Implement lowering of JS[Load,Store][Property,Named] to ICs.

R=titzer@chromium.org

Review URL: https://codereview.chromium.org/439263004

git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@22877 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
parent bbd62e4a
......@@ -1795,14 +1795,6 @@ Node* AstGraphBuilder::BuildVariableAssignment(Variable* variable, Node* value,
switch (variable->location()) {
case Variable::UNALLOCATED: {
// Global var, const, or let variable.
if (!info()->is_native()) {
// TODO(turbofan): This special case is needed only because we don't
// use StoreICs yet. Remove this once StoreNamed is lowered to an IC.
Node* name = jsgraph()->Constant(variable->name());
Node* strict = jsgraph()->Constant(strict_mode());
Operator* op = javascript()->Runtime(Runtime::kStoreLookupSlot, 4);
return NewNode(op, value, current_context(), name, strict);
}
Node* global = BuildLoadGlobalObject();
PrintableUnique<Name> name = MakeUnique(variable->name());
Operator* op = javascript()->StoreNamed(name);
......
......@@ -29,6 +29,132 @@ static CodeStubInterfaceDescriptor* GetInterfaceDescriptor(Isolate* isolate,
}
// TODO(mstarzinger): This is a temporary shim to be able to call an IC stub
// which doesn't have an interface descriptor yet. It mimics a hydrogen code
// stub for the underlying IC stub code.
class LoadICStubShim : public HydrogenCodeStub {
public:
LoadICStubShim(Isolate* isolate, ContextualMode contextual_mode)
: HydrogenCodeStub(isolate), contextual_mode_(contextual_mode) {
i::compiler::GetInterfaceDescriptor(isolate, this);
}
virtual Handle<Code> GenerateCode() V8_OVERRIDE {
ExtraICState extra_state = LoadIC::ComputeExtraICState(contextual_mode_);
return LoadIC::initialize_stub(isolate(), extra_state);
}
virtual void InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) V8_OVERRIDE {
Register registers[] = { InterfaceDescriptor::ContextRegister(),
LoadIC::ReceiverRegister(),
LoadIC::NameRegister() };
descriptor->Initialize(MajorKey(), ARRAY_SIZE(registers), registers);
}
private:
virtual Major MajorKey() const V8_OVERRIDE { return NoCache; }
virtual int NotMissMinorKey() const V8_OVERRIDE { return 0; }
virtual bool UseSpecialCache() V8_OVERRIDE { return true; }
ContextualMode contextual_mode_;
};
// TODO(mstarzinger): This is a temporary shim to be able to call an IC stub
// which doesn't have an interface descriptor yet. It mimics a hydrogen code
// stub for the underlying IC stub code.
class KeyedLoadICStubShim : public HydrogenCodeStub {
public:
explicit KeyedLoadICStubShim(Isolate* isolate) : HydrogenCodeStub(isolate) {
i::compiler::GetInterfaceDescriptor(isolate, this);
}
virtual Handle<Code> GenerateCode() V8_OVERRIDE {
return isolate()->builtins()->KeyedLoadIC_Initialize();
}
virtual void InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) V8_OVERRIDE {
Register registers[] = { InterfaceDescriptor::ContextRegister(),
KeyedLoadIC::ReceiverRegister(),
KeyedLoadIC::NameRegister() };
descriptor->Initialize(MajorKey(), ARRAY_SIZE(registers), registers);
}
private:
virtual Major MajorKey() const V8_OVERRIDE { return NoCache; }
virtual int NotMissMinorKey() const V8_OVERRIDE { return 0; }
virtual bool UseSpecialCache() V8_OVERRIDE { return true; }
};
// TODO(mstarzinger): This is a temporary shim to be able to call an IC stub
// which doesn't have an interface descriptor yet. It mimics a hydrogen code
// stub for the underlying IC stub code.
class StoreICStubShim : public HydrogenCodeStub {
public:
StoreICStubShim(Isolate* isolate, StrictMode strict_mode)
: HydrogenCodeStub(isolate), strict_mode_(strict_mode) {
i::compiler::GetInterfaceDescriptor(isolate, this);
}
virtual Handle<Code> GenerateCode() V8_OVERRIDE {
return StoreIC::initialize_stub(isolate(), strict_mode_);
}
virtual void InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) V8_OVERRIDE {
Register registers[] = { InterfaceDescriptor::ContextRegister(),
StoreIC::ReceiverRegister(),
StoreIC::NameRegister(),
StoreIC::ValueRegister() };
descriptor->Initialize(MajorKey(), ARRAY_SIZE(registers), registers);
}
private:
virtual Major MajorKey() const V8_OVERRIDE { return NoCache; }
virtual int NotMissMinorKey() const V8_OVERRIDE { return 0; }
virtual bool UseSpecialCache() V8_OVERRIDE { return true; }
StrictMode strict_mode_;
};
// TODO(mstarzinger): This is a temporary shim to be able to call an IC stub
// which doesn't have an interface descriptor yet. It mimics a hydrogen code
// stub for the underlying IC stub code.
class KeyedStoreICStubShim : public HydrogenCodeStub {
public:
KeyedStoreICStubShim(Isolate* isolate, StrictMode strict_mode)
: HydrogenCodeStub(isolate), strict_mode_(strict_mode) {
i::compiler::GetInterfaceDescriptor(isolate, this);
}
virtual Handle<Code> GenerateCode() V8_OVERRIDE {
return strict_mode_ == SLOPPY
? isolate()->builtins()->KeyedStoreIC_Initialize()
: isolate()->builtins()->KeyedStoreIC_Initialize_Strict();
}
virtual void InitializeInterfaceDescriptor(
CodeStubInterfaceDescriptor* descriptor) V8_OVERRIDE {
Register registers[] = { InterfaceDescriptor::ContextRegister(),
KeyedStoreIC::ReceiverRegister(),
KeyedStoreIC::NameRegister(),
KeyedStoreIC::ValueRegister() };
descriptor->Initialize(MajorKey(), ARRAY_SIZE(registers), registers);
}
private:
virtual Major MajorKey() const V8_OVERRIDE { return NoCache; }
virtual int NotMissMinorKey() const V8_OVERRIDE { return 0; }
virtual bool UseSpecialCache() V8_OVERRIDE { return true; }
StrictMode strict_mode_;
};
JSGenericLowering::JSGenericLowering(CompilationInfo* info, JSGraph* jsgraph,
MachineOperatorBuilder* machine,
SourcePositionTable* source_positions)
......@@ -296,23 +422,19 @@ Node* JSGenericLowering::LowerJSToObject(Node* node) {
Node* JSGenericLowering::LowerJSLoadProperty(Node* node) {
if (FLAG_compiled_keyed_generic_loads) {
KeyedLoadGenericStub stub(isolate());
ReplaceWithICStubCall(node, &stub);
} else {
ReplaceWithRuntimeCall(node, Runtime::kKeyedGetProperty);
}
KeyedLoadICStubShim stub(isolate());
ReplaceWithICStubCall(node, &stub);
return node;
}
Node* JSGenericLowering::LowerJSLoadNamed(Node* node) {
Node* key =
jsgraph()->HeapConstant(OpParameter<PrintableUnique<Name> >(node));
PatchInsertInput(node, 1, key);
// TODO(mstarzinger): We cannot yet use KeyedLoadGenericElementStub here,
// because named interceptors would not fire correctly yet.
ReplaceWithRuntimeCall(node, Runtime::kGetProperty);
PrintableUnique<Name> key = OpParameter<PrintableUnique<Name> >(node);
// TODO(mstarzinger): The ContextualMode needs to be carried along in the
// operator to use JSLoadNamed for global variable loads.
LoadICStubShim stub(isolate(), NOT_CONTEXTUAL);
PatchInsertInput(node, 1, jsgraph()->HeapConstant(key));
ReplaceWithICStubCall(node, &stub);
return node;
}
......@@ -321,21 +443,20 @@ Node* JSGenericLowering::LowerJSStoreProperty(Node* node) {
// TODO(mstarzinger): The strict_mode needs to be carried along in the
// operator so that graphs are fully compositional for inlining.
StrictMode strict_mode = info()->strict_mode();
PatchInsertInput(node, 3, SmiConstant(strict_mode));
ReplaceWithRuntimeCall(node, Runtime::kSetProperty, 4);
KeyedStoreICStubShim stub(isolate(), strict_mode);
ReplaceWithICStubCall(node, &stub);
return node;
}
Node* JSGenericLowering::LowerJSStoreNamed(Node* node) {
PrintableUnique<Name> key = OpParameter<PrintableUnique<Name> >(node);
// TODO(mstarzinger): The strict_mode needs to be carried along in the
// operator so that graphs are fully compositional for inlining.
StrictMode strict_mode = info()->strict_mode();
Node* key =
jsgraph()->HeapConstant(OpParameter<PrintableUnique<Name> >(node));
PatchInsertInput(node, 1, key);
PatchInsertInput(node, 3, SmiConstant(strict_mode));
ReplaceWithRuntimeCall(node, Runtime::kSetProperty, 4);
StoreICStubShim stub(isolate(), strict_mode);
PatchInsertInput(node, 1, jsgraph()->HeapConstant(key));
ReplaceWithICStubCall(node, &stub);
return node;
}
......
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