v8/src/compiler/change-lowering-unittest.cc

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// Copyright 2014 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/change-lowering.h"
#include "src/compiler/compiler-test-utils.h"
#include "src/compiler/graph-unittest.h"
#include "src/compiler/js-graph.h"
#include "src/compiler/node-properties-inl.h"
#include "src/compiler/simplified-operator.h"
#include "src/compiler/typer.h"
#include "testing/gmock-support.h"
using testing::_;
using testing::AllOf;
using testing::Capture;
using testing::CaptureEq;
namespace v8 {
namespace internal {
namespace compiler {
// TODO(bmeurer): Find a new home for these functions.
inline std::ostream& operator<<(std::ostream& os, const MachineType& type) {
OStringStream ost;
ost << type;
return os << ost.c_str();
}
class ChangeLoweringTest : public GraphTest {
public:
ChangeLoweringTest() : simplified_(zone()) {}
virtual ~ChangeLoweringTest() {}
virtual MachineType WordRepresentation() const = 0;
protected:
int HeapNumberValueOffset() const {
STATIC_ASSERT(HeapNumber::kValueOffset % kApiPointerSize == 0);
return (HeapNumber::kValueOffset / kApiPointerSize) * PointerSize() -
kHeapObjectTag;
}
bool Is32() const { return WordRepresentation() == kRepWord32; }
int PointerSize() const {
switch (WordRepresentation()) {
case kRepWord32:
return 4;
case kRepWord64:
return 8;
default:
break;
}
UNREACHABLE();
return 0;
}
int SmiMaxValue() const { return -(SmiMinValue() + 1); }
int SmiMinValue() const {
return static_cast<int>(0xffffffffu << (SmiValueSize() - 1));
}
int SmiShiftAmount() const { return kSmiTagSize + SmiShiftSize(); }
int SmiShiftSize() const {
return Is32() ? SmiTagging<4>::SmiShiftSize()
: SmiTagging<8>::SmiShiftSize();
}
int SmiValueSize() const {
return Is32() ? SmiTagging<4>::SmiValueSize()
: SmiTagging<8>::SmiValueSize();
}
Node* Parameter(int32_t index = 0) {
return graph()->NewNode(common()->Parameter(index), graph()->start());
}
Reduction Reduce(Node* node) {
Typer typer(zone());
MachineOperatorBuilder machine(zone(), WordRepresentation());
JSOperatorBuilder javascript(zone());
JSGraph jsgraph(graph(), common(), &javascript, &typer, &machine);
CompilationInfo info(isolate(), zone());
Linkage linkage(&info);
ChangeLowering reducer(&jsgraph, &linkage, &machine);
return reducer.Reduce(node);
}
SimplifiedOperatorBuilder* simplified() { return &simplified_; }
Matcher<Node*> IsAllocateHeapNumber(const Matcher<Node*>& effect_matcher,
const Matcher<Node*>& control_matcher) {
return IsCall(
_, IsHeapConstant(Unique<HeapObject>::CreateImmovable(
CEntryStub(isolate(), 1).GetCode())),
IsExternalConstant(ExternalReference(
Runtime::FunctionForId(Runtime::kAllocateHeapNumber), isolate())),
IsInt32Constant(0), IsNumberConstant(0.0), effect_matcher,
control_matcher);
}
Matcher<Node*> IsWordEqual(const Matcher<Node*>& lhs_matcher,
const Matcher<Node*>& rhs_matcher) {
return Is32() ? IsWord32Equal(lhs_matcher, rhs_matcher)
: IsWord64Equal(lhs_matcher, rhs_matcher);
}
private:
SimplifiedOperatorBuilder simplified_;
};
// -----------------------------------------------------------------------------
// Common.
class ChangeLoweringCommonTest
: public ChangeLoweringTest,
public ::testing::WithParamInterface<MachineType> {
public:
virtual ~ChangeLoweringCommonTest() {}
virtual MachineType WordRepresentation() const FINAL OVERRIDE {
return GetParam();
}
};
TARGET_TEST_P(ChangeLoweringCommonTest, ChangeBitToBool) {
Node* val = Parameter(0);
Node* node = graph()->NewNode(simplified()->ChangeBitToBool(), val);
Reduction reduction = Reduce(node);
ASSERT_TRUE(reduction.Changed());
Node* phi = reduction.replacement();
Capture<Node*> branch;
EXPECT_THAT(phi,
IsPhi(static_cast<MachineType>(kTypeBool | kRepTagged),
IsTrueConstant(), IsFalseConstant(),
IsMerge(IsIfTrue(AllOf(CaptureEq(&branch),
IsBranch(val, graph()->start()))),
IsIfFalse(CaptureEq(&branch)))));
}
TARGET_TEST_P(ChangeLoweringCommonTest, ChangeBoolToBit) {
Node* val = Parameter(0);
Node* node = graph()->NewNode(simplified()->ChangeBoolToBit(), val);
Reduction reduction = Reduce(node);
ASSERT_TRUE(reduction.Changed());
EXPECT_THAT(reduction.replacement(), IsWordEqual(val, IsTrueConstant()));
}
TARGET_TEST_P(ChangeLoweringCommonTest, ChangeFloat64ToTagged) {
Node* val = Parameter(0);
Node* node = graph()->NewNode(simplified()->ChangeFloat64ToTagged(), val);
Reduction reduction = Reduce(node);
ASSERT_TRUE(reduction.Changed());
Node* finish = reduction.replacement();
Capture<Node*> heap_number;
EXPECT_THAT(
finish,
IsFinish(
AllOf(CaptureEq(&heap_number),
IsAllocateHeapNumber(IsValueEffect(val), graph()->start())),
IsStore(kMachFloat64, kNoWriteBarrier, CaptureEq(&heap_number),
IsInt32Constant(HeapNumberValueOffset()), val,
CaptureEq(&heap_number), graph()->start())));
}
TARGET_TEST_P(ChangeLoweringCommonTest, StringAdd) {
Node* node =
graph()->NewNode(simplified()->StringAdd(), Parameter(0), Parameter(1));
Reduction reduction = Reduce(node);
EXPECT_FALSE(reduction.Changed());
}
INSTANTIATE_TEST_CASE_P(ChangeLoweringTest, ChangeLoweringCommonTest,
::testing::Values(kRepWord32, kRepWord64));
// -----------------------------------------------------------------------------
// 32-bit
class ChangeLowering32Test : public ChangeLoweringTest {
public:
virtual ~ChangeLowering32Test() {}
virtual MachineType WordRepresentation() const FINAL OVERRIDE {
return kRepWord32;
}
};
TARGET_TEST_F(ChangeLowering32Test, ChangeInt32ToTagged) {
Node* val = Parameter(0);
Node* node = graph()->NewNode(simplified()->ChangeInt32ToTagged(), val);
Reduction reduction = Reduce(node);
ASSERT_TRUE(reduction.Changed());
Node* phi = reduction.replacement();
Capture<Node*> add, branch, heap_number, if_true;
EXPECT_THAT(
phi,
IsPhi(kMachAnyTagged,
IsFinish(
AllOf(CaptureEq(&heap_number),
IsAllocateHeapNumber(_, CaptureEq(&if_true))),
IsStore(kMachFloat64, kNoWriteBarrier, CaptureEq(&heap_number),
IsInt32Constant(HeapNumberValueOffset()),
IsChangeInt32ToFloat64(val), CaptureEq(&heap_number),
CaptureEq(&if_true))),
IsProjection(
0, AllOf(CaptureEq(&add), IsInt32AddWithOverflow(val, val))),
IsMerge(AllOf(CaptureEq(&if_true), IsIfTrue(CaptureEq(&branch))),
IsIfFalse(AllOf(CaptureEq(&branch),
IsBranch(IsProjection(1, CaptureEq(&add)),
graph()->start()))))));
}
TARGET_TEST_F(ChangeLowering32Test, ChangeTaggedToFloat64) {
STATIC_ASSERT(kSmiTag == 0);
STATIC_ASSERT(kSmiTagSize == 1);
Node* val = Parameter(0);
Node* node = graph()->NewNode(simplified()->ChangeTaggedToFloat64(), val);
Reduction reduction = Reduce(node);
ASSERT_TRUE(reduction.Changed());
Node* phi = reduction.replacement();
Capture<Node*> branch, if_true;
EXPECT_THAT(
phi,
IsPhi(
kMachFloat64,
IsLoad(kMachFloat64, val, IsInt32Constant(HeapNumberValueOffset()),
IsControlEffect(CaptureEq(&if_true))),
IsChangeInt32ToFloat64(
IsWord32Sar(val, IsInt32Constant(SmiShiftAmount()))),
IsMerge(
AllOf(CaptureEq(&if_true),
IsIfTrue(AllOf(
CaptureEq(&branch),
IsBranch(IsWord32And(val, IsInt32Constant(kSmiTagMask)),
graph()->start())))),
IsIfFalse(CaptureEq(&branch)))));
}
TARGET_TEST_F(ChangeLowering32Test, ChangeTaggedToInt32) {
STATIC_ASSERT(kSmiTag == 0);
STATIC_ASSERT(kSmiTagSize == 1);
Node* val = Parameter(0);
Node* node = graph()->NewNode(simplified()->ChangeTaggedToInt32(), val);
Reduction reduction = Reduce(node);
ASSERT_TRUE(reduction.Changed());
Node* phi = reduction.replacement();
Capture<Node*> branch, if_true;
EXPECT_THAT(
phi,
IsPhi(kMachInt32,
IsChangeFloat64ToInt32(IsLoad(
kMachFloat64, val, IsInt32Constant(HeapNumberValueOffset()),
IsControlEffect(CaptureEq(&if_true)))),
IsWord32Sar(val, IsInt32Constant(SmiShiftAmount())),
IsMerge(AllOf(CaptureEq(&if_true), IsIfTrue(CaptureEq(&branch))),
IsIfFalse(AllOf(
CaptureEq(&branch),
IsBranch(IsWord32And(val, IsInt32Constant(kSmiTagMask)),
graph()->start()))))));
}
TARGET_TEST_F(ChangeLowering32Test, ChangeTaggedToUint32) {
STATIC_ASSERT(kSmiTag == 0);
STATIC_ASSERT(kSmiTagSize == 1);
Node* val = Parameter(0);
Node* node = graph()->NewNode(simplified()->ChangeTaggedToUint32(), val);
Reduction reduction = Reduce(node);
ASSERT_TRUE(reduction.Changed());
Node* phi = reduction.replacement();
Capture<Node*> branch, if_true;
EXPECT_THAT(
phi,
IsPhi(kMachUint32,
IsChangeFloat64ToUint32(IsLoad(
kMachFloat64, val, IsInt32Constant(HeapNumberValueOffset()),
IsControlEffect(CaptureEq(&if_true)))),
IsWord32Sar(val, IsInt32Constant(SmiShiftAmount())),
IsMerge(AllOf(CaptureEq(&if_true), IsIfTrue(CaptureEq(&branch))),
IsIfFalse(AllOf(
CaptureEq(&branch),
IsBranch(IsWord32And(val, IsInt32Constant(kSmiTagMask)),
graph()->start()))))));
}
TARGET_TEST_F(ChangeLowering32Test, ChangeUint32ToTagged) {
STATIC_ASSERT(kSmiTag == 0);
STATIC_ASSERT(kSmiTagSize == 1);
Node* val = Parameter(0);
Node* node = graph()->NewNode(simplified()->ChangeUint32ToTagged(), val);
Reduction reduction = Reduce(node);
ASSERT_TRUE(reduction.Changed());
Node* phi = reduction.replacement();
Capture<Node*> branch, heap_number, if_false;
EXPECT_THAT(
phi,
IsPhi(
kMachAnyTagged, IsWord32Shl(val, IsInt32Constant(SmiShiftAmount())),
IsFinish(
AllOf(CaptureEq(&heap_number),
IsAllocateHeapNumber(_, CaptureEq(&if_false))),
IsStore(kMachFloat64, kNoWriteBarrier, CaptureEq(&heap_number),
IsInt32Constant(HeapNumberValueOffset()),
IsChangeUint32ToFloat64(val), CaptureEq(&heap_number),
CaptureEq(&if_false))),
IsMerge(
IsIfTrue(AllOf(CaptureEq(&branch),
IsBranch(IsUint32LessThanOrEqual(
val, IsInt32Constant(SmiMaxValue())),
graph()->start()))),
AllOf(CaptureEq(&if_false), IsIfFalse(CaptureEq(&branch))))));
}
// -----------------------------------------------------------------------------
// 64-bit
class ChangeLowering64Test : public ChangeLoweringTest {
public:
virtual ~ChangeLowering64Test() {}
virtual MachineType WordRepresentation() const FINAL OVERRIDE {
return kRepWord64;
}
};
TARGET_TEST_F(ChangeLowering64Test, ChangeInt32ToTagged) {
Node* val = Parameter(0);
Node* node = graph()->NewNode(simplified()->ChangeInt32ToTagged(), val);
Reduction reduction = Reduce(node);
ASSERT_TRUE(reduction.Changed());
EXPECT_THAT(reduction.replacement(),
IsWord64Shl(IsChangeInt32ToInt64(val),
IsInt32Constant(SmiShiftAmount())));
}
TARGET_TEST_F(ChangeLowering64Test, ChangeTaggedToFloat64) {
STATIC_ASSERT(kSmiTag == 0);
STATIC_ASSERT(kSmiTagSize == 1);
Node* val = Parameter(0);
Node* node = graph()->NewNode(simplified()->ChangeTaggedToFloat64(), val);
Reduction reduction = Reduce(node);
ASSERT_TRUE(reduction.Changed());
Node* phi = reduction.replacement();
Capture<Node*> branch, if_true;
EXPECT_THAT(
phi,
IsPhi(
kMachFloat64,
IsLoad(kMachFloat64, val, IsInt32Constant(HeapNumberValueOffset()),
IsControlEffect(CaptureEq(&if_true))),
IsChangeInt32ToFloat64(IsTruncateInt64ToInt32(
IsWord64Sar(val, IsInt32Constant(SmiShiftAmount())))),
IsMerge(
AllOf(CaptureEq(&if_true),
IsIfTrue(AllOf(
CaptureEq(&branch),
IsBranch(IsWord64And(val, IsInt32Constant(kSmiTagMask)),
graph()->start())))),
IsIfFalse(CaptureEq(&branch)))));
}
TARGET_TEST_F(ChangeLowering64Test, ChangeTaggedToInt32) {
STATIC_ASSERT(kSmiTag == 0);
STATIC_ASSERT(kSmiTagSize == 1);
Node* val = Parameter(0);
Node* node = graph()->NewNode(simplified()->ChangeTaggedToInt32(), val);
Reduction reduction = Reduce(node);
ASSERT_TRUE(reduction.Changed());
Node* phi = reduction.replacement();
Capture<Node*> branch, if_true;
EXPECT_THAT(
phi,
IsPhi(kMachInt32,
IsChangeFloat64ToInt32(IsLoad(
kMachFloat64, val, IsInt32Constant(HeapNumberValueOffset()),
IsControlEffect(CaptureEq(&if_true)))),
IsTruncateInt64ToInt32(
IsWord64Sar(val, IsInt32Constant(SmiShiftAmount()))),
IsMerge(AllOf(CaptureEq(&if_true), IsIfTrue(CaptureEq(&branch))),
IsIfFalse(AllOf(
CaptureEq(&branch),
IsBranch(IsWord64And(val, IsInt32Constant(kSmiTagMask)),
graph()->start()))))));
}
TARGET_TEST_F(ChangeLowering64Test, ChangeTaggedToUint32) {
STATIC_ASSERT(kSmiTag == 0);
STATIC_ASSERT(kSmiTagSize == 1);
Node* val = Parameter(0);
Node* node = graph()->NewNode(simplified()->ChangeTaggedToUint32(), val);
Reduction reduction = Reduce(node);
ASSERT_TRUE(reduction.Changed());
Node* phi = reduction.replacement();
Capture<Node*> branch, if_true;
EXPECT_THAT(
phi,
IsPhi(kMachUint32,
IsChangeFloat64ToUint32(IsLoad(
kMachFloat64, val, IsInt32Constant(HeapNumberValueOffset()),
IsControlEffect(CaptureEq(&if_true)))),
IsTruncateInt64ToInt32(
IsWord64Sar(val, IsInt32Constant(SmiShiftAmount()))),
IsMerge(AllOf(CaptureEq(&if_true), IsIfTrue(CaptureEq(&branch))),
IsIfFalse(AllOf(
CaptureEq(&branch),
IsBranch(IsWord64And(val, IsInt32Constant(kSmiTagMask)),
graph()->start()))))));
}
TARGET_TEST_F(ChangeLowering64Test, ChangeUint32ToTagged) {
STATIC_ASSERT(kSmiTag == 0);
STATIC_ASSERT(kSmiTagSize == 1);
Node* val = Parameter(0);
Node* node = graph()->NewNode(simplified()->ChangeUint32ToTagged(), val);
Reduction reduction = Reduce(node);
ASSERT_TRUE(reduction.Changed());
Node* phi = reduction.replacement();
Capture<Node*> branch, heap_number, if_false;
EXPECT_THAT(
phi,
IsPhi(
kMachAnyTagged, IsWord64Shl(IsChangeUint32ToUint64(val),
IsInt32Constant(SmiShiftAmount())),
IsFinish(
AllOf(CaptureEq(&heap_number),
IsAllocateHeapNumber(_, CaptureEq(&if_false))),
IsStore(kMachFloat64, kNoWriteBarrier, CaptureEq(&heap_number),
IsInt32Constant(HeapNumberValueOffset()),
IsChangeUint32ToFloat64(val), CaptureEq(&heap_number),
CaptureEq(&if_false))),
IsMerge(
IsIfTrue(AllOf(CaptureEq(&branch),
IsBranch(IsUint32LessThanOrEqual(
val, IsInt32Constant(SmiMaxValue())),
graph()->start()))),
AllOf(CaptureEq(&if_false), IsIfFalse(CaptureEq(&branch))))));
}
} // namespace compiler
} // namespace internal
} // namespace v8