Commit b4012176 authored by mythria's avatar mythria Committed by Commit bot

Revert of [Interpreter] Collect type feedback for 'new' in the bytecode...

Revert of [Interpreter] Collect type feedback for 'new' in the bytecode handler (patchset #6 id:100001 of https://codereview.chromium.org/2153433002/ )

Reason for revert:
This cl causes a large regression in octane (https://chromeperf.appspot.com/group_report?bug_id=629503). I have to investigate the reason before I can reland this.

Original issue's description:
> [Interpreter] Collect type feedback for 'new' in the bytecode handler
>
> Collect type feedback in the bytecode handler for 'new' bytecode. The
> current implementation does not collect allocation site feedback.
>
> BUG=v8:4280, v8:4780
> LOG=N
>
> Committed: https://crrev.com/1eadc76419b323fb2e55ae9953142f801704aa59
> Cr-Commit-Position: refs/heads/master@{#37862}

TBR=rmcilroy@chromium.org,bmeurer@chromium.org
# Skipping CQ checks because original CL landed less than 1 days ago.
NOPRESUBMIT=true
NOTREECHECKS=true
NOTRY=true
BUG=v8:4280, v8:4780

Review-Url: https://codereview.chromium.org/2165633003
Cr-Commit-Position: refs/heads/master@{#37872}
parent 94e1c858
......@@ -1206,8 +1206,7 @@ void Builtins::Generate_InterpreterPushArgsAndCallImpl(
}
// static
void Builtins::Generate_InterpreterPushArgsAndConstructImpl(
MacroAssembler* masm, CallableType construct_type) {
void Builtins::Generate_InterpreterPushArgsAndConstruct(MacroAssembler* masm) {
// ----------- S t a t e -------------
// -- r0 : argument count (not including receiver)
// -- r3 : new target
......@@ -1226,16 +1225,8 @@ void Builtins::Generate_InterpreterPushArgsAndConstructImpl(
// Push the arguments.
Generate_InterpreterPushArgs(masm, r2, r4, r5);
if (construct_type == CallableType::kJSFunction) {
// TODO(mythria): Change this when allocation site feedback is available.
// ConstructFunction initializes allocation site to undefined.
__ Jump(masm->isolate()->builtins()->ConstructFunction(),
RelocInfo::CODE_TARGET);
} else {
DCHECK_EQ(construct_type, CallableType::kAny);
// Call the constructor with r0, r1, and r3 unmodified.
__ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET);
}
// Call the constructor with r0, r1, and r3 unmodified.
__ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET);
}
void Builtins::Generate_InterpreterEnterBytecodeDispatch(MacroAssembler* masm) {
......
......@@ -1213,8 +1213,7 @@ void Builtins::Generate_InterpreterPushArgsAndCallImpl(
}
// static
void Builtins::Generate_InterpreterPushArgsAndConstructImpl(
MacroAssembler* masm, CallableType construct_type) {
void Builtins::Generate_InterpreterPushArgsAndConstruct(MacroAssembler* masm) {
// ----------- S t a t e -------------
// -- x0 : argument count (not including receiver)
// -- x3 : new target
......@@ -1245,16 +1244,8 @@ void Builtins::Generate_InterpreterPushArgsAndConstructImpl(
__ Cmp(x6, x4);
__ B(gt, &loop_header);
if (construct_type == CallableType::kJSFunction) {
// TODO(mythria): Change this when allocation site feedback is available.
// ConstructFunction initializes allocation site to undefined.
__ Jump(masm->isolate()->builtins()->ConstructFunction(),
RelocInfo::CODE_TARGET);
} else {
DCHECK_EQ(construct_type, CallableType::kAny);
// Call the constructor with x0, x1, and x3 unmodified.
__ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET);
}
// Call the constructor with x0, x1, and x3 unmodified.
__ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET);
}
void Builtins::Generate_InterpreterEnterBytecodeDispatch(MacroAssembler* masm) {
......
......@@ -4733,18 +4733,6 @@ Handle<Code> Builtins::InterpreterPushArgsAndCall(TailCallMode tail_call_mode,
return Handle<Code>::null();
}
Handle<Code> Builtins::InterpreterPushArgsAndConstruct(
CallableType function_type) {
switch (function_type) {
case CallableType::kJSFunction:
return InterpreterPushArgsAndConstructFunction();
case CallableType::kAny:
return InterpreterPushArgsAndConstruct();
}
UNREACHABLE();
return Handle<Code>::null();
}
namespace {
class RelocatableArguments : public BuiltinArguments, public Relocatable {
......@@ -5850,16 +5838,6 @@ void Builtins::Generate_InterpreterPushArgsAndTailCallFunction(
CallableType::kJSFunction);
}
void Builtins::Generate_InterpreterPushArgsAndConstruct(MacroAssembler* masm) {
return Generate_InterpreterPushArgsAndConstructImpl(masm, CallableType::kAny);
}
void Builtins::Generate_InterpreterPushArgsAndConstructFunction(
MacroAssembler* masm) {
return Generate_InterpreterPushArgsAndConstructImpl(
masm, CallableType::kJSFunction);
}
void Builtins::Generate_MathMax(MacroAssembler* masm) {
Generate_MathMaxMin(masm, MathMaxMinKind::kMax);
}
......
......@@ -129,7 +129,6 @@ namespace internal {
ASM(InterpreterPushArgsAndCall) \
ASM(InterpreterPushArgsAndTailCall) \
ASM(InterpreterPushArgsAndConstruct) \
ASM(InterpreterPushArgsAndConstructFunction) \
ASM(InterpreterEnterBytecodeDispatch) \
\
/* Code life-cycle */ \
......@@ -558,7 +557,6 @@ class Builtins {
Handle<Code> InterpreterPushArgsAndCall(
TailCallMode tail_call_mode,
CallableType function_type = CallableType::kAny);
Handle<Code> InterpreterPushArgsAndConstruct(CallableType function_type);
Code* builtin(Name name) {
// Code::cast cannot be used here since we access builtins
......@@ -600,9 +598,6 @@ class Builtins {
MacroAssembler* masm, TailCallMode tail_call_mode,
CallableType function_type);
static void Generate_InterpreterPushArgsAndConstructImpl(
MacroAssembler* masm, CallableType function_type);
static void Generate_DatePrototype_GetField(MacroAssembler* masm,
int field_index);
......
......@@ -758,8 +758,7 @@ void Builtins::Generate_InterpreterPushArgsAndCallImpl(
}
// static
void Builtins::Generate_InterpreterPushArgsAndConstructImpl(
MacroAssembler* masm, CallableType construct_type) {
void Builtins::Generate_InterpreterPushArgsAndConstruct(MacroAssembler* masm) {
// ----------- S t a t e -------------
// -- eax : the number of arguments (not including the receiver)
// -- edx : the new target
......@@ -791,17 +790,8 @@ void Builtins::Generate_InterpreterPushArgsAndConstructImpl(
// Re-push return address.
__ Push(ecx);
if (construct_type == CallableType::kJSFunction) {
// TODO(mythria): Change this when allocation site feedback is available.
// ConstructFunction initializes allocation site to undefined.
__ Jump(masm->isolate()->builtins()->ConstructFunction(),
RelocInfo::CODE_TARGET);
} else {
DCHECK_EQ(construct_type, CallableType::kAny);
// Call the constructor with unmodified eax, edi, ebi values.
__ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET);
}
// Call the constructor with unmodified eax, edi, ebi values.
__ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET);
}
void Builtins::Generate_InterpreterEnterBytecodeDispatch(MacroAssembler* masm) {
......
......@@ -1198,8 +1198,7 @@ void Builtins::Generate_InterpreterPushArgsAndCallImpl(
}
// static
void Builtins::Generate_InterpreterPushArgsAndConstructImpl(
MacroAssembler* masm, CallableType construct_type) {
void Builtins::Generate_InterpreterPushArgsAndConstruct(MacroAssembler* masm) {
// ----------- S t a t e -------------
// -- a0 : argument count (not including receiver)
// -- a3 : new target
......@@ -1224,16 +1223,8 @@ void Builtins::Generate_InterpreterPushArgsAndConstructImpl(
__ bind(&loop_check);
__ Branch(&loop_header, gt, a2, Operand(t0));
if (construct_type == CallableType::kJSFunction) {
// TODO(mythria): Change this when allocation site feedback is available.
// ConstructFunction initializes allocation site to undefined.
__ Jump(masm->isolate()->builtins()->ConstructFunction(),
RelocInfo::CODE_TARGET);
} else {
DCHECK_EQ(construct_type, CallableType::kAny);
// Call the constructor with a0, a1, and a3 unmodified.
__ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET);
}
// Call the constructor with a0, a1, and a3 unmodified.
__ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET);
}
void Builtins::Generate_InterpreterEnterBytecodeDispatch(MacroAssembler* masm) {
......
......@@ -1190,8 +1190,7 @@ void Builtins::Generate_InterpreterPushArgsAndCallImpl(
}
// static
void Builtins::Generate_InterpreterPushArgsAndConstructImpl(
MacroAssembler* masm, CallableType construct_type) {
void Builtins::Generate_InterpreterPushArgsAndConstruct(MacroAssembler* masm) {
// ----------- S t a t e -------------
// -- a0 : argument count (not including receiver)
// -- a3 : new target
......@@ -1216,16 +1215,8 @@ void Builtins::Generate_InterpreterPushArgsAndConstructImpl(
__ bind(&loop_check);
__ Branch(&loop_header, gt, a2, Operand(t0));
if (construct_type == CallableType::kJSFunction) {
// TODO(mythria): Change this when allocation site feedback is available.
// ConstructFunction initializes allocation site to undefined.
__ Jump(masm->isolate()->builtins()->ConstructFunction(),
RelocInfo::CODE_TARGET);
} else {
DCHECK_EQ(construct_type, CallableType::kAny);
// Call the constructor with a0, a1, and a3 unmodified.
__ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET);
}
// Call the constructor with a0, a1, and a3 unmodified.
__ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET);
}
void Builtins::Generate_InterpreterEnterBytecodeDispatch(MacroAssembler* masm) {
......
......@@ -840,8 +840,7 @@ void Builtins::Generate_InterpreterPushArgsAndCallImpl(
}
// static
void Builtins::Generate_InterpreterPushArgsAndConstructImpl(
MacroAssembler* masm, CallableType construct_type) {
void Builtins::Generate_InterpreterPushArgsAndConstruct(MacroAssembler* masm) {
// ----------- S t a t e -------------
// -- rax : the number of arguments (not including the receiver)
// -- rdx : the new target (either the same as the constructor or
......@@ -863,16 +862,8 @@ void Builtins::Generate_InterpreterPushArgsAndConstructImpl(
// Push return address in preparation for the tail-call.
__ PushReturnAddressFrom(kScratchRegister);
if (construct_type == CallableType::kJSFunction) {
// TODO(mythria): Change this when allocation site feedback is available.
// ConstructFunction initializes allocation site to undefined.
__ Jump(masm->isolate()->builtins()->ConstructFunction(),
RelocInfo::CODE_TARGET);
} else {
DCHECK_EQ(construct_type, CallableType::kAny);
// Call the constructor (rax, rdx, rdi passed on).
__ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET);
}
// Call the constructor (rax, rdx, rdi passed on).
__ Jump(masm->isolate()->builtins()->Construct(), RelocInfo::CODE_TARGET);
}
void Builtins::Generate_InterpreterEnterBytecodeDispatch(MacroAssembler* masm) {
......
......@@ -581,11 +581,9 @@ Callable CodeFactory::InterpreterPushArgsAndCall(Isolate* isolate,
// static
Callable CodeFactory::InterpreterPushArgsAndConstruct(
Isolate* isolate, CallableType function_type) {
return Callable(
isolate->builtins()->InterpreterPushArgsAndConstruct(function_type),
InterpreterPushArgsAndConstructDescriptor(isolate));
Callable CodeFactory::InterpreterPushArgsAndConstruct(Isolate* isolate) {
return Callable(isolate->builtins()->InterpreterPushArgsAndConstruct(),
InterpreterPushArgsAndConstructDescriptor(isolate));
}
......
......@@ -154,8 +154,7 @@ class CodeFactory final {
static Callable InterpreterPushArgsAndCall(
Isolate* isolate, TailCallMode tail_call_mode,
CallableType function_type = CallableType::kAny);
static Callable InterpreterPushArgsAndConstruct(
Isolate* isolate, CallableType function_type = CallableType::kAny);
static Callable InterpreterPushArgsAndConstruct(Isolate* isolate);
static Callable InterpreterCEntry(Isolate* isolate, int result_size = 1);
};
......
......@@ -1060,17 +1060,12 @@ void BytecodeGraphBuilder::VisitNew() {
interpreter::Register callee_reg = bytecode_iterator().GetRegisterOperand(0);
interpreter::Register first_arg = bytecode_iterator().GetRegisterOperand(1);
size_t arg_count = bytecode_iterator().GetRegisterCountOperand(2);
// Slot index of 0 is used indicate no feedback slot is available. Assert
// the assumption that slot index 0 is never a valid feedback slot.
STATIC_ASSERT(TypeFeedbackVector::kReservedIndexCount > 0);
VectorSlotPair feedback =
CreateVectorSlotPair(bytecode_iterator().GetIndexOperand(3));
Node* new_target = environment()->LookupAccumulator();
Node* callee = environment()->LookupRegister(callee_reg);
const Operator* call =
javascript()->CallConstruct(static_cast<int>(arg_count) + 2, feedback);
// TODO(turbofan): Pass the feedback here.
const Operator* call = javascript()->CallConstruct(
static_cast<int>(arg_count) + 2, VectorSlotPair());
Node* value = ProcessCallNewArguments(call, callee, new_target, first_arg,
arg_count + 2);
environment()->BindAccumulator(value, &states);
......
......@@ -569,15 +569,13 @@ BytecodeArrayBuilder& BytecodeArrayBuilder::Call(Register callable,
BytecodeArrayBuilder& BytecodeArrayBuilder::New(Register constructor,
Register first_arg,
size_t arg_count,
int feedback_slot_id) {
size_t arg_count) {
if (!first_arg.is_valid()) {
DCHECK_EQ(0u, arg_count);
first_arg = Register(0);
}
Output(Bytecode::kNew, RegisterOperand(constructor),
RegisterOperand(first_arg), UnsignedOperand(arg_count),
UnsignedOperand(feedback_slot_id));
RegisterOperand(first_arg), UnsignedOperand(arg_count));
return *this;
}
......
......@@ -172,7 +172,7 @@ class BytecodeArrayBuilder final : public ZoneObject {
// consecutive arguments starting at |first_arg| for the constuctor
// invocation.
BytecodeArrayBuilder& New(Register constructor, Register first_arg,
size_t arg_count, int feedback_slot);
size_t arg_count);
// Call the runtime function with |function_id|. The first argument should be
// in |first_arg| and all subsequent arguments should be in registers
......
......@@ -2527,7 +2527,7 @@ void BytecodeGenerator::VisitCall(Call* expr) {
if (expr->CallFeedbackICSlot().IsInvalid()) {
DCHECK(call_type == Call::POSSIBLY_EVAL_CALL);
// Valid type feedback slots can only be greater than kReservedIndexCount.
// We use 0 to indicate an invalid slot id. Statically assert that 0 cannot
// We use 0 to indicate an invalid slot it. Statically assert that 0 cannot
// be a valid slot id.
STATIC_ASSERT(TypeFeedbackVector::kReservedIndexCount > 0);
feedback_slot_index = 0;
......@@ -2562,13 +2562,7 @@ void BytecodeGenerator::VisitCallSuper(Call* expr) {
// Call construct.
builder()->SetExpressionPosition(expr);
// Valid type feedback slots can only be greater than kReservedIndexCount.
// Assert that 0 cannot be valid a valid slot id.
STATIC_ASSERT(TypeFeedbackVector::kReservedIndexCount > 0);
// Type feedback is not necessary for super constructor calls. The type
// information can be inferred in most cases. Slot id 0 indicates type
// feedback is not required.
builder()->New(constructor, first_arg, args->length(), 0);
builder()->New(constructor, first_arg, args->length());
execution_result()->SetResultInAccumulator();
}
......@@ -2585,8 +2579,7 @@ void BytecodeGenerator::VisitCallNew(CallNew* expr) {
// constructor for CallNew.
builder()
->LoadAccumulatorWithRegister(constructor)
.New(constructor, first_arg, args->length(),
feedback_index(expr->CallNewFeedbackSlot()));
.New(constructor, first_arg, args->length());
execution_result()->SetResultInAccumulator();
}
......
......@@ -197,7 +197,7 @@ namespace interpreter {
\
/* New operator */ \
V(New, AccumulatorUse::kReadWrite, OperandType::kReg, \
OperandType::kMaybeReg, OperandType::kRegCount, OperandType::kIdx) \
OperandType::kMaybeReg, OperandType::kRegCount) \
\
/* Test Operators */ \
V(TestEqual, AccumulatorUse::kReadWrite, OperandType::kReg) \
......
......@@ -467,7 +467,7 @@ Node* InterpreterAssembler::CallJSWithFeedback(Node* function, Node* context,
Node* is_feedback_unavailable = Word32Equal(slot_id, Int32Constant(0));
GotoIf(is_feedback_unavailable, &call);
// The checks. First, does function match the recorded monomorphic target?
// The checks. First, does rdi match the recorded monomorphic target?
Node* feedback_element = LoadFixedArrayElement(type_feedback_vector, slot_id);
Node* feedback_value = LoadWeakCellValue(feedback_element);
Node* is_monomorphic = WordEqual(function, feedback_value);
......@@ -546,7 +546,6 @@ Node* InterpreterAssembler::CallJSWithFeedback(Node* function, Node* context,
StoreFixedArrayElement(type_feedback_vector, call_count_slot,
SmiTag(Int32Constant(1)), SKIP_WRITE_BARRIER);
// TODO(mythria): Inline the weak cell creation/registration.
CreateWeakCellStub weak_cell_stub(isolate());
CallStub(weak_cell_stub.GetCallInterfaceDescriptor(),
HeapConstant(weak_cell_stub.GetCode()), context,
......@@ -604,150 +603,11 @@ Node* InterpreterAssembler::CallJS(Node* function, Node* context,
Node* InterpreterAssembler::CallConstruct(Node* constructor, Node* context,
Node* new_target, Node* first_arg,
Node* arg_count, Node* slot_id,
Node* type_feedback_vector) {
Label call_construct(this), js_function(this), end(this);
Variable return_value(this, MachineRepresentation::kTagged);
// Slot id of 0 is used to indicate no typefeedback is available.
STATIC_ASSERT(TypeFeedbackVector::kReservedIndexCount > 0);
Node* is_feedback_unavailable = Word32Equal(slot_id, Int32Constant(0));
GotoIf(is_feedback_unavailable, &call_construct);
// Check that the constructor is not a smi.
Node* is_smi = WordIsSmi(constructor);
GotoIf(is_smi, &call_construct);
// Check that constructor is a JSFunction.
Node* instance_type = LoadInstanceType(constructor);
Node* is_js_function =
WordEqual(instance_type, Int32Constant(JS_FUNCTION_TYPE));
BranchIf(is_js_function, &js_function, &call_construct);
Bind(&js_function);
// Cache the called function in a feedback vector slot. Cache states
// are uninitialized, monomorphic (indicated by a JSFunction), and
// megamorphic.
// TODO(mythria/v8:5210): Check if it is better to mark extra_checks as a
// deferred block so that call_construct_function will be scheduled just
// after increment_count and in the fast path we can reduce one branch in the
// fast path.
Label increment_count(this), extra_checks(this),
call_construct_function(this);
Node* feedback_element = LoadFixedArrayElement(type_feedback_vector, slot_id);
Node* feedback_value = LoadWeakCellValue(feedback_element);
Node* is_monomorphic = WordEqual(constructor, feedback_value);
BranchIf(is_monomorphic, &increment_count, &extra_checks);
Bind(&increment_count);
{
// Increment the call count.
Comment("increment call count");
Node* call_count_slot = IntPtrAdd(slot_id, IntPtrConstant(1));
Node* call_count =
LoadFixedArrayElement(type_feedback_vector, call_count_slot);
Node* new_count = SmiAdd(call_count, SmiTag(Int32Constant(1)));
// Count is Smi, so we don't need a write barrier.
StoreFixedArrayElement(type_feedback_vector, call_count_slot, new_count,
SKIP_WRITE_BARRIER);
Goto(&call_construct_function);
}
Bind(&extra_checks);
{
Label mark_megamorphic(this), initialize(this),
check_weak_cell_cleared(this);
// Check if it is a megamorphic target
Comment("check if megamorphic");
Node* is_megamorphic = WordEqual(
feedback_element,
HeapConstant(TypeFeedbackVector::MegamorphicSentinel(isolate())));
GotoIf(is_megamorphic, &call_construct_function);
// Check if it is uninitialized.
Comment("check if uninitialized");
Node* is_uninitialized = WordEqual(
feedback_element, LoadRoot(Heap::kuninitialized_symbolRootIndex));
BranchIf(is_uninitialized, &initialize, &check_weak_cell_cleared);
Bind(&check_weak_cell_cleared);
{
Comment("check if weak cell");
Node* is_weak_cell = WordEqual(LoadMap(feedback_element),
LoadRoot(Heap::kWeakCellMapRootIndex));
GotoUnless(is_weak_cell, &mark_megamorphic);
// If the weak cell is cleared, we have a new chance to become
// monomorphic.
Comment("check if weak cell is not cleared");
Node* is_smi = WordIsSmi(feedback_value);
BranchIf(is_smi, &initialize, &mark_megamorphic);
}
Bind(&initialize);
{
// Check that it is not the Array() function.
Comment("check it is not Array()");
Node* context_slot =
LoadFixedArrayElement(LoadNativeContext(context),
Int32Constant(Context::ARRAY_FUNCTION_INDEX));
Node* is_array_function = WordEqual(context_slot, constructor);
GotoIf(is_array_function, &mark_megamorphic);
Node* call_count_slot = IntPtrAdd(slot_id, IntPtrConstant(1));
// Count is Smi, so we don't need a write barrier.
StoreFixedArrayElement(type_feedback_vector, call_count_slot,
SmiTag(Int32Constant(1)), SKIP_WRITE_BARRIER);
// TODO(mythria): Inline the weak cell creation/registration.
CreateWeakCellStub weak_cell_stub(isolate());
CallStub(weak_cell_stub.GetCallInterfaceDescriptor(),
HeapConstant(weak_cell_stub.GetCode()), context,
type_feedback_vector, SmiTag(slot_id), constructor);
Goto(&call_construct_function);
}
Bind(&mark_megamorphic);
{
// MegamorphicSentinel is an immortal immovable object so no write-barrier
// is needed.
Comment("transition to megamorphic");
DCHECK(Heap::RootIsImmortalImmovable(Heap::kmegamorphic_symbolRootIndex));
StoreFixedArrayElement(
type_feedback_vector, slot_id,
HeapConstant(TypeFeedbackVector::MegamorphicSentinel(isolate())),
SKIP_WRITE_BARRIER);
Goto(&call_construct_function);
}
}
Bind(&call_construct_function);
{
// TODO(mythria): Get allocation site feedback if available. Currently
// we do not collect allocation site feedback.
Comment("call using callConstructFunction");
Callable callable_function = CodeFactory::InterpreterPushArgsAndConstruct(
isolate(), CallableType::kJSFunction);
return_value.Bind(CallStub(callable_function.descriptor(),
HeapConstant(callable_function.code()), context,
arg_count, new_target, constructor, first_arg));
Goto(&end);
}
Bind(&call_construct);
{
Comment("call using callConstruct builtin");
Callable callable = CodeFactory::InterpreterPushArgsAndConstruct(
isolate(), CallableType::kAny);
Node* code_target = HeapConstant(callable.code());
return_value.Bind(CallStub(callable.descriptor(), code_target, context,
arg_count, new_target, constructor, first_arg));
Goto(&end);
}
Bind(&end);
return return_value.value();
Node* arg_count) {
Callable callable = CodeFactory::InterpreterPushArgsAndConstruct(isolate());
Node* code_target = HeapConstant(callable.code());
return CallStub(callable.descriptor(), code_target, context, arg_count,
new_target, constructor, first_arg);
}
Node* InterpreterAssembler::CallRuntimeN(Node* function_id, Node* context,
......
......@@ -118,9 +118,7 @@ class InterpreterAssembler : public CodeStubAssembler {
compiler::Node* context,
compiler::Node* new_target,
compiler::Node* first_arg,
compiler::Node* arg_count,
compiler::Node* slot_id,
compiler::Node* type_feedback_vector);
compiler::Node* arg_count);
// Call runtime function with |arg_count| arguments and the first argument
// located at |first_arg|.
......
......@@ -1285,11 +1285,9 @@ void Interpreter::DoCallConstruct(InterpreterAssembler* assembler) {
Node* first_arg_reg = __ BytecodeOperandReg(1);
Node* first_arg = __ RegisterLocation(first_arg_reg);
Node* args_count = __ BytecodeOperandCount(2);
Node* slot_id = __ BytecodeOperandIdx(3);
Node* type_feedback_vector = __ LoadTypeFeedbackVector();
Node* context = __ GetContext();
Node* result = __ CallConstruct(constructor, context, new_target, first_arg,
args_count, slot_id, type_feedback_vector);
Node* result =
__ CallConstruct(constructor, context, new_target, first_arg, args_count);
__ SetAccumulator(result);
__ Dispatch();
}
......
......@@ -134,6 +134,12 @@
# TODO(mythria,4780): Related to type feedback support for Array function.
'test-feedback-vector/VectorCallFeedbackForArray': [PASS, NO_IGNITION],
# TODO(mythria,4780): Related to type feedback support for constructor.
'test-feedback-vector/VectorConstructCounts': [PASS, NO_IGNITION],
'test-heap/WeakFunctionInConstructor': [PASS, NO_IGNITION],
'test-heap/IncrementalMarkingClearsMonomorphicConstructor': [PASS, NO_IGNITION],
'test-heap/IncrementalMarkingPreservesMonomorphicConstructor': [PASS, NO_IGNITION],
# TODO(mythria,4680): Lack of code-ageing in interpreter.
'test-heap/Regress169209': [PASS, NO_IGNITION],
......@@ -410,6 +416,12 @@
# TODO(mythria,4780): Related to type feedback support for Array function.
'test-feedback-vector/VectorCallFeedbackForArray': [FAIL],
# TODO(mythria,4780): Related to type feedback support for constructor.
'test-feedback-vector/VectorConstructCounts': [FAIL],
'test-heap/WeakFunctionInConstructor': [FAIL],
'test-heap/IncrementalMarkingClearsMonomorphicConstructor': [FAIL],
'test-heap/IncrementalMarkingPreservesMonomorphicConstructor': [FAIL],
# TODO(mythria,4680): Lack of code-ageing in interpreter.
'test-heap/Regress169209': [FAIL],
......
......@@ -16,12 +16,12 @@ snippet: "
"
frame size: 1
parameter count: 1
bytecode array length: 12
bytecode array length: 11
bytecodes: [
/* 45 E> */ B(StackCheck),
/* 50 S> */ B(LdrGlobal), U8(3), R(0),
B(Ldar), R(0),
/* 57 E> */ B(New), R(0), R(0), U8(0), U8(1),
/* 57 E> */ B(New), R(0), R(0), U8(0),
/* 68 S> */ B(Return),
]
constant pool: [
......@@ -37,14 +37,14 @@ snippet: "
"
frame size: 2
parameter count: 1
bytecode array length: 16
bytecode array length: 15
bytecodes: [
/* 58 E> */ B(StackCheck),
/* 63 S> */ B(LdrGlobal), U8(3), R(0),
B(LdaSmi), U8(3),
B(Star), R(1),
B(Ldar), R(0),
/* 70 E> */ B(New), R(0), R(1), U8(1), U8(1),
/* 70 E> */ B(New), R(0), R(1), U8(1),
/* 82 S> */ B(Return),
]
constant pool: [
......@@ -65,7 +65,7 @@ snippet: "
"
frame size: 4
parameter count: 1
bytecode array length: 24
bytecode array length: 23
bytecodes: [
/* 100 E> */ B(StackCheck),
/* 105 S> */ B(LdrGlobal), U8(3), R(0),
......@@ -76,7 +76,7 @@ bytecodes: [
B(LdaSmi), U8(5),
B(Star), R(3),
B(Ldar), R(0),
/* 112 E> */ B(New), R(0), R(1), U8(3), U8(1),
/* 112 E> */ B(New), R(0), R(1), U8(3),
/* 130 S> */ B(Return),
]
constant pool: [
......
......@@ -127,7 +127,7 @@ snippet: "
"
frame size: 5
parameter count: 1
bytecode array length: 106
bytecode array length: 105
bytecodes: [
B(Mov), R(closure), R(1),
B(Mov), R(new_target), R(0),
......@@ -147,7 +147,7 @@ bytecodes: [
B(LdaConstant), U8(1),
B(Star), R(4),
/* 118 E> */ B(CallRuntime), U16(Runtime::kThrowReferenceError), R(4), U8(1),
/* 118 E> */ B(New), R(2), R(3), U8(1), U8(0),
/* 118 E> */ B(New), R(2), R(3), U8(1),
B(Star), R(2),
B(Ldar), R(this),
B(JumpIfNotHole), U8(4),
......@@ -195,7 +195,7 @@ snippet: "
"
frame size: 4
parameter count: 1
bytecode array length: 102
bytecode array length: 101
bytecodes: [
B(Mov), R(closure), R(1),
B(Mov), R(new_target), R(0),
......@@ -213,7 +213,7 @@ bytecodes: [
B(LdaConstant), U8(1),
B(Star), R(3),
/* 117 E> */ B(CallRuntime), U16(Runtime::kThrowReferenceError), R(3), U8(1),
/* 117 E> */ B(New), R(2), R(0), U8(0), U8(0),
/* 117 E> */ B(New), R(2), R(0), U8(0),
B(Star), R(2),
B(Ldar), R(this),
B(JumpIfNotHole), U8(4),
......
......@@ -195,7 +195,7 @@ snippet: "
"
frame size: 7
parameter count: 1
bytecode array length: 74
bytecode array length: 73
bytecodes: [
B(CallRuntime), U16(Runtime::kNewFunctionContext), R(closure), U8(1),
B(PushContext), R(2),
......@@ -225,7 +225,7 @@ bytecodes: [
B(Star), R(4),
B(CallRuntime), U16(Runtime::kThrowReferenceError), R(4), U8(1),
B(Star), R(3),
/* 94 E> */ B(New), R(3), R(0), U8(0), U8(3),
/* 94 E> */ B(New), R(3), R(0), U8(0),
/* 103 S> */ B(Return),
]
constant pool: [
......
......@@ -165,8 +165,8 @@ TEST_F(BytecodeArrayBuilderTest, AllBytecodesGenerated) {
builder.Delete(reg, LanguageMode::SLOPPY).Delete(reg, LanguageMode::STRICT);
// Emit new.
builder.New(reg, reg, 0, 1);
builder.New(wide, wide, 0, 1);
builder.New(reg, reg, 0);
builder.New(wide, wide, 0);
// Emit test operator invocations.
builder.CompareOperation(Token::Value::EQ, reg)
......@@ -456,7 +456,7 @@ TEST_F(BytecodeArrayBuilderTest, FrameSizesLookGood) {
// Ensure temporaries are used so not optimized away by the
// register optimizer.
builder.New(Register(locals + contexts), Register(locals + contexts),
static_cast<size_t>(temps), 0);
static_cast<size_t>(temps));
}
builder.Return();
......
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