d07a2eb806
This way we don't clash with the ASSERT* macros defined by GoogleTest, and we are one step closer to being able to replace our homegrown base/ with base/ from Chrome. R=jochen@chromium.org, svenpanne@chromium.org Review URL: https://codereview.chromium.org/430503007 git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@22812 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
232 lines
7.9 KiB
C++
232 lines
7.9 KiB
C++
// Copyright 2013 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "src/hydrogen-environment-liveness.h"
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namespace v8 {
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namespace internal {
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HEnvironmentLivenessAnalysisPhase::HEnvironmentLivenessAnalysisPhase(
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HGraph* graph)
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: HPhase("H_Environment liveness analysis", graph),
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block_count_(graph->blocks()->length()),
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maximum_environment_size_(graph->maximum_environment_size()),
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live_at_block_start_(block_count_, zone()),
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first_simulate_(block_count_, zone()),
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first_simulate_invalid_for_index_(block_count_, zone()),
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markers_(maximum_environment_size_, zone()),
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collect_markers_(true),
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last_simulate_(NULL),
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went_live_since_last_simulate_(maximum_environment_size_, zone()) {
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DCHECK(maximum_environment_size_ > 0);
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for (int i = 0; i < block_count_; ++i) {
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live_at_block_start_.Add(
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new(zone()) BitVector(maximum_environment_size_, zone()), zone());
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first_simulate_.Add(NULL, zone());
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first_simulate_invalid_for_index_.Add(
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new(zone()) BitVector(maximum_environment_size_, zone()), zone());
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}
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}
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void HEnvironmentLivenessAnalysisPhase::ZapEnvironmentSlot(
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int index, HSimulate* simulate) {
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int operand_index = simulate->ToOperandIndex(index);
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if (operand_index == -1) {
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simulate->AddAssignedValue(index, graph()->GetConstantUndefined());
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} else {
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simulate->SetOperandAt(operand_index, graph()->GetConstantUndefined());
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}
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}
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void HEnvironmentLivenessAnalysisPhase::ZapEnvironmentSlotsInSuccessors(
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HBasicBlock* block, BitVector* live) {
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// When a value is live in successor A but dead in B, we must
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// explicitly zap it in B.
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for (HSuccessorIterator it(block->end()); !it.Done(); it.Advance()) {
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HBasicBlock* successor = it.Current();
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int successor_id = successor->block_id();
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BitVector* live_in_successor = live_at_block_start_[successor_id];
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if (live_in_successor->Equals(*live)) continue;
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for (int i = 0; i < live->length(); ++i) {
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if (!live->Contains(i)) continue;
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if (live_in_successor->Contains(i)) continue;
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if (first_simulate_invalid_for_index_.at(successor_id)->Contains(i)) {
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continue;
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}
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HSimulate* simulate = first_simulate_.at(successor_id);
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if (simulate == NULL) continue;
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DCHECK(VerifyClosures(simulate->closure(),
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block->last_environment()->closure()));
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ZapEnvironmentSlot(i, simulate);
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}
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}
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}
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void HEnvironmentLivenessAnalysisPhase::ZapEnvironmentSlotsForInstruction(
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HEnvironmentMarker* marker) {
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if (!marker->CheckFlag(HValue::kEndsLiveRange)) return;
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HSimulate* simulate = marker->next_simulate();
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if (simulate != NULL) {
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DCHECK(VerifyClosures(simulate->closure(), marker->closure()));
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ZapEnvironmentSlot(marker->index(), simulate);
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}
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}
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void HEnvironmentLivenessAnalysisPhase::UpdateLivenessAtBlockEnd(
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HBasicBlock* block,
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BitVector* live) {
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// Liveness at the end of each block: union of liveness in successors.
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live->Clear();
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for (HSuccessorIterator it(block->end()); !it.Done(); it.Advance()) {
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live->Union(*live_at_block_start_[it.Current()->block_id()]);
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}
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}
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void HEnvironmentLivenessAnalysisPhase::UpdateLivenessAtInstruction(
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HInstruction* instr,
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BitVector* live) {
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switch (instr->opcode()) {
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case HValue::kEnvironmentMarker: {
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HEnvironmentMarker* marker = HEnvironmentMarker::cast(instr);
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int index = marker->index();
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if (!live->Contains(index)) {
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marker->SetFlag(HValue::kEndsLiveRange);
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} else {
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marker->ClearFlag(HValue::kEndsLiveRange);
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}
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if (!went_live_since_last_simulate_.Contains(index)) {
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marker->set_next_simulate(last_simulate_);
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}
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if (marker->kind() == HEnvironmentMarker::LOOKUP) {
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live->Add(index);
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} else {
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DCHECK(marker->kind() == HEnvironmentMarker::BIND);
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live->Remove(index);
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went_live_since_last_simulate_.Add(index);
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}
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if (collect_markers_) {
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// Populate |markers_| list during the first pass.
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markers_.Add(marker, zone());
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}
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break;
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}
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case HValue::kLeaveInlined:
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// No environment values are live at the end of an inlined section.
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live->Clear();
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last_simulate_ = NULL;
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// The following DCHECKs guard the assumption used in case
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// kEnterInlined below:
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DCHECK(instr->next()->IsSimulate());
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DCHECK(instr->next()->next()->IsGoto());
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break;
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case HValue::kEnterInlined: {
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// Those environment values are live that are live at any return
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// target block. Here we make use of the fact that the end of an
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// inline sequence always looks like this: HLeaveInlined, HSimulate,
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// HGoto (to return_target block), with no environment lookups in
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// between (see DCHECKs above).
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HEnterInlined* enter = HEnterInlined::cast(instr);
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live->Clear();
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for (int i = 0; i < enter->return_targets()->length(); ++i) {
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int return_id = enter->return_targets()->at(i)->block_id();
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live->Union(*live_at_block_start_[return_id]);
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}
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last_simulate_ = NULL;
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break;
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}
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case HValue::kSimulate:
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last_simulate_ = HSimulate::cast(instr);
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went_live_since_last_simulate_.Clear();
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break;
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default:
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break;
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}
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}
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void HEnvironmentLivenessAnalysisPhase::Run() {
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DCHECK(maximum_environment_size_ > 0);
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// Main iteration. Compute liveness of environment slots, and store it
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// for each block until it doesn't change any more. For efficiency, visit
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// blocks in reverse order and walk backwards through each block. We
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// need several iterations to propagate liveness through nested loops.
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BitVector live(maximum_environment_size_, zone());
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BitVector worklist(block_count_, zone());
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for (int i = 0; i < block_count_; ++i) {
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worklist.Add(i);
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}
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while (!worklist.IsEmpty()) {
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for (int block_id = block_count_ - 1; block_id >= 0; --block_id) {
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if (!worklist.Contains(block_id)) {
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continue;
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}
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worklist.Remove(block_id);
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last_simulate_ = NULL;
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HBasicBlock* block = graph()->blocks()->at(block_id);
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UpdateLivenessAtBlockEnd(block, &live);
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for (HInstruction* instr = block->end(); instr != NULL;
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instr = instr->previous()) {
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UpdateLivenessAtInstruction(instr, &live);
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}
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// Reached the start of the block, do necessary bookkeeping:
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// store computed information for this block and add predecessors
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// to the work list as necessary.
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first_simulate_.Set(block_id, last_simulate_);
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first_simulate_invalid_for_index_[block_id]->CopyFrom(
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went_live_since_last_simulate_);
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if (live_at_block_start_[block_id]->UnionIsChanged(live)) {
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for (int i = 0; i < block->predecessors()->length(); ++i) {
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worklist.Add(block->predecessors()->at(i)->block_id());
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}
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if (block->IsInlineReturnTarget()) {
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worklist.Add(block->inlined_entry_block()->block_id());
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}
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}
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}
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// Only collect bind/lookup instructions during the first pass.
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collect_markers_ = false;
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}
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// Analysis finished. Zap dead environment slots.
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for (int i = 0; i < markers_.length(); ++i) {
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ZapEnvironmentSlotsForInstruction(markers_[i]);
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}
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for (int block_id = block_count_ - 1; block_id >= 0; --block_id) {
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HBasicBlock* block = graph()->blocks()->at(block_id);
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UpdateLivenessAtBlockEnd(block, &live);
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ZapEnvironmentSlotsInSuccessors(block, &live);
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}
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// Finally, remove the HEnvironment{Bind,Lookup} markers.
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for (int i = 0; i < markers_.length(); ++i) {
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markers_[i]->DeleteAndReplaceWith(NULL);
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}
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}
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#ifdef DEBUG
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bool HEnvironmentLivenessAnalysisPhase::VerifyClosures(
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Handle<JSFunction> a, Handle<JSFunction> b) {
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Heap::RelocationLock for_heap_access(isolate()->heap());
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AllowHandleDereference for_verification;
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return a.is_identical_to(b);
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}
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#endif
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} } // namespace v8::internal
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