/* * Copyright (C) 2015 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "licm.h" #include "side_effects_analysis.h" namespace art { static bool IsPhiOf(HInstruction* instruction, HBasicBlock* block) { return instruction->IsPhi() && instruction->GetBlock() == block; } /** * Returns whether `instruction` has all its inputs and environment defined * before the loop it is in. */ static bool InputsAreDefinedBeforeLoop(HInstruction* instruction) { DCHECK(instruction->IsInLoop()); HLoopInformation* info = instruction->GetBlock()->GetLoopInformation(); for (const HInstruction* input : instruction->GetInputs()) { HLoopInformation* input_loop = input->GetBlock()->GetLoopInformation(); // We only need to check whether the input is defined in the loop. If it is not // it is defined before the loop. if (input_loop != nullptr && input_loop->IsIn(*info)) { return false; } } for (HEnvironment* environment = instruction->GetEnvironment(); environment != nullptr; environment = environment->GetParent()) { for (size_t i = 0, e = environment->Size(); i < e; ++i) { HInstruction* input = environment->GetInstructionAt(i); if (input != nullptr) { HLoopInformation* input_loop = input->GetBlock()->GetLoopInformation(); if (input_loop != nullptr && input_loop->IsIn(*info)) { // We can move an instruction that takes a loop header phi in the environment: // we will just replace that phi with its first input later in `UpdateLoopPhisIn`. bool is_loop_header_phi = IsPhiOf(input, info->GetHeader()); if (!is_loop_header_phi) { return false; } } } } } return true; } /** * If `environment` has a loop header phi, we replace it with its first input. */ static void UpdateLoopPhisIn(HEnvironment* environment, HLoopInformation* info) { for (; environment != nullptr; environment = environment->GetParent()) { for (size_t i = 0, e = environment->Size(); i < e; ++i) { HInstruction* input = environment->GetInstructionAt(i); if (input != nullptr && IsPhiOf(input, info->GetHeader())) { environment->RemoveAsUserOfInput(i); HInstruction* incoming = input->InputAt(0); environment->SetRawEnvAt(i, incoming); incoming->AddEnvUseAt(environment, i); } } } } bool LICM::Run() { bool didLICM = false; DCHECK(side_effects_.HasRun()); // Only used during debug. ArenaBitVector* visited = nullptr; if (kIsDebugBuild) { visited = new (graph_->GetAllocator()) ArenaBitVector(graph_->GetAllocator(), graph_->GetBlocks().size(), false, kArenaAllocLICM); } // Post order visit to visit inner loops before outer loops. for (HBasicBlock* block : graph_->GetPostOrder()) { if (!block->IsLoopHeader()) { // Only visit the loop when we reach the header. continue; } HLoopInformation* loop_info = block->GetLoopInformation(); SideEffects loop_effects = side_effects_.GetLoopEffects(block); HBasicBlock* pre_header = loop_info->GetPreHeader(); for (HBlocksInLoopIterator it_loop(*loop_info); !it_loop.Done(); it_loop.Advance()) { HBasicBlock* inner = it_loop.Current(); DCHECK(inner->IsInLoop()); if (inner->GetLoopInformation() != loop_info) { // Thanks to post order visit, inner loops were already visited. DCHECK(visited->IsBitSet(inner->GetBlockId())); continue; } if (kIsDebugBuild) { visited->SetBit(inner->GetBlockId()); } if (loop_info->ContainsIrreducibleLoop()) { // We cannot licm in an irreducible loop, or in a natural loop containing an // irreducible loop. continue; } DCHECK(!loop_info->IsIrreducible()); // We can move an instruction that can throw only as long as it is the first visible // instruction (throw or write) in the loop. Note that the first potentially visible // instruction that is not hoisted stops this optimization. Non-throwing instructions, // on the other hand, can still be hoisted. bool found_first_non_hoisted_visible_instruction_in_loop = !inner->IsLoopHeader(); for (HInstructionIterator inst_it(inner->GetInstructions()); !inst_it.Done(); inst_it.Advance()) { HInstruction* instruction = inst_it.Current(); bool can_move = false; if (instruction->CanBeMoved() && InputsAreDefinedBeforeLoop(instruction)) { if (instruction->CanThrow()) { if (!found_first_non_hoisted_visible_instruction_in_loop) { DCHECK(instruction->GetBlock()->IsLoopHeader()); if (instruction->IsClinitCheck()) { // clinit is only done once, and since all visible instructions // in the loop header so far have been hoisted out, we can hoist // the clinit check out also. can_move = true; } else if (!instruction->GetSideEffects().MayDependOn(loop_effects)) { can_move = true; } } } else if (!instruction->GetSideEffects().MayDependOn(loop_effects)) { can_move = true; } } if (can_move) { // We need to update the environment if the instruction has a loop header // phi in it. if (instruction->NeedsEnvironment()) { UpdateLoopPhisIn(instruction->GetEnvironment(), loop_info); } else { DCHECK(!instruction->HasEnvironment()); } instruction->MoveBefore(pre_header->GetLastInstruction()); MaybeRecordStat(stats_, MethodCompilationStat::kLoopInvariantMoved); didLICM = true; } if (!can_move && (instruction->CanThrow() || instruction->DoesAnyWrite())) { // If `instruction` can do something visible (throw or write), // we cannot move further instructions that can throw. found_first_non_hoisted_visible_instruction_in_loop = true; } } } } return didLICM; } } // namespace art