// Copyright 2013 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "src/hydrogen-flow-engine.h" #include "src/hydrogen-instructions.h" #include "src/hydrogen-removable-simulates.h" namespace v8 { namespace internal { class State : public ZoneObject { public: explicit State(Zone* zone) : zone_(zone), mergelist_(2, zone), first_(true), mode_(NORMAL) { } State* Process(HInstruction* instr, Zone* zone) { if (FLAG_trace_removable_simulates) { PrintF("[%s with state %p in B%d: #%d %s]\n", mode_ == NORMAL ? "processing" : "collecting", reinterpret_cast(this), instr->block()->block_id(), instr->id(), instr->Mnemonic()); } // Forward-merge "trains" of simulates after an instruction with observable // side effects to keep live ranges short. if (mode_ == COLLECT_CONSECUTIVE_SIMULATES) { if (instr->IsSimulate()) { HSimulate* current_simulate = HSimulate::cast(instr); if (current_simulate->is_candidate_for_removal() && !current_simulate->ast_id().IsNone()) { Remember(current_simulate); return this; } } FlushSimulates(); mode_ = NORMAL; } // Ensure there's a non-foldable HSimulate before an HEnterInlined to avoid // folding across HEnterInlined. ASSERT(!(instr->IsEnterInlined() && HSimulate::cast(instr->previous())->is_candidate_for_removal())); if (instr->IsLeaveInlined() || instr->IsReturn()) { // Never fold simulates from inlined environments into simulates in the // outer environment. Simply remove all accumulated simulates without // merging. This is safe because simulates after instructions with side // effects are never added to the merge list. The same reasoning holds for // return instructions. RemoveSimulates(); return this; } if (instr->IsControlInstruction()) { // Merge the accumulated simulates at the end of the block. FlushSimulates(); return this; } // Skip the non-simulates and the first simulate. if (!instr->IsSimulate()) return this; if (first_) { first_ = false; return this; } HSimulate* current_simulate = HSimulate::cast(instr); if (!current_simulate->is_candidate_for_removal()) { Remember(current_simulate); FlushSimulates(); } else if (current_simulate->ast_id().IsNone()) { ASSERT(current_simulate->next()->IsEnterInlined()); FlushSimulates(); } else if (current_simulate->previous()->HasObservableSideEffects()) { Remember(current_simulate); mode_ = COLLECT_CONSECUTIVE_SIMULATES; } else { Remember(current_simulate); } return this; } static State* Merge(State* succ_state, HBasicBlock* succ_block, State* pred_state, HBasicBlock* pred_block, Zone* zone) { return (succ_state == NULL) ? pred_state->Copy(succ_block, pred_block, zone) : succ_state->Merge(succ_block, pred_state, pred_block, zone); } static State* Finish(State* state, HBasicBlock* block, Zone* zone) { if (FLAG_trace_removable_simulates) { PrintF("[preparing state %p for B%d]\n", reinterpret_cast(state), block->block_id()); } // For our current local analysis, we should not remember simulates across // block boundaries. ASSERT(!state->HasRememberedSimulates()); // Nasty heuristic: Never remove the first simulate in a block. This // just so happens to have a beneficial effect on register allocation. state->first_ = true; return state; } private: explicit State(const State& other) : zone_(other.zone_), mergelist_(other.mergelist_, other.zone_), first_(other.first_), mode_(other.mode_) { } enum Mode { NORMAL, COLLECT_CONSECUTIVE_SIMULATES }; bool HasRememberedSimulates() const { return !mergelist_.is_empty(); } void Remember(HSimulate* sim) { mergelist_.Add(sim, zone_); } void FlushSimulates() { if (HasRememberedSimulates()) { mergelist_.RemoveLast()->MergeWith(&mergelist_); } } void RemoveSimulates() { while (HasRememberedSimulates()) { mergelist_.RemoveLast()->DeleteAndReplaceWith(NULL); } } State* Copy(HBasicBlock* succ_block, HBasicBlock* pred_block, Zone* zone) { State* copy = new(zone) State(*this); if (FLAG_trace_removable_simulates) { PrintF("[copy state %p from B%d to new state %p for B%d]\n", reinterpret_cast(this), pred_block->block_id(), reinterpret_cast(copy), succ_block->block_id()); } return copy; } State* Merge(HBasicBlock* succ_block, State* pred_state, HBasicBlock* pred_block, Zone* zone) { // For our current local analysis, we should not remember simulates across // block boundaries. ASSERT(!pred_state->HasRememberedSimulates()); ASSERT(!HasRememberedSimulates()); if (FLAG_trace_removable_simulates) { PrintF("[merge state %p from B%d into %p for B%d]\n", reinterpret_cast(pred_state), pred_block->block_id(), reinterpret_cast(this), succ_block->block_id()); } return this; } Zone* zone_; ZoneList mergelist_; bool first_; Mode mode_; }; // We don't use effects here. class Effects : public ZoneObject { public: explicit Effects(Zone* zone) { } bool Disabled() { return true; } void Process(HInstruction* instr, Zone* zone) { } void Apply(State* state) { } void Union(Effects* that, Zone* zone) { } }; void HMergeRemovableSimulatesPhase::Run() { HFlowEngine engine(graph(), zone()); State* state = new(zone()) State(zone()); engine.AnalyzeDominatedBlocks(graph()->blocks()->at(0), state); } } } // namespace v8::internal