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chromium / v8 / v8 / 5bc243978396ab902f115e49aff2cf4bcb5d8a4c / . / src / compiler / js-generic-lowering.cc
blob: 0f9defd4ce5be39ff2f21a8f5cbec1a53dfda466 [file] [log] [blame]
// 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/code-factory.h"
#include "src/code-stubs.h"
#include "src/compiler/common-operator.h"
#include "src/compiler/js-generic-lowering.h"
#include "src/compiler/js-graph.h"
#include "src/compiler/machine-operator.h"
#include "src/compiler/node-matchers.h"
#include "src/compiler/node-properties.h"
#include "src/compiler/operator-properties.h"
namespace v8 {
namespace internal {
namespace compiler {
static CallDescriptor::Flags AdjustFrameStatesForCall(Node* node) {
int count = OperatorProperties::GetFrameStateInputCount(node->op());
if (count > 1) {
int index = NodeProperties::FirstFrameStateIndex(node) + 1;
do {
node->RemoveInput(index);
} while (--count > 1);
}
return count > 0 ? CallDescriptor::kNeedsFrameState
: CallDescriptor::kNoFlags;
}
JSGenericLowering::JSGenericLowering(JSGraph* jsgraph) : jsgraph_(jsgraph) {}
JSGenericLowering::~JSGenericLowering() {}
Reduction JSGenericLowering::Reduce(Node* node) {
switch (node->opcode()) {
#define DECLARE_CASE(x) \
case IrOpcode::k##x: \
Lower##x(node); \
break;
JS_OP_LIST(DECLARE_CASE)
#undef DECLARE_CASE
default:
// Nothing to see.
return NoChange();
}
return Changed(node);
}
#define REPLACE_RUNTIME_CALL(op, fun) \
void JSGenericLowering::Lower##op(Node* node) { \
ReplaceWithRuntimeCall(node, fun); \
}
REPLACE_RUNTIME_CALL(JSCreateWithContext, Runtime::kPushWithContext)
REPLACE_RUNTIME_CALL(JSConvertReceiver, Runtime::kConvertReceiver)
#undef REPLACE_RUNTIME_CALL
#define REPLACE_STUB_CALL(Name) \
void JSGenericLowering::LowerJS##Name(Node* node) { \
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node); \
Callable callable = CodeFactory::Name(isolate()); \
ReplaceWithStubCall(node, callable, flags); \
}
REPLACE_STUB_CALL(Add)
REPLACE_STUB_CALL(Subtract)
REPLACE_STUB_CALL(Multiply)
REPLACE_STUB_CALL(Divide)
REPLACE_STUB_CALL(Modulus)
REPLACE_STUB_CALL(BitwiseAnd)
REPLACE_STUB_CALL(BitwiseOr)
REPLACE_STUB_CALL(BitwiseXor)
REPLACE_STUB_CALL(ShiftLeft)
REPLACE_STUB_CALL(ShiftRight)
REPLACE_STUB_CALL(ShiftRightLogical)
REPLACE_STUB_CALL(LessThan)
REPLACE_STUB_CALL(LessThanOrEqual)
REPLACE_STUB_CALL(GreaterThan)
REPLACE_STUB_CALL(GreaterThanOrEqual)
REPLACE_STUB_CALL(HasProperty)
REPLACE_STUB_CALL(Equal)
REPLACE_STUB_CALL(NotEqual)
REPLACE_STUB_CALL(ToInteger)
REPLACE_STUB_CALL(ToLength)
REPLACE_STUB_CALL(ToNumber)
REPLACE_STUB_CALL(ToName)
REPLACE_STUB_CALL(ToObject)
REPLACE_STUB_CALL(ToString)
#undef REPLACE_STUB_CALL
void JSGenericLowering::ReplaceWithStubCall(Node* node, Callable callable,
CallDescriptor::Flags flags) {
ReplaceWithStubCall(node, callable, flags, node->op()->properties());
}
void JSGenericLowering::ReplaceWithStubCall(Node* node, Callable callable,
CallDescriptor::Flags flags,
Operator::Properties properties) {
CallDescriptor* desc = Linkage::GetStubCallDescriptor(
isolate(), zone(), callable.descriptor(), 0, flags, properties);
Node* stub_code = jsgraph()->HeapConstant(callable.code());
node->InsertInput(zone(), 0, stub_code);
NodeProperties::ChangeOp(node, common()->Call(desc));
}
void JSGenericLowering::ReplaceWithRuntimeCall(Node* node,
Runtime::FunctionId f,
int nargs_override) {
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
Operator::Properties properties = node->op()->properties();
const Runtime::Function* fun = Runtime::FunctionForId(f);
int nargs = (nargs_override < 0) ? fun->nargs : nargs_override;
CallDescriptor* desc =
Linkage::GetRuntimeCallDescriptor(zone(), f, nargs, properties, flags);
Node* ref = jsgraph()->ExternalConstant(ExternalReference(f, isolate()));
Node* arity = jsgraph()->Int32Constant(nargs);
node->InsertInput(zone(), 0, jsgraph()->CEntryStubConstant(fun->result_size));
node->InsertInput(zone(), nargs + 1, ref);
node->InsertInput(zone(), nargs + 2, arity);
NodeProperties::ChangeOp(node, common()->Call(desc));
}
void JSGenericLowering::LowerJSStrictEqual(Node* node) {
Callable callable = CodeFactory::StrictEqual(isolate());
node->AppendInput(zone(), graph()->start());
ReplaceWithStubCall(node, callable, CallDescriptor::kNoFlags,
Operator::kEliminatable);
}
void JSGenericLowering::LowerJSStrictNotEqual(Node* node) {
Callable callable = CodeFactory::StrictNotEqual(isolate());
node->AppendInput(zone(), graph()->start());
ReplaceWithStubCall(node, callable, CallDescriptor::kNoFlags,
Operator::kEliminatable);
}
void JSGenericLowering::LowerJSToBoolean(Node* node) {
Callable callable = CodeFactory::ToBoolean(isolate());
node->AppendInput(zone(), graph()->start());
ReplaceWithStubCall(node, callable, CallDescriptor::kNoAllocate,
Operator::kEliminatable);
}
void JSGenericLowering::LowerJSTypeOf(Node* node) {
Callable callable = CodeFactory::Typeof(isolate());
node->AppendInput(zone(), graph()->start());
ReplaceWithStubCall(node, callable, CallDescriptor::kNoAllocate,
Operator::kEliminatable);
}
void JSGenericLowering::LowerJSLoadProperty(Node* node) {
Node* closure = NodeProperties::GetValueInput(node, 2);
Node* effect = NodeProperties::GetEffectInput(node);
Node* control = NodeProperties::GetControlInput(node);
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
const PropertyAccess& p = PropertyAccessOf(node->op());
Callable callable = CodeFactory::KeyedLoadICInOptimizedCode(isolate());
// Load the type feedback vector from the closure.
Node* literals = effect = graph()->NewNode(
machine()->Load(MachineType::AnyTagged()), closure,
jsgraph()->IntPtrConstant(JSFunction::kLiteralsOffset - kHeapObjectTag),
effect, control);
Node* vector = effect = graph()->NewNode(
machine()->Load(MachineType::AnyTagged()), literals,
jsgraph()->IntPtrConstant(LiteralsArray::kFeedbackVectorOffset -
kHeapObjectTag),
effect, control);
node->InsertInput(zone(), 2, jsgraph()->SmiConstant(p.feedback().index()));
node->ReplaceInput(3, vector);
node->ReplaceInput(6, effect);
ReplaceWithStubCall(node, callable, flags);
}
void JSGenericLowering::LowerJSLoadNamed(Node* node) {
Node* closure = NodeProperties::GetValueInput(node, 1);
Node* effect = NodeProperties::GetEffectInput(node);
Node* control = NodeProperties::GetControlInput(node);
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
NamedAccess const& p = NamedAccessOf(node->op());
Callable callable = CodeFactory::LoadICInOptimizedCode(isolate());
// Load the type feedback vector from the closure.
Node* literals = effect = graph()->NewNode(
machine()->Load(MachineType::AnyTagged()), closure,
jsgraph()->IntPtrConstant(JSFunction::kLiteralsOffset - kHeapObjectTag),
effect, control);
Node* vector = effect = graph()->NewNode(
machine()->Load(MachineType::AnyTagged()), literals,
jsgraph()->IntPtrConstant(LiteralsArray::kFeedbackVectorOffset -
kHeapObjectTag),
effect, control);
node->InsertInput(zone(), 1, jsgraph()->HeapConstant(p.name()));
node->InsertInput(zone(), 2, jsgraph()->SmiConstant(p.feedback().index()));
node->ReplaceInput(3, vector);
node->ReplaceInput(6, effect);
ReplaceWithStubCall(node, callable, flags);
}
void JSGenericLowering::LowerJSLoadGlobal(Node* node) {
Node* closure = NodeProperties::GetValueInput(node, 0);
Node* effect = NodeProperties::GetEffectInput(node);
Node* control = NodeProperties::GetControlInput(node);
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
const LoadGlobalParameters& p = LoadGlobalParametersOf(node->op());
Callable callable =
CodeFactory::LoadGlobalICInOptimizedCode(isolate(), p.typeof_mode());
// Load the type feedback vector from the closure.
Node* literals = effect = graph()->NewNode(
machine()->Load(MachineType::AnyTagged()), closure,
jsgraph()->IntPtrConstant(JSFunction::kLiteralsOffset - kHeapObjectTag),
effect, control);
Node* vector = effect = graph()->NewNode(
machine()->Load(MachineType::AnyTagged()), literals,
jsgraph()->IntPtrConstant(LiteralsArray::kFeedbackVectorOffset -
kHeapObjectTag),
effect, control);
node->InsertInput(zone(), 0, jsgraph()->SmiConstant(p.feedback().index()));
node->ReplaceInput(1, vector);
node->ReplaceInput(4, effect);
ReplaceWithStubCall(node, callable, flags);
}
void JSGenericLowering::LowerJSStoreProperty(Node* node) {
Node* receiver = NodeProperties::GetValueInput(node, 0);
Node* key = NodeProperties::GetValueInput(node, 1);
Node* value = NodeProperties::GetValueInput(node, 2);
Node* closure = NodeProperties::GetValueInput(node, 3);
Node* effect = NodeProperties::GetEffectInput(node);
Node* control = NodeProperties::GetControlInput(node);
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
PropertyAccess const& p = PropertyAccessOf(node->op());
LanguageMode language_mode = p.language_mode();
Callable callable =
CodeFactory::KeyedStoreICInOptimizedCode(isolate(), language_mode);
// Load the type feedback vector from the closure.
Node* literals = effect = graph()->NewNode(
machine()->Load(MachineType::AnyTagged()), closure,
jsgraph()->IntPtrConstant(JSFunction::kLiteralsOffset - kHeapObjectTag),
effect, control);
Node* vector = effect = graph()->NewNode(
machine()->Load(MachineType::AnyTagged()), literals,
jsgraph()->IntPtrConstant(LiteralsArray::kFeedbackVectorOffset -
kHeapObjectTag),
effect, control);
typedef StoreWithVectorDescriptor Descriptor;
node->InsertInputs(zone(), 0, 1);
node->ReplaceInput(Descriptor::kReceiver, receiver);
node->ReplaceInput(Descriptor::kName, key);
node->ReplaceInput(Descriptor::kValue, value);
node->ReplaceInput(Descriptor::kSlot,
jsgraph()->SmiConstant(p.feedback().index()));
node->ReplaceInput(Descriptor::kVector, vector);
node->ReplaceInput(7, effect);
ReplaceWithStubCall(node, callable, flags);
}
void JSGenericLowering::LowerJSStoreNamed(Node* node) {
Node* receiver = NodeProperties::GetValueInput(node, 0);
Node* value = NodeProperties::GetValueInput(node, 1);
Node* closure = NodeProperties::GetValueInput(node, 2);
Node* effect = NodeProperties::GetEffectInput(node);
Node* control = NodeProperties::GetControlInput(node);
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
NamedAccess const& p = NamedAccessOf(node->op());
Callable callable =
CodeFactory::StoreICInOptimizedCode(isolate(), p.language_mode());
// Load the type feedback vector from the closure.
Node* literals = effect = graph()->NewNode(
machine()->Load(MachineType::AnyTagged()), closure,
jsgraph()->IntPtrConstant(JSFunction::kLiteralsOffset - kHeapObjectTag),
effect, control);
Node* vector = effect = graph()->NewNode(
machine()->Load(MachineType::AnyTagged()), literals,
jsgraph()->IntPtrConstant(LiteralsArray::kFeedbackVectorOffset -
kHeapObjectTag),
effect, control);
typedef StoreWithVectorDescriptor Descriptor;
node->InsertInputs(zone(), 0, 2);
node->ReplaceInput(Descriptor::kReceiver, receiver);
node->ReplaceInput(Descriptor::kName, jsgraph()->HeapConstant(p.name()));
node->ReplaceInput(Descriptor::kValue, value);
node->ReplaceInput(Descriptor::kSlot,
jsgraph()->SmiConstant(p.feedback().index()));
node->ReplaceInput(Descriptor::kVector, vector);
node->ReplaceInput(7, effect);
ReplaceWithStubCall(node, callable, flags);
}
void JSGenericLowering::LowerJSStoreGlobal(Node* node) {
Node* value = NodeProperties::GetValueInput(node, 0);
Node* closure = NodeProperties::GetValueInput(node, 1);
Node* context = NodeProperties::GetContextInput(node);
Node* effect = NodeProperties::GetEffectInput(node);
Node* control = NodeProperties::GetControlInput(node);
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
const StoreGlobalParameters& p = StoreGlobalParametersOf(node->op());
Callable callable =
CodeFactory::StoreICInOptimizedCode(isolate(), p.language_mode());
// Load the type feedback vector from the closure.
Node* literals = effect = graph()->NewNode(
machine()->Load(MachineType::AnyTagged()), closure,
jsgraph()->IntPtrConstant(JSFunction::kLiteralsOffset - kHeapObjectTag),
effect, control);
Node* vector = effect = graph()->NewNode(
machine()->Load(MachineType::AnyTagged()), literals,
jsgraph()->IntPtrConstant(LiteralsArray::kFeedbackVectorOffset -
kHeapObjectTag),
effect, control);
// Load global object from the context.
Node* native_context = effect =
graph()->NewNode(machine()->Load(MachineType::AnyTagged()), context,
jsgraph()->IntPtrConstant(
Context::SlotOffset(Context::NATIVE_CONTEXT_INDEX)),
effect, control);
Node* global = effect = graph()->NewNode(
machine()->Load(MachineType::AnyTagged()), native_context,
jsgraph()->IntPtrConstant(Context::SlotOffset(Context::EXTENSION_INDEX)),
effect, control);
typedef StoreWithVectorDescriptor Descriptor;
node->InsertInputs(zone(), 0, 3);
node->ReplaceInput(Descriptor::kReceiver, global);
node->ReplaceInput(Descriptor::kName, jsgraph()->HeapConstant(p.name()));
node->ReplaceInput(Descriptor::kValue, value);
node->ReplaceInput(Descriptor::kSlot,
jsgraph()->SmiConstant(p.feedback().index()));
node->ReplaceInput(Descriptor::kVector, vector);
node->ReplaceInput(7, effect);
ReplaceWithStubCall(node, callable, flags);
}
void JSGenericLowering::LowerJSDeleteProperty(Node* node) {
LanguageMode language_mode = OpParameter<LanguageMode>(node);
ReplaceWithRuntimeCall(node, is_strict(language_mode)
? Runtime::kDeleteProperty_Strict
: Runtime::kDeleteProperty_Sloppy);
}
void JSGenericLowering::LowerJSInstanceOf(Node* node) {
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
Callable callable = CodeFactory::InstanceOf(isolate());
ReplaceWithStubCall(node, callable, flags);
}
void JSGenericLowering::LowerJSLoadContext(Node* node) {
const ContextAccess& access = ContextAccessOf(node->op());
for (size_t i = 0; i < access.depth(); ++i) {
node->ReplaceInput(
0, graph()->NewNode(machine()->Load(MachineType::AnyTagged()),
NodeProperties::GetValueInput(node, 0),
jsgraph()->Int32Constant(
Context::SlotOffset(Context::PREVIOUS_INDEX)),
NodeProperties::GetEffectInput(node),
graph()->start()));
}
node->ReplaceInput(1, jsgraph()->Int32Constant(Context::SlotOffset(
static_cast<int>(access.index()))));
node->AppendInput(zone(), graph()->start());
NodeProperties::ChangeOp(node, machine()->Load(MachineType::AnyTagged()));
}
void JSGenericLowering::LowerJSStoreContext(Node* node) {
const ContextAccess& access = ContextAccessOf(node->op());
for (size_t i = 0; i < access.depth(); ++i) {
node->ReplaceInput(
0, graph()->NewNode(machine()->Load(MachineType::AnyTagged()),
NodeProperties::GetValueInput(node, 0),
jsgraph()->Int32Constant(
Context::SlotOffset(Context::PREVIOUS_INDEX)),
NodeProperties::GetEffectInput(node),
graph()->start()));
}
node->ReplaceInput(2, NodeProperties::GetValueInput(node, 1));
node->ReplaceInput(1, jsgraph()->Int32Constant(Context::SlotOffset(
static_cast<int>(access.index()))));
NodeProperties::ChangeOp(
node, machine()->Store(StoreRepresentation(MachineRepresentation::kTagged,
kFullWriteBarrier)));
}
void JSGenericLowering::LowerJSCreate(Node* node) {
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
Callable callable = CodeFactory::FastNewObject(isolate());
ReplaceWithStubCall(node, callable, flags);
}
void JSGenericLowering::LowerJSCreateArguments(Node* node) {
CreateArgumentsType const type = CreateArgumentsTypeOf(node->op());
switch (type) {
case CreateArgumentsType::kMappedArguments:
ReplaceWithRuntimeCall(node, Runtime::kNewSloppyArguments_Generic);
break;
case CreateArgumentsType::kUnmappedArguments:
ReplaceWithRuntimeCall(node, Runtime::kNewStrictArguments);
break;
case CreateArgumentsType::kRestParameter:
ReplaceWithRuntimeCall(node, Runtime::kNewRestParameter);
break;
}
}
void JSGenericLowering::LowerJSCreateArray(Node* node) {
CreateArrayParameters const& p = CreateArrayParametersOf(node->op());
int const arity = static_cast<int>(p.arity());
Handle<AllocationSite> const site = p.site();
Node* new_target = node->InputAt(1);
Node* type_info = site.is_null() ? jsgraph()->UndefinedConstant()
: jsgraph()->HeapConstant(site);
node->RemoveInput(1);
node->InsertInput(zone(), 1 + arity, new_target);
node->InsertInput(zone(), 2 + arity, type_info);
ReplaceWithRuntimeCall(node, Runtime::kNewArray, arity + 3);
}
void JSGenericLowering::LowerJSCreateClosure(Node* node) {
CreateClosureParameters const& p = CreateClosureParametersOf(node->op());
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
Handle<SharedFunctionInfo> const shared_info = p.shared_info();
node->InsertInput(zone(), 0, jsgraph()->HeapConstant(shared_info));
// Use the FastNewClosureStub only for functions allocated in new space.
if (p.pretenure() == NOT_TENURED) {
Callable callable = CodeFactory::FastNewClosure(isolate());
ReplaceWithStubCall(node, callable, flags);
} else {
ReplaceWithRuntimeCall(node, (p.pretenure() == TENURED)
? Runtime::kNewClosure_Tenured
: Runtime::kNewClosure);
}
}
void JSGenericLowering::LowerJSCreateFunctionContext(Node* node) {
int const slot_count = OpParameter<int>(node->op());
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
Callable callable = CodeFactory::FastNewFunctionContext(isolate());
node->InsertInput(zone(), 1, jsgraph()->Int32Constant(slot_count));
ReplaceWithStubCall(node, callable, flags);
}
void JSGenericLowering::LowerJSCreateIterResultObject(Node* node) {
ReplaceWithRuntimeCall(node, Runtime::kCreateIterResultObject);
}
void JSGenericLowering::LowerJSCreateLiteralArray(Node* node) {
CreateLiteralParameters const& p = CreateLiteralParametersOf(node->op());
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
node->InsertInput(zone(), 1, jsgraph()->SmiConstant(p.index()));
node->InsertInput(zone(), 2, jsgraph()->HeapConstant(p.constant()));
// Use the FastCloneShallowArrayStub only for shallow boilerplates up to the
// initial length limit for arrays with "fast" elements kind.
if ((p.flags() & ArrayLiteral::kShallowElements) != 0 &&
p.length() < JSArray::kInitialMaxFastElementArray) {
Callable callable = CodeFactory::FastCloneShallowArray(isolate());
ReplaceWithStubCall(node, callable, flags);
} else {
node->InsertInput(zone(), 3, jsgraph()->SmiConstant(p.flags()));
ReplaceWithRuntimeCall(node, Runtime::kCreateArrayLiteral);
}
}
void JSGenericLowering::LowerJSCreateLiteralObject(Node* node) {
CreateLiteralParameters const& p = CreateLiteralParametersOf(node->op());
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
node->InsertInput(zone(), 1, jsgraph()->SmiConstant(p.index()));
node->InsertInput(zone(), 2, jsgraph()->HeapConstant(p.constant()));
node->InsertInput(zone(), 3, jsgraph()->SmiConstant(p.flags()));
// Use the FastCloneShallowObjectStub only for shallow boilerplates without
// elements up to the number of properties that the stubs can handle.
if ((p.flags() & ObjectLiteral::kShallowProperties) != 0 &&
p.length() <= FastCloneShallowObjectStub::kMaximumClonedProperties) {
Callable callable =
CodeFactory::FastCloneShallowObject(isolate(), p.length());
ReplaceWithStubCall(node, callable, flags);
} else {
ReplaceWithRuntimeCall(node, Runtime::kCreateObjectLiteral);
}
}
void JSGenericLowering::LowerJSCreateLiteralRegExp(Node* node) {
CreateLiteralParameters const& p = CreateLiteralParametersOf(node->op());
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
Callable callable = CodeFactory::FastCloneRegExp(isolate());
Node* literal_index = jsgraph()->SmiConstant(p.index());
Node* literal_flags = jsgraph()->SmiConstant(p.flags());
Node* pattern = jsgraph()->HeapConstant(p.constant());
node->InsertInput(graph()->zone(), 1, literal_index);
node->InsertInput(graph()->zone(), 2, pattern);
node->InsertInput(graph()->zone(), 3, literal_flags);
ReplaceWithStubCall(node, callable, flags);
}
void JSGenericLowering::LowerJSCreateCatchContext(Node* node) {
Handle<String> name = OpParameter<Handle<String>>(node);
node->InsertInput(zone(), 0, jsgraph()->HeapConstant(name));
ReplaceWithRuntimeCall(node, Runtime::kPushCatchContext);
}
void JSGenericLowering::LowerJSCreateBlockContext(Node* node) {
Handle<ScopeInfo> scope_info = OpParameter<Handle<ScopeInfo>>(node);
node->InsertInput(zone(), 0, jsgraph()->HeapConstant(scope_info));
ReplaceWithRuntimeCall(node, Runtime::kPushBlockContext);
}
void JSGenericLowering::LowerJSCreateScriptContext(Node* node) {
Handle<ScopeInfo> scope_info = OpParameter<Handle<ScopeInfo>>(node);
node->InsertInput(zone(), 1, jsgraph()->HeapConstant(scope_info));
ReplaceWithRuntimeCall(node, Runtime::kNewScriptContext);
}
void JSGenericLowering::LowerJSCallConstruct(Node* node) {
CallConstructParameters const& p = CallConstructParametersOf(node->op());
int const arg_count = static_cast<int>(p.arity() - 2);
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
Callable callable = CodeFactory::Construct(isolate());
CallDescriptor* desc = Linkage::GetStubCallDescriptor(
isolate(), zone(), callable.descriptor(), arg_count + 1, flags);
Node* stub_code = jsgraph()->HeapConstant(callable.code());
Node* stub_arity = jsgraph()->Int32Constant(arg_count);
Node* new_target = node->InputAt(arg_count + 1);
Node* receiver = jsgraph()->UndefinedConstant();
node->RemoveInput(arg_count + 1); // Drop new target.
node->InsertInput(zone(), 0, stub_code);
node->InsertInput(zone(), 2, new_target);
node->InsertInput(zone(), 3, stub_arity);
node->InsertInput(zone(), 4, receiver);
NodeProperties::ChangeOp(node, common()->Call(desc));
}
void JSGenericLowering::LowerJSCallFunction(Node* node) {
CallFunctionParameters const& p = CallFunctionParametersOf(node->op());
int const arg_count = static_cast<int>(p.arity() - 2);
ConvertReceiverMode const mode = p.convert_mode();
Callable callable = CodeFactory::Call(isolate(), mode);
CallDescriptor::Flags flags = AdjustFrameStatesForCall(node);
if (p.tail_call_mode() == TailCallMode::kAllow) {
flags |= CallDescriptor::kSupportsTailCalls;
}
CallDescriptor* desc = Linkage::GetStubCallDescriptor(
isolate(), zone(), callable.descriptor(), arg_count + 1, flags);
Node* stub_code = jsgraph()->HeapConstant(callable.code());
Node* stub_arity = jsgraph()->Int32Constant(arg_count);
node->InsertInput(zone(), 0, stub_code);
node->InsertInput(zone(), 2, stub_arity);
NodeProperties::ChangeOp(node, common()->Call(desc));
}
void JSGenericLowering::LowerJSCallRuntime(Node* node) {
const CallRuntimeParameters& p = CallRuntimeParametersOf(node->op());
AdjustFrameStatesForCall(node);
ReplaceWithRuntimeCall(node, p.id(), static_cast<int>(p.arity()));
}
void JSGenericLowering::LowerJSForInDone(Node* node) {
ReplaceWithRuntimeCall(node, Runtime::kForInDone);
}
void JSGenericLowering::LowerJSForInNext(Node* node) {
ReplaceWithRuntimeCall(node, Runtime::kForInNext);
}
void JSGenericLowering::LowerJSForInPrepare(Node* node) {
ReplaceWithRuntimeCall(node, Runtime::kForInPrepare);
}
void JSGenericLowering::LowerJSForInStep(Node* node) {
ReplaceWithRuntimeCall(node, Runtime::kForInStep);
}
void JSGenericLowering::LowerJSLoadMessage(Node* node) {
ExternalReference message_address =
ExternalReference::address_of_pending_message_obj(isolate());
node->RemoveInput(NodeProperties::FirstContextIndex(node));
node->InsertInput(zone(), 0, jsgraph()->ExternalConstant(message_address));
node->InsertInput(zone(), 1, jsgraph()->IntPtrConstant(0));
NodeProperties::ChangeOp(node, machine()->Load(MachineType::AnyTagged()));
}
void JSGenericLowering::LowerJSStoreMessage(Node* node) {
ExternalReference message_address =
ExternalReference::address_of_pending_message_obj(isolate());
node->RemoveInput(NodeProperties::FirstContextIndex(node));
node->InsertInput(zone(), 0, jsgraph()->ExternalConstant(message_address));
node->InsertInput(zone(), 1, jsgraph()->IntPtrConstant(0));
StoreRepresentation representation(MachineRepresentation::kTagged,
kNoWriteBarrier);
NodeProperties::ChangeOp(node, machine()->Store(representation));
}
void JSGenericLowering::LowerJSGeneratorStore(Node* node) {
UNREACHABLE(); // Eliminated in typed lowering.
}
void JSGenericLowering::LowerJSGeneratorRestoreContinuation(Node* node) {
UNREACHABLE(); // Eliminated in typed lowering.
}
void JSGenericLowering::LowerJSGeneratorRestoreRegister(Node* node) {
UNREACHABLE(); // Eliminated in typed lowering.
}
void JSGenericLowering::LowerJSStackCheck(Node* node) {
Node* effect = NodeProperties::GetEffectInput(node);
Node* control = NodeProperties::GetControlInput(node);
Node* limit = graph()->NewNode(
machine()->Load(MachineType::Pointer()),
jsgraph()->ExternalConstant(
ExternalReference::address_of_stack_limit(isolate())),
jsgraph()->IntPtrConstant(0), effect, control);
Node* pointer = graph()->NewNode(machine()->LoadStackPointer());
Node* check = graph()->NewNode(machine()->UintLessThan(), limit, pointer);
Node* branch =
graph()->NewNode(common()->Branch(BranchHint::kTrue), check, control);
Node* if_true = graph()->NewNode(common()->IfTrue(), branch);
Node* etrue = effect;
Node* if_false = graph()->NewNode(common()->IfFalse(), branch);
NodeProperties::ReplaceControlInput(node, if_false);
Node* efalse = node;
Node* merge = graph()->NewNode(common()->Merge(2), if_true, if_false);
Node* ephi = graph()->NewNode(common()->EffectPhi(2), etrue, efalse, merge);
// Wire the new diamond into the graph, {node} can still throw.
NodeProperties::ReplaceUses(node, node, ephi, node, node);
NodeProperties::ReplaceEffectInput(ephi, efalse, 1);
// TODO(mstarzinger): This iteration cuts out the IfSuccess projection from
// the node and places it inside the diamond. Come up with a helper method!
for (Node* use : node->uses()) {
if (use->opcode() == IrOpcode::kIfSuccess) {
use->ReplaceUses(merge);
merge->ReplaceInput(1, use);
}
}
// Turn the stack check into a runtime call.
ReplaceWithRuntimeCall(node, Runtime::kStackGuard);
}
Zone* JSGenericLowering::zone() const { return graph()->zone(); }
Isolate* JSGenericLowering::isolate() const { return jsgraph()->isolate(); }
Graph* JSGenericLowering::graph() const { return jsgraph()->graph(); }
CommonOperatorBuilder* JSGenericLowering::common() const {
return jsgraph()->common();
}
MachineOperatorBuilder* JSGenericLowering::machine() const {
return jsgraph()->machine();
}
} // namespace compiler
} // namespace internal
} // namespace v8