//===------ PollyIRBuilder.cpp --------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // The Polly IRBuilder file contains Polly specific extensions for the IRBuilder // that are used e.g. to emit the llvm.loop.parallel metadata. // //===----------------------------------------------------------------------===// #include "polly/CodeGen/IRBuilder.h" #include "polly/ScopInfo.h" #include "polly/Support/ScopHelper.h" #include "llvm/ADT/SmallVector.h" #include "llvm/IR/Metadata.h" using namespace llvm; using namespace polly; static const int MaxArraysInAliasScops = 10; /// Get a self referencing id metadata node. /// /// The MDNode looks like this (if arg0/arg1 are not null): /// /// '!n = metadata !{metadata !n, arg0, arg1}' /// /// @return The self referencing id metadata node. static MDNode *getID(LLVMContext &Ctx, Metadata *arg0 = nullptr, Metadata *arg1 = nullptr) { MDNode *ID; SmallVector Args; // Use a temporary node to safely create a unique pointer for the first arg. auto TempNode = MDNode::getTemporary(Ctx, None); // Reserve operand 0 for loop id self reference. Args.push_back(TempNode.get()); if (arg0) Args.push_back(arg0); if (arg1) Args.push_back(arg1); ID = MDNode::get(Ctx, Args); ID->replaceOperandWith(0, ID); return ID; } ScopAnnotator::ScopAnnotator() : SE(nullptr), AliasScopeDomain(nullptr) {} void ScopAnnotator::buildAliasScopes(Scop &S) { SE = S.getSE(); LLVMContext &Ctx = SE->getContext(); AliasScopeDomain = getID(Ctx, MDString::get(Ctx, "polly.alias.scope.domain")); AliasScopeMap.clear(); OtherAliasScopeListMap.clear(); // We are only interested in arrays, but no scalar references. Scalars should // be handled easily by basicaa. SmallVector Arrays; for (ScopArrayInfo *Array : S.arrays()) if (Array->isArrayKind()) Arrays.push_back(Array); // The construction of alias scopes is quadratic in the number of arrays // involved. In case of too many arrays, skip the construction of alias // information to avoid quadratic increases in compile time and code size. if (Arrays.size() > MaxArraysInAliasScops) return; std::string AliasScopeStr = "polly.alias.scope."; for (const ScopArrayInfo *Array : Arrays) { assert(Array->getBasePtr() && "Base pointer must be present"); AliasScopeMap[Array->getBasePtr()] = getID(Ctx, AliasScopeDomain, MDString::get(Ctx, (AliasScopeStr + Array->getName()).c_str())); } for (const ScopArrayInfo *Array : Arrays) { MDNode *AliasScopeList = MDNode::get(Ctx, {}); for (const auto &AliasScopePair : AliasScopeMap) { if (Array->getBasePtr() == AliasScopePair.first) continue; Metadata *Args = {AliasScopePair.second}; AliasScopeList = MDNode::concatenate(AliasScopeList, MDNode::get(Ctx, Args)); } OtherAliasScopeListMap[Array->getBasePtr()] = AliasScopeList; } } void ScopAnnotator::pushLoop(Loop *L, bool IsParallel) { ActiveLoops.push_back(L); if (!IsParallel) return; BasicBlock *Header = L->getHeader(); MDNode *Id = getID(Header->getContext()); assert(Id->getOperand(0) == Id && "Expected Id to be a self-reference"); assert(Id->getNumOperands() == 1 && "Unexpected extra operands in Id"); MDNode *Ids = ParallelLoops.empty() ? Id : MDNode::concatenate(ParallelLoops.back(), Id); ParallelLoops.push_back(Ids); } void ScopAnnotator::popLoop(bool IsParallel) { ActiveLoops.pop_back(); if (!IsParallel) return; assert(!ParallelLoops.empty() && "Expected a parallel loop to pop"); ParallelLoops.pop_back(); } void ScopAnnotator::annotateLoopLatch(BranchInst *B, Loop *L, bool IsParallel, bool IsLoopVectorizerDisabled) const { MDNode *MData = nullptr; if (IsLoopVectorizerDisabled) { SmallVector Args; LLVMContext &Ctx = SE->getContext(); Args.push_back(MDString::get(Ctx, "llvm.loop.vectorize.enable")); auto *FalseValue = ConstantInt::get(Type::getInt1Ty(Ctx), 0); Args.push_back(ValueAsMetadata::get(FalseValue)); MData = MDNode::concatenate(MData, getID(Ctx, MDNode::get(Ctx, Args))); } if (IsParallel) { assert(!ParallelLoops.empty() && "Expected a parallel loop to annotate"); MDNode *Ids = ParallelLoops.back(); MDNode *Id = cast(Ids->getOperand(Ids->getNumOperands() - 1)); MData = MDNode::concatenate(MData, Id); } B->setMetadata("llvm.loop", MData); } /// Get the pointer operand /// /// @param Inst The instruction to be analyzed. /// @return the pointer operand in case @p Inst is a memory access /// instruction and nullptr otherwise. static llvm::Value *getMemAccInstPointerOperand(Instruction *Inst) { auto MemInst = MemAccInst::dyn_cast(Inst); if (!MemInst) return nullptr; return MemInst.getPointerOperand(); } void ScopAnnotator::annotateSecondLevel(llvm::Instruction *Inst, llvm::Value *BasePtr) { Value *Ptr = getMemAccInstPointerOperand(Inst); if (!Ptr) return; auto *PtrSCEV = SE->getSCEV(Ptr); auto *BasePtrSCEV = SE->getPointerBase(PtrSCEV); auto SecondLevelAliasScope = SecondLevelAliasScopeMap.lookup(PtrSCEV); auto SecondLevelOtherAliasScopeList = SecondLevelOtherAliasScopeListMap.lookup(PtrSCEV); if (!SecondLevelAliasScope) { auto AliasScope = AliasScopeMap.lookup(BasePtr); if (!AliasScope) return; LLVMContext &Ctx = SE->getContext(); SecondLevelAliasScope = getID( Ctx, AliasScope, MDString::get(Ctx, "second level alias metadata")); SecondLevelAliasScopeMap[PtrSCEV] = SecondLevelAliasScope; Metadata *Args = {SecondLevelAliasScope}; auto SecondLevelBasePtrAliasScopeList = SecondLevelAliasScopeMap.lookup(BasePtrSCEV); SecondLevelAliasScopeMap[BasePtrSCEV] = MDNode::concatenate( SecondLevelBasePtrAliasScopeList, MDNode::get(Ctx, Args)); auto OtherAliasScopeList = OtherAliasScopeListMap.lookup(BasePtr); SecondLevelOtherAliasScopeList = MDNode::concatenate( OtherAliasScopeList, SecondLevelBasePtrAliasScopeList); SecondLevelOtherAliasScopeListMap[PtrSCEV] = SecondLevelOtherAliasScopeList; } Inst->setMetadata("alias.scope", SecondLevelAliasScope); Inst->setMetadata("noalias", SecondLevelOtherAliasScopeList); } void ScopAnnotator::annotate(Instruction *Inst) { if (!Inst->mayReadOrWriteMemory()) return; if (!ParallelLoops.empty()) Inst->setMetadata("llvm.mem.parallel_loop_access", ParallelLoops.back()); // TODO: Use the ScopArrayInfo once available here. if (!AliasScopeDomain) return; // Do not apply annotations on memory operations that take more than one // pointer. It would be ambiguous to which pointer the annotation applies. // FIXME: How can we specify annotations for all pointer arguments? if (isa(Inst) && !isa(Inst)) return; auto *Ptr = getMemAccInstPointerOperand(Inst); if (!Ptr) return; auto *PtrSCEV = SE->getSCEV(Ptr); auto *BaseSCEV = SE->getPointerBase(PtrSCEV); auto *SU = dyn_cast(BaseSCEV); if (!SU) return; auto *BasePtr = SU->getValue(); if (!BasePtr) return; auto AliasScope = AliasScopeMap.lookup(BasePtr); if (!AliasScope) { BasePtr = AlternativeAliasBases.lookup(BasePtr); if (!BasePtr) return; AliasScope = AliasScopeMap.lookup(BasePtr); if (!AliasScope) return; } assert(OtherAliasScopeListMap.count(BasePtr) && "BasePtr either expected in AliasScopeMap and OtherAlias...Map"); auto *OtherAliasScopeList = OtherAliasScopeListMap[BasePtr]; if (InterIterationAliasFreeBasePtrs.count(BasePtr)) { annotateSecondLevel(Inst, BasePtr); return; } Inst->setMetadata("alias.scope", AliasScope); Inst->setMetadata("noalias", OtherAliasScopeList); } void ScopAnnotator::addInterIterationAliasFreeBasePtr(llvm::Value *BasePtr) { if (!BasePtr) return; InterIterationAliasFreeBasePtrs.insert(BasePtr); }