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|
// Copyright 2017 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.
#ifndef V8_OBJECTS_SHARED_FUNCTION_INFO_INL_H_
#define V8_OBJECTS_SHARED_FUNCTION_INFO_INL_H_
#include "src/heap/heap-inl.h"
#include "src/objects/scope-info.h"
#include "src/objects/shared-function-info.h"
// Has to be the last include (doesn't have include guards):
#include "src/objects/object-macros.h"
namespace v8 {
namespace internal {
CAST_ACCESSOR(PreParsedScopeData)
ACCESSORS(PreParsedScopeData, scope_data, PodArray<uint8_t>, kScopeDataOffset)
ACCESSORS(PreParsedScopeData, child_data, FixedArray, kChildDataOffset)
CAST_ACCESSOR(InterpreterData)
ACCESSORS(InterpreterData, bytecode_array, BytecodeArray, kBytecodeArrayOffset)
ACCESSORS(InterpreterData, interpreter_trampoline, Code,
kInterpreterTrampolineOffset)
TYPE_CHECKER(SharedFunctionInfo, SHARED_FUNCTION_INFO_TYPE)
CAST_ACCESSOR(SharedFunctionInfo)
DEFINE_DEOPT_ELEMENT_ACCESSORS(SharedFunctionInfo, Object)
ACCESSORS(SharedFunctionInfo, name_or_scope_info, Object,
kNameOrScopeInfoOffset)
ACCESSORS(SharedFunctionInfo, function_data, Object, kFunctionDataOffset)
ACCESSORS(SharedFunctionInfo, script, Object, kScriptOffset)
ACCESSORS(SharedFunctionInfo, debug_info, Object, kDebugInfoOffset)
ACCESSORS(SharedFunctionInfo, function_identifier, Object,
kFunctionIdentifierOffset)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, raw_start_position_and_type,
is_named_expression,
SharedFunctionInfo::IsNamedExpressionBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, raw_start_position_and_type,
is_toplevel, SharedFunctionInfo::IsTopLevelBit)
INT_ACCESSORS(SharedFunctionInfo, function_literal_id, kFunctionLiteralIdOffset)
#if V8_SFI_HAS_UNIQUE_ID
INT_ACCESSORS(SharedFunctionInfo, unique_id, kUniqueIdOffset)
#endif
INT_ACCESSORS(SharedFunctionInfo, length, kLengthOffset)
INT_ACCESSORS(SharedFunctionInfo, internal_formal_parameter_count,
kFormalParameterCountOffset)
INT_ACCESSORS(SharedFunctionInfo, expected_nof_properties,
kExpectedNofPropertiesOffset)
INT_ACCESSORS(SharedFunctionInfo, raw_end_position, kEndPositionOffset)
INT_ACCESSORS(SharedFunctionInfo, raw_start_position_and_type,
kStartPositionAndTypeOffset)
INT_ACCESSORS(SharedFunctionInfo, function_token_position,
kFunctionTokenPositionOffset)
INT_ACCESSORS(SharedFunctionInfo, flags, kFlagsOffset)
bool SharedFunctionInfo::HasSharedName() const {
Object* value = name_or_scope_info();
if (value->IsScopeInfo()) {
return ScopeInfo::cast(value)->HasSharedFunctionName();
}
return value != kNoSharedNameSentinel;
}
String* SharedFunctionInfo::Name() const {
if (!HasSharedName()) return GetHeap()->empty_string();
Object* value = name_or_scope_info();
if (value->IsScopeInfo()) {
if (ScopeInfo::cast(value)->HasFunctionName()) {
return String::cast(ScopeInfo::cast(value)->FunctionName());
}
return GetHeap()->empty_string();
}
return String::cast(value);
}
void SharedFunctionInfo::SetName(String* name) {
Object* maybe_scope_info = name_or_scope_info();
if (maybe_scope_info->IsScopeInfo()) {
ScopeInfo::cast(maybe_scope_info)->SetFunctionName(name);
} else {
DCHECK(maybe_scope_info->IsString() ||
maybe_scope_info == kNoSharedNameSentinel);
set_name_or_scope_info(name);
}
UpdateFunctionMapIndex();
}
AbstractCode* SharedFunctionInfo::abstract_code() {
if (HasBytecodeArray()) {
return AbstractCode::cast(GetBytecodeArray());
} else {
return AbstractCode::cast(GetCode());
}
}
BIT_FIELD_ACCESSORS(SharedFunctionInfo, flags, is_wrapped,
SharedFunctionInfo::IsWrappedBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, flags, allows_lazy_compilation,
SharedFunctionInfo::AllowLazyCompilationBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, flags, has_duplicate_parameters,
SharedFunctionInfo::HasDuplicateParametersBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, flags, is_declaration,
SharedFunctionInfo::IsDeclarationBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, flags, native,
SharedFunctionInfo::IsNativeBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, flags, is_asm_wasm_broken,
SharedFunctionInfo::IsAsmWasmBrokenBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, flags,
requires_instance_fields_initializer,
SharedFunctionInfo::RequiresInstanceFieldsInitializer)
bool SharedFunctionInfo::optimization_disabled() const {
return disable_optimization_reason() != BailoutReason::kNoReason;
}
BailoutReason SharedFunctionInfo::disable_optimization_reason() const {
return DisabledOptimizationReasonBits::decode(flags());
}
LanguageMode SharedFunctionInfo::language_mode() {
STATIC_ASSERT(LanguageModeSize == 2);
return construct_language_mode(IsStrictBit::decode(flags()));
}
void SharedFunctionInfo::set_language_mode(LanguageMode language_mode) {
STATIC_ASSERT(LanguageModeSize == 2);
// We only allow language mode transitions that set the same language mode
// again or go up in the chain:
DCHECK(is_sloppy(this->language_mode()) || is_strict(language_mode));
int hints = flags();
hints = IsStrictBit::update(hints, is_strict(language_mode));
set_flags(hints);
UpdateFunctionMapIndex();
}
FunctionKind SharedFunctionInfo::kind() const {
return FunctionKindBits::decode(flags());
}
void SharedFunctionInfo::set_kind(FunctionKind kind) {
int hints = flags();
hints = FunctionKindBits::update(hints, kind);
hints = IsClassConstructorBit::update(hints, IsClassConstructor(kind));
hints = IsDerivedConstructorBit::update(hints, IsDerivedConstructor(kind));
set_flags(hints);
UpdateFunctionMapIndex();
}
bool SharedFunctionInfo::needs_home_object() const {
return NeedsHomeObjectBit::decode(flags());
}
void SharedFunctionInfo::set_needs_home_object(bool value) {
int hints = flags();
hints = NeedsHomeObjectBit::update(hints, value);
set_flags(hints);
UpdateFunctionMapIndex();
}
bool SharedFunctionInfo::construct_as_builtin() const {
return ConstructAsBuiltinBit::decode(flags());
}
void SharedFunctionInfo::CalculateConstructAsBuiltin() {
bool uses_builtins_construct_stub = false;
if (HasBuiltinId()) {
int id = builtin_id();
if (id != Builtins::kCompileLazy && id != Builtins::kEmptyFunction) {
uses_builtins_construct_stub = true;
}
} else if (IsApiFunction()) {
uses_builtins_construct_stub = true;
}
int f = flags();
f = ConstructAsBuiltinBit::update(f, uses_builtins_construct_stub);
set_flags(f);
}
int SharedFunctionInfo::function_map_index() const {
// Note: Must be kept in sync with the FastNewClosure builtin.
int index =
Context::FIRST_FUNCTION_MAP_INDEX + FunctionMapIndexBits::decode(flags());
DCHECK_LE(index, Context::LAST_FUNCTION_MAP_INDEX);
return index;
}
void SharedFunctionInfo::set_function_map_index(int index) {
STATIC_ASSERT(Context::LAST_FUNCTION_MAP_INDEX <=
Context::FIRST_FUNCTION_MAP_INDEX + FunctionMapIndexBits::kMax);
DCHECK_LE(Context::FIRST_FUNCTION_MAP_INDEX, index);
DCHECK_LE(index, Context::LAST_FUNCTION_MAP_INDEX);
index -= Context::FIRST_FUNCTION_MAP_INDEX;
set_flags(FunctionMapIndexBits::update(flags(), index));
}
void SharedFunctionInfo::clear_padding() {
memset(this->address() + kSize, 0, kAlignedSize - kSize);
}
void SharedFunctionInfo::UpdateFunctionMapIndex() {
int map_index = Context::FunctionMapIndex(
language_mode(), kind(), true, HasSharedName(), needs_home_object());
set_function_map_index(map_index);
}
BIT_FIELD_ACCESSORS(SharedFunctionInfo, debugger_hints,
name_should_print_as_anonymous,
SharedFunctionInfo::NameShouldPrintAsAnonymousBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, debugger_hints, is_anonymous_expression,
SharedFunctionInfo::IsAnonymousExpressionBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, debugger_hints, deserialized,
SharedFunctionInfo::IsDeserializedBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, debugger_hints, has_no_side_effect,
SharedFunctionInfo::HasNoSideEffectBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, debugger_hints,
requires_runtime_side_effect_checks,
SharedFunctionInfo::RequiresRuntimeSideEffectChecksBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, debugger_hints,
computed_has_no_side_effect,
SharedFunctionInfo::ComputedHasNoSideEffectBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, debugger_hints, debug_is_blackboxed,
SharedFunctionInfo::DebugIsBlackboxedBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, debugger_hints,
computed_debug_is_blackboxed,
SharedFunctionInfo::ComputedDebugIsBlackboxedBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, debugger_hints,
has_reported_binary_coverage,
SharedFunctionInfo::HasReportedBinaryCoverageBit)
BIT_FIELD_ACCESSORS(SharedFunctionInfo, debugger_hints, debugging_id,
SharedFunctionInfo::DebuggingIdBits)
void SharedFunctionInfo::DontAdaptArguments() {
// TODO(leszeks): Revise this DCHECK now that the code field is gone.
DCHECK(!HasCodeObject());
set_internal_formal_parameter_count(kDontAdaptArgumentsSentinel);
}
BIT_FIELD_ACCESSORS(SharedFunctionInfo, raw_start_position_and_type,
raw_start_position, SharedFunctionInfo::StartPositionBits)
int SharedFunctionInfo::StartPosition() const {
ScopeInfo* info = scope_info();
if (!info->HasPositionInfo()) {
// TODO(cbruni): use preparsed_scope_data
return raw_start_position();
}
return info->StartPosition();
}
int SharedFunctionInfo::EndPosition() const {
ScopeInfo* info = scope_info();
if (!info->HasPositionInfo()) {
// TODO(cbruni): use preparsed_scope_data
return raw_end_position();
}
return info->EndPosition();
}
Code* SharedFunctionInfo::GetCode() const {
// ======
// NOTE: This chain of checks MUST be kept in sync with the equivalent CSA
// GetSharedFunctionInfoCode method in code-stub-assembler.cc, and the
// architecture-specific GetSharedFunctionInfoCode methods in builtins-*.cc.
// ======
Isolate* isolate = GetIsolate();
Object* data = function_data();
if (data->IsSmi()) {
// Holding a Smi means we are a builtin.
DCHECK(HasBuiltinId());
return isolate->builtins()->builtin(builtin_id());
} else if (data->IsBytecodeArray()) {
// Having a bytecode array means we are a compiled, interpreted function.
DCHECK(HasBytecodeArray());
return isolate->builtins()->builtin(Builtins::kInterpreterEntryTrampoline);
} else if (data->IsFixedArray()) {
// Having a fixed array means we are an asm.js/wasm function.
DCHECK(HasAsmWasmData());
return isolate->builtins()->builtin(Builtins::kInstantiateAsmJs);
} else if (data->IsPreParsedScopeData()) {
// Having pre-parsed scope data means we need to compile.
DCHECK(HasPreParsedScopeData());
return isolate->builtins()->builtin(Builtins::kCompileLazy);
} else if (data->IsFunctionTemplateInfo()) {
// Having a function template info means we are an API function.
DCHECK(IsApiFunction());
return isolate->builtins()->builtin(Builtins::kHandleApiCall);
} else if (data->IsCode()) {
// Having a code object means we should run it.
DCHECK(HasCodeObject());
return Code::cast(data);
} else if (data->IsInterpreterData()) {
Code* code = InterpreterTrampoline();
DCHECK(code->IsCode());
DCHECK(code->is_interpreter_trampoline_builtin());
return code;
}
UNREACHABLE();
}
bool SharedFunctionInfo::IsInterpreted() const { return HasBytecodeArray(); }
ScopeInfo* SharedFunctionInfo::scope_info() const {
Object* maybe_scope_info = name_or_scope_info();
if (maybe_scope_info->IsScopeInfo()) {
return ScopeInfo::cast(maybe_scope_info);
}
return ScopeInfo::Empty(GetIsolate());
}
void SharedFunctionInfo::set_scope_info(ScopeInfo* scope_info,
WriteBarrierMode mode) {
// TODO(cbruni): this code is no longer necessary once we store the positon
// only on the ScopeInfo.
if (scope_info->HasPositionInfo()) {
scope_info->SetPositionInfo(raw_start_position(), raw_end_position());
}
// Move the existing name onto the ScopeInfo.
Object* name = name_or_scope_info();
if (name->IsScopeInfo()) {
name = ScopeInfo::cast(name)->FunctionName();
}
DCHECK(name->IsString() || name == kNoSharedNameSentinel);
// Only set the function name for function scopes.
scope_info->SetFunctionName(name);
if (HasInferredName() && inferred_name()->length() != 0) {
scope_info->SetInferredFunctionName(inferred_name());
}
WRITE_FIELD(this, kNameOrScopeInfoOffset,
reinterpret_cast<Object*>(scope_info));
CONDITIONAL_WRITE_BARRIER(GetHeap(), this, kNameOrScopeInfoOffset,
reinterpret_cast<Object*>(scope_info), mode);
}
ACCESSORS(SharedFunctionInfo, raw_outer_scope_info_or_feedback_metadata,
HeapObject, kOuterScopeInfoOrFeedbackMetadataOffset)
HeapObject* SharedFunctionInfo::outer_scope_info() const {
DCHECK(!is_compiled());
DCHECK(!HasFeedbackMetadata());
return raw_outer_scope_info_or_feedback_metadata();
}
bool SharedFunctionInfo::HasOuterScopeInfo() const {
ScopeInfo* outer_info = nullptr;
if (!is_compiled()) {
if (!outer_scope_info()->IsScopeInfo()) return false;
outer_info = ScopeInfo::cast(outer_scope_info());
} else {
if (!scope_info()->HasOuterScopeInfo()) return false;
outer_info = scope_info()->OuterScopeInfo();
}
return outer_info->length() > 0;
}
ScopeInfo* SharedFunctionInfo::GetOuterScopeInfo() const {
DCHECK(HasOuterScopeInfo());
if (!is_compiled()) return ScopeInfo::cast(outer_scope_info());
return scope_info()->OuterScopeInfo();
}
void SharedFunctionInfo::set_outer_scope_info(HeapObject* value,
WriteBarrierMode mode) {
DCHECK(!is_compiled());
DCHECK(raw_outer_scope_info_or_feedback_metadata()->IsTheHole(GetIsolate()));
DCHECK(value->IsScopeInfo() || value->IsTheHole(GetIsolate()));
return set_raw_outer_scope_info_or_feedback_metadata(value, mode);
}
bool SharedFunctionInfo::HasFeedbackMetadata() const {
return raw_outer_scope_info_or_feedback_metadata()->IsFeedbackMetadata();
}
FeedbackMetadata* SharedFunctionInfo::feedback_metadata() const {
DCHECK(HasFeedbackMetadata());
return FeedbackMetadata::cast(raw_outer_scope_info_or_feedback_metadata());
}
void SharedFunctionInfo::set_feedback_metadata(FeedbackMetadata* value,
WriteBarrierMode mode) {
DCHECK(!HasFeedbackMetadata());
DCHECK(value->IsFeedbackMetadata());
return set_raw_outer_scope_info_or_feedback_metadata(value, mode);
}
bool SharedFunctionInfo::is_compiled() const {
Object* data = function_data();
return data != Smi::FromEnum(Builtins::kCompileLazy) &&
!data->IsPreParsedScopeData();
}
int SharedFunctionInfo::GetLength() const {
DCHECK(is_compiled());
DCHECK(HasLength());
return length();
}
bool SharedFunctionInfo::HasLength() const {
DCHECK_IMPLIES(length() < 0, length() == kInvalidLength);
return length() != kInvalidLength;
}
bool SharedFunctionInfo::has_simple_parameters() {
return scope_info()->HasSimpleParameters();
}
bool SharedFunctionInfo::HasDebugInfo() const {
bool has_debug_info = !debug_info()->IsSmi();
DCHECK_EQ(debug_info()->IsStruct(), has_debug_info);
return has_debug_info;
}
bool SharedFunctionInfo::IsApiFunction() const {
return function_data()->IsFunctionTemplateInfo();
}
FunctionTemplateInfo* SharedFunctionInfo::get_api_func_data() {
DCHECK(IsApiFunction());
return FunctionTemplateInfo::cast(function_data());
}
bool SharedFunctionInfo::HasBytecodeArray() const {
return function_data()->IsBytecodeArray() ||
function_data()->IsInterpreterData();
}
BytecodeArray* SharedFunctionInfo::GetBytecodeArray() const {
DCHECK(HasBytecodeArray());
if (function_data()->IsBytecodeArray()) {
return BytecodeArray::cast(function_data());
} else {
DCHECK(function_data()->IsInterpreterData());
return InterpreterData::cast(function_data())->bytecode_array();
}
}
void SharedFunctionInfo::set_bytecode_array(class BytecodeArray* bytecode) {
DCHECK(function_data() == Smi::FromEnum(Builtins::kCompileLazy));
set_function_data(bytecode);
}
Code* SharedFunctionInfo::InterpreterTrampoline() const {
DCHECK(HasInterpreterData());
return interpreter_data()->interpreter_trampoline();
}
bool SharedFunctionInfo::HasInterpreterData() const {
return function_data()->IsInterpreterData();
}
InterpreterData* SharedFunctionInfo::interpreter_data() const {
DCHECK(HasInterpreterData());
return InterpreterData::cast(function_data());
}
void SharedFunctionInfo::set_interpreter_data(
InterpreterData* interpreter_data) {
DCHECK(FLAG_interpreted_frames_native_stack);
set_function_data(interpreter_data);
}
bool SharedFunctionInfo::HasAsmWasmData() const {
return function_data()->IsFixedArray();
}
FixedArray* SharedFunctionInfo::asm_wasm_data() const {
DCHECK(HasAsmWasmData());
return FixedArray::cast(function_data());
}
void SharedFunctionInfo::set_asm_wasm_data(FixedArray* data) {
DCHECK(function_data() == Smi::FromEnum(Builtins::kCompileLazy) ||
HasAsmWasmData());
set_function_data(data);
}
bool SharedFunctionInfo::HasBuiltinId() const {
return function_data()->IsSmi();
}
int SharedFunctionInfo::builtin_id() const {
DCHECK(HasBuiltinId());
int id = Smi::ToInt(function_data());
DCHECK(Builtins::IsBuiltinId(id));
return id;
}
void SharedFunctionInfo::set_builtin_id(int builtin_id) {
DCHECK(Builtins::IsBuiltinId(builtin_id));
DCHECK_NE(builtin_id, Builtins::kDeserializeLazy);
set_function_data(Smi::FromInt(builtin_id), SKIP_WRITE_BARRIER);
}
bool SharedFunctionInfo::HasPreParsedScopeData() const {
return function_data()->IsPreParsedScopeData();
}
PreParsedScopeData* SharedFunctionInfo::preparsed_scope_data() const {
DCHECK(HasPreParsedScopeData());
return PreParsedScopeData::cast(function_data());
}
void SharedFunctionInfo::set_preparsed_scope_data(
PreParsedScopeData* preparsed_scope_data) {
DCHECK(function_data() == Smi::FromEnum(Builtins::kCompileLazy));
set_function_data(preparsed_scope_data);
}
void SharedFunctionInfo::ClearPreParsedScopeData() {
DCHECK(function_data() == Smi::FromEnum(Builtins::kCompileLazy) ||
HasPreParsedScopeData());
set_builtin_id(Builtins::kCompileLazy);
}
bool SharedFunctionInfo::HasCodeObject() const {
return function_data()->IsCode();
}
bool SharedFunctionInfo::HasBuiltinFunctionId() {
return function_identifier()->IsSmi();
}
BuiltinFunctionId SharedFunctionInfo::builtin_function_id() {
DCHECK(HasBuiltinFunctionId());
return static_cast<BuiltinFunctionId>(Smi::ToInt(function_identifier()));
}
void SharedFunctionInfo::set_builtin_function_id(BuiltinFunctionId id) {
set_function_identifier(Smi::FromInt(id));
}
bool SharedFunctionInfo::HasInferredName() {
return function_identifier()->IsString();
}
String* SharedFunctionInfo::inferred_name() {
if (HasInferredName()) {
return String::cast(function_identifier());
}
DCHECK(function_identifier()->IsUndefined(GetIsolate()) ||
HasBuiltinFunctionId());
return GetHeap()->empty_string();
}
void SharedFunctionInfo::set_inferred_name(String* inferred_name) {
DCHECK(function_identifier()->IsUndefined(GetIsolate()) || HasInferredName());
set_function_identifier(inferred_name);
}
bool SharedFunctionInfo::IsUserJavaScript() {
Object* script_obj = script();
if (script_obj->IsUndefined(GetIsolate())) return false;
Script* script = Script::cast(script_obj);
return script->IsUserJavaScript();
}
bool SharedFunctionInfo::IsSubjectToDebugging() {
return IsUserJavaScript() && !HasAsmWasmData();
}
bool SharedFunctionInfo::CanFlushCompiled() const {
bool can_decompile =
(HasBytecodeArray() || HasAsmWasmData() || HasPreParsedScopeData());
return can_decompile;
}
void SharedFunctionInfo::FlushCompiled() {
DisallowHeapAllocation no_gc;
DCHECK(CanFlushCompiled());
Oddball* the_hole = GetIsolate()->heap()->the_hole_value();
if (is_compiled()) {
HeapObject* outer_scope_info = the_hole;
if (!is_toplevel()) {
if (scope_info()->HasOuterScopeInfo()) {
outer_scope_info = scope_info()->OuterScopeInfo();
}
}
// Raw setter to avoid validity checks, since we're performing the unusual
// task of decompiling.
set_raw_outer_scope_info_or_feedback_metadata(outer_scope_info);
} else {
DCHECK(outer_scope_info()->IsScopeInfo() || is_toplevel());
}
set_builtin_id(Builtins::kCompileLazy);
}
} // namespace internal
} // namespace v8
#include "src/objects/object-macros-undef.h"
#endif // V8_OBJECTS_SHARED_FUNCTION_INFO_INL_H_
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