1e60b36cfSFlorian Hahn //===-- VPlanTransforms.cpp - Utility VPlan to VPlan transforms -----------===// 2e60b36cfSFlorian Hahn // 3e60b36cfSFlorian Hahn // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4e60b36cfSFlorian Hahn // See https://llvm.org/LICENSE.txt for license information. 5e60b36cfSFlorian Hahn // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6e60b36cfSFlorian Hahn // 7e60b36cfSFlorian Hahn //===----------------------------------------------------------------------===// 8e60b36cfSFlorian Hahn /// 9e60b36cfSFlorian Hahn /// \file 10e60b36cfSFlorian Hahn /// This file implements a set of utility VPlan to VPlan transformations. 11e60b36cfSFlorian Hahn /// 12e60b36cfSFlorian Hahn //===----------------------------------------------------------------------===// 13e60b36cfSFlorian Hahn 14e60b36cfSFlorian Hahn #include "VPlanTransforms.h" 15e60b36cfSFlorian Hahn #include "llvm/ADT/PostOrderIterator.h" 161c0fc1f0SFlorian Hahn #include "llvm/ADT/SetVector.h" 17e60b36cfSFlorian Hahn 18e60b36cfSFlorian Hahn using namespace llvm; 19e60b36cfSFlorian Hahn 20e60b36cfSFlorian Hahn void VPlanTransforms::VPInstructionsToVPRecipes( 21e60b36cfSFlorian Hahn Loop *OrigLoop, VPlanPtr &Plan, 22978883d2SFlorian Hahn function_ref<const InductionDescriptor *(PHINode *)> 23978883d2SFlorian Hahn GetIntOrFpInductionDescriptor, 240de8aeaeSMauri Mustonen SmallPtrSetImpl<Instruction *> &DeadInstructions, ScalarEvolution &SE) { 25e60b36cfSFlorian Hahn 26e60b36cfSFlorian Hahn auto *TopRegion = cast<VPRegionBlock>(Plan->getEntry()); 27e60b36cfSFlorian Hahn ReversePostOrderTraversal<VPBlockBase *> RPOT(TopRegion->getEntry()); 28e60b36cfSFlorian Hahn 29e60b36cfSFlorian Hahn for (VPBlockBase *Base : RPOT) { 30e60b36cfSFlorian Hahn // Do not widen instructions in pre-header and exit blocks. 31e60b36cfSFlorian Hahn if (Base->getNumPredecessors() == 0 || Base->getNumSuccessors() == 0) 32e60b36cfSFlorian Hahn continue; 33e60b36cfSFlorian Hahn 34e60b36cfSFlorian Hahn VPBasicBlock *VPBB = Base->getEntryBasicBlock(); 35e60b36cfSFlorian Hahn // Introduce each ingredient into VPlan. 3624c8eaecSKazu Hirata for (VPRecipeBase &Ingredient : llvm::make_early_inc_range(*VPBB)) { 3724c8eaecSKazu Hirata VPValue *VPV = Ingredient.getVPSingleValue(); 3815a74b64SFlorian Hahn Instruction *Inst = cast<Instruction>(VPV->getUnderlyingValue()); 39e60b36cfSFlorian Hahn if (DeadInstructions.count(Inst)) { 4076afbf60SFlorian Hahn VPValue DummyValue; 4115a74b64SFlorian Hahn VPV->replaceAllUsesWith(&DummyValue); 4224c8eaecSKazu Hirata Ingredient.eraseFromParent(); 43e60b36cfSFlorian Hahn continue; 44e60b36cfSFlorian Hahn } 45e60b36cfSFlorian Hahn 46e60b36cfSFlorian Hahn VPRecipeBase *NewRecipe = nullptr; 4724c8eaecSKazu Hirata if (auto *VPPhi = dyn_cast<VPWidenPHIRecipe>(&Ingredient)) { 4815a74b64SFlorian Hahn auto *Phi = cast<PHINode>(VPPhi->getUnderlyingValue()); 49978883d2SFlorian Hahn if (const auto *II = GetIntOrFpInductionDescriptor(Phi)) { 50978883d2SFlorian Hahn VPValue *Start = Plan->getOrAddVPValue(II->getStartValue()); 5195f76bffSFlorian Hahn NewRecipe = new VPWidenIntOrFpInductionRecipe(Phi, Start, *II, false, 5295f76bffSFlorian Hahn true, SE); 5315a74b64SFlorian Hahn } else { 5415a74b64SFlorian Hahn Plan->addVPValue(Phi, VPPhi); 5515a74b64SFlorian Hahn continue; 5615a74b64SFlorian Hahn } 5715a74b64SFlorian Hahn } else { 5824c8eaecSKazu Hirata assert(isa<VPInstruction>(&Ingredient) && 5915a74b64SFlorian Hahn "only VPInstructions expected here"); 6015a74b64SFlorian Hahn assert(!isa<PHINode>(Inst) && "phis should be handled above"); 6115a74b64SFlorian Hahn // Create VPWidenMemoryInstructionRecipe for loads and stores. 6215a74b64SFlorian Hahn if (LoadInst *Load = dyn_cast<LoadInst>(Inst)) { 6315a74b64SFlorian Hahn NewRecipe = new VPWidenMemoryInstructionRecipe( 6415a74b64SFlorian Hahn *Load, Plan->getOrAddVPValue(getLoadStorePointerOperand(Inst)), 651156bd4fSGil Rapaport nullptr /*Mask*/, false /*Consecutive*/, false /*Reverse*/); 6615a74b64SFlorian Hahn } else if (StoreInst *Store = dyn_cast<StoreInst>(Inst)) { 6715a74b64SFlorian Hahn NewRecipe = new VPWidenMemoryInstructionRecipe( 6815a74b64SFlorian Hahn *Store, Plan->getOrAddVPValue(getLoadStorePointerOperand(Inst)), 691156bd4fSGil Rapaport Plan->getOrAddVPValue(Store->getValueOperand()), nullptr /*Mask*/, 701156bd4fSGil Rapaport false /*Consecutive*/, false /*Reverse*/); 71e60b36cfSFlorian Hahn } else if (GetElementPtrInst *GEP = dyn_cast<GetElementPtrInst>(Inst)) { 72c0cdba72SFlorian Hahn NewRecipe = new VPWidenGEPRecipe( 73c0cdba72SFlorian Hahn GEP, Plan->mapToVPValues(GEP->operands()), OrigLoop); 74494b5ba3SMauri Mustonen } else if (CallInst *CI = dyn_cast<CallInst>(Inst)) { 75f631173dSKazu Hirata NewRecipe = 76f631173dSKazu Hirata new VPWidenCallRecipe(*CI, Plan->mapToVPValues(CI->args())); 770de8aeaeSMauri Mustonen } else if (SelectInst *SI = dyn_cast<SelectInst>(Inst)) { 780de8aeaeSMauri Mustonen bool InvariantCond = 790de8aeaeSMauri Mustonen SE.isLoopInvariant(SE.getSCEV(SI->getOperand(0)), OrigLoop); 800de8aeaeSMauri Mustonen NewRecipe = new VPWidenSelectRecipe( 810de8aeaeSMauri Mustonen *SI, Plan->mapToVPValues(SI->operands()), InvariantCond); 8215a74b64SFlorian Hahn } else { 83e8937985SFlorian Hahn NewRecipe = 84e8937985SFlorian Hahn new VPWidenRecipe(*Inst, Plan->mapToVPValues(Inst->operands())); 8515a74b64SFlorian Hahn } 8615a74b64SFlorian Hahn } 87e60b36cfSFlorian Hahn 8824c8eaecSKazu Hirata NewRecipe->insertBefore(&Ingredient); 8976afbf60SFlorian Hahn if (NewRecipe->getNumDefinedValues() == 1) 90a0e1313cSFlorian Hahn VPV->replaceAllUsesWith(NewRecipe->getVPSingleValue()); 9176afbf60SFlorian Hahn else 9276afbf60SFlorian Hahn assert(NewRecipe->getNumDefinedValues() == 0 && 9376afbf60SFlorian Hahn "Only recpies with zero or one defined values expected"); 9424c8eaecSKazu Hirata Ingredient.eraseFromParent(); 9554a14c26SFlorian Hahn Plan->removeVPValueFor(Inst); 9654a14c26SFlorian Hahn for (auto *Def : NewRecipe->definedValues()) { 9754a14c26SFlorian Hahn Plan->addVPValue(Inst, Def); 9854a14c26SFlorian Hahn } 99e60b36cfSFlorian Hahn } 100e60b36cfSFlorian Hahn } 101e60b36cfSFlorian Hahn } 10265d3dd7cSFlorian Hahn 10365d3dd7cSFlorian Hahn bool VPlanTransforms::sinkScalarOperands(VPlan &Plan) { 10465d3dd7cSFlorian Hahn auto Iter = depth_first( 10565d3dd7cSFlorian Hahn VPBlockRecursiveTraversalWrapper<VPBlockBase *>(Plan.getEntry())); 10665d3dd7cSFlorian Hahn bool Changed = false; 10765d3dd7cSFlorian Hahn // First, collect the operands of all predicated replicate recipes as seeds 10865d3dd7cSFlorian Hahn // for sinking. 1097359450eSFlorian Hahn SetVector<std::pair<VPBasicBlock *, VPValue *>> WorkList; 11065d3dd7cSFlorian Hahn for (VPBasicBlock *VPBB : VPBlockUtils::blocksOnly<VPBasicBlock>(Iter)) { 11165d3dd7cSFlorian Hahn for (auto &Recipe : *VPBB) { 11265d3dd7cSFlorian Hahn auto *RepR = dyn_cast<VPReplicateRecipe>(&Recipe); 11365d3dd7cSFlorian Hahn if (!RepR || !RepR->isPredicated()) 11465d3dd7cSFlorian Hahn continue; 1157359450eSFlorian Hahn for (VPValue *Op : RepR->operands()) 1167359450eSFlorian Hahn WorkList.insert(std::make_pair(RepR->getParent(), Op)); 11765d3dd7cSFlorian Hahn } 11865d3dd7cSFlorian Hahn } 11965d3dd7cSFlorian Hahn 12065d3dd7cSFlorian Hahn // Try to sink each replicate recipe in the worklist. 12165d3dd7cSFlorian Hahn while (!WorkList.empty()) { 1227359450eSFlorian Hahn VPBasicBlock *SinkTo; 1237359450eSFlorian Hahn VPValue *C; 1247359450eSFlorian Hahn std::tie(SinkTo, C) = WorkList.pop_back_val(); 12565d3dd7cSFlorian Hahn auto *SinkCandidate = dyn_cast_or_null<VPReplicateRecipe>(C->Def); 1267359450eSFlorian Hahn if (!SinkCandidate || SinkCandidate->isUniform() || 1277359450eSFlorian Hahn SinkCandidate->getParent() == SinkTo || 12865d3dd7cSFlorian Hahn SinkCandidate->mayHaveSideEffects() || 12965d3dd7cSFlorian Hahn SinkCandidate->mayReadOrWriteMemory()) 13065d3dd7cSFlorian Hahn continue; 13165d3dd7cSFlorian Hahn 132e90d55e1SFlorian Hahn bool NeedsDuplicating = false; 133e90d55e1SFlorian Hahn // All recipe users of the sink candidate must be in the same block SinkTo 134e90d55e1SFlorian Hahn // or all users outside of SinkTo must be uniform-after-vectorization ( 135e90d55e1SFlorian Hahn // i.e., only first lane is used) . In the latter case, we need to duplicate 136e90d55e1SFlorian Hahn // SinkCandidate. At the moment, we identify such UAV's by looking for the 137e90d55e1SFlorian Hahn // address operands of widened memory recipes. 138e90d55e1SFlorian Hahn auto CanSinkWithUser = [SinkTo, &NeedsDuplicating, 139e90d55e1SFlorian Hahn SinkCandidate](VPUser *U) { 14065d3dd7cSFlorian Hahn auto *UI = dyn_cast<VPRecipeBase>(U); 141e90d55e1SFlorian Hahn if (!UI) 142e90d55e1SFlorian Hahn return false; 143e90d55e1SFlorian Hahn if (UI->getParent() == SinkTo) 144e90d55e1SFlorian Hahn return true; 145e90d55e1SFlorian Hahn auto *WidenI = dyn_cast<VPWidenMemoryInstructionRecipe>(UI); 146e90d55e1SFlorian Hahn if (WidenI && WidenI->getAddr() == SinkCandidate) { 147e90d55e1SFlorian Hahn NeedsDuplicating = true; 148e90d55e1SFlorian Hahn return true; 149e90d55e1SFlorian Hahn } 150e90d55e1SFlorian Hahn return false; 151e90d55e1SFlorian Hahn }; 152e90d55e1SFlorian Hahn if (!all_of(SinkCandidate->users(), CanSinkWithUser)) 15365d3dd7cSFlorian Hahn continue; 15465d3dd7cSFlorian Hahn 155e90d55e1SFlorian Hahn if (NeedsDuplicating) { 156e90d55e1SFlorian Hahn Instruction *I = cast<Instruction>(SinkCandidate->getUnderlyingValue()); 157e90d55e1SFlorian Hahn auto *Clone = 158e90d55e1SFlorian Hahn new VPReplicateRecipe(I, SinkCandidate->operands(), true, false); 159e90d55e1SFlorian Hahn // TODO: add ".cloned" suffix to name of Clone's VPValue. 160e90d55e1SFlorian Hahn 161e90d55e1SFlorian Hahn Clone->insertBefore(SinkCandidate); 162500c4b68SKazu Hirata SmallVector<VPUser *, 4> Users(SinkCandidate->users()); 163e90d55e1SFlorian Hahn for (auto *U : Users) { 164e90d55e1SFlorian Hahn auto *UI = cast<VPRecipeBase>(U); 165e90d55e1SFlorian Hahn if (UI->getParent() == SinkTo) 166e90d55e1SFlorian Hahn continue; 167e90d55e1SFlorian Hahn 168e90d55e1SFlorian Hahn for (unsigned Idx = 0; Idx != UI->getNumOperands(); Idx++) { 169e90d55e1SFlorian Hahn if (UI->getOperand(Idx) != SinkCandidate) 170e90d55e1SFlorian Hahn continue; 171e90d55e1SFlorian Hahn UI->setOperand(Idx, Clone); 172e90d55e1SFlorian Hahn } 173e90d55e1SFlorian Hahn } 174e90d55e1SFlorian Hahn } 17565d3dd7cSFlorian Hahn SinkCandidate->moveBefore(*SinkTo, SinkTo->getFirstNonPhi()); 1767359450eSFlorian Hahn for (VPValue *Op : SinkCandidate->operands()) 1777359450eSFlorian Hahn WorkList.insert(std::make_pair(SinkTo, Op)); 17865d3dd7cSFlorian Hahn Changed = true; 17965d3dd7cSFlorian Hahn } 18065d3dd7cSFlorian Hahn return Changed; 18165d3dd7cSFlorian Hahn } 18280aa7e14SFlorian Hahn 18380aa7e14SFlorian Hahn /// If \p R is a region with a VPBranchOnMaskRecipe in the entry block, return 18480aa7e14SFlorian Hahn /// the mask. 18580aa7e14SFlorian Hahn VPValue *getPredicatedMask(VPRegionBlock *R) { 18680aa7e14SFlorian Hahn auto *EntryBB = dyn_cast<VPBasicBlock>(R->getEntry()); 18780aa7e14SFlorian Hahn if (!EntryBB || EntryBB->size() != 1 || 18880aa7e14SFlorian Hahn !isa<VPBranchOnMaskRecipe>(EntryBB->begin())) 18980aa7e14SFlorian Hahn return nullptr; 19080aa7e14SFlorian Hahn 19180aa7e14SFlorian Hahn return cast<VPBranchOnMaskRecipe>(&*EntryBB->begin())->getOperand(0); 19280aa7e14SFlorian Hahn } 19380aa7e14SFlorian Hahn 19480aa7e14SFlorian Hahn /// If \p R is a triangle region, return the 'then' block of the triangle. 19580aa7e14SFlorian Hahn static VPBasicBlock *getPredicatedThenBlock(VPRegionBlock *R) { 19680aa7e14SFlorian Hahn auto *EntryBB = cast<VPBasicBlock>(R->getEntry()); 19780aa7e14SFlorian Hahn if (EntryBB->getNumSuccessors() != 2) 19880aa7e14SFlorian Hahn return nullptr; 19980aa7e14SFlorian Hahn 20080aa7e14SFlorian Hahn auto *Succ0 = dyn_cast<VPBasicBlock>(EntryBB->getSuccessors()[0]); 20180aa7e14SFlorian Hahn auto *Succ1 = dyn_cast<VPBasicBlock>(EntryBB->getSuccessors()[1]); 20280aa7e14SFlorian Hahn if (!Succ0 || !Succ1) 20380aa7e14SFlorian Hahn return nullptr; 20480aa7e14SFlorian Hahn 20580aa7e14SFlorian Hahn if (Succ0->getNumSuccessors() + Succ1->getNumSuccessors() != 1) 20680aa7e14SFlorian Hahn return nullptr; 20780aa7e14SFlorian Hahn if (Succ0->getSingleSuccessor() == Succ1) 20880aa7e14SFlorian Hahn return Succ0; 20980aa7e14SFlorian Hahn if (Succ1->getSingleSuccessor() == Succ0) 21080aa7e14SFlorian Hahn return Succ1; 21180aa7e14SFlorian Hahn return nullptr; 21280aa7e14SFlorian Hahn } 21380aa7e14SFlorian Hahn 21480aa7e14SFlorian Hahn bool VPlanTransforms::mergeReplicateRegions(VPlan &Plan) { 21580aa7e14SFlorian Hahn SetVector<VPRegionBlock *> DeletedRegions; 21680aa7e14SFlorian Hahn bool Changed = false; 21780aa7e14SFlorian Hahn 21880aa7e14SFlorian Hahn // Collect region blocks to process up-front, to avoid iterator invalidation 21980aa7e14SFlorian Hahn // issues while merging regions. 22080aa7e14SFlorian Hahn SmallVector<VPRegionBlock *, 8> CandidateRegions( 22180aa7e14SFlorian Hahn VPBlockUtils::blocksOnly<VPRegionBlock>(depth_first( 22280aa7e14SFlorian Hahn VPBlockRecursiveTraversalWrapper<VPBlockBase *>(Plan.getEntry())))); 22380aa7e14SFlorian Hahn 22480aa7e14SFlorian Hahn // Check if Base is a predicated triangle, followed by an empty block, 22580aa7e14SFlorian Hahn // followed by another predicate triangle. If that's the case, move the 22680aa7e14SFlorian Hahn // recipes from the first to the second triangle. 22780aa7e14SFlorian Hahn for (VPRegionBlock *Region1 : CandidateRegions) { 22880aa7e14SFlorian Hahn if (DeletedRegions.contains(Region1)) 22980aa7e14SFlorian Hahn continue; 23080aa7e14SFlorian Hahn auto *MiddleBasicBlock = 23180aa7e14SFlorian Hahn dyn_cast_or_null<VPBasicBlock>(Region1->getSingleSuccessor()); 23280aa7e14SFlorian Hahn if (!MiddleBasicBlock || !MiddleBasicBlock->empty()) 23380aa7e14SFlorian Hahn continue; 23480aa7e14SFlorian Hahn 23580aa7e14SFlorian Hahn auto *Region2 = 23680aa7e14SFlorian Hahn dyn_cast_or_null<VPRegionBlock>(MiddleBasicBlock->getSingleSuccessor()); 23780aa7e14SFlorian Hahn if (!Region2) 23880aa7e14SFlorian Hahn continue; 23980aa7e14SFlorian Hahn 24080aa7e14SFlorian Hahn VPValue *Mask1 = getPredicatedMask(Region1); 24180aa7e14SFlorian Hahn VPValue *Mask2 = getPredicatedMask(Region2); 24280aa7e14SFlorian Hahn if (!Mask1 || Mask1 != Mask2) 24380aa7e14SFlorian Hahn continue; 24480aa7e14SFlorian Hahn VPBasicBlock *Then1 = getPredicatedThenBlock(Region1); 24580aa7e14SFlorian Hahn VPBasicBlock *Then2 = getPredicatedThenBlock(Region2); 24680aa7e14SFlorian Hahn if (!Then1 || !Then2) 24780aa7e14SFlorian Hahn continue; 24880aa7e14SFlorian Hahn 24980aa7e14SFlorian Hahn assert(Mask1 && Mask2 && "both region must have conditions"); 25080aa7e14SFlorian Hahn 25180aa7e14SFlorian Hahn // Note: No fusion-preventing memory dependencies are expected in either 25280aa7e14SFlorian Hahn // region. Such dependencies should be rejected during earlier dependence 25380aa7e14SFlorian Hahn // checks, which guarantee accesses can be re-ordered for vectorization. 25480aa7e14SFlorian Hahn // 25580aa7e14SFlorian Hahn // Move recipes to the successor region. 25680aa7e14SFlorian Hahn for (VPRecipeBase &ToMove : make_early_inc_range(reverse(*Then1))) 25780aa7e14SFlorian Hahn ToMove.moveBefore(*Then2, Then2->getFirstNonPhi()); 25880aa7e14SFlorian Hahn 25980aa7e14SFlorian Hahn auto *Merge1 = cast<VPBasicBlock>(Then1->getSingleSuccessor()); 26080aa7e14SFlorian Hahn auto *Merge2 = cast<VPBasicBlock>(Then2->getSingleSuccessor()); 26180aa7e14SFlorian Hahn 26280aa7e14SFlorian Hahn // Move VPPredInstPHIRecipes from the merge block to the successor region's 26380aa7e14SFlorian Hahn // merge block. Update all users inside the successor region to use the 26480aa7e14SFlorian Hahn // original values. 26580aa7e14SFlorian Hahn for (VPRecipeBase &Phi1ToMove : make_early_inc_range(reverse(*Merge1))) { 26680aa7e14SFlorian Hahn VPValue *PredInst1 = 26780aa7e14SFlorian Hahn cast<VPPredInstPHIRecipe>(&Phi1ToMove)->getOperand(0); 268368af755SFlorian Hahn VPValue *Phi1ToMoveV = Phi1ToMove.getVPSingleValue(); 269500c4b68SKazu Hirata SmallVector<VPUser *> Users(Phi1ToMoveV->users()); 270368af755SFlorian Hahn for (VPUser *U : Users) { 27180aa7e14SFlorian Hahn auto *UI = dyn_cast<VPRecipeBase>(U); 27280aa7e14SFlorian Hahn if (!UI || UI->getParent() != Then2) 27380aa7e14SFlorian Hahn continue; 27480aa7e14SFlorian Hahn for (unsigned I = 0, E = U->getNumOperands(); I != E; ++I) { 275368af755SFlorian Hahn if (Phi1ToMoveV != U->getOperand(I)) 27680aa7e14SFlorian Hahn continue; 27780aa7e14SFlorian Hahn U->setOperand(I, PredInst1); 27880aa7e14SFlorian Hahn } 27980aa7e14SFlorian Hahn } 28080aa7e14SFlorian Hahn 28180aa7e14SFlorian Hahn Phi1ToMove.moveBefore(*Merge2, Merge2->begin()); 28280aa7e14SFlorian Hahn } 28380aa7e14SFlorian Hahn 28480aa7e14SFlorian Hahn // Finally, remove the first region. 28580aa7e14SFlorian Hahn for (VPBlockBase *Pred : make_early_inc_range(Region1->getPredecessors())) { 28680aa7e14SFlorian Hahn VPBlockUtils::disconnectBlocks(Pred, Region1); 28780aa7e14SFlorian Hahn VPBlockUtils::connectBlocks(Pred, MiddleBasicBlock); 28880aa7e14SFlorian Hahn } 28980aa7e14SFlorian Hahn VPBlockUtils::disconnectBlocks(Region1, MiddleBasicBlock); 29080aa7e14SFlorian Hahn DeletedRegions.insert(Region1); 29180aa7e14SFlorian Hahn } 29280aa7e14SFlorian Hahn 29380aa7e14SFlorian Hahn for (VPRegionBlock *ToDelete : DeletedRegions) 29480aa7e14SFlorian Hahn delete ToDelete; 29580aa7e14SFlorian Hahn return Changed; 29680aa7e14SFlorian Hahn } 297505ad03cSFlorian Hahn 298505ad03cSFlorian Hahn void VPlanTransforms::removeRedundantInductionCasts(VPlan &Plan) { 299505ad03cSFlorian Hahn for (auto &Phi : Plan.getEntry()->getEntryBasicBlock()->phis()) { 300505ad03cSFlorian Hahn auto *IV = dyn_cast<VPWidenIntOrFpInductionRecipe>(&Phi); 301505ad03cSFlorian Hahn if (!IV || IV->getTruncInst()) 302505ad03cSFlorian Hahn continue; 303505ad03cSFlorian Hahn 304da740492SFlorian Hahn // A sequence of IR Casts has potentially been recorded for IV, which 305da740492SFlorian Hahn // *must be bypassed* when the IV is vectorized, because the vectorized IV 306da740492SFlorian Hahn // will produce the desired casted value. This sequence forms a def-use 307da740492SFlorian Hahn // chain and is provided in reverse order, ending with the cast that uses 308da740492SFlorian Hahn // the IV phi. Search for the recipe of the last cast in the chain and 309da740492SFlorian Hahn // replace it with the original IV. Note that only the final cast is 310da740492SFlorian Hahn // expected to have users outside the cast-chain and the dead casts left 311da740492SFlorian Hahn // over will be cleaned up later. 312505ad03cSFlorian Hahn auto &Casts = IV->getInductionDescriptor().getCastInsts(); 313505ad03cSFlorian Hahn VPValue *FindMyCast = IV; 314505ad03cSFlorian Hahn for (Instruction *IRCast : reverse(Casts)) { 315505ad03cSFlorian Hahn VPRecipeBase *FoundUserCast = nullptr; 316505ad03cSFlorian Hahn for (auto *U : FindMyCast->users()) { 317505ad03cSFlorian Hahn auto *UserCast = cast<VPRecipeBase>(U); 318505ad03cSFlorian Hahn if (UserCast->getNumDefinedValues() == 1 && 319505ad03cSFlorian Hahn UserCast->getVPSingleValue()->getUnderlyingValue() == IRCast) { 320505ad03cSFlorian Hahn FoundUserCast = UserCast; 321505ad03cSFlorian Hahn break; 322505ad03cSFlorian Hahn } 323505ad03cSFlorian Hahn } 324505ad03cSFlorian Hahn FindMyCast = FoundUserCast->getVPSingleValue(); 325505ad03cSFlorian Hahn } 326da740492SFlorian Hahn FindMyCast->replaceAllUsesWith(IV); 327505ad03cSFlorian Hahn } 328505ad03cSFlorian Hahn } 3295f2854f1SFlorian Hahn 3305f2854f1SFlorian Hahn void VPlanTransforms::removeRedundantCanonicalIVs(VPlan &Plan) { 3315f2854f1SFlorian Hahn VPCanonicalIVPHIRecipe *CanonicalIV = Plan.getCanonicalIV(); 3325f2854f1SFlorian Hahn VPWidenCanonicalIVRecipe *WidenNewIV = nullptr; 3335f2854f1SFlorian Hahn for (VPUser *U : CanonicalIV->users()) { 3345f2854f1SFlorian Hahn WidenNewIV = dyn_cast<VPWidenCanonicalIVRecipe>(U); 3355f2854f1SFlorian Hahn if (WidenNewIV) 3365f2854f1SFlorian Hahn break; 3375f2854f1SFlorian Hahn } 3385f2854f1SFlorian Hahn 3395f2854f1SFlorian Hahn if (!WidenNewIV) 3405f2854f1SFlorian Hahn return; 3415f2854f1SFlorian Hahn 3425f2854f1SFlorian Hahn VPBasicBlock *HeaderVPBB = Plan.getVectorLoopRegion()->getEntryBasicBlock(); 3435f2854f1SFlorian Hahn for (VPRecipeBase &Phi : HeaderVPBB->phis()) { 3445f2854f1SFlorian Hahn auto *WidenOriginalIV = dyn_cast<VPWidenIntOrFpInductionRecipe>(&Phi); 3455f2854f1SFlorian Hahn 346efd49387SFlorian Hahn if (!WidenOriginalIV || !WidenOriginalIV->isCanonical() || 347efd49387SFlorian Hahn WidenOriginalIV->getScalarType() != WidenNewIV->getScalarType()) 348efd49387SFlorian Hahn continue; 349efd49387SFlorian Hahn 350efd49387SFlorian Hahn // Replace WidenNewIV with WidenOriginalIV if WidenOriginalIV provides 351efd49387SFlorian Hahn // everything WidenNewIV's users need. That is, WidenOriginalIV will 352efd49387SFlorian Hahn // generate a vector phi or all users of WidenNewIV demand the first lane 353efd49387SFlorian Hahn // only. 3548f12175fSFlorian Hahn if (WidenOriginalIV->needsVectorIV() || 3558f12175fSFlorian Hahn vputils::onlyFirstLaneUsed(WidenNewIV)) { 3565f2854f1SFlorian Hahn WidenNewIV->replaceAllUsesWith(WidenOriginalIV); 3575f2854f1SFlorian Hahn WidenNewIV->eraseFromParent(); 3585f2854f1SFlorian Hahn return; 3595f2854f1SFlorian Hahn } 3605f2854f1SFlorian Hahn } 3615f2854f1SFlorian Hahn } 362da740492SFlorian Hahn 363a12403cfSFlorian Hahn // Check for live-out users currently not modeled in VPlan. 364a12403cfSFlorian Hahn // Note that exit values of inductions are generated independent of 365a12403cfSFlorian Hahn // the recipe. This means VPWidenIntOrFpInductionRecipe & 366a12403cfSFlorian Hahn // VPScalarIVStepsRecipe can be removed, independent of uses outside 367a12403cfSFlorian Hahn // the loop. 368a12403cfSFlorian Hahn // TODO: Remove once live-outs are modeled in VPlan. 369a12403cfSFlorian Hahn static bool hasOutsideUser(Instruction &I, Loop &OrigLoop) { 370a12403cfSFlorian Hahn return any_of(I.users(), [&OrigLoop](User *U) { 371a12403cfSFlorian Hahn if (!OrigLoop.contains(cast<Instruction>(U))) 372a12403cfSFlorian Hahn return true; 373a12403cfSFlorian Hahn 374a12403cfSFlorian Hahn // Look through single-value phis in the loop, as they won't be modeled in 375a12403cfSFlorian Hahn // VPlan and may be used outside the loop. 376a12403cfSFlorian Hahn if (auto *PN = dyn_cast<PHINode>(U)) 377a12403cfSFlorian Hahn if (PN->getNumIncomingValues() == 1) 378a12403cfSFlorian Hahn return hasOutsideUser(*PN, OrigLoop); 379a12403cfSFlorian Hahn 380a12403cfSFlorian Hahn return false; 381a12403cfSFlorian Hahn }); 382a12403cfSFlorian Hahn } 383a12403cfSFlorian Hahn 384da740492SFlorian Hahn void VPlanTransforms::removeDeadRecipes(VPlan &Plan, Loop &OrigLoop) { 385da740492SFlorian Hahn VPBasicBlock *Header = Plan.getVectorLoopRegion()->getEntryBasicBlock(); 386*4a0481e9SFlorian Hahn // Check if \p R is used outside the loop, if required. 387*4a0481e9SFlorian Hahn // TODO: Remove once live-outs are modeled in VPlan. 388*4a0481e9SFlorian Hahn auto HasUsersOutsideLoop = [&OrigLoop](VPRecipeBase &R) { 389*4a0481e9SFlorian Hahn // Exit values for induction recipes are generated independent of the 390*4a0481e9SFlorian Hahn // recipes, expect for truncated inductions. Hence there is no need to check 391*4a0481e9SFlorian Hahn // for users outside the loop for them. 392*4a0481e9SFlorian Hahn if (isa<VPScalarIVStepsRecipe>(&R) || 393*4a0481e9SFlorian Hahn (isa<VPWidenIntOrFpInductionRecipe>(&R) && 394*4a0481e9SFlorian Hahn !isa<TruncInst>(R.getUnderlyingInstr()))) 395*4a0481e9SFlorian Hahn return false; 396*4a0481e9SFlorian Hahn return R.getUnderlyingInstr() && 397*4a0481e9SFlorian Hahn hasOutsideUser(*R.getUnderlyingInstr(), OrigLoop); 398*4a0481e9SFlorian Hahn }; 399da740492SFlorian Hahn // Remove dead recipes in header block. The recipes in the block are processed 400da740492SFlorian Hahn // in reverse order, to catch chains of dead recipes. 401da740492SFlorian Hahn // TODO: Remove dead recipes across whole plan. 402da740492SFlorian Hahn for (VPRecipeBase &R : make_early_inc_range(reverse(*Header))) { 403da740492SFlorian Hahn if (R.mayHaveSideEffects() || 404da740492SFlorian Hahn any_of(R.definedValues(), 405da740492SFlorian Hahn [](VPValue *V) { return V->getNumUsers() > 0; }) || 406*4a0481e9SFlorian Hahn HasUsersOutsideLoop(R)) 407da740492SFlorian Hahn continue; 408da740492SFlorian Hahn R.eraseFromParent(); 409da740492SFlorian Hahn } 410da740492SFlorian Hahn } 411b3e8ace1SFlorian Hahn 412b3e8ace1SFlorian Hahn void VPlanTransforms::optimizeInductions(VPlan &Plan, ScalarEvolution &SE) { 413b3e8ace1SFlorian Hahn SmallVector<VPRecipeBase *> ToRemove; 414b3e8ace1SFlorian Hahn VPBasicBlock *HeaderVPBB = Plan.getVectorLoopRegion()->getEntryBasicBlock(); 415b3e8ace1SFlorian Hahn for (VPRecipeBase &Phi : HeaderVPBB->phis()) { 416b3e8ace1SFlorian Hahn auto *IV = dyn_cast<VPWidenIntOrFpInductionRecipe>(&Phi); 41795f76bffSFlorian Hahn if (!IV || !IV->needsScalarIV()) 418b3e8ace1SFlorian Hahn continue; 419b3e8ace1SFlorian Hahn 420b3e8ace1SFlorian Hahn const InductionDescriptor &ID = IV->getInductionDescriptor(); 421b3e8ace1SFlorian Hahn const SCEV *StepSCEV = ID.getStep(); 422b3e8ace1SFlorian Hahn VPValue *Step = nullptr; 423b3e8ace1SFlorian Hahn if (auto *E = dyn_cast<SCEVConstant>(StepSCEV)) { 424b3e8ace1SFlorian Hahn Step = new VPValue(E->getValue()); 425b3e8ace1SFlorian Hahn Plan.addExternalDef(Step); 426b3e8ace1SFlorian Hahn } else if (auto *E = dyn_cast<SCEVUnknown>(StepSCEV)) { 427b3e8ace1SFlorian Hahn Step = new VPValue(E->getValue()); 428b3e8ace1SFlorian Hahn Plan.addExternalDef(Step); 429b3e8ace1SFlorian Hahn } else { 430b3e8ace1SFlorian Hahn Step = new VPExpandSCEVRecipe(StepSCEV, SE); 431b3e8ace1SFlorian Hahn } 432b3e8ace1SFlorian Hahn 4338777cb66SFlorian Hahn Instruction *TruncI = IV->getTruncInst(); 434b3e8ace1SFlorian Hahn VPScalarIVStepsRecipe *Steps = new VPScalarIVStepsRecipe( 4358777cb66SFlorian Hahn IV->getPHINode()->getType(), ID, Plan.getCanonicalIV(), 4368777cb66SFlorian Hahn IV->getStartValue(), Step, TruncI ? TruncI->getType() : nullptr); 437b3e8ace1SFlorian Hahn 438b3e8ace1SFlorian Hahn HeaderVPBB->insert(Steps, HeaderVPBB->getFirstNonPhi()); 439b3e8ace1SFlorian Hahn if (Step->getDef()) { 440b3e8ace1SFlorian Hahn // TODO: Place the step in the preheader, once it is explicitly modeled in 441b3e8ace1SFlorian Hahn // VPlan. 442b3e8ace1SFlorian Hahn HeaderVPBB->insert(cast<VPRecipeBase>(Step->getDef()), 443b3e8ace1SFlorian Hahn HeaderVPBB->getFirstNonPhi()); 444b3e8ace1SFlorian Hahn } 44595f76bffSFlorian Hahn 44695f76bffSFlorian Hahn // If there are no vector users of IV, simply update all users to use Step 44795f76bffSFlorian Hahn // instead. 44895f76bffSFlorian Hahn if (!IV->needsVectorIV()) { 449b3e8ace1SFlorian Hahn IV->replaceAllUsesWith(Steps); 45095f76bffSFlorian Hahn continue; 45195f76bffSFlorian Hahn } 45295f76bffSFlorian Hahn 4531c0fc1f0SFlorian Hahn // Otherwise only update scalar users of IV to use Step instead. Use 4541c0fc1f0SFlorian Hahn // SetVector to ensure the list of users doesn't contain duplicates. 4551c0fc1f0SFlorian Hahn SetVector<VPUser *> Users(IV->user_begin(), IV->user_end()); 45695f76bffSFlorian Hahn for (VPUser *U : Users) { 45795f76bffSFlorian Hahn VPRecipeBase *R = cast<VPRecipeBase>(U); 45895f76bffSFlorian Hahn if (!R->usesScalars(IV)) 45995f76bffSFlorian Hahn continue; 46095f76bffSFlorian Hahn for (unsigned I = 0, E = R->getNumOperands(); I != E; I++) { 46195f76bffSFlorian Hahn if (R->getOperand(I) != IV) 46295f76bffSFlorian Hahn continue; 46395f76bffSFlorian Hahn R->setOperand(I, Steps); 46495f76bffSFlorian Hahn } 46595f76bffSFlorian Hahn } 466b3e8ace1SFlorian Hahn } 467b3e8ace1SFlorian Hahn } 468