// 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/int64-lowering.h" #include "src/codegen/interface-descriptors-inl.h" #include "src/codegen/machine-type.h" #include "src/codegen/signature.h" #include "src/compiler/common-operator.h" #include "src/compiler/linkage.h" #include "src/compiler/machine-operator.h" #include "src/compiler/node-matchers.h" #include "src/compiler/node-properties.h" #include "src/compiler/node.h" #include "src/compiler/wasm-compiler.h" #include "src/wasm/value-type.h" #include "src/wasm/wasm-engine.h" #include "src/wasm/wasm-module.h" #include "test/unittests/compiler/graph-unittest.h" #include "test/unittests/compiler/node-test-utils.h" #include "testing/gmock-support.h" #if V8_TARGET_ARCH_32_BIT using testing::AllOf; using testing::Capture; using testing::CaptureEq; namespace v8 { namespace internal { namespace compiler { class Int64LoweringTest : public GraphTest { public: Int64LoweringTest() : GraphTest(), machine_(zone(), MachineRepresentation::kWord32, MachineOperatorBuilder::Flag::kAllOptionalOps), simplified_(zone()) { value_[0] = 0x1234567890ABCDEF; value_[1] = 0x1EDCBA098765432F; value_[2] = 0x1133557799886644; } MachineOperatorBuilder* machine() { return &machine_; } SimplifiedOperatorBuilder* simplified() { return &simplified_; } void LowerGraph(Node* node, Signature* signature) { Node* zero = graph()->NewNode(common()->Int32Constant(0)); Node* ret = graph()->NewNode(common()->Return(), zero, node, graph()->start(), graph()->start()); NodeProperties::MergeControlToEnd(graph(), common(), ret); Int64Lowering lowering(graph(), machine(), common(), simplified(), zone(), signature); lowering.LowerGraph(); } void LowerGraphWithSpecialCase(Node* node, MachineRepresentation rep) { Node* zero = graph()->NewNode(common()->Int32Constant(0)); Node* ret = graph()->NewNode(common()->Return(), zero, node, graph()->start(), graph()->start()); NodeProperties::MergeControlToEnd(graph(), common(), ret); // Create a signature for the outer wasm<>js call; for these tests we focus // on lowering the special cases rather than the wrapper node at the // JavaScript boundaries. Signature::Builder sig_builder(zone(), 1, 0); sig_builder.AddReturn(rep); Int64Lowering lowering(graph(), machine(), common(), simplified(), zone(), sig_builder.Build()); lowering.LowerGraph(); } void LowerGraph(Node* node, MachineRepresentation return_type, MachineRepresentation rep = MachineRepresentation::kWord32, int num_params = 0) { Signature::Builder sig_builder(zone(), 1, num_params); sig_builder.AddReturn(return_type); for (int i = 0; i < num_params; i++) { sig_builder.AddParam(rep); } LowerGraph(node, sig_builder.Build()); } void CompareCallDescriptors(const CallDescriptor* lhs, const CallDescriptor* rhs) { EXPECT_THAT(lhs->CalleeSavedFPRegisters(), rhs->CalleeSavedFPRegisters()); EXPECT_THAT(lhs->CalleeSavedRegisters(), rhs->CalleeSavedRegisters()); EXPECT_THAT(lhs->FrameStateCount(), rhs->FrameStateCount()); EXPECT_THAT(lhs->InputCount(), rhs->InputCount()); for (size_t i = 0; i < lhs->InputCount(); i++) { EXPECT_THAT(lhs->GetInputLocation(i), rhs->GetInputLocation(i)); EXPECT_THAT(lhs->GetInputType(i), rhs->GetInputType(i)); } EXPECT_THAT(lhs->ReturnCount(), rhs->ReturnCount()); for (size_t i = 0; i < lhs->ReturnCount(); i++) { EXPECT_THAT(lhs->GetReturnLocation(i), rhs->GetReturnLocation(i)); EXPECT_THAT(lhs->GetReturnType(i), rhs->GetReturnType(i)); } EXPECT_THAT(lhs->flags(), rhs->flags()); EXPECT_THAT(lhs->kind(), rhs->kind()); } int64_t value(int i) { return value_[i]; } int32_t low_word_value(int i) { return static_cast(value_[i] & 0xFFFFFFFF); } int32_t high_word_value(int i) { return static_cast(value_[i] >> 32); } void TestComparison( const Operator* op, Matcher (*high_word_matcher)(const Matcher& lhs_matcher, const Matcher& rhs_matcher), Matcher (*low_word_matcher)(const Matcher& lhs_matcher, const Matcher& rhs_matcher)) { LowerGraph( graph()->NewNode(op, Int64Constant(value(0)), Int64Constant(value(1))), MachineRepresentation::kWord32); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn(IsWord32Or( high_word_matcher(IsInt32Constant(high_word_value(0)), IsInt32Constant(high_word_value(1))), IsWord32And( IsWord32Equal(IsInt32Constant(high_word_value(0)), IsInt32Constant(high_word_value(1))), low_word_matcher(IsInt32Constant(low_word_value(0)), IsInt32Constant(low_word_value(1))))), start(), start())); } private: MachineOperatorBuilder machine_; SimplifiedOperatorBuilder simplified_; int64_t value_[3]; }; TEST_F(Int64LoweringTest, Int64Constant) { LowerGraph(Int64Constant(value(0)), MachineRepresentation::kWord64); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsInt32Constant(low_word_value(0)), IsInt32Constant(high_word_value(0)), start(), start())); } #if defined(V8_TARGET_LITTLE_ENDIAN) #define LOAD_VERIFY(kLoad) \ Matcher high_word_load_matcher = \ Is##kLoad(MachineType::Int32(), IsInt32Constant(base), \ IsInt32Constant(index + 4), start(), start()); \ \ EXPECT_THAT( \ graph()->end()->InputAt(1), \ IsReturn2( \ Is##kLoad(MachineType::Int32(), IsInt32Constant(base), \ IsInt32Constant(index), \ AllOf(CaptureEq(&high_word_load), high_word_load_matcher), \ start()), \ AllOf(CaptureEq(&high_word_load), high_word_load_matcher), start(), \ start())); #elif defined(V8_TARGET_BIG_ENDIAN) #define LOAD_VERIFY(kLoad) \ Matcher high_word_load_matcher = \ Is##kLoad(MachineType::Int32(), IsInt32Constant(base), \ IsInt32Constant(index), start(), start()); \ \ EXPECT_THAT( \ graph()->end()->InputAt(1), \ IsReturn2( \ Is##kLoad(MachineType::Int32(), IsInt32Constant(base), \ IsInt32Constant(index + 4), \ AllOf(CaptureEq(&high_word_load), high_word_load_matcher), \ start()), \ AllOf(CaptureEq(&high_word_load), high_word_load_matcher), start(), \ start())); #endif #define INT64_LOAD_LOWERING(kLoad, param, builder) \ int32_t base = 0x1234; \ int32_t index = 0x5678; \ \ LowerGraph(graph()->NewNode(builder()->kLoad(param), Int32Constant(base), \ Int32Constant(index), start(), start()), \ MachineRepresentation::kWord64); \ \ Capture high_word_load; \ LOAD_VERIFY(kLoad) TEST_F(Int64LoweringTest, Int64Load) { INT64_LOAD_LOWERING(Load, MachineType::Int64(), machine); } TEST_F(Int64LoweringTest, UnalignedInt64Load) { INT64_LOAD_LOWERING(UnalignedLoad, MachineType::Int64(), machine); } TEST_F(Int64LoweringTest, Int64LoadFromObject) { INT64_LOAD_LOWERING(LoadFromObject, ObjectAccess(MachineType::Int64(), kNoWriteBarrier), simplified); } TEST_F(Int64LoweringTest, Int64LoadImmutable) { int32_t base = 0x1234; int32_t index = 0x5678; LowerGraph(graph()->NewNode(machine()->LoadImmutable(MachineType::Int64()), Int32Constant(base), Int32Constant(index)), MachineRepresentation::kWord64); Capture high_word_load; #if defined(V8_TARGET_LITTLE_ENDIAN) Matcher high_word_load_matcher = IsLoadImmutable( MachineType::Int32(), IsInt32Constant(base), IsInt32Constant(index + 4)); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn2(IsLoadImmutable(MachineType::Int32(), IsInt32Constant(base), IsInt32Constant(index)), AllOf(CaptureEq(&high_word_load), high_word_load_matcher), start(), start())); #elif defined(V8_TARGET_BIG_ENDIAN) Matcher high_word_load_matcher = IsLoadImmutable( MachineType::Int32(), IsInt32Constant(base), IsInt32Constant(index)); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn2(IsLoadImmutable(MachineType::Int32(), IsInt32Constant(base), IsInt32Constant(index + 4)), AllOf(CaptureEq(&high_word_load), high_word_load_matcher), start(), start())); #endif } #if defined(V8_TARGET_LITTLE_ENDIAN) #define STORE_VERIFY(kStore, kRep) \ EXPECT_THAT( \ graph()->end()->InputAt(1), \ IsReturn(IsInt32Constant(return_value), \ Is##kStore(kRep, IsInt32Constant(base), IsInt32Constant(index), \ IsInt32Constant(low_word_value(0)), \ Is##kStore(kRep, IsInt32Constant(base), \ IsInt32Constant(index + 4), \ IsInt32Constant(high_word_value(0)), \ start(), start()), \ start()), \ start())); #elif defined(V8_TARGET_BIG_ENDIAN) #define STORE_VERIFY(kStore, kRep) \ EXPECT_THAT( \ graph()->end()->InputAt(1), \ IsReturn(IsInt32Constant(return_value), \ Is##kStore( \ kRep, IsInt32Constant(base), IsInt32Constant(index + 4), \ IsInt32Constant(low_word_value(0)), \ Is##kStore( \ kRep, IsInt32Constant(base), IsInt32Constant(index), \ IsInt32Constant(high_word_value(0)), start(), start()), \ start()), \ start())); #endif #define INT64_STORE_LOWERING(kStore, kRep32, kRep64, builder) \ int32_t base = 1111; \ int32_t index = 2222; \ int32_t return_value = 0x5555; \ \ Signature::Builder sig_builder(zone(), 1, 0); \ sig_builder.AddReturn(MachineRepresentation::kWord32); \ \ Node* store = graph()->NewNode(builder()->kStore(kRep64), \ Int32Constant(base), Int32Constant(index), \ Int64Constant(value(0)), start(), start()); \ \ Node* zero = graph()->NewNode(common()->Int32Constant(0)); \ Node* ret = graph()->NewNode(common()->Return(), zero, \ Int32Constant(return_value), store, start()); \ \ NodeProperties::MergeControlToEnd(graph(), common(), ret); \ \ Int64Lowering lowering(graph(), machine(), common(), simplified(), zone(), \ sig_builder.Build()); \ lowering.LowerGraph(); \ \ STORE_VERIFY(kStore, kRep32) TEST_F(Int64LoweringTest, Int64Store) { const StoreRepresentation rep64(MachineRepresentation::kWord64, WriteBarrierKind::kNoWriteBarrier); const StoreRepresentation rep32(MachineRepresentation::kWord32, WriteBarrierKind::kNoWriteBarrier); INT64_STORE_LOWERING(Store, rep32, rep64, machine); } TEST_F(Int64LoweringTest, Int32Store) { const StoreRepresentation rep32(MachineRepresentation::kWord32, WriteBarrierKind::kNoWriteBarrier); int32_t base = 1111; int32_t index = 2222; int32_t return_value = 0x5555; Signature::Builder sig_builder(zone(), 1, 0); sig_builder.AddReturn(MachineRepresentation::kWord32); Node* store = graph()->NewNode(machine()->Store(rep32), Int32Constant(base), Int32Constant(index), Int64Constant(value(0)), start(), start()); Node* zero = graph()->NewNode(common()->Int32Constant(0)); Node* ret = graph()->NewNode(common()->Return(), zero, Int32Constant(return_value), store, start()); NodeProperties::MergeControlToEnd(graph(), common(), ret); Int64Lowering lowering(graph(), machine(), common(), simplified(), zone(), sig_builder.Build()); lowering.LowerGraph(); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn(IsInt32Constant(return_value), IsStore(rep32, IsInt32Constant(base), IsInt32Constant(index), IsInt32Constant(low_word_value(0)), start(), start()), start())); } TEST_F(Int64LoweringTest, Int64UnalignedStore) { const UnalignedStoreRepresentation rep64(MachineRepresentation::kWord64); const UnalignedStoreRepresentation rep32(MachineRepresentation::kWord32); INT64_STORE_LOWERING(UnalignedStore, rep32, rep64, machine); } TEST_F(Int64LoweringTest, Int64StoreToObject) { const ObjectAccess access64(MachineType::Int64(), kNoWriteBarrier); const ObjectAccess access32(MachineType::Int32(), kNoWriteBarrier); INT64_STORE_LOWERING(StoreToObject, access32, access64, simplified); } TEST_F(Int64LoweringTest, Int64And) { LowerGraph(graph()->NewNode(machine()->Word64And(), Int64Constant(value(0)), Int64Constant(value(1))), MachineRepresentation::kWord64); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsWord32And(IsInt32Constant(low_word_value(0)), IsInt32Constant(low_word_value(1))), IsWord32And(IsInt32Constant(high_word_value(0)), IsInt32Constant(high_word_value(1))), start(), start())); } TEST_F(Int64LoweringTest, TruncateInt64ToInt32) { LowerGraph(graph()->NewNode(machine()->TruncateInt64ToInt32(), Int64Constant(value(0))), MachineRepresentation::kWord32); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn(IsInt32Constant(low_word_value(0)), start(), start())); } TEST_F(Int64LoweringTest, Parameter) { LowerGraph(Parameter(1), MachineRepresentation::kWord64, MachineRepresentation::kWord64, 1); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsParameter(1), IsParameter(2), start(), start())); } TEST_F(Int64LoweringTest, Parameter2) { Signature::Builder sig_builder(zone(), 1, 5); sig_builder.AddReturn(MachineRepresentation::kWord32); sig_builder.AddParam(MachineRepresentation::kWord32); sig_builder.AddParam(MachineRepresentation::kWord64); sig_builder.AddParam(MachineRepresentation::kFloat64); sig_builder.AddParam(MachineRepresentation::kWord64); sig_builder.AddParam(MachineRepresentation::kWord32); int start_parameter = start()->op()->ValueOutputCount(); LowerGraph(Parameter(5), sig_builder.Build()); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn(IsParameter(7), start(), start())); // The parameter of the start node should increase by 2, because we lowered // two parameter nodes. EXPECT_THAT(start()->op()->ValueOutputCount(), start_parameter + 2); } TEST_F(Int64LoweringTest, ParameterWithJSContextParam) { Signature::Builder sig_builder(zone(), 0, 2); sig_builder.AddParam(MachineRepresentation::kWord64); sig_builder.AddParam(MachineRepresentation::kWord64); auto sig = sig_builder.Build(); Node* js_context = graph()->NewNode( common()->Parameter(Linkage::GetJSCallContextParamIndex( static_cast(sig->parameter_count()) + 1), "%context"), start()); LowerGraph(js_context, sig); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn(js_context, start(), start())); } TEST_F(Int64LoweringTest, ParameterWithJSClosureParam) { Signature::Builder sig_builder(zone(), 0, 2); sig_builder.AddParam(MachineRepresentation::kWord64); sig_builder.AddParam(MachineRepresentation::kWord64); auto sig = sig_builder.Build(); Node* js_closure = graph()->NewNode( common()->Parameter(Linkage::kJSCallClosureParamIndex, "%closure"), start()); LowerGraph(js_closure, sig); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn(js_closure, start(), start())); } // The following tests are only valid in 32-bit platforms, due to one of these // two assumptions: // - Pointers are 32 bit and therefore pointers do not get lowered. // - 64-bit rol/ror/clz/ctz instructions have a control input. TEST_F(Int64LoweringTest, CallI64Return) { int32_t function = 0x9999; Node* context_address = Int32Constant(0); wasm::FunctionSig::Builder sig_builder(zone(), 1, 0); sig_builder.AddReturn(wasm::kWasmI64); auto call_descriptor = compiler::GetWasmCallDescriptor(zone(), sig_builder.Build()); LowerGraph( graph()->NewNode(common()->Call(call_descriptor), Int32Constant(function), context_address, start(), start()), MachineRepresentation::kWord64); Capture call; Matcher call_matcher = IsCall(testing::_, IsInt32Constant(function), start(), start()); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsProjection(0, AllOf(CaptureEq(&call), call_matcher)), IsProjection(1, AllOf(CaptureEq(&call), call_matcher)), start(), start())); CompareCallDescriptors( CallDescriptorOf( graph()->end()->InputAt(1)->InputAt(1)->InputAt(0)->op()), compiler::GetI32WasmCallDescriptor(zone(), call_descriptor)); } TEST_F(Int64LoweringTest, CallI64Parameter) { int32_t function = 0x9999; Node* context_address = Int32Constant(0); wasm::FunctionSig::Builder sig_builder(zone(), 1, 3); sig_builder.AddReturn(wasm::kWasmI32); sig_builder.AddParam(wasm::kWasmI64); sig_builder.AddParam(wasm::kWasmI32); sig_builder.AddParam(wasm::kWasmI64); auto call_descriptor = compiler::GetWasmCallDescriptor(zone(), sig_builder.Build()); LowerGraph( graph()->NewNode(common()->Call(call_descriptor), Int32Constant(function), context_address, Int64Constant(value(0)), Int32Constant(low_word_value(1)), Int64Constant(value(2)), start(), start()), MachineRepresentation::kWord32); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn(IsCall(testing::_, IsInt32Constant(function), context_address, IsInt32Constant(low_word_value(0)), IsInt32Constant(high_word_value(0)), IsInt32Constant(low_word_value(1)), IsInt32Constant(low_word_value(2)), IsInt32Constant(high_word_value(2)), start(), start()), start(), start())); CompareCallDescriptors( CallDescriptorOf(graph()->end()->InputAt(1)->InputAt(1)->op()), compiler::GetI32WasmCallDescriptor(zone(), call_descriptor)); } TEST_F(Int64LoweringTest, Int64Add) { LowerGraph(graph()->NewNode(machine()->Int64Add(), Int64Constant(value(0)), Int64Constant(value(1))), MachineRepresentation::kWord64); Capture add; Matcher add_matcher = IsInt32PairAdd( IsInt32Constant(low_word_value(0)), IsInt32Constant(high_word_value(0)), IsInt32Constant(low_word_value(1)), IsInt32Constant(high_word_value(1))); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsProjection(0, AllOf(CaptureEq(&add), add_matcher)), IsProjection(1, AllOf(CaptureEq(&add), add_matcher)), start(), start())); } TEST_F(Int64LoweringTest, I64Clz) { LowerGraph(graph()->NewNode(machine()->Word64ClzLowerable(), Int64Constant(value(0)), graph()->start()), MachineRepresentation::kWord64); Capture branch_capture; Matcher branch_matcher = IsBranch( IsWord32Equal(IsInt32Constant(high_word_value(0)), IsInt32Constant(0)), start()); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn2( IsPhi(MachineRepresentation::kWord32, IsInt32Add(IsWord32Clz(IsInt32Constant(low_word_value(0))), IsInt32Constant(32)), IsWord32Clz(IsInt32Constant(high_word_value(0))), IsMerge( IsIfTrue(AllOf(CaptureEq(&branch_capture), branch_matcher)), IsIfFalse( AllOf(CaptureEq(&branch_capture), branch_matcher)))), IsInt32Constant(0), start(), start())); } TEST_F(Int64LoweringTest, I64Ctz) { LowerGraph(graph()->NewNode(machine()->Word64CtzLowerable().placeholder(), Int64Constant(value(0)), graph()->start()), MachineRepresentation::kWord64); Capture branch_capture; Matcher branch_matcher = IsBranch( IsWord32Equal(IsInt32Constant(low_word_value(0)), IsInt32Constant(0)), start()); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn2( IsPhi(MachineRepresentation::kWord32, IsInt32Add(IsWord32Ctz(IsInt32Constant(high_word_value(0))), IsInt32Constant(32)), IsWord32Ctz(IsInt32Constant(low_word_value(0))), IsMerge( IsIfTrue(AllOf(CaptureEq(&branch_capture), branch_matcher)), IsIfFalse( AllOf(CaptureEq(&branch_capture), branch_matcher)))), IsInt32Constant(0), start(), start())); } TEST_F(Int64LoweringTest, I64Ror) { LowerGraph( graph()->NewNode(machine()->Word64RorLowerable(), Int64Constant(value(0)), Parameter(0), graph()->start()), MachineRepresentation::kWord64, MachineRepresentation::kWord64, 1); Matcher branch_lt32_matcher = IsBranch(IsInt32LessThan(IsParameter(0), IsInt32Constant(32)), start()); Matcher low_input_matcher = IsPhi( MachineRepresentation::kWord32, IsInt32Constant(low_word_value(0)), IsInt32Constant(high_word_value(0)), IsMerge(IsIfTrue(branch_lt32_matcher), IsIfFalse(branch_lt32_matcher))); Matcher high_input_matcher = IsPhi( MachineRepresentation::kWord32, IsInt32Constant(high_word_value(0)), IsInt32Constant(low_word_value(0)), IsMerge(IsIfTrue(branch_lt32_matcher), IsIfFalse(branch_lt32_matcher))); Matcher shift_matcher = IsWord32And(IsParameter(0), IsInt32Constant(0x1F)); Matcher bit_mask_matcher = IsWord32Xor( IsWord32Shr(IsInt32Constant(-1), shift_matcher), IsInt32Constant(-1)); Matcher inv_mask_matcher = IsWord32Xor(bit_mask_matcher, IsInt32Constant(-1)); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn2( IsWord32Or(IsWord32And(IsWord32Ror(low_input_matcher, shift_matcher), inv_mask_matcher), IsWord32And(IsWord32Ror(high_input_matcher, shift_matcher), bit_mask_matcher)), IsWord32Or(IsWord32And(IsWord32Ror(high_input_matcher, shift_matcher), inv_mask_matcher), IsWord32And(IsWord32Ror(low_input_matcher, shift_matcher), bit_mask_matcher)), start(), start())); } TEST_F(Int64LoweringTest, I64Ror_0) { LowerGraph( graph()->NewNode(machine()->Word64RorLowerable(), Int64Constant(value(0)), Int32Constant(0), graph()->start()), MachineRepresentation::kWord64); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsInt32Constant(low_word_value(0)), IsInt32Constant(high_word_value(0)), start(), start())); } TEST_F(Int64LoweringTest, I64Ror_32) { LowerGraph( graph()->NewNode(machine()->Word64RorLowerable(), Int64Constant(value(0)), Int32Constant(32), graph()->start()), MachineRepresentation::kWord64); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsInt32Constant(high_word_value(0)), IsInt32Constant(low_word_value(0)), start(), start())); } TEST_F(Int64LoweringTest, I64Ror_11) { LowerGraph( graph()->NewNode(machine()->Word64RorLowerable(), Int64Constant(value(0)), Int32Constant(11), graph()->start()), MachineRepresentation::kWord64); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn2(IsWord32Or(IsWord32Shr(IsInt32Constant(low_word_value(0)), IsInt32Constant(11)), IsWord32Shl(IsInt32Constant(high_word_value(0)), IsInt32Constant(21))), IsWord32Or(IsWord32Shr(IsInt32Constant(high_word_value(0)), IsInt32Constant(11)), IsWord32Shl(IsInt32Constant(low_word_value(0)), IsInt32Constant(21))), start(), start())); } TEST_F(Int64LoweringTest, I64Ror_43) { LowerGraph( graph()->NewNode(machine()->Word64RorLowerable(), Int64Constant(value(0)), Int32Constant(43), graph()->start()), MachineRepresentation::kWord64); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn2(IsWord32Or(IsWord32Shr(IsInt32Constant(high_word_value(0)), IsInt32Constant(11)), IsWord32Shl(IsInt32Constant(low_word_value(0)), IsInt32Constant(21))), IsWord32Or(IsWord32Shr(IsInt32Constant(low_word_value(0)), IsInt32Constant(11)), IsWord32Shl(IsInt32Constant(high_word_value(0)), IsInt32Constant(21))), start(), start())); } TEST_F(Int64LoweringTest, Int64Sub) { LowerGraph(graph()->NewNode(machine()->Int64Sub(), Int64Constant(value(0)), Int64Constant(value(1))), MachineRepresentation::kWord64); Capture sub; Matcher sub_matcher = IsInt32PairSub( IsInt32Constant(low_word_value(0)), IsInt32Constant(high_word_value(0)), IsInt32Constant(low_word_value(1)), IsInt32Constant(high_word_value(1))); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsProjection(0, AllOf(CaptureEq(&sub), sub_matcher)), IsProjection(1, AllOf(CaptureEq(&sub), sub_matcher)), start(), start())); } TEST_F(Int64LoweringTest, Int64Mul) { LowerGraph(graph()->NewNode(machine()->Int64Mul(), Int64Constant(value(0)), Int64Constant(value(1))), MachineRepresentation::kWord64); Capture mul_capture; Matcher mul_matcher = IsInt32PairMul( IsInt32Constant(low_word_value(0)), IsInt32Constant(high_word_value(0)), IsInt32Constant(low_word_value(1)), IsInt32Constant(high_word_value(1))); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn2(IsProjection(0, AllOf(CaptureEq(&mul_capture), mul_matcher)), IsProjection(1, AllOf(CaptureEq(&mul_capture), mul_matcher)), start(), start())); } TEST_F(Int64LoweringTest, Int64Ior) { LowerGraph(graph()->NewNode(machine()->Word64Or(), Int64Constant(value(0)), Int64Constant(value(1))), MachineRepresentation::kWord64); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsWord32Or(IsInt32Constant(low_word_value(0)), IsInt32Constant(low_word_value(1))), IsWord32Or(IsInt32Constant(high_word_value(0)), IsInt32Constant(high_word_value(1))), start(), start())); } TEST_F(Int64LoweringTest, Int64Xor) { LowerGraph(graph()->NewNode(machine()->Word64Xor(), Int64Constant(value(0)), Int64Constant(value(1))), MachineRepresentation::kWord64); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsWord32Xor(IsInt32Constant(low_word_value(0)), IsInt32Constant(low_word_value(1))), IsWord32Xor(IsInt32Constant(high_word_value(0)), IsInt32Constant(high_word_value(1))), start(), start())); } TEST_F(Int64LoweringTest, Int64Shl) { LowerGraph(graph()->NewNode(machine()->Word64Shl(), Int64Constant(value(0)), Int64Constant(value(1))), MachineRepresentation::kWord64); Capture shl; Matcher shl_matcher = IsWord32PairShl( IsInt32Constant(low_word_value(0)), IsInt32Constant(high_word_value(0)), IsInt32Constant(low_word_value(1))); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsProjection(0, AllOf(CaptureEq(&shl), shl_matcher)), IsProjection(1, AllOf(CaptureEq(&shl), shl_matcher)), start(), start())); } TEST_F(Int64LoweringTest, Int64ShrU) { LowerGraph(graph()->NewNode(machine()->Word64Shr(), Int64Constant(value(0)), Int64Constant(value(1))), MachineRepresentation::kWord64); Capture shr; Matcher shr_matcher = IsWord32PairShr( IsInt32Constant(low_word_value(0)), IsInt32Constant(high_word_value(0)), IsInt32Constant(low_word_value(1))); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsProjection(0, AllOf(CaptureEq(&shr), shr_matcher)), IsProjection(1, AllOf(CaptureEq(&shr), shr_matcher)), start(), start())); } TEST_F(Int64LoweringTest, Int64ShrS) { LowerGraph(graph()->NewNode(machine()->Word64Sar(), Int64Constant(value(0)), Int64Constant(value(1))), MachineRepresentation::kWord64); Capture sar; Matcher sar_matcher = IsWord32PairSar( IsInt32Constant(low_word_value(0)), IsInt32Constant(high_word_value(0)), IsInt32Constant(low_word_value(1))); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsProjection(0, AllOf(CaptureEq(&sar), sar_matcher)), IsProjection(1, AllOf(CaptureEq(&sar), sar_matcher)), start(), start())); } TEST_F(Int64LoweringTest, Int64Eq) { LowerGraph(graph()->NewNode(machine()->Word64Equal(), Int64Constant(value(0)), Int64Constant(value(1))), MachineRepresentation::kWord32); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn(IsWord32Equal( IsWord32Or(IsWord32Xor(IsInt32Constant(low_word_value(0)), IsInt32Constant(low_word_value(1))), IsWord32Xor(IsInt32Constant(high_word_value(0)), IsInt32Constant(high_word_value(1)))), IsInt32Constant(0)), start(), start())); } TEST_F(Int64LoweringTest, Int64LtS) { TestComparison(machine()->Int64LessThan(), IsInt32LessThan, IsUint32LessThan); } TEST_F(Int64LoweringTest, Int64LeS) { TestComparison(machine()->Int64LessThanOrEqual(), IsInt32LessThan, IsUint32LessThanOrEqual); } TEST_F(Int64LoweringTest, Int64LtU) { TestComparison(machine()->Uint64LessThan(), IsUint32LessThan, IsUint32LessThan); } TEST_F(Int64LoweringTest, Int64LeU) { TestComparison(machine()->Uint64LessThanOrEqual(), IsUint32LessThan, IsUint32LessThanOrEqual); } TEST_F(Int64LoweringTest, I32ConvertI64) { LowerGraph(graph()->NewNode(machine()->TruncateInt64ToInt32(), Int64Constant(value(0))), MachineRepresentation::kWord32); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn(IsInt32Constant(low_word_value(0)), start(), start())); } TEST_F(Int64LoweringTest, I64SConvertI32) { LowerGraph(graph()->NewNode(machine()->ChangeInt32ToInt64(), Int32Constant(low_word_value(0))), MachineRepresentation::kWord64); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsInt32Constant(low_word_value(0)), IsWord32Sar(IsInt32Constant(low_word_value(0)), IsInt32Constant(31)), start(), start())); } TEST_F(Int64LoweringTest, I64SConvertI32_2) { LowerGraph( graph()->NewNode(machine()->ChangeInt32ToInt64(), graph()->NewNode(machine()->TruncateInt64ToInt32(), Int64Constant(value(0)))), MachineRepresentation::kWord64); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsInt32Constant(low_word_value(0)), IsWord32Sar(IsInt32Constant(low_word_value(0)), IsInt32Constant(31)), start(), start())); } TEST_F(Int64LoweringTest, I64UConvertI32) { LowerGraph(graph()->NewNode(machine()->ChangeUint32ToUint64(), Int32Constant(low_word_value(0))), MachineRepresentation::kWord64); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsInt32Constant(low_word_value(0)), IsInt32Constant(0), start(), start())); } TEST_F(Int64LoweringTest, I64UConvertI32_2) { LowerGraph( graph()->NewNode(machine()->ChangeUint32ToUint64(), graph()->NewNode(machine()->TruncateInt64ToInt32(), Int64Constant(value(0)))), MachineRepresentation::kWord64); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsInt32Constant(low_word_value(0)), IsInt32Constant(0), start(), start())); } TEST_F(Int64LoweringTest, F64ReinterpretI64) { int64_t value = 0x0123456789abcdef; LowerGraph(graph()->NewNode(machine()->BitcastInt64ToFloat64(), Int64Constant(value)), MachineRepresentation::kFloat64); Node* ret = graph()->end()->InputAt(1); EXPECT_EQ(ret->opcode(), IrOpcode::kReturn); Node* ret_value = ret->InputAt(1); EXPECT_EQ(ret_value->opcode(), IrOpcode::kFloat64InsertLowWord32); Node* high_half = ret_value->InputAt(0); EXPECT_EQ(high_half->opcode(), IrOpcode::kFloat64InsertHighWord32); Node* low_half_bits = ret_value->InputAt(1); Int32Matcher m1(low_half_bits); EXPECT_TRUE(m1.Is(static_cast(value & 0xFFFFFFFF))); Node* high_half_bits = high_half->InputAt(1); Int32Matcher m2(high_half_bits); EXPECT_TRUE(m2.Is(static_cast(value >> 32))); } TEST_F(Int64LoweringTest, I64ReinterpretF64) { double value = 1234.5678; LowerGraph(graph()->NewNode(machine()->BitcastFloat64ToInt64(), Float64Constant(value)), MachineRepresentation::kWord64); Node* ret = graph()->end()->InputAt(1); EXPECT_EQ(ret->opcode(), IrOpcode::kReturn); Node* ret_value_low = ret->InputAt(1); EXPECT_EQ(ret_value_low->opcode(), IrOpcode::kFloat64ExtractLowWord32); Node* ret_value_high = ret->InputAt(2); EXPECT_EQ(ret_value_high->opcode(), IrOpcode::kFloat64ExtractHighWord32); } TEST_F(Int64LoweringTest, Dfs) { Node* common = Int64Constant(value(0)); LowerGraph(graph()->NewNode(machine()->Word64And(), common, graph()->NewNode(machine()->Word64And(), common, Int64Constant(value(1)))), MachineRepresentation::kWord64); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn2(IsWord32And(IsInt32Constant(low_word_value(0)), IsWord32And(IsInt32Constant(low_word_value(0)), IsInt32Constant(low_word_value(1)))), IsWord32And(IsInt32Constant(high_word_value(0)), IsWord32And(IsInt32Constant(high_word_value(0)), IsInt32Constant(high_word_value(1)))), start(), start())); } TEST_F(Int64LoweringTest, I64Popcnt) { LowerGraph(graph()->NewNode(machine()->Word64Popcnt().placeholder(), Int64Constant(value(0))), MachineRepresentation::kWord64); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn2(IsInt32Add(IsWord32Popcnt(IsInt32Constant(low_word_value(0))), IsWord32Popcnt(IsInt32Constant(high_word_value(0)))), IsInt32Constant(0), start(), start())); } TEST_F(Int64LoweringTest, I64PhiWord64) { LowerGraph(graph()->NewNode(common()->Phi(MachineRepresentation::kWord64, 2), Int64Constant(value(0)), Int64Constant(value(1)), start()), MachineRepresentation::kWord64); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsPhi(MachineRepresentation::kWord32, IsInt32Constant(low_word_value(0)), IsInt32Constant(low_word_value(1)), start()), IsPhi(MachineRepresentation::kWord32, IsInt32Constant(high_word_value(0)), IsInt32Constant(high_word_value(1)), start()), start(), start())); } void TestPhi(Int64LoweringTest* test, MachineRepresentation rep, Node* v1, Node* v2) { test->LowerGraph(test->graph()->NewNode(test->common()->Phi(rep, 2), v1, v2, test->start()), rep); EXPECT_THAT(test->graph()->end()->InputAt(1), IsReturn(IsPhi(rep, v1, v2, test->start()), test->start(), test->start())); } TEST_F(Int64LoweringTest, I64PhiFloat32) { TestPhi(this, MachineRepresentation::kFloat32, Float32Constant(1.5), Float32Constant(2.5)); } TEST_F(Int64LoweringTest, I64PhiFloat64) { TestPhi(this, MachineRepresentation::kFloat64, Float32Constant(1.5), Float32Constant(2.5)); } TEST_F(Int64LoweringTest, I64PhiWord32) { TestPhi(this, MachineRepresentation::kWord32, Float32Constant(1), Float32Constant(2)); } TEST_F(Int64LoweringTest, I64ReverseBytes) { LowerGraph(graph()->NewNode(machine()->Word64ReverseBytes(), Int64Constant(value(0))), MachineRepresentation::kWord64); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn2(IsWord32ReverseBytes(IsInt32Constant(high_word_value(0))), IsWord32ReverseBytes(IsInt32Constant(low_word_value(0))), start(), start())); } TEST_F(Int64LoweringTest, EffectPhiLoop) { // Construct a cycle consisting of an EffectPhi, a Store, and a Load. Node* eff_phi = graph()->NewNode(common()->EffectPhi(1), graph()->start(), graph()->start()); StoreRepresentation store_rep(MachineRepresentation::kWord64, WriteBarrierKind::kNoWriteBarrier); LoadRepresentation load_rep(MachineType::Int64()); Node* load = graph()->NewNode(machine()->Load(load_rep), Int64Constant(value(0)), Int64Constant(value(1)), eff_phi, graph()->start()); Node* store = graph()->NewNode(machine()->Store(store_rep), Int64Constant(value(0)), Int64Constant(value(1)), load, load, graph()->start()); eff_phi->InsertInput(zone(), 1, store); NodeProperties::ChangeOp(eff_phi, common()->ResizeMergeOrPhi(eff_phi->op(), 2)); LowerGraph(load, MachineRepresentation::kWord64); } TEST_F(Int64LoweringTest, LoopCycle) { // New node with two placeholders. Node* compare = graph()->NewNode(machine()->Word64Equal(), Int64Constant(0), Int64Constant(value(0))); Node* load = graph()->NewNode( machine()->Load(MachineType::Int64()), Int64Constant(value(1)), Int64Constant(value(2)), graph()->start(), graph()->NewNode( common()->Loop(2), graph()->start(), graph()->NewNode(common()->IfFalse(), graph()->NewNode(common()->Branch(), compare, graph()->start())))); NodeProperties::ReplaceValueInput(compare, load, 0); LowerGraph(load, MachineRepresentation::kWord64); } TEST_F(Int64LoweringTest, LoopExitValue) { Node* loop_header = graph()->NewNode(common()->Loop(1), graph()->start()); Node* loop_exit = graph()->NewNode(common()->LoopExit(), loop_header, loop_header); Node* exit = graph()->NewNode(common()->LoopExitValue(MachineRepresentation::kWord64), Int64Constant(value(2)), loop_exit); LowerGraph(exit, MachineRepresentation::kWord64); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsLoopExitValue(MachineRepresentation::kWord32, IsInt32Constant(low_word_value(2))), IsLoopExitValue(MachineRepresentation::kWord32, IsInt32Constant(high_word_value(2))), start(), start())); } TEST_F(Int64LoweringTest, WasmBigIntSpecialCaseBigIntToI64) { Node* target = Int32Constant(1); Node* context = Int32Constant(2); Node* bigint = Int32Constant(4); WasmCallDescriptors* descriptors = wasm::GetWasmEngine()->call_descriptors(); CallDescriptor* bigint_to_i64_call_descriptor = descriptors->GetBigIntToI64Descriptor(StubCallMode::kCallBuiltinPointer, false); CallDescriptor* bigint_to_i32_pair_call_descriptor = descriptors->GetLoweredCallDescriptor(bigint_to_i64_call_descriptor); Node* call_node = graph()->NewNode(common()->Call(bigint_to_i64_call_descriptor), target, bigint, context, start(), start()); LowerGraphWithSpecialCase(call_node, MachineRepresentation::kWord64); Capture call; Matcher call_matcher = IsCall(bigint_to_i32_pair_call_descriptor, target, bigint, context, start(), start()); EXPECT_THAT(graph()->end()->InputAt(1), IsReturn2(IsProjection(0, AllOf(CaptureEq(&call), call_matcher)), IsProjection(1, AllOf(CaptureEq(&call), call_matcher)), start(), start())); } TEST_F(Int64LoweringTest, WasmBigIntSpecialCaseI64ToBigInt) { Node* target = Int32Constant(1); Node* i64 = Int64Constant(value(0)); WasmCallDescriptors* descriptors = wasm::GetWasmEngine()->call_descriptors(); CallDescriptor* i64_to_bigint_call_descriptor = descriptors->GetI64ToBigIntDescriptor(StubCallMode::kCallBuiltinPointer); CallDescriptor* i32_pair_to_bigint_call_descriptor = descriptors->GetLoweredCallDescriptor(i64_to_bigint_call_descriptor); Node* call = graph()->NewNode(common()->Call(i64_to_bigint_call_descriptor), target, i64, start(), start()); LowerGraphWithSpecialCase(call, MachineRepresentation::kTaggedPointer); EXPECT_THAT( graph()->end()->InputAt(1), IsReturn(IsCall(i32_pair_to_bigint_call_descriptor, target, IsInt32Constant(low_word_value(0)), IsInt32Constant(high_word_value(0)), start(), start()), start(), start())); } } // namespace compiler } // namespace internal } // namespace v8 #endif // V8_TARGET_ARCH_32_BIT