// 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. #include "src/init/setup-isolate.h" #include "src/builtins/accessors.h" #include "src/codegen/compilation-cache.h" #include "src/execution/isolate.h" #include "src/heap/factory.h" #include "src/heap/heap-inl.h" #include "src/ic/handler-configuration.h" #include "src/init/heap-symbols.h" #include "src/interpreter/interpreter.h" #include "src/objects/arguments.h" #include "src/objects/cell-inl.h" #include "src/objects/contexts.h" #include "src/objects/data-handler.h" #include "src/objects/debug-objects.h" #include "src/objects/descriptor-array.h" #include "src/objects/dictionary.h" #include "src/objects/foreign.h" #include "src/objects/heap-number.h" #include "src/objects/instance-type-inl.h" #include "src/objects/js-generator.h" #include "src/objects/js-weak-refs.h" #include "src/objects/layout-descriptor.h" #include "src/objects/literal-objects-inl.h" #include "src/objects/lookup-cache.h" #include "src/objects/map.h" #include "src/objects/microtask.h" #include "src/objects/objects-inl.h" #include "src/objects/oddball-inl.h" #include "src/objects/ordered-hash-table.h" #include "src/objects/promise.h" #include "src/objects/script.h" #include "src/objects/shared-function-info.h" #include "src/objects/smi.h" #include "src/objects/source-text-module.h" #include "src/objects/stack-frame-info.h" #include "src/objects/string.h" #include "src/objects/synthetic-module.h" #include "src/objects/template-objects-inl.h" #include "src/regexp/regexp.h" #include "src/wasm/wasm-objects.h" #include "torque-generated/class-definitions-tq.h" #include "torque-generated/internal-class-definitions-tq-inl.h" namespace v8 { namespace internal { bool SetupIsolateDelegate::SetupHeapInternal(Heap* heap) { return heap->CreateHeapObjects(); } bool Heap::CreateHeapObjects() { // Create initial maps. if (!CreateInitialMaps()) return false; CreateApiObjects(); // Create initial objects CreateInitialObjects(); CreateInternalAccessorInfoObjects(); CHECK_EQ(0u, gc_count_); set_native_contexts_list(ReadOnlyRoots(this).undefined_value()); set_allocation_sites_list(ReadOnlyRoots(this).undefined_value()); return true; } const Heap::StringTypeTable Heap::string_type_table[] = { #define STRING_TYPE_ELEMENT(type, size, name, CamelName) \ {type, size, RootIndex::k##CamelName##Map}, STRING_TYPE_LIST(STRING_TYPE_ELEMENT) #undef STRING_TYPE_ELEMENT }; const Heap::ConstantStringTable Heap::constant_string_table[] = { {"", RootIndex::kempty_string}, #define CONSTANT_STRING_ELEMENT(_, name, contents) \ {contents, RootIndex::k##name}, INTERNALIZED_STRING_LIST_GENERATOR(CONSTANT_STRING_ELEMENT, /* not used */) #undef CONSTANT_STRING_ELEMENT }; const Heap::StructTable Heap::struct_table[] = { #define STRUCT_TABLE_ELEMENT(TYPE, Name, name) \ {TYPE, Name::kSize, RootIndex::k##Name##Map}, STRUCT_LIST(STRUCT_TABLE_ELEMENT) #undef STRUCT_TABLE_ELEMENT #define ALLOCATION_SITE_ELEMENT(_, TYPE, Name, Size, name) \ {TYPE, Name::kSize##Size, RootIndex::k##Name##Size##Map}, ALLOCATION_SITE_LIST(ALLOCATION_SITE_ELEMENT, /* not used */) #undef ALLOCATION_SITE_ELEMENT #define DATA_HANDLER_ELEMENT(_, TYPE, Name, Size, name) \ {TYPE, Name::kSizeWithData##Size, RootIndex::k##Name##Size##Map}, DATA_HANDLER_LIST(DATA_HANDLER_ELEMENT, /* not used */) #undef DATA_HANDLER_ELEMENT }; AllocationResult Heap::AllocateMap(InstanceType instance_type, int instance_size, ElementsKind elements_kind, int inobject_properties) { STATIC_ASSERT(LAST_JS_OBJECT_TYPE == LAST_TYPE); bool is_js_object = InstanceTypeChecker::IsJSObject(instance_type); DCHECK_IMPLIES(is_js_object && !Map::CanHaveFastTransitionableElementsKind(instance_type), IsDictionaryElementsKind(elements_kind) || IsTerminalElementsKind(elements_kind)); HeapObject result; // JSObjects have maps with a mutable prototype_validity_cell, so they cannot // go in RO_SPACE. AllocationResult allocation = AllocateRaw(Map::kSize, is_js_object ? AllocationType::kMap : AllocationType::kReadOnly); if (!allocation.To(&result)) return allocation; result.set_map_after_allocation(ReadOnlyRoots(this).meta_map(), SKIP_WRITE_BARRIER); Map map = isolate()->factory()->InitializeMap( Map::cast(result), instance_type, instance_size, elements_kind, inobject_properties); return map; } AllocationResult Heap::AllocatePartialMap(InstanceType instance_type, int instance_size) { Object result; AllocationResult allocation = AllocateRaw(Map::kSize, AllocationType::kReadOnly); if (!allocation.To(&result)) return allocation; // Map::cast cannot be used due to uninitialized map field. Map map = Map::unchecked_cast(result); map.set_map_after_allocation( Map::unchecked_cast(isolate()->root(RootIndex::kMetaMap)), SKIP_WRITE_BARRIER); map.set_instance_type(instance_type); map.set_instance_size(instance_size); // Initialize to only containing tagged fields. if (FLAG_unbox_double_fields) { map.set_layout_descriptor(LayoutDescriptor::FastPointerLayout()); } // GetVisitorId requires a properly initialized LayoutDescriptor. map.set_visitor_id(Map::GetVisitorId(map)); map.set_inobject_properties_start_or_constructor_function_index(0); DCHECK(!map.IsJSObjectMap()); map.set_prototype_validity_cell(Smi::FromInt(Map::kPrototypeChainValid)); map.SetInObjectUnusedPropertyFields(0); map.set_bit_field(0); map.set_bit_field2(0); int bit_field3 = Map::EnumLengthBits::encode(kInvalidEnumCacheSentinel) | Map::OwnsDescriptorsBit::encode(true) | Map::ConstructionCounterBits::encode(Map::kNoSlackTracking); map.set_bit_field3(bit_field3); DCHECK(!map.is_in_retained_map_list()); map.clear_padding(); map.set_elements_kind(TERMINAL_FAST_ELEMENTS_KIND); return map; } void Heap::FinalizePartialMap(Map map) { ReadOnlyRoots roots(this); map.set_dependent_code(DependentCode::cast(roots.empty_weak_fixed_array())); map.set_raw_transitions(MaybeObject::FromSmi(Smi::zero())); map.SetInstanceDescriptors(isolate(), roots.empty_descriptor_array(), 0); if (FLAG_unbox_double_fields) { map.set_layout_descriptor(LayoutDescriptor::FastPointerLayout()); } map.set_prototype(roots.null_value()); map.set_constructor_or_backpointer(roots.null_value()); } AllocationResult Heap::Allocate(Map map, AllocationType allocation_type) { DCHECK(map.instance_type() != MAP_TYPE); int size = map.instance_size(); HeapObject result; AllocationResult allocation = AllocateRaw(size, allocation_type); if (!allocation.To(&result)) return allocation; // New space objects are allocated white. WriteBarrierMode write_barrier_mode = allocation_type == AllocationType::kYoung ? SKIP_WRITE_BARRIER : UPDATE_WRITE_BARRIER; result.set_map_after_allocation(map, write_barrier_mode); return result; } bool Heap::CreateInitialMaps() { HeapObject obj; { AllocationResult allocation = AllocatePartialMap(MAP_TYPE, Map::kSize); if (!allocation.To(&obj)) return false; } // Map::cast cannot be used due to uninitialized map field. Map new_meta_map = Map::unchecked_cast(obj); set_meta_map(new_meta_map); new_meta_map.set_map_after_allocation(new_meta_map); ReadOnlyRoots roots(this); { // Partial map allocation #define ALLOCATE_PARTIAL_MAP(instance_type, size, field_name) \ { \ Map map; \ if (!AllocatePartialMap((instance_type), (size)).To(&map)) return false; \ set_##field_name##_map(map); \ } ALLOCATE_PARTIAL_MAP(FIXED_ARRAY_TYPE, kVariableSizeSentinel, fixed_array); ALLOCATE_PARTIAL_MAP(WEAK_FIXED_ARRAY_TYPE, kVariableSizeSentinel, weak_fixed_array); ALLOCATE_PARTIAL_MAP(WEAK_ARRAY_LIST_TYPE, kVariableSizeSentinel, weak_array_list); ALLOCATE_PARTIAL_MAP(FIXED_ARRAY_TYPE, kVariableSizeSentinel, fixed_cow_array) DCHECK_NE(roots.fixed_array_map(), roots.fixed_cow_array_map()); ALLOCATE_PARTIAL_MAP(DESCRIPTOR_ARRAY_TYPE, kVariableSizeSentinel, descriptor_array) ALLOCATE_PARTIAL_MAP(ODDBALL_TYPE, Oddball::kSize, undefined); ALLOCATE_PARTIAL_MAP(ODDBALL_TYPE, Oddball::kSize, null); ALLOCATE_PARTIAL_MAP(ODDBALL_TYPE, Oddball::kSize, the_hole); #undef ALLOCATE_PARTIAL_MAP } // Allocate the empty array. { AllocationResult alloc = AllocateRaw(FixedArray::SizeFor(0), AllocationType::kReadOnly); if (!alloc.To(&obj)) return false; obj.set_map_after_allocation(roots.fixed_array_map(), SKIP_WRITE_BARRIER); FixedArray::cast(obj).set_length(0); } set_empty_fixed_array(FixedArray::cast(obj)); { AllocationResult alloc = AllocateRaw(WeakFixedArray::SizeFor(0), AllocationType::kReadOnly); if (!alloc.To(&obj)) return false; obj.set_map_after_allocation(roots.weak_fixed_array_map(), SKIP_WRITE_BARRIER); WeakFixedArray::cast(obj).set_length(0); } set_empty_weak_fixed_array(WeakFixedArray::cast(obj)); { AllocationResult allocation = AllocateRaw(WeakArrayList::SizeForCapacity(0), AllocationType::kReadOnly); if (!allocation.To(&obj)) return false; obj.set_map_after_allocation(roots.weak_array_list_map(), SKIP_WRITE_BARRIER); WeakArrayList::cast(obj).set_capacity(0); WeakArrayList::cast(obj).set_length(0); } set_empty_weak_array_list(WeakArrayList::cast(obj)); { AllocationResult allocation = Allocate(roots.null_map(), AllocationType::kReadOnly); if (!allocation.To(&obj)) return false; } set_null_value(Oddball::cast(obj)); Oddball::cast(obj).set_kind(Oddball::kNull); { AllocationResult allocation = Allocate(roots.undefined_map(), AllocationType::kReadOnly); if (!allocation.To(&obj)) return false; } set_undefined_value(Oddball::cast(obj)); Oddball::cast(obj).set_kind(Oddball::kUndefined); DCHECK(!InYoungGeneration(roots.undefined_value())); { AllocationResult allocation = Allocate(roots.the_hole_map(), AllocationType::kReadOnly); if (!allocation.To(&obj)) return false; } set_the_hole_value(Oddball::cast(obj)); Oddball::cast(obj).set_kind(Oddball::kTheHole); // Set preliminary exception sentinel value before actually initializing it. set_exception(roots.null_value()); // Setup the struct maps first (needed for the EnumCache). for (unsigned i = 0; i < arraysize(struct_table); i++) { const StructTable& entry = struct_table[i]; Map map; if (!AllocatePartialMap(entry.type, entry.size).To(&map)) return false; roots_table()[entry.index] = map.ptr(); } // Allocate the empty enum cache. { AllocationResult allocation = Allocate(roots.enum_cache_map(), AllocationType::kReadOnly); if (!allocation.To(&obj)) return false; } set_empty_enum_cache(EnumCache::cast(obj)); EnumCache::cast(obj).set_keys(roots.empty_fixed_array()); EnumCache::cast(obj).set_indices(roots.empty_fixed_array()); // Allocate the empty descriptor array. { int size = DescriptorArray::SizeFor(0); if (!AllocateRaw(size, AllocationType::kReadOnly).To(&obj)) return false; obj.set_map_after_allocation(roots.descriptor_array_map(), SKIP_WRITE_BARRIER); DescriptorArray array = DescriptorArray::cast(obj); array.Initialize(roots.empty_enum_cache(), roots.undefined_value(), 0, 0); } set_empty_descriptor_array(DescriptorArray::cast(obj)); // Fix the instance_descriptors for the existing maps. FinalizePartialMap(roots.meta_map()); FinalizePartialMap(roots.fixed_array_map()); FinalizePartialMap(roots.weak_fixed_array_map()); FinalizePartialMap(roots.weak_array_list_map()); FinalizePartialMap(roots.fixed_cow_array_map()); FinalizePartialMap(roots.descriptor_array_map()); FinalizePartialMap(roots.undefined_map()); roots.undefined_map().set_is_undetectable(true); FinalizePartialMap(roots.null_map()); roots.null_map().set_is_undetectable(true); FinalizePartialMap(roots.the_hole_map()); for (unsigned i = 0; i < arraysize(struct_table); ++i) { const StructTable& entry = struct_table[i]; FinalizePartialMap(Map::cast(Object(roots_table()[entry.index]))); } { // Map allocation #define ALLOCATE_MAP(instance_type, size, field_name) \ { \ Map map; \ if (!AllocateMap((instance_type), size).To(&map)) return false; \ set_##field_name##_map(map); \ } #define ALLOCATE_VARSIZE_MAP(instance_type, field_name) \ ALLOCATE_MAP(instance_type, kVariableSizeSentinel, field_name) #define ALLOCATE_PRIMITIVE_MAP(instance_type, size, field_name, \ constructor_function_index) \ { \ ALLOCATE_MAP((instance_type), (size), field_name); \ roots.field_name##_map().SetConstructorFunctionIndex( \ (constructor_function_index)); \ } ALLOCATE_VARSIZE_MAP(SCOPE_INFO_TYPE, scope_info) ALLOCATE_VARSIZE_MAP(FIXED_ARRAY_TYPE, module_info) ALLOCATE_VARSIZE_MAP(CLOSURE_FEEDBACK_CELL_ARRAY_TYPE, closure_feedback_cell_array) ALLOCATE_VARSIZE_MAP(FEEDBACK_VECTOR_TYPE, feedback_vector) ALLOCATE_PRIMITIVE_MAP(HEAP_NUMBER_TYPE, HeapNumber::kSize, heap_number, Context::NUMBER_FUNCTION_INDEX) ALLOCATE_PRIMITIVE_MAP(SYMBOL_TYPE, Symbol::kSize, symbol, Context::SYMBOL_FUNCTION_INDEX) ALLOCATE_MAP(FOREIGN_TYPE, Foreign::kSize, foreign) ALLOCATE_PRIMITIVE_MAP(ODDBALL_TYPE, Oddball::kSize, boolean, Context::BOOLEAN_FUNCTION_INDEX); ALLOCATE_MAP(ODDBALL_TYPE, Oddball::kSize, uninitialized); ALLOCATE_MAP(ODDBALL_TYPE, Oddball::kSize, arguments_marker); ALLOCATE_MAP(ODDBALL_TYPE, Oddball::kSize, exception); ALLOCATE_MAP(ODDBALL_TYPE, Oddball::kSize, termination_exception); ALLOCATE_MAP(ODDBALL_TYPE, Oddball::kSize, optimized_out); ALLOCATE_MAP(ODDBALL_TYPE, Oddball::kSize, stale_register); ALLOCATE_MAP(ODDBALL_TYPE, Oddball::kSize, self_reference_marker); ALLOCATE_VARSIZE_MAP(BIGINT_TYPE, bigint); for (unsigned i = 0; i < arraysize(string_type_table); i++) { const StringTypeTable& entry = string_type_table[i]; Map map; if (!AllocateMap(entry.type, entry.size).To(&map)) return false; map.SetConstructorFunctionIndex(Context::STRING_FUNCTION_INDEX); // Mark cons string maps as unstable, because their objects can change // maps during GC. if (StringShape(entry.type).IsCons()) map.mark_unstable(); roots_table()[entry.index] = map.ptr(); } { // Create a separate external one byte string map for native sources. Map map; AllocationResult allocation = AllocateMap(UNCACHED_EXTERNAL_ONE_BYTE_STRING_TYPE, ExternalOneByteString::kUncachedSize); if (!allocation.To(&map)) return false; map.SetConstructorFunctionIndex(Context::STRING_FUNCTION_INDEX); set_native_source_string_map(map); } ALLOCATE_VARSIZE_MAP(FIXED_DOUBLE_ARRAY_TYPE, fixed_double_array) roots.fixed_double_array_map().set_elements_kind(HOLEY_DOUBLE_ELEMENTS); ALLOCATE_VARSIZE_MAP(FEEDBACK_METADATA_TYPE, feedback_metadata) ALLOCATE_VARSIZE_MAP(BYTE_ARRAY_TYPE, byte_array) ALLOCATE_VARSIZE_MAP(BYTECODE_ARRAY_TYPE, bytecode_array) ALLOCATE_VARSIZE_MAP(FREE_SPACE_TYPE, free_space) ALLOCATE_VARSIZE_MAP(PROPERTY_ARRAY_TYPE, property_array) ALLOCATE_VARSIZE_MAP(SMALL_ORDERED_HASH_MAP_TYPE, small_ordered_hash_map) ALLOCATE_VARSIZE_MAP(SMALL_ORDERED_HASH_SET_TYPE, small_ordered_hash_set) ALLOCATE_VARSIZE_MAP(SMALL_ORDERED_NAME_DICTIONARY_TYPE, small_ordered_name_dictionary) ALLOCATE_VARSIZE_MAP(FIXED_ARRAY_TYPE, sloppy_arguments_elements) ALLOCATE_VARSIZE_MAP(CODE_TYPE, code) ALLOCATE_MAP(CELL_TYPE, Cell::kSize, cell); { // The invalid_prototype_validity_cell is needed for JSObject maps. Smi value = Smi::FromInt(Map::kPrototypeChainInvalid); AllocationResult alloc = AllocateRaw(Cell::kSize, AllocationType::kOld); if (!alloc.To(&obj)) return false; obj.set_map_after_allocation(roots.cell_map(), SKIP_WRITE_BARRIER); Cell::cast(obj).set_value(value); set_invalid_prototype_validity_cell(Cell::cast(obj)); } ALLOCATE_MAP(PROPERTY_CELL_TYPE, PropertyCell::kSize, global_property_cell) ALLOCATE_MAP(FILLER_TYPE, kTaggedSize, one_pointer_filler) ALLOCATE_MAP(FILLER_TYPE, 2 * kTaggedSize, two_pointer_filler) // The "no closures" and "one closure" FeedbackCell maps need // to be marked unstable because their objects can change maps. ALLOCATE_MAP( FEEDBACK_CELL_TYPE, FeedbackCell::kAlignedSize, no_closures_cell) roots.no_closures_cell_map().mark_unstable(); ALLOCATE_MAP( FEEDBACK_CELL_TYPE, FeedbackCell::kAlignedSize, one_closure_cell) roots.one_closure_cell_map().mark_unstable(); ALLOCATE_MAP( FEEDBACK_CELL_TYPE, FeedbackCell::kAlignedSize, many_closures_cell) ALLOCATE_VARSIZE_MAP(TRANSITION_ARRAY_TYPE, transition_array) ALLOCATE_VARSIZE_MAP(HASH_TABLE_TYPE, hash_table) ALLOCATE_VARSIZE_MAP(ORDERED_HASH_MAP_TYPE, ordered_hash_map) ALLOCATE_VARSIZE_MAP(ORDERED_HASH_SET_TYPE, ordered_hash_set) ALLOCATE_VARSIZE_MAP(ORDERED_NAME_DICTIONARY_TYPE, ordered_name_dictionary) ALLOCATE_VARSIZE_MAP(NAME_DICTIONARY_TYPE, name_dictionary) ALLOCATE_VARSIZE_MAP(GLOBAL_DICTIONARY_TYPE, global_dictionary) ALLOCATE_VARSIZE_MAP(NUMBER_DICTIONARY_TYPE, number_dictionary) ALLOCATE_VARSIZE_MAP(SIMPLE_NUMBER_DICTIONARY_TYPE, simple_number_dictionary) ALLOCATE_VARSIZE_MAP(STRING_TABLE_TYPE, string_table) ALLOCATE_VARSIZE_MAP(EMBEDDER_DATA_ARRAY_TYPE, embedder_data_array) ALLOCATE_VARSIZE_MAP(EPHEMERON_HASH_TABLE_TYPE, ephemeron_hash_table) ALLOCATE_VARSIZE_MAP(FIXED_ARRAY_TYPE, array_list) ALLOCATE_VARSIZE_MAP(FUNCTION_CONTEXT_TYPE, function_context) ALLOCATE_VARSIZE_MAP(CATCH_CONTEXT_TYPE, catch_context) ALLOCATE_VARSIZE_MAP(WITH_CONTEXT_TYPE, with_context) ALLOCATE_VARSIZE_MAP(DEBUG_EVALUATE_CONTEXT_TYPE, debug_evaluate_context) ALLOCATE_VARSIZE_MAP(AWAIT_CONTEXT_TYPE, await_context) ALLOCATE_VARSIZE_MAP(BLOCK_CONTEXT_TYPE, block_context) ALLOCATE_VARSIZE_MAP(MODULE_CONTEXT_TYPE, module_context) ALLOCATE_VARSIZE_MAP(NATIVE_CONTEXT_TYPE, native_context) ALLOCATE_VARSIZE_MAP(EVAL_CONTEXT_TYPE, eval_context) ALLOCATE_VARSIZE_MAP(SCRIPT_CONTEXT_TYPE, script_context) ALLOCATE_VARSIZE_MAP(SCRIPT_CONTEXT_TABLE_TYPE, script_context_table) ALLOCATE_VARSIZE_MAP(OBJECT_BOILERPLATE_DESCRIPTION_TYPE, object_boilerplate_description) ALLOCATE_MAP(CALL_HANDLER_INFO_TYPE, CallHandlerInfo::kSize, side_effect_call_handler_info) ALLOCATE_MAP(CALL_HANDLER_INFO_TYPE, CallHandlerInfo::kSize, side_effect_free_call_handler_info) ALLOCATE_MAP(CALL_HANDLER_INFO_TYPE, CallHandlerInfo::kSize, next_call_side_effect_free_call_handler_info) ALLOCATE_VARSIZE_MAP(PREPARSE_DATA_TYPE, preparse_data) ALLOCATE_MAP(UNCOMPILED_DATA_WITHOUT_PREPARSE_DATA_TYPE, UncompiledDataWithoutPreparseData::kSize, uncompiled_data_without_preparse_data) ALLOCATE_MAP(UNCOMPILED_DATA_WITH_PREPARSE_DATA_TYPE, UncompiledDataWithPreparseData::kSize, uncompiled_data_with_preparse_data) ALLOCATE_MAP(SHARED_FUNCTION_INFO_TYPE, SharedFunctionInfo::kAlignedSize, shared_function_info) ALLOCATE_MAP(SOURCE_TEXT_MODULE_TYPE, SourceTextModule::kSize, source_text_module) ALLOCATE_MAP(SYNTHETIC_MODULE_TYPE, SyntheticModule::kSize, synthetic_module) ALLOCATE_MAP(CODE_DATA_CONTAINER_TYPE, CodeDataContainer::kSize, code_data_container) ALLOCATE_MAP(WEAK_CELL_TYPE, WeakCell::kSize, weak_cell) ALLOCATE_MAP(JS_MESSAGE_OBJECT_TYPE, JSMessageObject::kSize, message_object) ALLOCATE_MAP(JS_OBJECT_TYPE, JSObject::kHeaderSize + kEmbedderDataSlotSize, external) external_map().set_is_extensible(false); #undef ALLOCATE_PRIMITIVE_MAP #undef ALLOCATE_VARSIZE_MAP #undef ALLOCATE_MAP } { AllocationResult alloc = AllocateRaw(FixedArray::SizeFor(0), AllocationType::kReadOnly); if (!alloc.To(&obj)) return false; obj.set_map_after_allocation(roots.scope_info_map(), SKIP_WRITE_BARRIER); FixedArray::cast(obj).set_length(0); } set_empty_scope_info(ScopeInfo::cast(obj)); { // Empty boilerplate needs a field for literal_flags AllocationResult alloc = AllocateRaw(FixedArray::SizeFor(1), AllocationType::kReadOnly); if (!alloc.To(&obj)) return false; obj.set_map_after_allocation(roots.object_boilerplate_description_map(), SKIP_WRITE_BARRIER); FixedArray::cast(obj).set_length(1); FixedArray::cast(obj).set(ObjectBoilerplateDescription::kLiteralTypeOffset, Smi::kZero); } set_empty_object_boilerplate_description( ObjectBoilerplateDescription::cast(obj)); { // Empty array boilerplate description AllocationResult alloc = Allocate(roots.array_boilerplate_description_map(), AllocationType::kReadOnly); if (!alloc.To(&obj)) return false; ArrayBoilerplateDescription::cast(obj).set_constant_elements( roots.empty_fixed_array()); ArrayBoilerplateDescription::cast(obj).set_elements_kind( ElementsKind::PACKED_SMI_ELEMENTS); } set_empty_array_boilerplate_description( ArrayBoilerplateDescription::cast(obj)); { AllocationResult allocation = Allocate(roots.boolean_map(), AllocationType::kReadOnly); if (!allocation.To(&obj)) return false; } set_true_value(Oddball::cast(obj)); Oddball::cast(obj).set_kind(Oddball::kTrue); { AllocationResult allocation = Allocate(roots.boolean_map(), AllocationType::kReadOnly); if (!allocation.To(&obj)) return false; } set_false_value(Oddball::cast(obj)); Oddball::cast(obj).set_kind(Oddball::kFalse); // Empty arrays. { if (!AllocateRaw(ByteArray::SizeFor(0), AllocationType::kReadOnly).To(&obj)) return false; obj.set_map_after_allocation(roots.byte_array_map(), SKIP_WRITE_BARRIER); ByteArray::cast(obj).set_length(0); set_empty_byte_array(ByteArray::cast(obj)); } { if (!AllocateRaw(FixedArray::SizeFor(0), AllocationType::kReadOnly) .To(&obj)) { return false; } obj.set_map_after_allocation(roots.property_array_map(), SKIP_WRITE_BARRIER); PropertyArray::cast(obj).initialize_length(0); set_empty_property_array(PropertyArray::cast(obj)); } { if (!AllocateRaw(FixedArray::SizeFor(0), AllocationType::kReadOnly) .To(&obj)) { return false; } obj.set_map_after_allocation(roots.closure_feedback_cell_array_map(), SKIP_WRITE_BARRIER); FixedArray::cast(obj).set_length(0); set_empty_closure_feedback_cell_array(ClosureFeedbackCellArray::cast(obj)); } DCHECK(!InYoungGeneration(roots.empty_fixed_array())); roots.bigint_map().SetConstructorFunctionIndex( Context::BIGINT_FUNCTION_INDEX); return true; } void Heap::CreateApiObjects() { Isolate* isolate = this->isolate(); HandleScope scope(isolate); set_message_listeners(*TemplateList::New(isolate, 2)); Handle info = Handle::cast(isolate->factory()->NewStruct( INTERCEPTOR_INFO_TYPE, AllocationType::kReadOnly)); info->set_flags(0); set_noop_interceptor_info(*info); } void Heap::CreateInitialObjects() { HandleScope scope(isolate()); Factory* factory = isolate()->factory(); ReadOnlyRoots roots(this); // The -0 value must be set before NewNumber works. set_minus_zero_value( *factory->NewHeapNumber(-0.0, AllocationType::kReadOnly)); DCHECK(std::signbit(roots.minus_zero_value().Number())); set_nan_value(*factory->NewHeapNumber( std::numeric_limits::quiet_NaN(), AllocationType::kReadOnly)); set_hole_nan_value(*factory->NewHeapNumberFromBits( kHoleNanInt64, AllocationType::kReadOnly)); set_infinity_value( *factory->NewHeapNumber(V8_INFINITY, AllocationType::kReadOnly)); set_minus_infinity_value( *factory->NewHeapNumber(-V8_INFINITY, AllocationType::kReadOnly)); set_hash_seed(*factory->NewByteArray(kInt64Size, AllocationType::kReadOnly)); InitializeHashSeed(); // There's no "current microtask" in the beginning. set_current_microtask(roots.undefined_value()); set_dirty_js_finalization_groups(roots.undefined_value()); set_weak_refs_keep_during_job(roots.undefined_value()); // Allocate cache for single character one byte strings. set_single_character_string_cache(*factory->NewFixedArray( String::kMaxOneByteCharCode + 1, AllocationType::kOld)); // Allocate initial string table. set_string_table(*StringTable::New(isolate(), kInitialStringTableSize)); for (unsigned i = 0; i < arraysize(constant_string_table); i++) { Handle str = factory->InternalizeUtf8String(constant_string_table[i].contents); roots_table()[constant_string_table[i].index] = str->ptr(); } // Allocate // Finish initializing oddballs after creating the string table. Oddball::Initialize(isolate(), factory->undefined_value(), "undefined", factory->nan_value(), "undefined", Oddball::kUndefined); // Initialize the null_value. Oddball::Initialize(isolate(), factory->null_value(), "null", handle(Smi::kZero, isolate()), "object", Oddball::kNull); // Initialize the_hole_value. Oddball::Initialize(isolate(), factory->the_hole_value(), "hole", factory->hole_nan_value(), "undefined", Oddball::kTheHole); // Initialize the true_value. Oddball::Initialize(isolate(), factory->true_value(), "true", handle(Smi::FromInt(1), isolate()), "boolean", Oddball::kTrue); // Initialize the false_value. Oddball::Initialize(isolate(), factory->false_value(), "false", handle(Smi::kZero, isolate()), "boolean", Oddball::kFalse); set_uninitialized_value( *factory->NewOddball(factory->uninitialized_map(), "uninitialized", handle(Smi::FromInt(-1), isolate()), "undefined", Oddball::kUninitialized)); set_arguments_marker( *factory->NewOddball(factory->arguments_marker_map(), "arguments_marker", handle(Smi::FromInt(-4), isolate()), "undefined", Oddball::kArgumentsMarker)); set_termination_exception(*factory->NewOddball( factory->termination_exception_map(), "termination_exception", handle(Smi::FromInt(-3), isolate()), "undefined", Oddball::kOther)); set_exception(*factory->NewOddball(factory->exception_map(), "exception", handle(Smi::FromInt(-5), isolate()), "undefined", Oddball::kException)); set_optimized_out(*factory->NewOddball(factory->optimized_out_map(), "optimized_out", handle(Smi::FromInt(-6), isolate()), "undefined", Oddball::kOptimizedOut)); set_stale_register( *factory->NewOddball(factory->stale_register_map(), "stale_register", handle(Smi::FromInt(-7), isolate()), "undefined", Oddball::kStaleRegister)); // Initialize the self-reference marker. set_self_reference_marker( *factory->NewSelfReferenceMarker(AllocationType::kReadOnly)); set_interpreter_entry_trampoline_for_profiling(roots.undefined_value()); { HandleScope scope(isolate()); #define SYMBOL_INIT(_, name) \ { \ Handle symbol( \ isolate()->factory()->NewPrivateSymbol(AllocationType::kReadOnly)); \ roots_table()[RootIndex::k##name] = symbol->ptr(); \ } PRIVATE_SYMBOL_LIST_GENERATOR(SYMBOL_INIT, /* not used */) #undef SYMBOL_INIT } { HandleScope scope(isolate()); #define SYMBOL_INIT(_, name, description) \ Handle name = factory->NewSymbol(AllocationType::kReadOnly); \ Handle name##d = factory->InternalizeUtf8String(#description); \ name->set_name(*name##d); \ roots_table()[RootIndex::k##name] = name->ptr(); PUBLIC_SYMBOL_LIST_GENERATOR(SYMBOL_INIT, /* not used */) #undef SYMBOL_INIT #define SYMBOL_INIT(_, name, description) \ Handle name = factory->NewSymbol(AllocationType::kReadOnly); \ Handle name##d = factory->InternalizeUtf8String(#description); \ name->set_is_well_known_symbol(true); \ name->set_name(*name##d); \ roots_table()[RootIndex::k##name] = name->ptr(); WELL_KNOWN_SYMBOL_LIST_GENERATOR(SYMBOL_INIT, /* not used */) #undef SYMBOL_INIT // Mark "Interesting Symbols" appropriately. to_string_tag_symbol->set_is_interesting_symbol(true); } Handle empty_property_dictionary = NameDictionary::New( isolate(), 1, AllocationType::kReadOnly, USE_CUSTOM_MINIMUM_CAPACITY); DCHECK(!empty_property_dictionary->HasSufficientCapacityToAdd(1)); set_empty_property_dictionary(*empty_property_dictionary); set_public_symbol_table(*empty_property_dictionary); set_api_symbol_table(*empty_property_dictionary); set_api_private_symbol_table(*empty_property_dictionary); set_number_string_cache(*factory->NewFixedArray( kInitialNumberStringCacheSize * 2, AllocationType::kOld)); // Allocate cache for string split and regexp-multiple. set_string_split_cache(*factory->NewFixedArray( RegExpResultsCache::kRegExpResultsCacheSize, AllocationType::kOld)); set_regexp_multiple_cache(*factory->NewFixedArray( RegExpResultsCache::kRegExpResultsCacheSize, AllocationType::kOld)); // Allocate FeedbackCell for builtins. Handle many_closures_cell = factory->NewManyClosuresCell(factory->undefined_value()); set_many_closures_cell(*many_closures_cell); { Handle empty_sloppy_arguments_elements = factory->NewFixedArray(2, AllocationType::kReadOnly); empty_sloppy_arguments_elements->set_map_after_allocation( roots.sloppy_arguments_elements_map(), SKIP_WRITE_BARRIER); set_empty_sloppy_arguments_elements(*empty_sloppy_arguments_elements); } set_detached_contexts(roots.empty_weak_array_list()); set_retained_maps(roots.empty_weak_array_list()); set_retaining_path_targets(roots.empty_weak_array_list()); set_feedback_vectors_for_profiling_tools(roots.undefined_value()); set_pending_optimize_for_test_bytecode(roots.undefined_value()); set_script_list(roots.empty_weak_array_list()); Handle slow_element_dictionary = NumberDictionary::New( isolate(), 1, AllocationType::kReadOnly, USE_CUSTOM_MINIMUM_CAPACITY); DCHECK(!slow_element_dictionary->HasSufficientCapacityToAdd(1)); slow_element_dictionary->set_requires_slow_elements(); set_empty_slow_element_dictionary(*slow_element_dictionary); set_materialized_objects(*factory->NewFixedArray(0, AllocationType::kOld)); // Handling of script id generation is in Heap::NextScriptId(). set_last_script_id(Smi::FromInt(v8::UnboundScript::kNoScriptId)); set_last_debugging_id(Smi::FromInt(DebugInfo::kNoDebuggingId)); set_next_template_serial_number(Smi::zero()); // Allocate the empty OrderedHashMap. Handle empty_ordered_hash_map = factory->NewFixedArray( OrderedHashMap::HashTableStartIndex(), AllocationType::kReadOnly); empty_ordered_hash_map->set_map_no_write_barrier( *factory->ordered_hash_map_map()); for (int i = 0; i < empty_ordered_hash_map->length(); ++i) { empty_ordered_hash_map->set(i, Smi::kZero); } set_empty_ordered_hash_map(*empty_ordered_hash_map); // Allocate the empty OrderedHashSet. Handle empty_ordered_hash_set = factory->NewFixedArray( OrderedHashSet::HashTableStartIndex(), AllocationType::kReadOnly); empty_ordered_hash_set->set_map_no_write_barrier( *factory->ordered_hash_set_map()); for (int i = 0; i < empty_ordered_hash_set->length(); ++i) { empty_ordered_hash_set->set(i, Smi::kZero); } set_empty_ordered_hash_set(*empty_ordered_hash_set); // Allocate the empty FeedbackMetadata. Handle empty_feedback_metadata = factory->NewFeedbackMetadata(0, 0, AllocationType::kReadOnly); set_empty_feedback_metadata(*empty_feedback_metadata); // Canonical scope arrays. Handle global_this_binding = ScopeInfo::CreateGlobalThisBinding(isolate()); set_global_this_binding_scope_info(*global_this_binding); Handle empty_function = ScopeInfo::CreateForEmptyFunction(isolate()); set_empty_function_scope_info(*empty_function); // Allocate the empty script. Handle