// Copyright 2015 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/compiler/control-flow-optimizer.h" #include "src/codegen/tick-counter.h" #include "src/compiler/common-operator.h" #include "src/compiler/graph.h" #include "src/compiler/node-matchers.h" #include "src/compiler/node-properties.h" namespace v8 { namespace internal { namespace compiler { ControlFlowOptimizer::ControlFlowOptimizer(Graph* graph, CommonOperatorBuilder* common, MachineOperatorBuilder* machine, TickCounter* tick_counter, Zone* zone) : graph_(graph), common_(common), machine_(machine), queue_(zone), queued_(graph, 2), zone_(zone), tick_counter_(tick_counter) {} void ControlFlowOptimizer::Optimize() { Enqueue(graph()->start()); while (!queue_.empty()) { tick_counter_->TickAndMaybeEnterSafepoint(); Node* node = queue_.front(); queue_.pop(); if (node->IsDead()) continue; switch (node->opcode()) { case IrOpcode::kBranch: VisitBranch(node); break; default: VisitNode(node); break; } } } void ControlFlowOptimizer::Enqueue(Node* node) { DCHECK_NOT_NULL(node); if (node->IsDead() || queued_.Get(node)) return; queued_.Set(node, true); queue_.push(node); } void ControlFlowOptimizer::VisitNode(Node* node) { for (Edge edge : node->use_edges()) { if (NodeProperties::IsControlEdge(edge)) { Enqueue(edge.from()); } } } void ControlFlowOptimizer::VisitBranch(Node* node) { DCHECK_EQ(IrOpcode::kBranch, node->opcode()); if (TryBuildSwitch(node)) return; VisitNode(node); } bool ControlFlowOptimizer::TryBuildSwitch(Node* node) { DCHECK_EQ(IrOpcode::kBranch, node->opcode()); Node* branch = node; if (BranchHintOf(branch->op()) != BranchHint::kNone) return false; Node* cond = NodeProperties::GetValueInput(branch, 0); if (cond->opcode() != IrOpcode::kWord32Equal) return false; Int32BinopMatcher m(cond); Node* index = m.left().node(); if (!m.right().HasResolvedValue()) return false; int32_t value = m.right().ResolvedValue(); ZoneSet values(zone()); values.insert(value); Node* if_false; Node* if_true; int32_t order = 1; while (true) { BranchMatcher matcher(branch); DCHECK(matcher.Matched()); if_true = matcher.IfTrue(); if_false = matcher.IfFalse(); auto it = if_false->uses().begin(); if (it == if_false->uses().end()) break; Node* branch1 = *it++; if (branch1->opcode() != IrOpcode::kBranch) break; if (BranchHintOf(branch1->op()) != BranchHint::kNone) break; if (it != if_false->uses().end()) break; Node* cond1 = branch1->InputAt(0); if (cond1->opcode() != IrOpcode::kWord32Equal) break; Int32BinopMatcher m1(cond1); if (m1.left().node() != index) break; if (!m1.right().HasResolvedValue()) break; int32_t value1 = m1.right().ResolvedValue(); if (values.find(value1) != values.end()) break; DCHECK_NE(value, value1); if (branch != node) { branch->NullAllInputs(); if_true->ReplaceInput(0, node); } NodeProperties::ChangeOp(if_true, common()->IfValue(value, order++)); if_false->NullAllInputs(); Enqueue(if_true); branch = branch1; value = value1; values.insert(value); } DCHECK_EQ(IrOpcode::kBranch, node->opcode()); DCHECK_EQ(IrOpcode::kBranch, branch->opcode()); if (branch == node) { DCHECK_EQ(1u, values.size()); return false; } DCHECK_LT(1u, values.size()); node->ReplaceInput(0, index); NodeProperties::ChangeOp(node, common()->Switch(values.size() + 1)); if_true->ReplaceInput(0, node); NodeProperties::ChangeOp(if_true, common()->IfValue(value, order++)); Enqueue(if_true); if_false->ReplaceInput(0, node); NodeProperties::ChangeOp(if_false, common()->IfDefault()); Enqueue(if_false); branch->NullAllInputs(); return true; } } // namespace compiler } // namespace internal } // namespace v8