Move Hydrogen and Lithium to src/crankshaft/

src/hydrogen-escape-analysis.cc

-// 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-escape-analysis.h"
-
-namespace v8 {
-namespace internal {
-
-
-bool HEscapeAnalysisPhase::HasNoEscapingUses(HValue* value, int size) {
-  for (HUseIterator it(value->uses()); !it.Done(); it.Advance()) {
-    HValue* use = it.value();
-    if (use->HasEscapingOperandAt(it.index())) {
-      if (FLAG_trace_escape_analysis) {
-        PrintF("#%d (%s) escapes through #%d (%s) @%d\n", value->id(),
-               value->Mnemonic(), use->id(), use->Mnemonic(), it.index());
-      }
-      return false;
-    }
-    if (use->HasOutOfBoundsAccess(size)) {
-      if (FLAG_trace_escape_analysis) {
-        PrintF("#%d (%s) out of bounds at #%d (%s) @%d\n", value->id(),
-               value->Mnemonic(), use->id(), use->Mnemonic(), it.index());
-      }
-      return false;
-    }
-    int redefined_index = use->RedefinedOperandIndex();
-    if (redefined_index == it.index() && !HasNoEscapingUses(use, size)) {
-      if (FLAG_trace_escape_analysis) {
-        PrintF("#%d (%s) escapes redefinition #%d (%s) @%d\n", value->id(),
-               value->Mnemonic(), use->id(), use->Mnemonic(), it.index());
-      }
-      return false;
-    }
-  }
-  return true;
-}
-
-
-void HEscapeAnalysisPhase::CollectCapturedValues() {
-  int block_count = graph()->blocks()->length();
-  for (int i = 0; i < block_count; ++i) {
-    HBasicBlock* block = graph()->blocks()->at(i);
-    for (HInstructionIterator it(block); !it.Done(); it.Advance()) {
-      HInstruction* instr = it.Current();
-      if (!instr->IsAllocate()) continue;
-      HAllocate* allocate = HAllocate::cast(instr);
-      if (!allocate->size()->IsInteger32Constant()) continue;
-      int size_in_bytes = allocate->size()->GetInteger32Constant();
-      if (HasNoEscapingUses(instr, size_in_bytes)) {
-        if (FLAG_trace_escape_analysis) {
-          PrintF("#%d (%s) is being captured\n", instr->id(),
-                 instr->Mnemonic());
-        }
-        captured_.Add(instr, zone());
-      }
-    }
-  }
-}
-
-
-HCapturedObject* HEscapeAnalysisPhase::NewState(HInstruction* previous) {
-  Zone* zone = graph()->zone();
-  HCapturedObject* state =
-      new(zone) HCapturedObject(number_of_values_, number_of_objects_, zone);
-  state->InsertAfter(previous);
-  return state;
-}
-
-
-// Create a new state for replacing HAllocate instructions.
-HCapturedObject* HEscapeAnalysisPhase::NewStateForAllocation(
-    HInstruction* previous) {
-  HConstant* undefined = graph()->GetConstantUndefined();
-  HCapturedObject* state = NewState(previous);
-  for (int index = 0; index < number_of_values_; index++) {
-    state->SetOperandAt(index, undefined);
-  }
-  return state;
-}
-
-
-// Create a new state full of phis for loop header entries.
-HCapturedObject* HEscapeAnalysisPhase::NewStateForLoopHeader(
-    HInstruction* previous,
-    HCapturedObject* old_state) {
-  HBasicBlock* block = previous->block();
-  HCapturedObject* state = NewState(previous);
-  for (int index = 0; index < number_of_values_; index++) {
-    HValue* operand = old_state->OperandAt(index);
-    HPhi* phi = NewPhiAndInsert(block, operand, index);
-    state->SetOperandAt(index, phi);
-  }
-  return state;
-}
-
-
-// Create a new state by copying an existing one.
-HCapturedObject* HEscapeAnalysisPhase::NewStateCopy(
-    HInstruction* previous,
-    HCapturedObject* old_state) {
-  HCapturedObject* state = NewState(previous);
-  for (int index = 0; index < number_of_values_; index++) {
-    HValue* operand = old_state->OperandAt(index);
-    state->SetOperandAt(index, operand);
-  }
-  return state;
-}
-
-
-// Insert a newly created phi into the given block and fill all incoming
-// edges with the given value.
-HPhi* HEscapeAnalysisPhase::NewPhiAndInsert(HBasicBlock* block,
-                                            HValue* incoming_value,
-                                            int index) {
-  Zone* zone = graph()->zone();
-  HPhi* phi = new(zone) HPhi(HPhi::kInvalidMergedIndex, zone);
-  for (int i = 0; i < block->predecessors()->length(); i++) {
-    phi->AddInput(incoming_value);
-  }
-  block->AddPhi(phi);
-  return phi;
-}
-
-
-// Insert a newly created value check as a replacement for map checks.
-HValue* HEscapeAnalysisPhase::NewMapCheckAndInsert(HCapturedObject* state,
-                                                   HCheckMaps* mapcheck) {
-  Zone* zone = graph()->zone();
-  HValue* value = state->map_value();
-  // TODO(mstarzinger): This will narrow a map check against a set of maps
-  // down to the first element in the set. Revisit and fix this.
-  HCheckValue* check = HCheckValue::New(graph()->isolate(), zone, NULL, value,
-                                        mapcheck->maps()->at(0), false);
-  check->InsertBefore(mapcheck);
-  return check;
-}
-
-
-// Replace a field load with a given value, forcing Smi representation if
-// necessary.
-HValue* HEscapeAnalysisPhase::NewLoadReplacement(
-    HLoadNamedField* load, HValue* load_value) {
-  HValue* replacement = load_value;
-  Representation representation = load->representation();
-  if (representation.IsSmiOrInteger32() || representation.IsDouble()) {
-    Zone* zone = graph()->zone();
-    HInstruction* new_instr = HForceRepresentation::New(
-        graph()->isolate(), zone, NULL, load_value, representation);
-    new_instr->InsertAfter(load);
-    replacement = new_instr;
-  }
-  return replacement;
-}
-
-
-// Performs a forward data-flow analysis of all loads and stores on the
-// given captured allocation. This uses a reverse post-order iteration
-// over affected basic blocks. All non-escaping instructions are handled
-// and replaced during the analysis.
-void HEscapeAnalysisPhase::AnalyzeDataFlow(HInstruction* allocate) {
-  HBasicBlock* allocate_block = allocate->block();
-  block_states_.AddBlock(NULL, graph()->blocks()->length(), zone());
-
-  // Iterate all blocks starting with the allocation block, since the
-  // allocation cannot dominate blocks that come before.
-  int start = allocate_block->block_id();
-  for (int i = start; i < graph()->blocks()->length(); i++) {
-    HBasicBlock* block = graph()->blocks()->at(i);
-    HCapturedObject* state = StateAt(block);
-
-    // Skip blocks that are not dominated by the captured allocation.
-    if (!allocate_block->Dominates(block) && allocate_block != block) continue;
-    if (FLAG_trace_escape_analysis) {
-      PrintF("Analyzing data-flow in B%d\n", block->block_id());
-    }
-
-    // Go through all instructions of the current block.
-    for (HInstructionIterator it(block); !it.Done(); it.Advance()) {
-      HInstruction* instr = it.Current();
-      switch (instr->opcode()) {
-        case HValue::kAllocate: {
-          if (instr != allocate) continue;
-          state = NewStateForAllocation(allocate);
-          break;
-        }
-        case HValue::kLoadNamedField: {
-          HLoadNamedField* load = HLoadNamedField::cast(instr);
-          int index = load->access().offset() / kPointerSize;
-          if (load->object() != allocate) continue;
-          DCHECK(load->access().IsInobject());
-          HValue* replacement =
-            NewLoadReplacement(load, state->OperandAt(index));
-          load->DeleteAndReplaceWith(replacement);
-          if (FLAG_trace_escape_analysis) {
-            PrintF("Replacing load #%d with #%d (%s)\n", load->id(),
-                   replacement->id(), replacement->Mnemonic());
-          }
-          break;
-        }
-        case HValue::kStoreNamedField: {
-          HStoreNamedField* store = HStoreNamedField::cast(instr);
-          int index = store->access().offset() / kPointerSize;
-          if (store->object() != allocate) continue;
-          DCHECK(store->access().IsInobject());
-          state = NewStateCopy(store->previous(), state);
-          state->SetOperandAt(index, store->value());
-          if (store->has_transition()) {
-            state->SetOperandAt(0, store->transition());
-          }
-          if (store->HasObservableSideEffects()) {
-            state->ReuseSideEffectsFromStore(store);
-          }
-          store->DeleteAndReplaceWith(store->ActualValue());
-          if (FLAG_trace_escape_analysis) {
-            PrintF("Replacing store #%d%s\n", instr->id(),
-                   store->has_transition() ? " (with transition)" : "");
-          }
-          break;
-        }
-        case HValue::kArgumentsObject:
-        case HValue::kCapturedObject:
-        case HValue::kSimulate: {
-          for (int i = 0; i < instr->OperandCount(); i++) {
-            if (instr->OperandAt(i) != allocate) continue;
-            instr->SetOperandAt(i, state);
-          }
-          break;
-        }
-        case HValue::kCheckHeapObject: {
-          HCheckHeapObject* check = HCheckHeapObject::cast(instr);
-          if (check->value() != allocate) continue;
-          check->DeleteAndReplaceWith(check->ActualValue());
-          break;
-        }
-        case HValue::kCheckMaps: {
-          HCheckMaps* mapcheck = HCheckMaps::cast(instr);
-          if (mapcheck->value() != allocate) continue;
-          NewMapCheckAndInsert(state, mapcheck);
-          mapcheck->DeleteAndReplaceWith(mapcheck->ActualValue());
-          break;
-        }
-        default:
-          // Nothing to see here, move along ...
-          break;
-      }
-    }
-
-    // Propagate the block state forward to all successor blocks.
-    for (int i = 0; i < block->end()->SuccessorCount(); i++) {
-      HBasicBlock* succ = block->end()->SuccessorAt(i);
-      if (!allocate_block->Dominates(succ)) continue;
-      if (succ->predecessors()->length() == 1) {
-        // Case 1: This is the only predecessor, just reuse state.
-        SetStateAt(succ, state);
-      } else if (StateAt(succ) == NULL && succ->IsLoopHeader()) {
-        // Case 2: This is a state that enters a loop header, be
-        // pessimistic about loop headers, add phis for all values.
-        SetStateAt(succ, NewStateForLoopHeader(succ->first(), state));
-      } else if (StateAt(succ) == NULL) {
-        // Case 3: This is the first state propagated forward to the
-        // successor, leave a copy of the current state.
-        SetStateAt(succ, NewStateCopy(succ->first(), state));
-      } else {
-        // Case 4: This is a state that needs merging with previously
-        // propagated states, potentially introducing new phis lazily or
-        // adding values to existing phis.
-        HCapturedObject* succ_state = StateAt(succ);
-        for (int index = 0; index < number_of_values_; index++) {
-          HValue* operand = state->OperandAt(index);
-          HValue* succ_operand = succ_state->OperandAt(index);
-          if (succ_operand->IsPhi() && succ_operand->block() == succ) {
-            // Phi already exists, add operand.
-            HPhi* phi = HPhi::cast(succ_operand);
-            phi->SetOperandAt(succ->PredecessorIndexOf(block), operand);
-          } else if (succ_operand != operand) {
-            // Phi does not exist, introduce one.
-            HPhi* phi = NewPhiAndInsert(succ, succ_operand, index);
-            phi->SetOperandAt(succ->PredecessorIndexOf(block), operand);
-            succ_state->SetOperandAt(index, phi);
-          }
-        }
-      }
-    }
-  }
-
-  // All uses have been handled.
-  DCHECK(allocate->HasNoUses());
-  allocate->DeleteAndReplaceWith(NULL);
-}
-
-
-void HEscapeAnalysisPhase::PerformScalarReplacement() {
-  for (int i = 0; i < captured_.length(); i++) {
-    HAllocate* allocate = HAllocate::cast(captured_.at(i));
-
-    // Compute number of scalar values and start with clean slate.
-    int size_in_bytes = allocate->size()->GetInteger32Constant();
-    number_of_values_ = size_in_bytes / kPointerSize;
-    number_of_objects_++;
-    block_states_.Rewind(0);
-
-    // Perform actual analysis step.
-    AnalyzeDataFlow(allocate);
-
-    cumulative_values_ += number_of_values_;
-    DCHECK(allocate->HasNoUses());
-    DCHECK(!allocate->IsLinked());
-  }
-}
-
-
-void HEscapeAnalysisPhase::Run() {
-  // TODO(mstarzinger): We disable escape analysis with OSR for now, because
-  // spill slots might be uninitialized. Needs investigation.
-  if (graph()->has_osr()) return;
-  int max_fixpoint_iteration_count = FLAG_escape_analysis_iterations;
-  for (int i = 0; i < max_fixpoint_iteration_count; i++) {
-    CollectCapturedValues();
-    if (captured_.is_empty()) break;
-    PerformScalarReplacement();
-    captured_.Rewind(0);
-  }
-}
-
-
-}  // namespace internal
-}  // namespace v8