// Copyright 2016 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/load-elimination.h" #include "src/compiler/access-builder.h" #include "src/compiler/js-graph.h" #include "src/compiler/node.h" #include "src/compiler/simplified-operator.h" #include "test/unittests/compiler/graph-reducer-unittest.h" #include "test/unittests/compiler/graph-unittest.h" #include "test/unittests/compiler/node-test-utils.h" using testing::_; using testing::StrictMock; namespace v8 { namespace internal { namespace compiler { class LoadEliminationTest : public TypedGraphTest { public: LoadEliminationTest() : TypedGraphTest(3), simplified_(zone()), jsgraph_(isolate(), graph(), common(), nullptr, simplified(), nullptr) { } ~LoadEliminationTest() override = default; protected: JSGraph* jsgraph() { return &jsgraph_; } SimplifiedOperatorBuilder* simplified() { return &simplified_; } private: SimplifiedOperatorBuilder simplified_; JSGraph jsgraph_; }; TEST_F(LoadEliminationTest, LoadElementAndLoadElement) { Node* object = Parameter(Type::Any(), 0); Node* effect = graph()->start(); Node* control = graph()->start(); Node* index = Parameter(Type::UnsignedSmall(), 1); ElementAccess const access = {kTaggedBase, kTaggedSize, Type::Any(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(graph()->start()); Node* load1 = effect = graph()->NewNode(simplified()->LoadElement(access), object, index, effect, control); load_elimination.Reduce(load1); Node* load2 = effect = graph()->NewNode(simplified()->LoadElement(access), object, index, effect, control); EXPECT_CALL(editor, ReplaceWithValue(load2, load1, load1, _)); Reduction r = load_elimination.Reduce(load2); ASSERT_TRUE(r.Changed()); EXPECT_EQ(load1, r.replacement()); } TEST_F(LoadEliminationTest, StoreElementAndLoadElement) { Node* object = Parameter(Type::Any(), 0); Node* effect = graph()->start(); Node* control = graph()->start(); Node* index = Parameter(Type::UnsignedSmall(), 1); Node* value = Parameter(Type::Any(), 2); ElementAccess const access = {kTaggedBase, kTaggedSize, Type::Any(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(graph()->start()); Node* store = effect = graph()->NewNode(simplified()->StoreElement(access), object, index, value, effect, control); load_elimination.Reduce(store); Node* load = effect = graph()->NewNode(simplified()->LoadElement(access), object, index, effect, control); EXPECT_CALL(editor, ReplaceWithValue(load, value, store, _)); Reduction r = load_elimination.Reduce(load); ASSERT_TRUE(r.Changed()); EXPECT_EQ(value, r.replacement()); } TEST_F(LoadEliminationTest, StoreElementAndStoreFieldAndLoadElement) { Node* object = Parameter(Type::Any(), 0); Node* effect = graph()->start(); Node* control = graph()->start(); Node* index = Parameter(Type::UnsignedSmall(), 1); Node* value = Parameter(Type::Any(), 2); ElementAccess const access = {kTaggedBase, kTaggedSize, Type::Any(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(graph()->start()); Node* store1 = effect = graph()->NewNode(simplified()->StoreElement(access), object, index, value, effect, control); load_elimination.Reduce(store1); Node* store2 = effect = graph()->NewNode(simplified()->StoreField(AccessBuilder::ForMap()), object, value, effect, control); load_elimination.Reduce(store2); Node* load = effect = graph()->NewNode(simplified()->LoadElement(access), object, index, effect, control); EXPECT_CALL(editor, ReplaceWithValue(load, value, store2, _)); Reduction r = load_elimination.Reduce(load); ASSERT_TRUE(r.Changed()); EXPECT_EQ(value, r.replacement()); } TEST_F(LoadEliminationTest, LoadFieldAndLoadField) { Node* object = Parameter(Type::Any(), 0); Node* effect = graph()->start(); Node* control = graph()->start(); FieldAccess const access = {kTaggedBase, kTaggedSize, MaybeHandle(), MaybeHandle(), Type::Any(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(graph()->start()); Node* load1 = effect = graph()->NewNode(simplified()->LoadField(access), object, effect, control); load_elimination.Reduce(load1); Node* load2 = effect = graph()->NewNode(simplified()->LoadField(access), object, effect, control); EXPECT_CALL(editor, ReplaceWithValue(load2, load1, load1, _)); Reduction r = load_elimination.Reduce(load2); ASSERT_TRUE(r.Changed()); EXPECT_EQ(load1, r.replacement()); } TEST_F(LoadEliminationTest, StoreFieldAndLoadField) { Node* object = Parameter(Type::Any(), 0); Node* value = Parameter(Type::Any(), 1); Node* effect = graph()->start(); Node* control = graph()->start(); FieldAccess access = {kTaggedBase, kTaggedSize, MaybeHandle(), MaybeHandle(), Type::Any(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(graph()->start()); Node* store = effect = graph()->NewNode(simplified()->StoreField(access), object, value, effect, control); load_elimination.Reduce(store); Node* load = effect = graph()->NewNode(simplified()->LoadField(access), object, effect, control); EXPECT_CALL(editor, ReplaceWithValue(load, value, store, _)); Reduction r = load_elimination.Reduce(load); ASSERT_TRUE(r.Changed()); EXPECT_EQ(value, r.replacement()); } TEST_F(LoadEliminationTest, StoreFieldAndKillFields) { Node* object = Parameter(Type::Any(), 0); Node* value = Parameter(Type::Any(), 1); Node* effect = graph()->start(); Node* control = graph()->start(); FieldAccess access1 = {kTaggedBase, kTaggedSize, MaybeHandle(), MaybeHandle(), Type::Any(), MachineType::AnyTagged(), kNoWriteBarrier}; // Offset that out of field cache size. FieldAccess access2 = {kTaggedBase, 2048 * kTaggedSize, MaybeHandle(), MaybeHandle(), Type::Any(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(graph()->start()); Node* store1 = effect = graph()->NewNode(simplified()->StoreField(access1), object, value, effect, control); load_elimination.Reduce(store1); // Invalidate caches of object. Node* store2 = effect = graph()->NewNode(simplified()->StoreField(access2), object, value, effect, control); load_elimination.Reduce(store2); Node* store3 = graph()->NewNode(simplified()->StoreField(access1), object, value, effect, control); Reduction r = load_elimination.Reduce(store3); // store3 shall not be replaced, since caches were invalidated. EXPECT_EQ(store3, r.replacement()); } TEST_F(LoadEliminationTest, StoreFieldAndStoreElementAndLoadField) { Node* object = Parameter(Type::Any(), 0); Node* value = Parameter(Type::Any(), 1); Node* index = Parameter(Type::UnsignedSmall(), 2); Node* effect = graph()->start(); Node* control = graph()->start(); FieldAccess access = {kTaggedBase, kTaggedSize, MaybeHandle(), MaybeHandle(), Type::Any(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(graph()->start()); Node* store1 = effect = graph()->NewNode(simplified()->StoreField(access), object, value, effect, control); load_elimination.Reduce(store1); Node* store2 = effect = graph()->NewNode( simplified()->StoreElement(AccessBuilder::ForFixedArrayElement()), object, index, object, effect, control); load_elimination.Reduce(store2); Node* load = effect = graph()->NewNode(simplified()->LoadField(access), object, effect, control); EXPECT_CALL(editor, ReplaceWithValue(load, value, store2, _)); Reduction r = load_elimination.Reduce(load); ASSERT_TRUE(r.Changed()); EXPECT_EQ(value, r.replacement()); } TEST_F(LoadEliminationTest, LoadElementOnTrueBranchOfDiamond) { Node* object = Parameter(Type::Any(), 0); Node* index = Parameter(Type::UnsignedSmall(), 1); Node* check = Parameter(Type::Boolean(), 2); Node* effect = graph()->start(); Node* control = graph()->start(); ElementAccess const access = {kTaggedBase, kTaggedSize, Type::Any(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(graph()->start()); Node* branch = graph()->NewNode(common()->Branch(), check, control); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* etrue = graph()->NewNode(simplified()->LoadElement(access), object, index, effect, if_true); load_elimination.Reduce(etrue); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); Node* efalse = effect; control = graph()->NewNode(common()->Merge(2), if_true, if_false); effect = graph()->NewNode(common()->EffectPhi(2), etrue, efalse, control); load_elimination.Reduce(effect); Node* load = graph()->NewNode(simplified()->LoadElement(access), object, index, effect, control); Reduction r = load_elimination.Reduce(load); ASSERT_TRUE(r.Changed()); EXPECT_EQ(load, r.replacement()); } TEST_F(LoadEliminationTest, LoadElementOnFalseBranchOfDiamond) { Node* object = Parameter(Type::Any(), 0); Node* index = Parameter(Type::UnsignedSmall(), 1); Node* check = Parameter(Type::Boolean(), 2); Node* effect = graph()->start(); Node* control = graph()->start(); ElementAccess const access = {kTaggedBase, kTaggedSize, Type::Any(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(graph()->start()); Node* branch = graph()->NewNode(common()->Branch(), check, control); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* etrue = effect; Node* if_false = graph()->NewNode(common()->IfFalse(), branch); Node* efalse = graph()->NewNode(simplified()->LoadElement(access), object, index, effect, if_false); load_elimination.Reduce(efalse); control = graph()->NewNode(common()->Merge(2), if_true, if_false); effect = graph()->NewNode(common()->EffectPhi(2), etrue, efalse, control); load_elimination.Reduce(effect); Node* load = graph()->NewNode(simplified()->LoadElement(access), object, index, effect, control); Reduction r = load_elimination.Reduce(load); ASSERT_TRUE(r.Changed()); EXPECT_EQ(load, r.replacement()); } TEST_F(LoadEliminationTest, LoadFieldOnFalseBranchOfDiamond) { Node* object = Parameter(Type::Any(), 0); Node* check = Parameter(Type::Boolean(), 1); Node* effect = graph()->start(); Node* control = graph()->start(); FieldAccess const access = {kTaggedBase, kTaggedSize, MaybeHandle(), MaybeHandle(), Type::Any(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(graph()->start()); Node* branch = graph()->NewNode(common()->Branch(), check, control); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* etrue = effect; Node* if_false = graph()->NewNode(common()->IfFalse(), branch); Node* efalse = graph()->NewNode(simplified()->LoadField(access), object, effect, if_false); load_elimination.Reduce(efalse); control = graph()->NewNode(common()->Merge(2), if_true, if_false); effect = graph()->NewNode(common()->EffectPhi(2), etrue, efalse, control); load_elimination.Reduce(effect); Node* load = graph()->NewNode(simplified()->LoadField(access), object, effect, control); Reduction r = load_elimination.Reduce(load); ASSERT_TRUE(r.Changed()); EXPECT_EQ(load, r.replacement()); } TEST_F(LoadEliminationTest, LoadFieldOnTrueBranchOfDiamond) { Node* object = Parameter(Type::Any(), 0); Node* check = Parameter(Type::Boolean(), 1); Node* effect = graph()->start(); Node* control = graph()->start(); FieldAccess const access = {kTaggedBase, kTaggedSize, MaybeHandle(), MaybeHandle(), Type::Any(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(graph()->start()); Node* branch = graph()->NewNode(common()->Branch(), check, control); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* etrue = graph()->NewNode(simplified()->LoadField(access), object, effect, if_true); load_elimination.Reduce(etrue); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); Node* efalse = effect; control = graph()->NewNode(common()->Merge(2), if_true, if_false); effect = graph()->NewNode(common()->EffectPhi(2), etrue, efalse, control); load_elimination.Reduce(effect); Node* load = graph()->NewNode(simplified()->LoadField(access), object, effect, control); Reduction r = load_elimination.Reduce(load); ASSERT_TRUE(r.Changed()); EXPECT_EQ(load, r.replacement()); } TEST_F(LoadEliminationTest, LoadFieldWithTypeMismatch) { Node* object = Parameter(Type::Any(), 0); Node* value = Parameter(Type::Signed32(), 1); Node* effect = graph()->start(); Node* control = graph()->start(); FieldAccess const access = {kTaggedBase, kTaggedSize, MaybeHandle(), MaybeHandle(), Type::Unsigned31(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(graph()->start()); effect = graph()->NewNode(simplified()->StoreField(access), object, value, effect, control); load_elimination.Reduce(effect); Node* load = graph()->NewNode(simplified()->LoadField(access), object, effect, control); EXPECT_CALL(editor, ReplaceWithValue(load, IsTypeGuard(value, _), _, _)); Reduction r = load_elimination.Reduce(load); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsTypeGuard(value, _)); } TEST_F(LoadEliminationTest, LoadElementWithTypeMismatch) { Node* object = Parameter(Type::Any(), 0); Node* index = Parameter(Type::UnsignedSmall(), 1); Node* value = Parameter(Type::Signed32(), 2); Node* effect = graph()->start(); Node* control = graph()->start(); ElementAccess const access = {kTaggedBase, kTaggedSize, Type::Unsigned31(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(graph()->start()); effect = graph()->NewNode(simplified()->StoreElement(access), object, index, value, effect, control); load_elimination.Reduce(effect); Node* load = graph()->NewNode(simplified()->LoadElement(access), object, index, effect, control); Reduction r = load_elimination.Reduce(load); ASSERT_TRUE(r.Changed()); EXPECT_EQ(load, r.replacement()); } TEST_F(LoadEliminationTest, AliasAnalysisForFinishRegion) { Node* value0 = Parameter(Type::Signed32(), 0); Node* value1 = Parameter(Type::Signed32(), 1); Node* effect = graph()->start(); Node* control = graph()->start(); FieldAccess const access = {kTaggedBase, kTaggedSize, MaybeHandle(), MaybeHandle(), Type::Signed32(), MachineType::AnyTagged(), kNoWriteBarrier}; StrictMock editor; LoadElimination load_elimination(&editor, jsgraph(), zone()); load_elimination.Reduce(effect); effect = graph()->NewNode( common()->BeginRegion(RegionObservability::kNotObservable), effect); load_elimination.Reduce(effect); Node* object0 = effect = graph()->NewNode( simplified()->Allocate(Type::Any(), AllocationType::kYoung), jsgraph()->Constant(16), effect, control); load_elimination.Reduce(effect); Node* region0 = effect = graph()->NewNode(common()->FinishRegion(), object0, effect); load_elimination.Reduce(effect); effect = graph()->NewNode( common()->BeginRegion(RegionObservability::kNotObservable), effect); load_elimination.Reduce(effect); Node* object1 = effect = graph()->NewNode( simplified()->Allocate(Type::Any(), AllocationType::kYoung), jsgraph()->Constant(16), effect, control); load_elimination.Reduce(effect); Node* region1 = effect = graph()->NewNode(common()->FinishRegion(), object1, effect); load_elimination.Reduce(effect); effect = graph()->NewNode(simplified()->StoreField(access), region0, value0, effect, control); load_elimination.Reduce(effect); effect = graph()->NewNode(simplified()->StoreField(access), region1, value1, effect, control); load_elimination.Reduce(effect); Node* load = graph()->NewNode(simplified()->LoadField(access), region0, effect, control); EXPECT_CALL(editor, ReplaceWithValue(load, value0, effect, _)); Reduction r = load_elimination.Reduce(load); ASSERT_TRUE(r.Changed()); EXPECT_EQ(value0, r.replacement()); } } // namespace compiler } // namespace internal } // namespace v8