// Copyright 2015 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/heap/object-stats.h" #include "src/assembler-inl.h" #include "src/compilation-cache.h" #include "src/counters.h" #include "src/heap/heap-inl.h" #include "src/isolate.h" #include "src/macro-assembler.h" #include "src/utils.h" namespace v8 { namespace internal { static base::LazyMutex object_stats_mutex = LAZY_MUTEX_INITIALIZER; void ObjectStats::ClearObjectStats(bool clear_last_time_stats) { memset(object_counts_, 0, sizeof(object_counts_)); memset(object_sizes_, 0, sizeof(object_sizes_)); memset(over_allocated_, 0, sizeof(over_allocated_)); memset(size_histogram_, 0, sizeof(size_histogram_)); memset(over_allocated_histogram_, 0, sizeof(over_allocated_histogram_)); if (clear_last_time_stats) { memset(object_counts_last_time_, 0, sizeof(object_counts_last_time_)); memset(object_sizes_last_time_, 0, sizeof(object_sizes_last_time_)); } visited_fixed_array_sub_types_.clear(); } // Tell the compiler to never inline this: occasionally, the optimizer will // decide to inline this and unroll the loop, making the compiled code more than // 100KB larger. V8_NOINLINE static void PrintJSONArray(size_t* array, const int len) { PrintF("[ "); for (int i = 0; i < len; i++) { PrintF("%zu", array[i]); if (i != (len - 1)) PrintF(", "); } PrintF(" ]"); } V8_NOINLINE static void DumpJSONArray(std::stringstream& stream, size_t* array, const int len) { stream << "["; for (int i = 0; i < len; i++) { stream << array[i]; if (i != (len - 1)) stream << ","; } stream << "]"; } void ObjectStats::PrintKeyAndId(const char* key, int gc_count) { PrintF("\"isolate\": \"%p\", \"id\": %d, \"key\": \"%s\", ", reinterpret_cast<void*>(isolate()), gc_count, key); } void ObjectStats::PrintInstanceTypeJSON(const char* key, int gc_count, const char* name, int index) { PrintF("{ "); PrintKeyAndId(key, gc_count); PrintF("\"type\": \"instance_type_data\", "); PrintF("\"instance_type\": %d, ", index); PrintF("\"instance_type_name\": \"%s\", ", name); PrintF("\"overall\": %zu, ", object_sizes_[index]); PrintF("\"count\": %zu, ", object_counts_[index]); PrintF("\"over_allocated\": %zu, ", over_allocated_[index]); PrintF("\"histogram\": "); PrintJSONArray(size_histogram_[index], kNumberOfBuckets); PrintF(","); PrintF("\"over_allocated_histogram\": "); PrintJSONArray(over_allocated_histogram_[index], kNumberOfBuckets); PrintF(" }\n"); } void ObjectStats::PrintJSON(const char* key) { double time = isolate()->time_millis_since_init(); int gc_count = heap()->gc_count(); // gc_descriptor PrintF("{ "); PrintKeyAndId(key, gc_count); PrintF("\"type\": \"gc_descriptor\", \"time\": %f }\n", time); // bucket_sizes PrintF("{ "); PrintKeyAndId(key, gc_count); PrintF("\"type\": \"bucket_sizes\", \"sizes\": [ "); for (int i = 0; i < kNumberOfBuckets; i++) { PrintF("%d", 1 << (kFirstBucketShift + i)); if (i != (kNumberOfBuckets - 1)) PrintF(", "); } PrintF(" ] }\n"); #define INSTANCE_TYPE_WRAPPER(name) \ PrintInstanceTypeJSON(key, gc_count, #name, name); #define CODE_KIND_WRAPPER(name) \ PrintInstanceTypeJSON(key, gc_count, "*CODE_" #name, \ FIRST_CODE_KIND_SUB_TYPE + Code::name); #define FIXED_ARRAY_SUB_INSTANCE_TYPE_WRAPPER(name) \ PrintInstanceTypeJSON(key, gc_count, "*FIXED_ARRAY_" #name, \ FIRST_FIXED_ARRAY_SUB_TYPE + name); #define CODE_AGE_WRAPPER(name) \ PrintInstanceTypeJSON( \ key, gc_count, "*CODE_AGE_" #name, \ FIRST_CODE_AGE_SUB_TYPE + Code::k##name##CodeAge - Code::kFirstCodeAge); INSTANCE_TYPE_LIST(INSTANCE_TYPE_WRAPPER) CODE_KIND_LIST(CODE_KIND_WRAPPER) FIXED_ARRAY_SUB_INSTANCE_TYPE_LIST(FIXED_ARRAY_SUB_INSTANCE_TYPE_WRAPPER) CODE_AGE_LIST_COMPLETE(CODE_AGE_WRAPPER) #undef INSTANCE_TYPE_WRAPPER #undef CODE_KIND_WRAPPER #undef FIXED_ARRAY_SUB_INSTANCE_TYPE_WRAPPER #undef CODE_AGE_WRAPPER #undef PRINT_INSTANCE_TYPE_DATA #undef PRINT_KEY_AND_ID } void ObjectStats::DumpInstanceTypeData(std::stringstream& stream, const char* name, int index) { stream << "\"" << name << "\":{"; stream << "\"type\":" << static_cast<int>(index) << ","; stream << "\"overall\":" << object_sizes_[index] << ","; stream << "\"count\":" << object_counts_[index] << ","; stream << "\"over_allocated\":" << over_allocated_[index] << ","; stream << "\"histogram\":"; DumpJSONArray(stream, size_histogram_[index], kNumberOfBuckets); stream << ",\"over_allocated_histogram\":"; DumpJSONArray(stream, over_allocated_histogram_[index], kNumberOfBuckets); stream << "},"; } void ObjectStats::Dump(std::stringstream& stream) { double time = isolate()->time_millis_since_init(); int gc_count = heap()->gc_count(); stream << "{"; stream << "\"isolate\":\"" << reinterpret_cast<void*>(isolate()) << "\","; stream << "\"id\":" << gc_count << ","; stream << "\"time\":" << time << ","; stream << "\"bucket_sizes\":["; for (int i = 0; i < kNumberOfBuckets; i++) { stream << (1 << (kFirstBucketShift + i)); if (i != (kNumberOfBuckets - 1)) stream << ","; } stream << "],"; stream << "\"type_data\":{"; #define INSTANCE_TYPE_WRAPPER(name) DumpInstanceTypeData(stream, #name, name); #define CODE_KIND_WRAPPER(name) \ DumpInstanceTypeData(stream, "*CODE_" #name, \ FIRST_CODE_KIND_SUB_TYPE + Code::name); #define FIXED_ARRAY_SUB_INSTANCE_TYPE_WRAPPER(name) \ DumpInstanceTypeData(stream, "*FIXED_ARRAY_" #name, \ FIRST_FIXED_ARRAY_SUB_TYPE + name); #define CODE_AGE_WRAPPER(name) \ DumpInstanceTypeData( \ stream, "*CODE_AGE_" #name, \ FIRST_CODE_AGE_SUB_TYPE + Code::k##name##CodeAge - Code::kFirstCodeAge); INSTANCE_TYPE_LIST(INSTANCE_TYPE_WRAPPER); CODE_KIND_LIST(CODE_KIND_WRAPPER); FIXED_ARRAY_SUB_INSTANCE_TYPE_LIST(FIXED_ARRAY_SUB_INSTANCE_TYPE_WRAPPER); CODE_AGE_LIST_COMPLETE(CODE_AGE_WRAPPER); stream << "\"END\":{}}}"; #undef INSTANCE_TYPE_WRAPPER #undef CODE_KIND_WRAPPER #undef FIXED_ARRAY_SUB_INSTANCE_TYPE_WRAPPER #undef CODE_AGE_WRAPPER #undef PRINT_INSTANCE_TYPE_DATA } void ObjectStats::CheckpointObjectStats() { base::LockGuard<base::Mutex> lock_guard(object_stats_mutex.Pointer()); Counters* counters = isolate()->counters(); #define ADJUST_LAST_TIME_OBJECT_COUNT(name) \ counters->count_of_##name()->Increment( \ static_cast<int>(object_counts_[name])); \ counters->count_of_##name()->Decrement( \ static_cast<int>(object_counts_last_time_[name])); \ counters->size_of_##name()->Increment( \ static_cast<int>(object_sizes_[name])); \ counters->size_of_##name()->Decrement( \ static_cast<int>(object_sizes_last_time_[name])); INSTANCE_TYPE_LIST(ADJUST_LAST_TIME_OBJECT_COUNT) #undef ADJUST_LAST_TIME_OBJECT_COUNT int index; #define ADJUST_LAST_TIME_OBJECT_COUNT(name) \ index = FIRST_CODE_KIND_SUB_TYPE + Code::name; \ counters->count_of_CODE_TYPE_##name()->Increment( \ static_cast<int>(object_counts_[index])); \ counters->count_of_CODE_TYPE_##name()->Decrement( \ static_cast<int>(object_counts_last_time_[index])); \ counters->size_of_CODE_TYPE_##name()->Increment( \ static_cast<int>(object_sizes_[index])); \ counters->size_of_CODE_TYPE_##name()->Decrement( \ static_cast<int>(object_sizes_last_time_[index])); CODE_KIND_LIST(ADJUST_LAST_TIME_OBJECT_COUNT) #undef ADJUST_LAST_TIME_OBJECT_COUNT #define ADJUST_LAST_TIME_OBJECT_COUNT(name) \ index = FIRST_FIXED_ARRAY_SUB_TYPE + name; \ counters->count_of_FIXED_ARRAY_##name()->Increment( \ static_cast<int>(object_counts_[index])); \ counters->count_of_FIXED_ARRAY_##name()->Decrement( \ static_cast<int>(object_counts_last_time_[index])); \ counters->size_of_FIXED_ARRAY_##name()->Increment( \ static_cast<int>(object_sizes_[index])); \ counters->size_of_FIXED_ARRAY_##name()->Decrement( \ static_cast<int>(object_sizes_last_time_[index])); FIXED_ARRAY_SUB_INSTANCE_TYPE_LIST(ADJUST_LAST_TIME_OBJECT_COUNT) #undef ADJUST_LAST_TIME_OBJECT_COUNT #define ADJUST_LAST_TIME_OBJECT_COUNT(name) \ index = \ FIRST_CODE_AGE_SUB_TYPE + Code::k##name##CodeAge - Code::kFirstCodeAge; \ counters->count_of_CODE_AGE_##name()->Increment( \ static_cast<int>(object_counts_[index])); \ counters->count_of_CODE_AGE_##name()->Decrement( \ static_cast<int>(object_counts_last_time_[index])); \ counters->size_of_CODE_AGE_##name()->Increment( \ static_cast<int>(object_sizes_[index])); \ counters->size_of_CODE_AGE_##name()->Decrement( \ static_cast<int>(object_sizes_last_time_[index])); CODE_AGE_LIST_COMPLETE(ADJUST_LAST_TIME_OBJECT_COUNT) #undef ADJUST_LAST_TIME_OBJECT_COUNT MemCopy(object_counts_last_time_, object_counts_, sizeof(object_counts_)); MemCopy(object_sizes_last_time_, object_sizes_, sizeof(object_sizes_)); ClearObjectStats(); } Isolate* ObjectStats::isolate() { return heap()->isolate(); } void ObjectStatsCollector::CollectStatistics(HeapObject* obj) { Map* map = obj->map(); // Record for the InstanceType. int object_size = obj->Size(); stats_->RecordObjectStats(map->instance_type(), object_size); // Record specific sub types where possible. if (obj->IsMap()) RecordMapDetails(Map::cast(obj)); if (obj->IsObjectTemplateInfo() || obj->IsFunctionTemplateInfo()) { RecordTemplateInfoDetails(TemplateInfo::cast(obj)); } if (obj->IsBytecodeArray()) { RecordBytecodeArrayDetails(BytecodeArray::cast(obj)); } if (obj->IsCode()) RecordCodeDetails(Code::cast(obj)); if (obj->IsSharedFunctionInfo()) { RecordSharedFunctionInfoDetails(SharedFunctionInfo::cast(obj)); } if (obj->IsFixedArray()) RecordFixedArrayDetails(FixedArray::cast(obj)); if (obj->IsJSObject()) RecordJSObjectDetails(JSObject::cast(obj)); if (obj->IsJSWeakCollection()) { RecordJSWeakCollectionDetails(JSWeakCollection::cast(obj)); } if (obj->IsJSCollection()) { RecordJSCollectionDetails(JSObject::cast(obj)); } if (obj->IsJSFunction()) RecordJSFunctionDetails(JSFunction::cast(obj)); if (obj->IsScript()) RecordScriptDetails(Script::cast(obj)); } class ObjectStatsCollector::CompilationCacheTableVisitor : public ObjectVisitor { public: explicit CompilationCacheTableVisitor(ObjectStatsCollector* parent) : parent_(parent) {} void VisitPointers(Object** start, Object** end) override { for (Object** current = start; current < end; current++) { HeapObject* obj = HeapObject::cast(*current); if (obj->IsUndefined(parent_->heap_->isolate())) continue; CHECK(obj->IsCompilationCacheTable()); parent_->RecordHashTableHelper(nullptr, CompilationCacheTable::cast(obj), COMPILATION_CACHE_TABLE_SUB_TYPE); } } private: ObjectStatsCollector* parent_; }; void ObjectStatsCollector::CollectGlobalStatistics() { // Global FixedArrays. RecordFixedArrayHelper(nullptr, heap_->weak_new_space_object_to_code_list(), WEAK_NEW_SPACE_OBJECT_TO_CODE_SUB_TYPE, 0); RecordFixedArrayHelper(nullptr, heap_->serialized_templates(), SERIALIZED_TEMPLATES_SUB_TYPE, 0); RecordFixedArrayHelper(nullptr, heap_->number_string_cache(), NUMBER_STRING_CACHE_SUB_TYPE, 0); RecordFixedArrayHelper(nullptr, heap_->single_character_string_cache(), SINGLE_CHARACTER_STRING_CACHE_SUB_TYPE, 0); RecordFixedArrayHelper(nullptr, heap_->string_split_cache(), STRING_SPLIT_CACHE_SUB_TYPE, 0); RecordFixedArrayHelper(nullptr, heap_->regexp_multiple_cache(), REGEXP_MULTIPLE_CACHE_SUB_TYPE, 0); RecordFixedArrayHelper(nullptr, heap_->retained_maps(), RETAINED_MAPS_SUB_TYPE, 0); // Global weak FixedArrays. RecordFixedArrayHelper( nullptr, WeakFixedArray::cast(heap_->noscript_shared_function_infos()), NOSCRIPT_SHARED_FUNCTION_INFOS_SUB_TYPE, 0); RecordFixedArrayHelper(nullptr, WeakFixedArray::cast(heap_->script_list()), SCRIPT_LIST_SUB_TYPE, 0); // Global hash tables. RecordHashTableHelper(nullptr, heap_->string_table(), STRING_TABLE_SUB_TYPE); RecordHashTableHelper(nullptr, heap_->weak_object_to_code_table(), OBJECT_TO_CODE_SUB_TYPE); RecordHashTableHelper(nullptr, heap_->code_stubs(), CODE_STUBS_TABLE_SUB_TYPE); RecordHashTableHelper(nullptr, heap_->empty_properties_dictionary(), EMPTY_PROPERTIES_DICTIONARY_SUB_TYPE); CompilationCache* compilation_cache = heap_->isolate()->compilation_cache(); CompilationCacheTableVisitor v(this); compilation_cache->Iterate(&v); } static bool CanRecordFixedArray(Heap* heap, FixedArrayBase* array) { return array->map()->instance_type() == FIXED_ARRAY_TYPE && array->map() != heap->fixed_double_array_map() && array != heap->empty_fixed_array() && array != heap->empty_byte_array() && array != heap->empty_sloppy_arguments_elements() && array != heap->empty_slow_element_dictionary() && array != heap->empty_descriptor_array() && array != heap->empty_properties_dictionary(); } static bool IsCowArray(Heap* heap, FixedArrayBase* array) { return array->map() == heap->fixed_cow_array_map(); } static bool SameLiveness(HeapObject* obj1, HeapObject* obj2) { return obj1 == nullptr || obj2 == nullptr || ObjectMarking::Color(obj1) == ObjectMarking::Color(obj2); } bool ObjectStatsCollector::RecordFixedArrayHelper(HeapObject* parent, FixedArray* array, int subtype, size_t overhead) { if (SameLiveness(parent, array) && CanRecordFixedArray(heap_, array) && !IsCowArray(heap_, array)) { return stats_->RecordFixedArraySubTypeStats(array, subtype, array->Size(), overhead); } return false; } void ObjectStatsCollector::RecursivelyRecordFixedArrayHelper(HeapObject* parent, FixedArray* array, int subtype) { if (RecordFixedArrayHelper(parent, array, subtype, 0)) { for (int i = 0; i < array->length(); i++) { if (array->get(i)->IsFixedArray()) { RecursivelyRecordFixedArrayHelper( parent, FixedArray::cast(array->get(i)), subtype); } } } } template <class HashTable> void ObjectStatsCollector::RecordHashTableHelper(HeapObject* parent, HashTable* array, int subtype) { int used = array->NumberOfElements() * HashTable::kEntrySize * kPointerSize; CHECK_GE(array->Size(), used); size_t overhead = array->Size() - used - HashTable::kElementsStartIndex * kPointerSize - FixedArray::kHeaderSize; RecordFixedArrayHelper(parent, array, subtype, overhead); } void ObjectStatsCollector::RecordJSObjectDetails(JSObject* object) { size_t overhead = 0; FixedArrayBase* elements = object->elements(); if (CanRecordFixedArray(heap_, elements) && !IsCowArray(heap_, elements)) { if (elements->IsDictionary() && SameLiveness(object, elements)) { SeededNumberDictionary* dict = SeededNumberDictionary::cast(elements); RecordHashTableHelper(object, dict, DICTIONARY_ELEMENTS_SUB_TYPE); } else { if (IsFastHoleyElementsKind(object->GetElementsKind())) { int used = object->GetFastElementsUsage() * kPointerSize; if (object->GetElementsKind() == FAST_HOLEY_DOUBLE_ELEMENTS) used *= 2; CHECK_GE(elements->Size(), used); overhead = elements->Size() - used - FixedArray::kHeaderSize; } stats_->RecordFixedArraySubTypeStats(elements, FAST_ELEMENTS_SUB_TYPE, elements->Size(), overhead); } } overhead = 0; FixedArrayBase* properties = object->properties(); if (CanRecordFixedArray(heap_, properties) && SameLiveness(object, properties) && !IsCowArray(heap_, properties)) { if (properties->IsDictionary()) { NameDictionary* dict = NameDictionary::cast(properties); RecordHashTableHelper(object, dict, DICTIONARY_PROPERTIES_SUB_TYPE); } else { stats_->RecordFixedArraySubTypeStats(properties, FAST_PROPERTIES_SUB_TYPE, properties->Size(), overhead); } } } void ObjectStatsCollector::RecordJSWeakCollectionDetails( JSWeakCollection* obj) { if (obj->table()->IsHashTable()) { ObjectHashTable* table = ObjectHashTable::cast(obj->table()); int used = table->NumberOfElements() * ObjectHashTable::kEntrySize; size_t overhead = table->Size() - used; RecordFixedArrayHelper(obj, table, JS_WEAK_COLLECTION_SUB_TYPE, overhead); } } void ObjectStatsCollector::RecordJSCollectionDetails(JSObject* obj) { // The JS versions use a different HashTable implementation that cannot use // the regular helper. Since overall impact is usually small just record // without overhead. if (obj->IsJSMap()) { RecordFixedArrayHelper(nullptr, FixedArray::cast(JSMap::cast(obj)->table()), JS_COLLECTION_SUB_TYPE, 0); } if (obj->IsJSSet()) { RecordFixedArrayHelper(nullptr, FixedArray::cast(JSSet::cast(obj)->table()), JS_COLLECTION_SUB_TYPE, 0); } } void ObjectStatsCollector::RecordScriptDetails(Script* obj) { FixedArray* infos = FixedArray::cast(obj->shared_function_infos()); RecordFixedArrayHelper(obj, infos, SHARED_FUNCTION_INFOS_SUB_TYPE, 0); } void ObjectStatsCollector::RecordMapDetails(Map* map_obj) { DescriptorArray* array = map_obj->instance_descriptors(); if (map_obj->owns_descriptors() && array != heap_->empty_descriptor_array() && SameLiveness(map_obj, array)) { RecordFixedArrayHelper(map_obj, array, DESCRIPTOR_ARRAY_SUB_TYPE, 0); if (array->HasEnumCache()) { RecordFixedArrayHelper(array, array->GetEnumCache(), ENUM_CACHE_SUB_TYPE, 0); } if (array->HasEnumIndicesCache()) { RecordFixedArrayHelper(array, array->GetEnumIndicesCache(), ENUM_INDICES_CACHE_SUB_TYPE, 0); } } if (map_obj->has_code_cache()) { FixedArray* code_cache = map_obj->code_cache(); if (code_cache->IsCodeCacheHashTable()) { RecordHashTableHelper(map_obj, CodeCacheHashTable::cast(code_cache), MAP_CODE_CACHE_SUB_TYPE); } else { RecordFixedArrayHelper(map_obj, code_cache, MAP_CODE_CACHE_SUB_TYPE, 0); } } for (DependentCode* cur_dependent_code = map_obj->dependent_code(); cur_dependent_code != heap_->empty_fixed_array(); cur_dependent_code = DependentCode::cast( cur_dependent_code->get(DependentCode::kNextLinkIndex))) { RecordFixedArrayHelper(map_obj, cur_dependent_code, DEPENDENT_CODE_SUB_TYPE, 0); } if (map_obj->is_prototype_map()) { if (map_obj->prototype_info()->IsPrototypeInfo()) { PrototypeInfo* info = PrototypeInfo::cast(map_obj->prototype_info()); Object* users = info->prototype_users(); if (users->IsWeakFixedArray()) { RecordFixedArrayHelper(map_obj, WeakFixedArray::cast(users), PROTOTYPE_USERS_SUB_TYPE, 0); } } } } void ObjectStatsCollector::RecordTemplateInfoDetails(TemplateInfo* obj) { if (obj->property_accessors()->IsFixedArray()) { RecordFixedArrayHelper(obj, FixedArray::cast(obj->property_accessors()), TEMPLATE_INFO_SUB_TYPE, 0); } if (obj->property_list()->IsFixedArray()) { RecordFixedArrayHelper(obj, FixedArray::cast(obj->property_list()), TEMPLATE_INFO_SUB_TYPE, 0); } } void ObjectStatsCollector::RecordBytecodeArrayDetails(BytecodeArray* obj) { RecordFixedArrayHelper(obj, obj->constant_pool(), BYTECODE_ARRAY_CONSTANT_POOL_SUB_TYPE, 0); RecordFixedArrayHelper(obj, obj->handler_table(), BYTECODE_ARRAY_HANDLER_TABLE_SUB_TYPE, 0); } void ObjectStatsCollector::RecordCodeDetails(Code* code) { stats_->RecordCodeSubTypeStats(code->kind(), code->GetAge(), code->Size()); RecordFixedArrayHelper(code, code->deoptimization_data(), DEOPTIMIZATION_DATA_SUB_TYPE, 0); if (code->kind() == Code::Kind::OPTIMIZED_FUNCTION) { DeoptimizationInputData* input_data = DeoptimizationInputData::cast(code->deoptimization_data()); if (input_data->length() > 0) { RecordFixedArrayHelper(code->deoptimization_data(), input_data->LiteralArray(), OPTIMIZED_CODE_LITERALS_SUB_TYPE, 0); } } RecordFixedArrayHelper(code, code->handler_table(), HANDLER_TABLE_SUB_TYPE, 0); int const mode_mask = RelocInfo::ModeMask(RelocInfo::EMBEDDED_OBJECT); for (RelocIterator it(code, mode_mask); !it.done(); it.next()) { RelocInfo::Mode mode = it.rinfo()->rmode(); if (mode == RelocInfo::EMBEDDED_OBJECT) { Object* target = it.rinfo()->target_object(); if (target->IsFixedArray()) { RecursivelyRecordFixedArrayHelper(code, FixedArray::cast(target), EMBEDDED_OBJECT_SUB_TYPE); } } } } void ObjectStatsCollector::RecordSharedFunctionInfoDetails( SharedFunctionInfo* sfi) { FixedArray* scope_info = sfi->scope_info(); RecordFixedArrayHelper(sfi, scope_info, SCOPE_INFO_SUB_TYPE, 0); FeedbackMetadata* feedback_metadata = sfi->feedback_metadata(); if (!feedback_metadata->is_empty()) { RecordFixedArrayHelper(sfi, feedback_metadata, FEEDBACK_METADATA_SUB_TYPE, 0); } if (!sfi->OptimizedCodeMapIsCleared()) { FixedArray* optimized_code_map = sfi->optimized_code_map(); RecordFixedArrayHelper(sfi, optimized_code_map, OPTIMIZED_CODE_MAP_SUB_TYPE, 0); // Optimized code map should be small, so skip accounting. } } void ObjectStatsCollector::RecordJSFunctionDetails(JSFunction* function) { if (function->feedback_vector_cell()->value()->IsFeedbackVector()) { FeedbackVector* feedback_vector = function->feedback_vector(); RecordFixedArrayHelper(function, feedback_vector, FEEDBACK_VECTOR_SUB_TYPE, 0); } } void ObjectStatsCollector::RecordFixedArrayDetails(FixedArray* array) { if (array->IsContext()) { RecordFixedArrayHelper(nullptr, array, CONTEXT_SUB_TYPE, 0); } if (IsCowArray(heap_, array) && CanRecordFixedArray(heap_, array)) { stats_->RecordFixedArraySubTypeStats(array, COPY_ON_WRITE_SUB_TYPE, array->Size(), 0); } if (array->IsNativeContext()) { Context* native_ctx = Context::cast(array); RecordHashTableHelper(array, native_ctx->slow_template_instantiations_cache(), SLOW_TEMPLATE_INSTANTIATIONS_CACHE_SUB_TYPE); FixedArray* fast_cache = native_ctx->fast_template_instantiations_cache(); stats_->RecordFixedArraySubTypeStats( fast_cache, FAST_TEMPLATE_INSTANTIATIONS_CACHE_SUB_TYPE, fast_cache->Size(), 0); } } } // namespace internal } // namespace v8