScope *Scope,
1883 IRBuilder<> &IRB,
1884 Value *&MergedCondition,
1885 BranchProbability &CHRBranchBias) {
1886 bool IsTrueBiased = Scope->TrueBiasedRegions.count(R);
1887 assert((IsTrueBiased || Scope->FalseBiasedRegions.count(R)) &&
1888 "Must be truthy or falsy");
1889 auto *BI = cast<BranchInst>(R->getEntry()->getTerminator());
1890 assert(BranchBiasMap.find(R) != BranchBiasMap.end() &&
1891 "Must be in the bias map");
1892 BranchProbability Bias = BranchBiasMap[R];
1893 assert(Bias >= getCHRBiasThreshold() && "Must be highly biased");
1894 // Take the min.
1895 if (CHRBranchBias > Bias)
1896 CHRBranchBias = Bias;
1897 BasicBlock *IfThen = BI->getSuccessor(1);
1898 BasicBlock *IfElse = BI->getSuccessor(0);
1899 BasicBlock *RegionExitBlock = R->getExit();
1900 assert(RegionExitBlock && "Null ExitBlock");
1901 assert((IfThen == RegionExitBlock || IfElse == RegionExitBlock) &&
1902 IfThen != IfElse && "Invariant from findScopes");
1903 if (IfThen == RegionExitBlock) {
1904 // Swap them so that IfThen means going into it and IfElse means skipping
1905 // it.
1906 std::swap(IfThen, IfElse);
1908 CHR_DEBUG(dbgs() << "IfThen " << IfThen->getName()
1909 << " IfElse " << IfElse->getName() << "\n");
1910 Value *Cond = BI->getCondition();
1911 BasicBlock *HotTarget = IsTrueBiased ? IfThen : IfElse;
1912 bool ConditionTrue = HotTarget == BI->getSuccessor(0);
1913 addToMergedCondition(ConditionTrue, Cond, BI, Scope, IRB,
1914 MergedCondition);
1915 // Constant-fold the branch at ClonedEntryBlock.
1916 assert(ConditionTrue == (HotTarget == BI->getSuccessor(0)) &&
1917 "The successor shouldn't change");
1918 Value *NewCondition = ConditionTrue ?
1919 ConstantInt::getTrue(F.getContext()) :
1920 ConstantInt::getFalse(F.getContext());
1921 BI->setCondition(NewCondition);
1924 // A helper for fixupBranchesAndSelects. Add to the combined branch condition
1925 // and constant-fold a select in the hot path.
1926 void CHR::fixupSelect(SelectInst *SI, CHRScope *Scope,
1927 IRBuilder<> &IRB,
1928 Value *&MergedCondition,
1929 BranchProbability &CHRBranchBias) {
1930 bool IsTrueBiased = Scope->TrueBiasedSelects.count(SI);
1931 assert((IsTrueBiased ||
1932 Scope->FalseBiasedSelects.count(SI)) && "Must be biased");
1933 assert(SelectBiasMap.find(SI) != SelectBiasMap.end() &&
1934 "Must be in the bias map");
1935 BranchProbability Bias = SelectBiasMap[SI];
1936 assert(Bias >= getCHRBiasThreshold() && "Must be highly biased");
1937 // Take the min.
1938 if (CHRBranchBias > Bias)
1939 CHRBranchBias = Bias;
1940 Value *Cond = SI->getCondition();
1941 addToMergedCondition(IsTrueBiased, Cond, SI, Scope, IRB,
1942 MergedCondition);
1943 Value *NewCondition = IsTrueBiased ?
1944 ConstantInt::getTrue(F.getContext()) :
1945 ConstantInt::getFalse(F.getContext());
1946 SI->setCondition(NewCondition);
1949 // A helper for fixupBranch/fixupSelect. Add a branch condition to the merged
1950 // condition.
1951 void CHR::addToMergedCondition(bool IsTrueBiased, Value *Cond,
1952 Instruction *BranchOrSelect,
1953 CHRScope *Scope,
1954 IRBuilder<> &IRB,
1955 Value *&MergedCondition) {
1956 if (IsTrueBiased) {
1957 MergedCondition = IRB.CreateAnd(MergedCondition, Cond);
1958 } else {
1959 // If Cond is an icmp and all users of V except for BranchOrSelect is a
1960 // branch, negate the icmp predicate and swap the branch targets and avoid
1961 // inserting an Xor to negate Cond.
1962 bool Done = false;
1963 if (auto *ICmp = dyn_cast<ICmpInst>(Cond))
1964 if (negateICmpIfUsedByBranchOrSelectOnly(ICmp, BranchOrSelect, Scope)) {
1965 MergedCondition = IRB.CreateAnd(MergedCondition, Cond);
1966 Done = true;
1968 if (!Done) {
1969 Value *Negate = IRB.CreateXor(
1970 ConstantInt::getTrue(F.getContext()), Cond);
1971 MergedCondition = IRB.CreateAnd(MergedCondition, Negate);
1976 void CHR::transformScopes(SmallVectorImpl<CHRScope *> &CHRScopes) {
1977 unsigned I = 0;
1978 DenseSet<PHINode *> TrivialPHIs;
1979 for (CHRScope *Scope : CHRScopes) {
1980 transformScopes(Scope, TrivialPHIs);
1981 CHR_DEBUG(
1982 std::ostringstream oss;
1983 oss << " after transformScopes " << I++;
1984 dumpIR(F, oss.str().c_str(), nullptr));
1985 (void)I;
1989 static void LLVM_ATTRIBUTE_UNUSED
1990 dumpScopes(SmallVectorImpl<CHRScope *> &Scopes, const char *Label) {
1991 dbgs() << Label << " " << Scopes.size() << "\n";
1992 for (CHRScope *Scope : Scopes) {
1993 dbgs() << *Scope << "\n";
1997 bool CHR::run() {
1998 if (!shouldApply(F, PSI))
1999 return false;
2001 CHR_DEBUG(dumpIR(F, "before", nullptr));
2003 bool Changed = false;
2005 CHR_DEBUG(
2006 dbgs() << "RegionInfo:\n";
2007 RI.print(dbgs()));
2009 // Recursively traverse the region tree and find regions that have biased
2010 // branches and/or selects and create scopes.
2011 SmallVector<CHRScope *, 8> AllScopes;
2012 findScopes(AllScopes);
2013 CHR_DEBUG(dumpScopes(AllScopes, "All scopes"));
2015 // Split the scopes if 1) the conditiona values of the biased
2016 // branches/selects of the inner/lower scope can't be hoisted up to the
2017 // outermost/uppermost scope entry, or 2) the condition values of the biased
2018 // branches/selects in a scope (including subscopes) don't share at least
2019 // one common value.
2020 SmallVector<CHRScope *, 8> SplitScopes;
2021 splitScopes(AllScopes, SplitScopes);
2022 CHR_DEBUG(dumpScopes(SplitScopes, "Split scopes"));
2024 // After splitting, set the biased regions and selects of a scope (a tree
2025 // root) that include those of the subscopes.
2026 classifyBiasedScopes(SplitScopes);
2027 CHR_DEBUG(dbgs() << "Set per-scope bias " << SplitScopes.size() << "\n");
2029 // Filter out the scopes that has only one biased region or select (CHR
2030 // isn't useful in such a case).
2031 SmallVector<CHRScope *, 8> FilteredScopes;
2032 filterScopes(SplitScopes, FilteredScopes);
2033 CHR_DEBUG(dumpScopes(FilteredScopes, "Filtered scopes"));
2035 // Set the regions to be CHR'ed and their hoist stops for each scope.
2036 SmallVector<CHRScope *, 8> SetScopes;
2037 setCHRRegions(FilteredScopes, SetScopes);
2038 CHR_DEBUG(dumpScopes(SetScopes, "Set CHR regions"));
2040 // Sort CHRScopes by the depth so that outer CHRScopes comes before inner
2041 // ones. We need to apply CHR from outer to inner so that we apply CHR only
2042 // to the hot path, rather than both hot and cold paths.
2043 SmallVector<CHRScope *, 8> SortedScopes;
2044 sortScopes(SetScopes, SortedScopes);
2045 CHR_DEBUG(dumpScopes(SortedScopes, "Sorted scopes"));
2047 CHR_DEBUG(
2048 dbgs() << "RegionInfo:\n";
2049 RI.print(dbgs()));
2051 // Apply the CHR transformation.
2052 if (!SortedScopes.empty()) {
2053 transformScopes(SortedScopes);
2054 Changed = true;
2058 if (Changed) {
2059 CHR_DEBUG(dumpIR(F, "after", &Stats));
2060 ORE.emit([&]() {
2061 return OptimizationRemark(DEBUG_TYPE, "Stats", &F)
2062 << ore::NV("Function", &F) << " "
2063 << "Reduced the number of branches in hot paths by "
2064 << ore::NV("NumBranchesDelta", Stats.NumBranchesDelta)
2065 << " (static) and "
2066 << ore::NV("WeightedNumBranchesDelta", Stats.WeightedNumBranchesDelta)
2067 << " (weighted by PGO count)";
2071 return Changed;
2074 bool ControlHeightReductionLegacyPass::runOnFunction(Function &F) {
2075 BlockFrequencyInfo &BFI =
2076 getAnalysis<BlockFrequencyInfoWrapperPass>().getBFI();
2077 DominatorTree &DT = getAnalysis<DominatorTreeWrapperPass>().getDomTree();
2078 ProfileSummaryInfo &PSI =
2079 getAnalysis<ProfileSummaryInfoWrapperPass>().getPSI();
2080 RegionInfo &RI = getAnalysis<RegionInfoPass>().getRegionInfo();
2081 std::unique_ptr<OptimizationRemarkEmitter> OwnedORE =
2082 std::make_unique<OptimizationRemarkEmitter>(&F);
2083 return CHR(F, BFI, DT, PSI, RI, *OwnedORE.get()).run();
2086 namespace llvm {
2088 ControlHeightReductionPass::ControlHeightReductionPass() {
2089 parseCHRFilterFiles();
2092 PreservedAnalyses ControlHeightReductionPass::run(
2093 Function &F,
2094 FunctionAnalysisManager &FAM) {
2095 auto &BFI = FAM.getResult<BlockFrequencyAnalysis>(F);
2096 auto &DT = FAM.getResult<DominatorTreeAnalysis>(F);
2097 auto &MAMProxy = FAM.getResult<ModuleAnalysisManagerFunctionProxy>(F);
2098 auto &MAM = MAMProxy.getManager();
2099 auto &PSI = *MAM.getCachedResult<ProfileSummaryAnalysis>(*F.getParent());
2100 auto &RI = FAM.getResult<RegionInfoAnalysis>(F);
2101 auto &ORE = FAM.getResult<OptimizationRemarkEmitterAnalysis>(F);
2102 bool Changed = CHR(F, BFI, DT, PSI, RI, ORE).run();
2103 if (!Changed)
2104 return PreservedAnalyses::all();
2105 auto PA = PreservedAnalyses();
2106 PA.preserve<GlobalsAA>();
2107 return PA;
2110 } // namespace llvm