v8/test/unittests/compiler/int64-lowering-unittest.cc
ivica.bogosavljevic 4a5adb43ac [turbofan] Reland of Add alignment parameter to StackSlot operator
Reland d8bfdb7a99

Original commit message:
If alignment parameter is set, the memory returned by the
StackSlot operator will be aligned according to the parameter.

The implementation goes like this. If alignment parameter is set
we allocate a bit more memory than actually needed and so we
can move the beginning of the StackSlot in order to have it aligned.

BUG=

Review-Url: https://codereview.chromium.org/2874713003
Cr-Commit-Position: refs/heads/master@{#45339}
2017-05-16 12:27:56 +00:00

933 lines
40 KiB
C++

// 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/compiler/common-operator.h"
#include "src/compiler/linkage.h"
#include "src/compiler/machine-operator.h"
#include "src/compiler/node.h"
#include "src/compiler/node-properties.h"
#include "src/objects-inl.h"
#include "src/signature.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"
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) {
value_[0] = 0x1234567890abcdef;
value_[1] = 0x1edcba098765432f;
value_[2] = 0x1133557799886644;
}
MachineOperatorBuilder* machine() { return &machine_; }
void LowerGraph(Node* node, Signature<MachineRepresentation>* 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(), zone(), signature);
lowering.LowerGraph();
}
void LowerGraph(Node* node, MachineRepresentation return_type,
MachineRepresentation rep = MachineRepresentation::kWord32,
int num_params = 0) {
Signature<MachineRepresentation>::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<int32_t>(value_[i] & 0xffffffff);
}
int32_t high_word_value(int i) {
return static_cast<int32_t>(value_[i] >> 32);
}
void TestComparison(
const Operator* op,
Matcher<Node*> (*high_word_matcher)(const Matcher<Node*>& lhs_matcher,
const Matcher<Node*>& rhs_matcher),
Matcher<Node*> (*low_word_matcher)(const Matcher<Node*>& lhs_matcher,
const Matcher<Node*>& 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_;
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<Node*> high_word_load_matcher = \
Is##kLoad(MachineType::Int32(), IsInt32Constant(base), \
IsInt32Add(IsInt32Constant(index), IsInt32Constant(0x4)), \
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<Node*> 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), \
IsInt32Add(IsInt32Constant(index), IsInt32Constant(0x4)), \
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) \
int32_t base = 0x1234; \
int32_t index = 0x5678; \
\
LowerGraph(graph()->NewNode(machine()->kLoad(MachineType::Int64()), \
Int32Constant(base), Int32Constant(index), \
start(), start()), \
MachineRepresentation::kWord64); \
\
Capture<Node*> high_word_load; \
LOAD_VERIFY(kLoad)
TEST_F(Int64LoweringTest, Int64Load) { INT64_LOAD_LOWERING(Load); }
TEST_F(Int64LoweringTest, UnalignedInt64Load) {
INT64_LOAD_LOWERING(UnalignedLoad);
}
#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), \
IsInt32Add(IsInt32Constant(index), IsInt32Constant(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), \
IsInt32Add(IsInt32Constant(index), IsInt32Constant(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) \
int32_t base = 1111; \
int32_t index = 2222; \
int32_t return_value = 0x5555; \
\
Signature<MachineRepresentation>::Builder sig_builder(zone(), 1, 0); \
sig_builder.AddReturn(MachineRepresentation::kWord32); \
\
Node* store = graph()->NewNode(machine()->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(), 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);
}
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<MachineRepresentation>::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(), 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);
}
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(0), MachineRepresentation::kWord64,
MachineRepresentation::kWord64, 1);
EXPECT_THAT(graph()->end()->InputAt(1),
IsReturn2(IsParameter(0), IsParameter(1), start(), start()));
}
TEST_F(Int64LoweringTest, Parameter2) {
Signature<MachineRepresentation>::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(4), sig_builder.Build());
EXPECT_THAT(graph()->end()->InputAt(1),
IsReturn(IsParameter(6), 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, CallI64Return) {
int32_t function = 0x9999;
Signature<MachineRepresentation>::Builder sig_builder(zone(), 1, 0);
sig_builder.AddReturn(MachineRepresentation::kWord64);
compiler::CallDescriptor* desc =
wasm::ModuleEnv::GetWasmCallDescriptor(zone(), sig_builder.Build());
LowerGraph(graph()->NewNode(common()->Call(desc), Int32Constant(function),
start(), start()),
MachineRepresentation::kWord64);
Capture<Node*> call;
Matcher<Node*> 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(
OpParameter<const CallDescriptor*>(
graph()->end()->InputAt(1)->InputAt(1)->InputAt(0)),
wasm::ModuleEnv::GetI32WasmCallDescriptor(zone(), desc));
}
TEST_F(Int64LoweringTest, CallI64Parameter) {
int32_t function = 0x9999;
Signature<MachineRepresentation>::Builder sig_builder(zone(), 1, 3);
sig_builder.AddReturn(MachineRepresentation::kWord32);
sig_builder.AddParam(MachineRepresentation::kWord64);
sig_builder.AddParam(MachineRepresentation::kWord32);
sig_builder.AddParam(MachineRepresentation::kWord64);
compiler::CallDescriptor* desc =
wasm::ModuleEnv::GetWasmCallDescriptor(zone(), sig_builder.Build());
LowerGraph(graph()->NewNode(common()->Call(desc), Int32Constant(function),
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),
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(
OpParameter<const CallDescriptor*>(
graph()->end()->InputAt(1)->InputAt(1)),
wasm::ModuleEnv::GetI32WasmCallDescriptor(zone(), desc));
}
TEST_F(Int64LoweringTest, Int64Add) {
LowerGraph(graph()->NewNode(machine()->Int64Add(), Int64Constant(value(0)),
Int64Constant(value(1))),
MachineRepresentation::kWord64);
Capture<Node*> add;
Matcher<Node*> 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, Int64Sub) {
LowerGraph(graph()->NewNode(machine()->Int64Sub(), Int64Constant(value(0)),
Int64Constant(value(1))),
MachineRepresentation::kWord64);
Capture<Node*> sub;
Matcher<Node*> 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<Node*> mul_capture;
Matcher<Node*> 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<Node*> shl;
Matcher<Node*> 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<Node*> shr;
Matcher<Node*> 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<Node*> sar;
Matcher<Node*> 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) {
LowerGraph(graph()->NewNode(machine()->BitcastInt64ToFloat64(),
Int64Constant(value(0))),
MachineRepresentation::kFloat64);
Capture<Node*> stack_slot_capture;
Matcher<Node*> stack_slot_matcher =
IsStackSlot(StackSlotRepresentation(sizeof(int64_t), 0));
Capture<Node*> store_capture;
Matcher<Node*> store_matcher =
IsStore(StoreRepresentation(MachineRepresentation::kWord32,
WriteBarrierKind::kNoWriteBarrier),
AllOf(CaptureEq(&stack_slot_capture), stack_slot_matcher),
IsInt32Constant(kInt64LowerHalfMemoryOffset),
IsInt32Constant(low_word_value(0)),
IsStore(StoreRepresentation(MachineRepresentation::kWord32,
WriteBarrierKind::kNoWriteBarrier),
AllOf(CaptureEq(&stack_slot_capture), stack_slot_matcher),
IsInt32Constant(kInt64UpperHalfMemoryOffset),
IsInt32Constant(high_word_value(0)), start(), start()),
start());
EXPECT_THAT(
graph()->end()->InputAt(1),
IsReturn(IsLoad(MachineType::Float64(),
AllOf(CaptureEq(&stack_slot_capture), stack_slot_matcher),
IsInt32Constant(0),
AllOf(CaptureEq(&store_capture), store_matcher), start()),
start(), start()));
}
TEST_F(Int64LoweringTest, I64ReinterpretF64) {
LowerGraph(graph()->NewNode(machine()->BitcastFloat64ToInt64(),
Float64Constant(bit_cast<double>(value(0)))),
MachineRepresentation::kWord64);
Capture<Node*> stack_slot;
Matcher<Node*> stack_slot_matcher =
IsStackSlot(StackSlotRepresentation(sizeof(int64_t), 0));
Capture<Node*> store;
Matcher<Node*> store_matcher = IsStore(
StoreRepresentation(MachineRepresentation::kFloat64,
WriteBarrierKind::kNoWriteBarrier),
AllOf(CaptureEq(&stack_slot), stack_slot_matcher), IsInt32Constant(0),
IsFloat64Constant(bit_cast<double>(value(0))), start(), start());
EXPECT_THAT(
graph()->end()->InputAt(1),
IsReturn2(IsLoad(MachineType::Int32(),
AllOf(CaptureEq(&stack_slot), stack_slot_matcher),
IsInt32Constant(kInt64LowerHalfMemoryOffset),
AllOf(CaptureEq(&store), store_matcher), start()),
IsLoad(MachineType::Int32(),
AllOf(CaptureEq(&stack_slot), stack_slot_matcher),
IsInt32Constant(kInt64UpperHalfMemoryOffset),
AllOf(CaptureEq(&store), store_matcher), start()),
start(), start()));
}
TEST_F(Int64LoweringTest, I64Clz) {
LowerGraph(graph()->NewNode(machine()->Word64Clz(), Int64Constant(value(0))),
MachineRepresentation::kWord64);
Capture<Node*> branch_capture;
Matcher<Node*> 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()->Word64Ctz().placeholder(),
Int64Constant(value(0))),
MachineRepresentation::kWord64);
Capture<Node*> branch_capture;
Matcher<Node*> 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, 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, I64Ror) {
LowerGraph(graph()->NewNode(machine()->Word64Ror(), Int64Constant(value(0)),
Parameter(0)),
MachineRepresentation::kWord64, MachineRepresentation::kWord64, 1);
Matcher<Node*> branch_lt32_matcher =
IsBranch(IsInt32LessThan(IsParameter(0), IsInt32Constant(32)), start());
Matcher<Node*> 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<Node*> 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<Node*> shift_matcher =
IsWord32And(IsParameter(0), IsInt32Constant(0x1f));
Matcher<Node*> bit_mask_matcher = IsWord32Shl(
IsWord32Sar(IsInt32Constant(std::numeric_limits<int32_t>::min()),
shift_matcher),
IsInt32Constant(1));
Matcher<Node*> 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()->Word64Ror(), Int64Constant(value(0)),
Int32Constant(0)),
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()->Word64Ror(), Int64Constant(value(0)),
Int32Constant(32)),
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()->Word64Ror(), Int64Constant(value(0)),
Int32Constant(11)),
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()->Word64Ror(), Int64Constant(value(0)),
Int32Constant(43)),
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, 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().placeholder(),
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);
}
} // namespace compiler
} // namespace internal
} // namespace v8