/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: set ts=8 sts=2 et sw=2 tw=80: * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "jit/AliasAnalysis.h" #include #include "jit/Ion.h" #include "jit/JitSpewer.h" #include "jit/MIR.h" #include "jit/MIRGenerator.h" #include "jit/MIRGraph.h" #include "vm/Printer.h" using namespace js; using namespace js::jit; namespace js { namespace jit { class LoopAliasInfo : public TempObject { private: LoopAliasInfo* outer_; MBasicBlock* loopHeader_; MInstructionVector invariantLoads_; public: LoopAliasInfo(TempAllocator& alloc, LoopAliasInfo* outer, MBasicBlock* loopHeader) : outer_(outer), loopHeader_(loopHeader), invariantLoads_(alloc) {} MBasicBlock* loopHeader() const { return loopHeader_; } LoopAliasInfo* outer() const { return outer_; } bool addInvariantLoad(MInstruction* ins) { return invariantLoads_.append(ins); } const MInstructionVector& invariantLoads() const { return invariantLoads_; } MInstruction* firstInstruction() const { return *loopHeader_->begin(); } }; } // namespace jit } // namespace js void AliasAnalysis::spewDependencyList() { #ifdef JS_JITSPEW if (JitSpewEnabled(JitSpew_AliasSummaries)) { Fprinter& print = JitSpewPrinter(); JitSpewHeader(JitSpew_AliasSummaries); print.printf("Dependency list for other passes:\n"); for (ReversePostorderIterator block(graph_.rpoBegin()); block != graph_.rpoEnd(); block++) { for (MInstructionIterator def(block->begin()), end(block->begin(block->lastIns())); def != end; ++def) { if (!def->dependency()) { continue; } if (!def->getAliasSet().isLoad()) { continue; } JitSpewHeader(JitSpew_AliasSummaries); print.printf(" "); MDefinition::PrintOpcodeName(print, def->op()); print.printf("%u marked depending on ", def->id()); MDefinition::PrintOpcodeName(print, def->dependency()->op()); print.printf("%u\n", def->dependency()->id()); } } } #endif } // Whether there might be a path from src to dest, excluding loop backedges. // This is approximate and really ought to depend on precomputed reachability // information. static inline bool BlockMightReach(MBasicBlock* src, MBasicBlock* dest) { while (src->id() <= dest->id()) { if (src == dest) { return true; } switch (src->numSuccessors()) { case 0: return false; case 1: { MBasicBlock* successor = src->getSuccessor(0); if (successor->id() <= src->id()) { return true; // Don't iloop. } src = successor; break; } default: return true; } } return false; } static void IonSpewDependency(MInstruction* load, MInstruction* store, const char* verb, const char* reason) { #ifdef JS_JITSPEW if (!JitSpewEnabled(JitSpew_Alias)) { return; } JitSpewHeader(JitSpew_Alias); Fprinter& out = JitSpewPrinter(); out.printf(" Load "); load->printName(out); out.printf(" %s on store ", verb); store->printName(out); out.printf(" (%s)\n", reason); #endif } static void IonSpewAliasInfo(const char* pre, MInstruction* ins, const char* post) { #ifdef JS_JITSPEW if (!JitSpewEnabled(JitSpew_Alias)) { return; } JitSpewHeader(JitSpew_Alias); Fprinter& out = JitSpewPrinter(); out.printf(" %s ", pre); ins->printName(out); out.printf(" %s\n", post); #endif } // [SMDOC] IonMonkey Alias Analysis // // This pass annotates every load instruction with the last store instruction // on which it depends. The algorithm is optimistic in that it ignores explicit // dependencies and only considers loads and stores. // // Loads inside loops only have an implicit dependency on a store before the // loop header if no instruction inside the loop body aliases it. To calculate // this efficiently, we maintain a list of maybe-invariant loads and the // combined alias set for all stores inside the loop. When we see the loop's // backedge, this information is used to mark every load we wrongly assumed to // be loop invariant as having an implicit dependency on the last instruction of // the loop header, so that it's never moved before the loop header. // // The algorithm depends on the invariant that both control instructions and // effectful instructions (stores) are never hoisted. bool AliasAnalysis::analyze() { JitSpew(JitSpew_Alias, "Begin"); Vector stores( alloc()); // Initialize to the first instruction. MInstruction* firstIns = *graph_.entryBlock()->begin(); for (unsigned i = 0; i < AliasSet::NumCategories; i++) { MInstructionVector defs(alloc()); if (!defs.append(firstIns)) { return false; } if (!stores.append(std::move(defs))) { return false; } } // Type analysis may have inserted new instructions. Since this pass depends // on the instruction number ordering, all instructions are renumbered. uint32_t newId = 0; for (ReversePostorderIterator block(graph_.rpoBegin()); block != graph_.rpoEnd(); block++) { if (mir->shouldCancel("Alias Analysis (main loop)")) { return false; } if (block->isLoopHeader()) { JitSpew(JitSpew_Alias, "Processing loop header %u", block->id()); loop_ = new (alloc().fallible()) LoopAliasInfo(alloc(), loop_, *block); if (!loop_) { return false; } } for (MPhiIterator def(block->phisBegin()), end(block->phisEnd()); def != end; ++def) { def->setId(newId++); } for (MInstructionIterator def(block->begin()), end(block->begin(block->lastIns())); def != end; ++def) { def->setId(newId++); AliasSet set = def->getAliasSet(); if (set.isNone()) { continue; } // For the purposes of alias analysis, all recoverable operations // are treated as effect free as the memory represented by these // operations cannot be aliased by others. if (def->canRecoverOnBailout()) { continue; } if (set.isStore()) { for (AliasSetIterator iter(set); iter; iter++) { if (!stores[*iter].append(*def)) { return false; } } #ifdef JS_JITSPEW if (JitSpewEnabled(JitSpew_Alias)) { JitSpewHeader(JitSpew_Alias); Fprinter& out = JitSpewPrinter(); out.printf("Processing store "); def->printName(out); out.printf(" (flags %x)\n", set.flags()); } #endif } else { // Find the most recent store on which this instruction depends. MInstruction* lastStore = firstIns; for (AliasSetIterator iter(set); iter; iter++) { MInstructionVector& aliasedStores = stores[*iter]; for (int i = aliasedStores.length() - 1; i >= 0; i--) { MInstruction* store = aliasedStores[i]; if (def->mightAlias(store) != MDefinition::AliasType::NoAlias && BlockMightReach(store->block(), *block)) { if (lastStore->id() < store->id()) { lastStore = store; } break; } } } def->setDependency(lastStore); IonSpewDependency(*def, lastStore, "depends", ""); // If the last store was before the current loop, we assume this load // is loop invariant. If a later instruction writes to the same // location, we will fix this at the end of the loop. if (loop_ && lastStore->id() < loop_->firstInstruction()->id()) { if (!loop_->addInvariantLoad(*def)) { return false; } } } } // Renumber the last instruction, as the analysis depends on this and the // order. block->lastIns()->setId(newId++); if (block->isLoopBackedge()) { MOZ_ASSERT(loop_->loopHeader() == block->loopHeaderOfBackedge()); JitSpew(JitSpew_Alias, "Processing loop backedge %u (header %u)", block->id(), loop_->loopHeader()->id()); LoopAliasInfo* outerLoop = loop_->outer(); MInstruction* firstLoopIns = *loop_->loopHeader()->begin(); const MInstructionVector& invariant = loop_->invariantLoads(); for (unsigned i = 0; i < invariant.length(); i++) { MInstruction* ins = invariant[i]; AliasSet set = ins->getAliasSet(); MOZ_ASSERT(set.isLoad()); bool hasAlias = false; for (AliasSetIterator iter(set); iter; iter++) { MInstructionVector& aliasedStores = stores[*iter]; for (int i = aliasedStores.length() - 1;; i--) { MInstruction* store = aliasedStores[i]; if (store->id() < firstLoopIns->id()) { break; } if (ins->mightAlias(store) != MDefinition::AliasType::NoAlias) { hasAlias = true; IonSpewDependency(ins, store, "aliases", "store in loop body"); break; } } if (hasAlias) { break; } } if (hasAlias) { // This instruction depends on stores inside the loop body. Mark it as // having a dependency on the last instruction of the loop header. The // last instruction is a control instruction and these are never // hoisted. MControlInstruction* controlIns = loop_->loopHeader()->lastIns(); IonSpewDependency(ins, controlIns, "depends", "due to stores in loop body"); ins->setDependency(controlIns); } else { IonSpewAliasInfo("Load", ins, "does not depend on any stores in this loop"); if (outerLoop && ins->dependency()->id() < outerLoop->firstInstruction()->id()) { IonSpewAliasInfo("Load", ins, "may be invariant in outer loop"); if (!outerLoop->addInvariantLoad(ins)) { return false; } } } } loop_ = loop_->outer(); } } spewDependencyList(); MOZ_ASSERT(loop_ == nullptr); return true; }