1dd3b6498SWhitney Tsang //===- LoopCacheAnalysis.cpp - Loop Cache Analysis -------------------------==// 2dd3b6498SWhitney Tsang // 3dd3b6498SWhitney Tsang // The LLVM Compiler Infrastructure 4dd3b6498SWhitney Tsang // 5dd3b6498SWhitney Tsang // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 6dd3b6498SWhitney Tsang // See https://llvm.org/LICENSE.txt for license information. 7dd3b6498SWhitney Tsang // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 8dd3b6498SWhitney Tsang // 9dd3b6498SWhitney Tsang //===----------------------------------------------------------------------===// 10dd3b6498SWhitney Tsang /// 11dd3b6498SWhitney Tsang /// \file 12dd3b6498SWhitney Tsang /// This file defines the implementation for the loop cache analysis. 13dd3b6498SWhitney Tsang /// The implementation is largely based on the following paper: 14dd3b6498SWhitney Tsang /// 15dd3b6498SWhitney Tsang /// Compiler Optimizations for Improving Data Locality 16dd3b6498SWhitney Tsang /// By: Steve Carr, Katherine S. McKinley, Chau-Wen Tseng 17dd3b6498SWhitney Tsang /// http://www.cs.utexas.edu/users/mckinley/papers/asplos-1994.pdf 18dd3b6498SWhitney Tsang /// 19dd3b6498SWhitney Tsang /// The general approach taken to estimate the number of cache lines used by the 20dd3b6498SWhitney Tsang /// memory references in an inner loop is: 21dd3b6498SWhitney Tsang /// 1. Partition memory references that exhibit temporal or spacial reuse 22dd3b6498SWhitney Tsang /// into reference groups. 23dd3b6498SWhitney Tsang /// 2. For each loop L in the a loop nest LN: 24dd3b6498SWhitney Tsang /// a. Compute the cost of the reference group 25dd3b6498SWhitney Tsang /// b. Compute the loop cost by summing up the reference groups costs 26dd3b6498SWhitney Tsang //===----------------------------------------------------------------------===// 27dd3b6498SWhitney Tsang 28dd3b6498SWhitney Tsang #include "llvm/Analysis/LoopCacheAnalysis.h" 29dd3b6498SWhitney Tsang #include "llvm/ADT/BreadthFirstIterator.h" 30dd3b6498SWhitney Tsang #include "llvm/ADT/Sequence.h" 31dd3b6498SWhitney Tsang #include "llvm/ADT/SmallVector.h" 32dd3b6498SWhitney Tsang #include "llvm/Support/Debug.h" 33dd3b6498SWhitney Tsang 34dd3b6498SWhitney Tsang using namespace llvm; 35dd3b6498SWhitney Tsang 36dd3b6498SWhitney Tsang #define DEBUG_TYPE "loop-cache-cost" 37dd3b6498SWhitney Tsang 38dd3b6498SWhitney Tsang static cl::opt<unsigned> DefaultTripCount( 39dd3b6498SWhitney Tsang "default-trip-count", cl::init(100), cl::Hidden, 40dd3b6498SWhitney Tsang cl::desc("Use this to specify the default trip count of a loop")); 41dd3b6498SWhitney Tsang 42dd3b6498SWhitney Tsang // In this analysis two array references are considered to exhibit temporal 43dd3b6498SWhitney Tsang // reuse if they access either the same memory location, or a memory location 44dd3b6498SWhitney Tsang // with distance smaller than a configurable threshold. 45dd3b6498SWhitney Tsang static cl::opt<unsigned> TemporalReuseThreshold( 46dd3b6498SWhitney Tsang "temporal-reuse-threshold", cl::init(2), cl::Hidden, 47dd3b6498SWhitney Tsang cl::desc("Use this to specify the max. distance between array elements " 48dd3b6498SWhitney Tsang "accessed in a loop so that the elements are classified to have " 49dd3b6498SWhitney Tsang "temporal reuse")); 50dd3b6498SWhitney Tsang 51dd3b6498SWhitney Tsang /// Retrieve the innermost loop in the given loop nest \p Loops. It returns a 52dd3b6498SWhitney Tsang /// nullptr if any loops in the loop vector supplied has more than one sibling. 53dd3b6498SWhitney Tsang /// The loop vector is expected to contain loops collected in breadth-first 54dd3b6498SWhitney Tsang /// order. 55dd3b6498SWhitney Tsang static Loop *getInnerMostLoop(const LoopVectorTy &Loops) { 56dd3b6498SWhitney Tsang assert(!Loops.empty() && "Expecting a non-empy loop vector"); 57dd3b6498SWhitney Tsang 58dd3b6498SWhitney Tsang Loop *LastLoop = Loops.back(); 59dd3b6498SWhitney Tsang Loop *ParentLoop = LastLoop->getParentLoop(); 60dd3b6498SWhitney Tsang 61dd3b6498SWhitney Tsang if (ParentLoop == nullptr) { 62dd3b6498SWhitney Tsang assert(Loops.size() == 1 && "Expecting a single loop"); 63dd3b6498SWhitney Tsang return LastLoop; 64dd3b6498SWhitney Tsang } 65dd3b6498SWhitney Tsang 66dd3b6498SWhitney Tsang return (std::is_sorted(Loops.begin(), Loops.end(), 67dd3b6498SWhitney Tsang [](const Loop *L1, const Loop *L2) { 68dd3b6498SWhitney Tsang return L1->getLoopDepth() < L2->getLoopDepth(); 69dd3b6498SWhitney Tsang })) 70dd3b6498SWhitney Tsang ? LastLoop 71dd3b6498SWhitney Tsang : nullptr; 72dd3b6498SWhitney Tsang } 73dd3b6498SWhitney Tsang 74dd3b6498SWhitney Tsang static bool isOneDimensionalArray(const SCEV &AccessFn, const SCEV &ElemSize, 75dd3b6498SWhitney Tsang const Loop &L, ScalarEvolution &SE) { 76dd3b6498SWhitney Tsang const SCEVAddRecExpr *AR = dyn_cast<SCEVAddRecExpr>(&AccessFn); 77dd3b6498SWhitney Tsang if (!AR || !AR->isAffine()) 78dd3b6498SWhitney Tsang return false; 79dd3b6498SWhitney Tsang 80dd3b6498SWhitney Tsang assert(AR->getLoop() && "AR should have a loop"); 81dd3b6498SWhitney Tsang 82dd3b6498SWhitney Tsang // Check that start and increment are not add recurrences. 83dd3b6498SWhitney Tsang const SCEV *Start = AR->getStart(); 84dd3b6498SWhitney Tsang const SCEV *Step = AR->getStepRecurrence(SE); 85dd3b6498SWhitney Tsang if (isa<SCEVAddRecExpr>(Start) || isa<SCEVAddRecExpr>(Step)) 86dd3b6498SWhitney Tsang return false; 87dd3b6498SWhitney Tsang 88dd3b6498SWhitney Tsang // Check that start and increment are both invariant in the loop. 89dd3b6498SWhitney Tsang if (!SE.isLoopInvariant(Start, &L) || !SE.isLoopInvariant(Step, &L)) 90dd3b6498SWhitney Tsang return false; 91dd3b6498SWhitney Tsang 92dd3b6498SWhitney Tsang return AR->getStepRecurrence(SE) == &ElemSize; 93dd3b6498SWhitney Tsang } 94dd3b6498SWhitney Tsang 95dd3b6498SWhitney Tsang /// Compute the trip count for the given loop \p L. Return the SCEV expression 96dd3b6498SWhitney Tsang /// for the trip count or nullptr if it cannot be computed. 97dd3b6498SWhitney Tsang static const SCEV *computeTripCount(const Loop &L, ScalarEvolution &SE) { 98dd3b6498SWhitney Tsang const SCEV *BackedgeTakenCount = SE.getBackedgeTakenCount(&L); 99dd3b6498SWhitney Tsang if (isa<SCEVCouldNotCompute>(BackedgeTakenCount) || 100dd3b6498SWhitney Tsang !isa<SCEVConstant>(BackedgeTakenCount)) 101dd3b6498SWhitney Tsang return nullptr; 102dd3b6498SWhitney Tsang 103dd3b6498SWhitney Tsang return SE.getAddExpr(BackedgeTakenCount, 104dd3b6498SWhitney Tsang SE.getOne(BackedgeTakenCount->getType())); 105dd3b6498SWhitney Tsang } 106dd3b6498SWhitney Tsang 107dd3b6498SWhitney Tsang //===----------------------------------------------------------------------===// 108dd3b6498SWhitney Tsang // IndexedReference implementation 109dd3b6498SWhitney Tsang // 110dd3b6498SWhitney Tsang raw_ostream &llvm::operator<<(raw_ostream &OS, const IndexedReference &R) { 111dd3b6498SWhitney Tsang if (!R.IsValid) { 112dd3b6498SWhitney Tsang OS << R.StoreOrLoadInst; 113dd3b6498SWhitney Tsang OS << ", IsValid=false."; 114dd3b6498SWhitney Tsang return OS; 115dd3b6498SWhitney Tsang } 116dd3b6498SWhitney Tsang 117dd3b6498SWhitney Tsang OS << *R.BasePointer; 118dd3b6498SWhitney Tsang for (const SCEV *Subscript : R.Subscripts) 119dd3b6498SWhitney Tsang OS << "[" << *Subscript << "]"; 120dd3b6498SWhitney Tsang 121dd3b6498SWhitney Tsang OS << ", Sizes: "; 122dd3b6498SWhitney Tsang for (const SCEV *Size : R.Sizes) 123dd3b6498SWhitney Tsang OS << "[" << *Size << "]"; 124dd3b6498SWhitney Tsang 125dd3b6498SWhitney Tsang return OS; 126dd3b6498SWhitney Tsang } 127dd3b6498SWhitney Tsang 128dd3b6498SWhitney Tsang IndexedReference::IndexedReference(Instruction &StoreOrLoadInst, 129dd3b6498SWhitney Tsang const LoopInfo &LI, ScalarEvolution &SE) 130dd3b6498SWhitney Tsang : StoreOrLoadInst(StoreOrLoadInst), SE(SE) { 131dd3b6498SWhitney Tsang assert((isa<StoreInst>(StoreOrLoadInst) || isa<LoadInst>(StoreOrLoadInst)) && 132dd3b6498SWhitney Tsang "Expecting a load or store instruction"); 133dd3b6498SWhitney Tsang 134dd3b6498SWhitney Tsang IsValid = delinearize(LI); 135dd3b6498SWhitney Tsang if (IsValid) 136dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) << "Succesfully delinearized: " << *this 137dd3b6498SWhitney Tsang << "\n"); 138dd3b6498SWhitney Tsang } 139dd3b6498SWhitney Tsang 140dd3b6498SWhitney Tsang Optional<bool> IndexedReference::hasSpacialReuse(const IndexedReference &Other, 141dd3b6498SWhitney Tsang unsigned CLS, 142dd3b6498SWhitney Tsang AliasAnalysis &AA) const { 143dd3b6498SWhitney Tsang assert(IsValid && "Expecting a valid reference"); 144dd3b6498SWhitney Tsang 145dd3b6498SWhitney Tsang if (BasePointer != Other.getBasePointer() && !isAliased(Other, AA)) { 146dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) 147dd3b6498SWhitney Tsang << "No spacial reuse: different base pointers\n"); 148dd3b6498SWhitney Tsang return false; 149dd3b6498SWhitney Tsang } 150dd3b6498SWhitney Tsang 151dd3b6498SWhitney Tsang unsigned NumSubscripts = getNumSubscripts(); 152dd3b6498SWhitney Tsang if (NumSubscripts != Other.getNumSubscripts()) { 153dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) 154dd3b6498SWhitney Tsang << "No spacial reuse: different number of subscripts\n"); 155dd3b6498SWhitney Tsang return false; 156dd3b6498SWhitney Tsang } 157dd3b6498SWhitney Tsang 158dd3b6498SWhitney Tsang // all subscripts must be equal, except the leftmost one (the last one). 159dd3b6498SWhitney Tsang for (auto SubNum : seq<unsigned>(0, NumSubscripts - 1)) { 160dd3b6498SWhitney Tsang if (getSubscript(SubNum) != Other.getSubscript(SubNum)) { 161dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) << "No spacial reuse, different subscripts: " 162dd3b6498SWhitney Tsang << "\n\t" << *getSubscript(SubNum) << "\n\t" 163dd3b6498SWhitney Tsang << *Other.getSubscript(SubNum) << "\n"); 164dd3b6498SWhitney Tsang return false; 165dd3b6498SWhitney Tsang } 166dd3b6498SWhitney Tsang } 167dd3b6498SWhitney Tsang 168dd3b6498SWhitney Tsang // the difference between the last subscripts must be less than the cache line 169dd3b6498SWhitney Tsang // size. 170dd3b6498SWhitney Tsang const SCEV *LastSubscript = getLastSubscript(); 171dd3b6498SWhitney Tsang const SCEV *OtherLastSubscript = Other.getLastSubscript(); 172dd3b6498SWhitney Tsang const SCEVConstant *Diff = dyn_cast<SCEVConstant>( 173dd3b6498SWhitney Tsang SE.getMinusSCEV(LastSubscript, OtherLastSubscript)); 174dd3b6498SWhitney Tsang 175dd3b6498SWhitney Tsang if (Diff == nullptr) { 176dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) 177dd3b6498SWhitney Tsang << "No spacial reuse, difference between subscript:\n\t" 178dd3b6498SWhitney Tsang << *LastSubscript << "\n\t" << OtherLastSubscript 179dd3b6498SWhitney Tsang << "\nis not constant.\n"); 180dd3b6498SWhitney Tsang return None; 181dd3b6498SWhitney Tsang } 182dd3b6498SWhitney Tsang 183dd3b6498SWhitney Tsang bool InSameCacheLine = (Diff->getValue()->getSExtValue() < CLS); 184dd3b6498SWhitney Tsang 185dd3b6498SWhitney Tsang LLVM_DEBUG({ 186dd3b6498SWhitney Tsang if (InSameCacheLine) 187dd3b6498SWhitney Tsang dbgs().indent(2) << "Found spacial reuse.\n"; 188dd3b6498SWhitney Tsang else 189dd3b6498SWhitney Tsang dbgs().indent(2) << "No spacial reuse.\n"; 190dd3b6498SWhitney Tsang }); 191dd3b6498SWhitney Tsang 192dd3b6498SWhitney Tsang return InSameCacheLine; 193dd3b6498SWhitney Tsang } 194dd3b6498SWhitney Tsang 195dd3b6498SWhitney Tsang Optional<bool> IndexedReference::hasTemporalReuse(const IndexedReference &Other, 196dd3b6498SWhitney Tsang unsigned MaxDistance, 197dd3b6498SWhitney Tsang const Loop &L, 198dd3b6498SWhitney Tsang DependenceInfo &DI, 199dd3b6498SWhitney Tsang AliasAnalysis &AA) const { 200dd3b6498SWhitney Tsang assert(IsValid && "Expecting a valid reference"); 201dd3b6498SWhitney Tsang 202dd3b6498SWhitney Tsang if (BasePointer != Other.getBasePointer() && !isAliased(Other, AA)) { 203dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) 204dd3b6498SWhitney Tsang << "No temporal reuse: different base pointer\n"); 205dd3b6498SWhitney Tsang return false; 206dd3b6498SWhitney Tsang } 207dd3b6498SWhitney Tsang 208dd3b6498SWhitney Tsang std::unique_ptr<Dependence> D = 209dd3b6498SWhitney Tsang DI.depends(&StoreOrLoadInst, &Other.StoreOrLoadInst, true); 210dd3b6498SWhitney Tsang 211dd3b6498SWhitney Tsang if (D == nullptr) { 212dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) << "No temporal reuse: no dependence\n"); 213dd3b6498SWhitney Tsang return false; 214dd3b6498SWhitney Tsang } 215dd3b6498SWhitney Tsang 216dd3b6498SWhitney Tsang if (D->isLoopIndependent()) { 217dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) << "Found temporal reuse\n"); 218dd3b6498SWhitney Tsang return true; 219dd3b6498SWhitney Tsang } 220dd3b6498SWhitney Tsang 221dd3b6498SWhitney Tsang // Check the dependence distance at every loop level. There is temporal reuse 222dd3b6498SWhitney Tsang // if the distance at the given loop's depth is small (|d| <= MaxDistance) and 223dd3b6498SWhitney Tsang // it is zero at every other loop level. 224dd3b6498SWhitney Tsang int LoopDepth = L.getLoopDepth(); 225dd3b6498SWhitney Tsang int Levels = D->getLevels(); 226dd3b6498SWhitney Tsang for (int Level = 1; Level <= Levels; ++Level) { 227dd3b6498SWhitney Tsang const SCEV *Distance = D->getDistance(Level); 228dd3b6498SWhitney Tsang const SCEVConstant *SCEVConst = dyn_cast_or_null<SCEVConstant>(Distance); 229dd3b6498SWhitney Tsang 230dd3b6498SWhitney Tsang if (SCEVConst == nullptr) { 231dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) << "No temporal reuse: distance unknown\n"); 232dd3b6498SWhitney Tsang return None; 233dd3b6498SWhitney Tsang } 234dd3b6498SWhitney Tsang 235dd3b6498SWhitney Tsang const ConstantInt &CI = *SCEVConst->getValue(); 236dd3b6498SWhitney Tsang if (Level != LoopDepth && !CI.isZero()) { 237dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) 238dd3b6498SWhitney Tsang << "No temporal reuse: distance is not zero at depth=" << Level 239dd3b6498SWhitney Tsang << "\n"); 240dd3b6498SWhitney Tsang return false; 241dd3b6498SWhitney Tsang } else if (Level == LoopDepth && CI.getSExtValue() > MaxDistance) { 242dd3b6498SWhitney Tsang LLVM_DEBUG( 243dd3b6498SWhitney Tsang dbgs().indent(2) 244dd3b6498SWhitney Tsang << "No temporal reuse: distance is greater than MaxDistance at depth=" 245dd3b6498SWhitney Tsang << Level << "\n"); 246dd3b6498SWhitney Tsang return false; 247dd3b6498SWhitney Tsang } 248dd3b6498SWhitney Tsang } 249dd3b6498SWhitney Tsang 250dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) << "Found temporal reuse\n"); 251dd3b6498SWhitney Tsang return true; 252dd3b6498SWhitney Tsang } 253dd3b6498SWhitney Tsang 254dd3b6498SWhitney Tsang CacheCostTy IndexedReference::computeRefCost(const Loop &L, 255dd3b6498SWhitney Tsang unsigned CLS) const { 256dd3b6498SWhitney Tsang assert(IsValid && "Expecting a valid reference"); 257dd3b6498SWhitney Tsang LLVM_DEBUG({ 258dd3b6498SWhitney Tsang dbgs().indent(2) << "Computing cache cost for:\n"; 259dd3b6498SWhitney Tsang dbgs().indent(4) << *this << "\n"; 260dd3b6498SWhitney Tsang }); 261dd3b6498SWhitney Tsang 262dd3b6498SWhitney Tsang // If the indexed reference is loop invariant the cost is one. 263dd3b6498SWhitney Tsang if (isLoopInvariant(L)) { 264dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(4) << "Reference is loop invariant: RefCost=1\n"); 265dd3b6498SWhitney Tsang return 1; 266dd3b6498SWhitney Tsang } 267dd3b6498SWhitney Tsang 268dd3b6498SWhitney Tsang const SCEV *TripCount = computeTripCount(L, SE); 269dd3b6498SWhitney Tsang if (!TripCount) { 270dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs() << "Trip count of loop " << L.getName() 271dd3b6498SWhitney Tsang << " could not be computed, using DefaultTripCount\n"); 272dd3b6498SWhitney Tsang const SCEV *ElemSize = Sizes.back(); 273dd3b6498SWhitney Tsang TripCount = SE.getConstant(ElemSize->getType(), DefaultTripCount); 274dd3b6498SWhitney Tsang } 275dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs() << "TripCount=" << *TripCount << "\n"); 276dd3b6498SWhitney Tsang 277dd3b6498SWhitney Tsang // If the indexed reference is 'consecutive' the cost is 278dd3b6498SWhitney Tsang // (TripCount*Stride)/CLS, otherwise the cost is TripCount. 279dd3b6498SWhitney Tsang const SCEV *RefCost = TripCount; 280dd3b6498SWhitney Tsang 281dd3b6498SWhitney Tsang if (isConsecutive(L, CLS)) { 282dd3b6498SWhitney Tsang const SCEV *Coeff = getLastCoefficient(); 283dd3b6498SWhitney Tsang const SCEV *ElemSize = Sizes.back(); 284dd3b6498SWhitney Tsang const SCEV *Stride = SE.getMulExpr(Coeff, ElemSize); 285dd3b6498SWhitney Tsang const SCEV *CacheLineSize = SE.getConstant(Stride->getType(), CLS); 286dd3b6498SWhitney Tsang const SCEV *Numerator = SE.getMulExpr(Stride, TripCount); 287dd3b6498SWhitney Tsang RefCost = SE.getUDivExpr(Numerator, CacheLineSize); 288dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(4) 289dd3b6498SWhitney Tsang << "Access is consecutive: RefCost=(TripCount*Stride)/CLS=" 290dd3b6498SWhitney Tsang << *RefCost << "\n"); 291dd3b6498SWhitney Tsang } else 292dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(4) 293dd3b6498SWhitney Tsang << "Access is not consecutive: RefCost=TripCount=" << *RefCost 294dd3b6498SWhitney Tsang << "\n"); 295dd3b6498SWhitney Tsang 296dd3b6498SWhitney Tsang // Attempt to fold RefCost into a constant. 297dd3b6498SWhitney Tsang if (auto ConstantCost = dyn_cast<SCEVConstant>(RefCost)) 298dd3b6498SWhitney Tsang return ConstantCost->getValue()->getSExtValue(); 299dd3b6498SWhitney Tsang 300dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(4) 301dd3b6498SWhitney Tsang << "RefCost is not a constant! Setting to RefCost=InvalidCost " 302dd3b6498SWhitney Tsang "(invalid value).\n"); 303dd3b6498SWhitney Tsang 304dd3b6498SWhitney Tsang return CacheCost::InvalidCost; 305dd3b6498SWhitney Tsang } 306dd3b6498SWhitney Tsang 307dd3b6498SWhitney Tsang bool IndexedReference::delinearize(const LoopInfo &LI) { 308dd3b6498SWhitney Tsang assert(Subscripts.empty() && "Subscripts should be empty"); 309dd3b6498SWhitney Tsang assert(Sizes.empty() && "Sizes should be empty"); 310dd3b6498SWhitney Tsang assert(!IsValid && "Should be called once from the constructor"); 311dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs() << "Delinearizing: " << StoreOrLoadInst << "\n"); 312dd3b6498SWhitney Tsang 313dd3b6498SWhitney Tsang const SCEV *ElemSize = SE.getElementSize(&StoreOrLoadInst); 314dd3b6498SWhitney Tsang const BasicBlock *BB = StoreOrLoadInst.getParent(); 315dd3b6498SWhitney Tsang 316dd3b6498SWhitney Tsang for (Loop *L = LI.getLoopFor(BB); L != nullptr; L = L->getParentLoop()) { 317dd3b6498SWhitney Tsang const SCEV *AccessFn = 318dd3b6498SWhitney Tsang SE.getSCEVAtScope(getPointerOperand(&StoreOrLoadInst), L); 319dd3b6498SWhitney Tsang 320dd3b6498SWhitney Tsang BasePointer = dyn_cast<SCEVUnknown>(SE.getPointerBase(AccessFn)); 321dd3b6498SWhitney Tsang if (BasePointer == nullptr) { 322dd3b6498SWhitney Tsang LLVM_DEBUG( 323dd3b6498SWhitney Tsang dbgs().indent(2) 324dd3b6498SWhitney Tsang << "ERROR: failed to delinearize, can't identify base pointer\n"); 325dd3b6498SWhitney Tsang return false; 326dd3b6498SWhitney Tsang } 327dd3b6498SWhitney Tsang 328dd3b6498SWhitney Tsang AccessFn = SE.getMinusSCEV(AccessFn, BasePointer); 329dd3b6498SWhitney Tsang 330dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) << "In Loop '" << L->getName() 331dd3b6498SWhitney Tsang << "', AccessFn: " << *AccessFn << "\n"); 332dd3b6498SWhitney Tsang 333dd3b6498SWhitney Tsang SE.delinearize(AccessFn, Subscripts, Sizes, 334dd3b6498SWhitney Tsang SE.getElementSize(&StoreOrLoadInst)); 335dd3b6498SWhitney Tsang 336dd3b6498SWhitney Tsang if (Subscripts.empty() || Sizes.empty() || 337dd3b6498SWhitney Tsang Subscripts.size() != Sizes.size()) { 338dd3b6498SWhitney Tsang // Attempt to determine whether we have a single dimensional array access. 339dd3b6498SWhitney Tsang // before giving up. 340dd3b6498SWhitney Tsang if (!isOneDimensionalArray(*AccessFn, *ElemSize, *L, SE)) { 341dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) 342dd3b6498SWhitney Tsang << "ERROR: failed to delinearize reference\n"); 343dd3b6498SWhitney Tsang Subscripts.clear(); 344dd3b6498SWhitney Tsang Sizes.clear(); 345dd3b6498SWhitney Tsang break; 346dd3b6498SWhitney Tsang } 347dd3b6498SWhitney Tsang 348dd3b6498SWhitney Tsang const SCEV *Div = SE.getUDivExactExpr(AccessFn, ElemSize); 349dd3b6498SWhitney Tsang Subscripts.push_back(Div); 350dd3b6498SWhitney Tsang Sizes.push_back(ElemSize); 351dd3b6498SWhitney Tsang } 352dd3b6498SWhitney Tsang 353dd3b6498SWhitney Tsang return all_of(Subscripts, [&](const SCEV *Subscript) { 354dd3b6498SWhitney Tsang return isSimpleAddRecurrence(*Subscript, *L); 355dd3b6498SWhitney Tsang }); 356dd3b6498SWhitney Tsang } 357dd3b6498SWhitney Tsang 358dd3b6498SWhitney Tsang return false; 359dd3b6498SWhitney Tsang } 360dd3b6498SWhitney Tsang 361dd3b6498SWhitney Tsang bool IndexedReference::isLoopInvariant(const Loop &L) const { 362dd3b6498SWhitney Tsang Value *Addr = getPointerOperand(&StoreOrLoadInst); 363dd3b6498SWhitney Tsang assert(Addr != nullptr && "Expecting either a load or a store instruction"); 364dd3b6498SWhitney Tsang assert(SE.isSCEVable(Addr->getType()) && "Addr should be SCEVable"); 365dd3b6498SWhitney Tsang 366dd3b6498SWhitney Tsang if (SE.isLoopInvariant(SE.getSCEV(Addr), &L)) 367dd3b6498SWhitney Tsang return true; 368dd3b6498SWhitney Tsang 369dd3b6498SWhitney Tsang // The indexed reference is loop invariant if none of the coefficients use 370dd3b6498SWhitney Tsang // the loop induction variable. 371dd3b6498SWhitney Tsang bool allCoeffForLoopAreZero = all_of(Subscripts, [&](const SCEV *Subscript) { 372dd3b6498SWhitney Tsang return isCoeffForLoopZeroOrInvariant(*Subscript, L); 373dd3b6498SWhitney Tsang }); 374dd3b6498SWhitney Tsang 375dd3b6498SWhitney Tsang return allCoeffForLoopAreZero; 376dd3b6498SWhitney Tsang } 377dd3b6498SWhitney Tsang 378dd3b6498SWhitney Tsang bool IndexedReference::isConsecutive(const Loop &L, unsigned CLS) const { 379dd3b6498SWhitney Tsang // The indexed reference is 'consecutive' if the only coefficient that uses 380dd3b6498SWhitney Tsang // the loop induction variable is the last one... 381dd3b6498SWhitney Tsang const SCEV *LastSubscript = Subscripts.back(); 382dd3b6498SWhitney Tsang for (const SCEV *Subscript : Subscripts) { 383dd3b6498SWhitney Tsang if (Subscript == LastSubscript) 384dd3b6498SWhitney Tsang continue; 385dd3b6498SWhitney Tsang if (!isCoeffForLoopZeroOrInvariant(*Subscript, L)) 386dd3b6498SWhitney Tsang return false; 387dd3b6498SWhitney Tsang } 388dd3b6498SWhitney Tsang 389dd3b6498SWhitney Tsang // ...and the access stride is less than the cache line size. 390dd3b6498SWhitney Tsang const SCEV *Coeff = getLastCoefficient(); 391dd3b6498SWhitney Tsang const SCEV *ElemSize = Sizes.back(); 392dd3b6498SWhitney Tsang const SCEV *Stride = SE.getMulExpr(Coeff, ElemSize); 393dd3b6498SWhitney Tsang const SCEV *CacheLineSize = SE.getConstant(Stride->getType(), CLS); 394dd3b6498SWhitney Tsang 395dd3b6498SWhitney Tsang return SE.isKnownPredicate(ICmpInst::ICMP_ULT, Stride, CacheLineSize); 396dd3b6498SWhitney Tsang } 397dd3b6498SWhitney Tsang 398dd3b6498SWhitney Tsang const SCEV *IndexedReference::getLastCoefficient() const { 399dd3b6498SWhitney Tsang const SCEV *LastSubscript = getLastSubscript(); 400dd3b6498SWhitney Tsang assert(isa<SCEVAddRecExpr>(LastSubscript) && 401dd3b6498SWhitney Tsang "Expecting a SCEV add recurrence expression"); 402dd3b6498SWhitney Tsang const SCEVAddRecExpr *AR = dyn_cast<SCEVAddRecExpr>(LastSubscript); 403dd3b6498SWhitney Tsang return AR->getStepRecurrence(SE); 404dd3b6498SWhitney Tsang } 405dd3b6498SWhitney Tsang 406dd3b6498SWhitney Tsang bool IndexedReference::isCoeffForLoopZeroOrInvariant(const SCEV &Subscript, 407dd3b6498SWhitney Tsang const Loop &L) const { 408dd3b6498SWhitney Tsang const SCEVAddRecExpr *AR = dyn_cast<SCEVAddRecExpr>(&Subscript); 409dd3b6498SWhitney Tsang return (AR != nullptr) ? AR->getLoop() != &L 410dd3b6498SWhitney Tsang : SE.isLoopInvariant(&Subscript, &L); 411dd3b6498SWhitney Tsang } 412dd3b6498SWhitney Tsang 413dd3b6498SWhitney Tsang bool IndexedReference::isSimpleAddRecurrence(const SCEV &Subscript, 414dd3b6498SWhitney Tsang const Loop &L) const { 415dd3b6498SWhitney Tsang if (!isa<SCEVAddRecExpr>(Subscript)) 416dd3b6498SWhitney Tsang return false; 417dd3b6498SWhitney Tsang 418dd3b6498SWhitney Tsang const SCEVAddRecExpr *AR = cast<SCEVAddRecExpr>(&Subscript); 419dd3b6498SWhitney Tsang assert(AR->getLoop() && "AR should have a loop"); 420dd3b6498SWhitney Tsang 421dd3b6498SWhitney Tsang if (!AR->isAffine()) 422dd3b6498SWhitney Tsang return false; 423dd3b6498SWhitney Tsang 424dd3b6498SWhitney Tsang const SCEV *Start = AR->getStart(); 425dd3b6498SWhitney Tsang const SCEV *Step = AR->getStepRecurrence(SE); 426dd3b6498SWhitney Tsang 427dd3b6498SWhitney Tsang if (!SE.isLoopInvariant(Start, &L) || !SE.isLoopInvariant(Step, &L)) 428dd3b6498SWhitney Tsang return false; 429dd3b6498SWhitney Tsang 430dd3b6498SWhitney Tsang return true; 431dd3b6498SWhitney Tsang } 432dd3b6498SWhitney Tsang 433dd3b6498SWhitney Tsang bool IndexedReference::isAliased(const IndexedReference &Other, 434dd3b6498SWhitney Tsang AliasAnalysis &AA) const { 435dd3b6498SWhitney Tsang const auto &Loc1 = MemoryLocation::get(&StoreOrLoadInst); 436dd3b6498SWhitney Tsang const auto &Loc2 = MemoryLocation::get(&Other.StoreOrLoadInst); 437dd3b6498SWhitney Tsang return AA.isMustAlias(Loc1, Loc2); 438dd3b6498SWhitney Tsang } 439dd3b6498SWhitney Tsang 440dd3b6498SWhitney Tsang //===----------------------------------------------------------------------===// 441dd3b6498SWhitney Tsang // CacheCost implementation 442dd3b6498SWhitney Tsang // 443dd3b6498SWhitney Tsang raw_ostream &llvm::operator<<(raw_ostream &OS, const CacheCost &CC) { 444dd3b6498SWhitney Tsang for (const auto &LC : CC.LoopCosts) { 445dd3b6498SWhitney Tsang const Loop *L = LC.first; 446dd3b6498SWhitney Tsang OS << "Loop '" << L->getName() << "' has cost = " << LC.second << "\n"; 447dd3b6498SWhitney Tsang } 448dd3b6498SWhitney Tsang return OS; 449dd3b6498SWhitney Tsang } 450dd3b6498SWhitney Tsang 451dd3b6498SWhitney Tsang CacheCost::CacheCost(const LoopVectorTy &Loops, const LoopInfo &LI, 452dd3b6498SWhitney Tsang ScalarEvolution &SE, TargetTransformInfo &TTI, 453dd3b6498SWhitney Tsang AliasAnalysis &AA, DependenceInfo &DI, 454dd3b6498SWhitney Tsang Optional<unsigned> TRT) 455dd3b6498SWhitney Tsang : Loops(Loops), TripCounts(), LoopCosts(), 456dd3b6498SWhitney Tsang TRT(TRT == None ? Optional<unsigned>(TemporalReuseThreshold) : TRT), 457dd3b6498SWhitney Tsang LI(LI), SE(SE), TTI(TTI), AA(AA), DI(DI) { 458dd3b6498SWhitney Tsang assert(!Loops.empty() && "Expecting a non-empty loop vector."); 459dd3b6498SWhitney Tsang 460dd3b6498SWhitney Tsang for (const Loop *L : Loops) { 461dd3b6498SWhitney Tsang unsigned TripCount = SE.getSmallConstantTripCount(L); 462dd3b6498SWhitney Tsang TripCount = (TripCount == 0) ? DefaultTripCount : TripCount; 463dd3b6498SWhitney Tsang TripCounts.push_back({L, TripCount}); 464dd3b6498SWhitney Tsang } 465dd3b6498SWhitney Tsang 466dd3b6498SWhitney Tsang calculateCacheFootprint(); 467dd3b6498SWhitney Tsang } 468dd3b6498SWhitney Tsang 469dd3b6498SWhitney Tsang std::unique_ptr<CacheCost> 470dd3b6498SWhitney Tsang CacheCost::getCacheCost(Loop &Root, LoopStandardAnalysisResults &AR, 471dd3b6498SWhitney Tsang DependenceInfo &DI, Optional<unsigned> TRT) { 472dd3b6498SWhitney Tsang if (Root.getParentLoop()) { 473dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs() << "Expecting the outermost loop in a loop nest\n"); 474dd3b6498SWhitney Tsang return nullptr; 475dd3b6498SWhitney Tsang } 476dd3b6498SWhitney Tsang 477dd3b6498SWhitney Tsang LoopVectorTy Loops; 478dd3b6498SWhitney Tsang for (Loop *L : breadth_first(&Root)) 479dd3b6498SWhitney Tsang Loops.push_back(L); 480dd3b6498SWhitney Tsang 481dd3b6498SWhitney Tsang if (!getInnerMostLoop(Loops)) { 482dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs() << "Cannot compute cache cost of loop nest with more " 483dd3b6498SWhitney Tsang "than one innermost loop\n"); 484dd3b6498SWhitney Tsang return nullptr; 485dd3b6498SWhitney Tsang } 486dd3b6498SWhitney Tsang 487*0eaee545SJonas Devlieghere return std::make_unique<CacheCost>(Loops, AR.LI, AR.SE, AR.TTI, AR.AA, DI, TRT); 488dd3b6498SWhitney Tsang } 489dd3b6498SWhitney Tsang 490dd3b6498SWhitney Tsang void CacheCost::calculateCacheFootprint() { 491dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs() << "POPULATING REFERENCE GROUPS\n"); 492dd3b6498SWhitney Tsang ReferenceGroupsTy RefGroups; 493dd3b6498SWhitney Tsang if (!populateReferenceGroups(RefGroups)) 494dd3b6498SWhitney Tsang return; 495dd3b6498SWhitney Tsang 496dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs() << "COMPUTING LOOP CACHE COSTS\n"); 497dd3b6498SWhitney Tsang for (const Loop *L : Loops) { 498dd3b6498SWhitney Tsang assert((std::find_if(LoopCosts.begin(), LoopCosts.end(), 499dd3b6498SWhitney Tsang [L](const LoopCacheCostTy &LCC) { 500dd3b6498SWhitney Tsang return LCC.first == L; 501dd3b6498SWhitney Tsang }) == LoopCosts.end()) && 502dd3b6498SWhitney Tsang "Should not add duplicate element"); 503dd3b6498SWhitney Tsang CacheCostTy LoopCost = computeLoopCacheCost(*L, RefGroups); 504dd3b6498SWhitney Tsang LoopCosts.push_back(std::make_pair(L, LoopCost)); 505dd3b6498SWhitney Tsang } 506dd3b6498SWhitney Tsang 507dd3b6498SWhitney Tsang sortLoopCosts(); 508dd3b6498SWhitney Tsang RefGroups.clear(); 509dd3b6498SWhitney Tsang } 510dd3b6498SWhitney Tsang 511dd3b6498SWhitney Tsang bool CacheCost::populateReferenceGroups(ReferenceGroupsTy &RefGroups) const { 512dd3b6498SWhitney Tsang assert(RefGroups.empty() && "Reference groups should be empty"); 513dd3b6498SWhitney Tsang 514dd3b6498SWhitney Tsang unsigned CLS = TTI.getCacheLineSize(); 515dd3b6498SWhitney Tsang Loop *InnerMostLoop = getInnerMostLoop(Loops); 516dd3b6498SWhitney Tsang assert(InnerMostLoop != nullptr && "Expecting a valid innermost loop"); 517dd3b6498SWhitney Tsang 518dd3b6498SWhitney Tsang for (BasicBlock *BB : InnerMostLoop->getBlocks()) { 519dd3b6498SWhitney Tsang for (Instruction &I : *BB) { 520dd3b6498SWhitney Tsang if (!isa<StoreInst>(I) && !isa<LoadInst>(I)) 521dd3b6498SWhitney Tsang continue; 522dd3b6498SWhitney Tsang 523dd3b6498SWhitney Tsang std::unique_ptr<IndexedReference> R(new IndexedReference(I, LI, SE)); 524dd3b6498SWhitney Tsang if (!R->isValid()) 525dd3b6498SWhitney Tsang continue; 526dd3b6498SWhitney Tsang 527dd3b6498SWhitney Tsang bool Added = false; 528dd3b6498SWhitney Tsang for (ReferenceGroupTy &RefGroup : RefGroups) { 529dd3b6498SWhitney Tsang const IndexedReference &Representative = *RefGroup.front().get(); 530dd3b6498SWhitney Tsang LLVM_DEBUG({ 531dd3b6498SWhitney Tsang dbgs() << "References:\n"; 532dd3b6498SWhitney Tsang dbgs().indent(2) << *R << "\n"; 533dd3b6498SWhitney Tsang dbgs().indent(2) << Representative << "\n"; 534dd3b6498SWhitney Tsang }); 535dd3b6498SWhitney Tsang 536dd3b6498SWhitney Tsang Optional<bool> HasTemporalReuse = 537dd3b6498SWhitney Tsang R->hasTemporalReuse(Representative, *TRT, *InnerMostLoop, DI, AA); 538dd3b6498SWhitney Tsang Optional<bool> HasSpacialReuse = 539dd3b6498SWhitney Tsang R->hasSpacialReuse(Representative, CLS, AA); 540dd3b6498SWhitney Tsang 541dd3b6498SWhitney Tsang if ((HasTemporalReuse.hasValue() && *HasTemporalReuse) || 542dd3b6498SWhitney Tsang (HasSpacialReuse.hasValue() && *HasSpacialReuse)) { 543dd3b6498SWhitney Tsang RefGroup.push_back(std::move(R)); 544dd3b6498SWhitney Tsang Added = true; 545dd3b6498SWhitney Tsang break; 546dd3b6498SWhitney Tsang } 547dd3b6498SWhitney Tsang } 548dd3b6498SWhitney Tsang 549dd3b6498SWhitney Tsang if (!Added) { 550dd3b6498SWhitney Tsang ReferenceGroupTy RG; 551dd3b6498SWhitney Tsang RG.push_back(std::move(R)); 552dd3b6498SWhitney Tsang RefGroups.push_back(std::move(RG)); 553dd3b6498SWhitney Tsang } 554dd3b6498SWhitney Tsang } 555dd3b6498SWhitney Tsang } 556dd3b6498SWhitney Tsang 557dd3b6498SWhitney Tsang if (RefGroups.empty()) 558dd3b6498SWhitney Tsang return false; 559dd3b6498SWhitney Tsang 560dd3b6498SWhitney Tsang LLVM_DEBUG({ 561dd3b6498SWhitney Tsang dbgs() << "\nIDENTIFIED REFERENCE GROUPS:\n"; 562dd3b6498SWhitney Tsang int n = 1; 563dd3b6498SWhitney Tsang for (const ReferenceGroupTy &RG : RefGroups) { 564dd3b6498SWhitney Tsang dbgs().indent(2) << "RefGroup " << n << ":\n"; 565dd3b6498SWhitney Tsang for (const auto &IR : RG) 566dd3b6498SWhitney Tsang dbgs().indent(4) << *IR << "\n"; 567dd3b6498SWhitney Tsang n++; 568dd3b6498SWhitney Tsang } 569dd3b6498SWhitney Tsang dbgs() << "\n"; 570dd3b6498SWhitney Tsang }); 571dd3b6498SWhitney Tsang 572dd3b6498SWhitney Tsang return true; 573dd3b6498SWhitney Tsang } 574dd3b6498SWhitney Tsang 575dd3b6498SWhitney Tsang CacheCostTy 576dd3b6498SWhitney Tsang CacheCost::computeLoopCacheCost(const Loop &L, 577dd3b6498SWhitney Tsang const ReferenceGroupsTy &RefGroups) const { 578dd3b6498SWhitney Tsang if (!L.isLoopSimplifyForm()) 579dd3b6498SWhitney Tsang return InvalidCost; 580dd3b6498SWhitney Tsang 581dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs() << "Considering loop '" << L.getName() 582dd3b6498SWhitney Tsang << "' as innermost loop.\n"); 583dd3b6498SWhitney Tsang 584dd3b6498SWhitney Tsang // Compute the product of the trip counts of each other loop in the nest. 585dd3b6498SWhitney Tsang CacheCostTy TripCountsProduct = 1; 586dd3b6498SWhitney Tsang for (const auto &TC : TripCounts) { 587dd3b6498SWhitney Tsang if (TC.first == &L) 588dd3b6498SWhitney Tsang continue; 589dd3b6498SWhitney Tsang TripCountsProduct *= TC.second; 590dd3b6498SWhitney Tsang } 591dd3b6498SWhitney Tsang 592dd3b6498SWhitney Tsang CacheCostTy LoopCost = 0; 593dd3b6498SWhitney Tsang for (const ReferenceGroupTy &RG : RefGroups) { 594dd3b6498SWhitney Tsang CacheCostTy RefGroupCost = computeRefGroupCacheCost(RG, L); 595dd3b6498SWhitney Tsang LoopCost += RefGroupCost * TripCountsProduct; 596dd3b6498SWhitney Tsang } 597dd3b6498SWhitney Tsang 598dd3b6498SWhitney Tsang LLVM_DEBUG(dbgs().indent(2) << "Loop '" << L.getName() 599dd3b6498SWhitney Tsang << "' has cost=" << LoopCost << "\n"); 600dd3b6498SWhitney Tsang 601dd3b6498SWhitney Tsang return LoopCost; 602dd3b6498SWhitney Tsang } 603dd3b6498SWhitney Tsang 604dd3b6498SWhitney Tsang CacheCostTy CacheCost::computeRefGroupCacheCost(const ReferenceGroupTy &RG, 605dd3b6498SWhitney Tsang const Loop &L) const { 606dd3b6498SWhitney Tsang assert(!RG.empty() && "Reference group should have at least one member."); 607dd3b6498SWhitney Tsang 608dd3b6498SWhitney Tsang const IndexedReference *Representative = RG.front().get(); 609dd3b6498SWhitney Tsang return Representative->computeRefCost(L, TTI.getCacheLineSize()); 610dd3b6498SWhitney Tsang } 611dd3b6498SWhitney Tsang 612dd3b6498SWhitney Tsang //===----------------------------------------------------------------------===// 613dd3b6498SWhitney Tsang // LoopCachePrinterPass implementation 614dd3b6498SWhitney Tsang // 615dd3b6498SWhitney Tsang PreservedAnalyses LoopCachePrinterPass::run(Loop &L, LoopAnalysisManager &AM, 616dd3b6498SWhitney Tsang LoopStandardAnalysisResults &AR, 617dd3b6498SWhitney Tsang LPMUpdater &U) { 618dd3b6498SWhitney Tsang Function *F = L.getHeader()->getParent(); 619dd3b6498SWhitney Tsang DependenceInfo DI(F, &AR.AA, &AR.SE, &AR.LI); 620dd3b6498SWhitney Tsang 621dd3b6498SWhitney Tsang if (auto CC = CacheCost::getCacheCost(L, AR, DI)) 622dd3b6498SWhitney Tsang OS << *CC; 623dd3b6498SWhitney Tsang 624dd3b6498SWhitney Tsang return PreservedAnalyses::all(); 625dd3b6498SWhitney Tsang } 626