arkcompiler_ets_runtime/ecmascript/js_object-inl.h
Gymee 1e9a88a647 Use constexpr for if statement in template
Issue: https://gitee.com/openharmony/arkcompiler_ets_runtime/issues/IA3Z0L
Signed-off-by: Gymee <yumeijie@huawei.com>
Change-Id: If4529392daf05b2378c90b18cdff44b8b496cad2
2024-06-09 20:31:10 +08:00

573 lines
18 KiB
C++

/*
* Copyright (c) 2021 Huawei Device Co., Ltd.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef ECMASCRIPT_JSOBJECT_INL_H
#define ECMASCRIPT_JSOBJECT_INL_H
#include "ecmascript/js_object.h"
#include "ecmascript/element_accessor-inl.h"
#include "ecmascript/js_array.h"
#include "ecmascript/js_hclass-inl.h"
#include "ecmascript/js_tagged_value-inl.h"
#include "ecmascript/js_typed_array.h"
#include "ecmascript/tagged_array-inl.h"
#include "ecmascript/tagged_queue.h"
#include "ecmascript/tagged_dictionary.h"
namespace panda::ecmascript {
inline void ECMAObject::SetCallable(bool flag)
{
GetClass()->SetCallable(flag);
}
inline bool ECMAObject::IsCallable() const
{
return GetClass()->IsCallable();
}
// JSObject
inline bool JSObject::IsExtensible() const
{
return GetJSHClass()->IsExtensible();
}
inline void JSObject::FillElementsWithHoles(const JSThread *thread, uint32_t start, uint32_t end)
{
if (start >= end) {
return;
}
JSHandle<JSTaggedValue> holeHandle(thread, JSTaggedValue::Hole());
JSHandle<JSObject> thisObj(thread, this);
for (uint32_t i = start; i < end; i++) {
ElementAccessor::Set(thread, thisObj, i, holeHandle, false);
}
}
inline JSHClass *JSObject::GetJSHClass() const
{
return GetClass();
}
inline uint32_t JSObject::GetNonInlinedFastPropsCapacity() const
{
uint32_t inlineProps = GetJSHClass()->GetInlinedProperties();
return PropertyAttributes::MAX_FAST_PROPS_CAPACITY - inlineProps;
}
inline bool JSObject::IsJSGlobalObject() const
{
return GetJSHClass()->IsJSGlobalObject();
}
inline bool JSObject::IsConstructor() const
{
return GetJSHClass()->IsConstructor();
}
inline bool JSObject::IsECMAObject() const
{
return GetJSHClass()->IsECMAObject();
}
inline bool JSObject::IsJSError() const
{
return GetJSHClass()->IsJSError();
}
inline bool JSObject::IsArguments() const
{
return GetJSHClass()->IsArguments();
}
inline bool JSObject::IsDate() const
{
return GetJSHClass()->IsDate();
}
inline bool JSObject::IsJSArray() const
{
return GetJSHClass()->IsJSArray();
}
inline bool JSObject::IsJSSArray() const
{
return GetJSHClass()->IsJSSharedArray();
}
inline bool JSObject::IsJSShared() const
{
return GetJSHClass()->IsJSShared();
}
inline bool JSObject::IsJSMap() const
{
return GetJSHClass()->IsJSMap();
}
inline bool JSObject::IsJSSet() const
{
return GetJSHClass()->IsJSSet();
}
inline bool JSObject::IsJSRegExp() const
{
return GetJSHClass()->IsJSRegExp();
}
inline bool JSObject::IsJSFunction() const
{
return GetJSHClass()->IsJSFunction();
}
inline bool JSObject::IsBoundFunction() const
{
return GetJSHClass()->IsJsBoundFunction();
}
inline bool JSObject::IsJSIntlBoundFunction() const
{
return GetJSHClass()->IsJSIntlBoundFunction();
}
inline bool JSObject::IsProxyRevocFunction() const
{
return GetJSHClass()->IsJSProxyRevocFunction();
}
inline bool JSObject::IsAccessorData() const
{
return GetJSHClass()->IsAccessorData();
}
inline bool JSObject::IsJSGlobalEnv() const
{
return GetJSHClass()->IsJsGlobalEnv();
}
inline bool JSObject::IsJSProxy() const
{
return GetJSHClass()->IsJSProxy();
}
inline bool JSObject::IsGeneratorObject() const
{
return GetJSHClass()->IsGeneratorObject();
}
inline bool JSObject::IsAsyncGeneratorObject() const
{
return GetJSHClass()->IsAsyncGeneratorObject();
}
inline bool JSObject::IsForinIterator() const
{
return GetJSHClass()->IsForinIterator();
}
inline bool JSObject::IsJSSetIterator() const
{
return GetJSHClass()->IsJSSetIterator();
}
inline bool JSObject::IsJSRegExpIterator() const
{
return GetJSHClass()->IsJSRegExpIterator();
}
inline bool JSObject::IsJSMapIterator() const
{
return GetJSHClass()->IsJSMapIterator();
}
inline bool JSObject::IsJSArrayIterator() const
{
return GetJSHClass()->IsJSArrayIterator();
}
inline bool JSObject::IsJSAPIArrayListIterator() const
{
return GetJSHClass()->IsJSAPIArrayListIterator();
}
inline bool JSObject::IsJSAPIStackIterator() const
{
return GetJSHClass()->IsJSAPIStackIterator();
}
inline bool JSObject::IsJSAPIVectorIterator() const
{
return GetJSHClass()->IsJSAPIVectorIterator();
}
inline bool JSObject::IsJSAPIBitVectorIterator() const
{
return GetJSHClass()->IsJSAPIBitVectorIterator();
}
inline bool JSObject::IsJSAPILinkedListIterator() const
{
return GetJSHClass()->IsJSAPILinkedListIterator();
}
inline bool JSObject::IsJSAPIListIterator() const
{
return GetJSHClass()->IsJSAPIListIterator();
}
inline bool JSObject::IsJSPrimitiveRef() const
{
return GetJSHClass()->IsJsPrimitiveRef();
}
inline bool JSObject::IsElementDict() const
{
return TaggedArray::Cast(GetElements().GetTaggedObject())->IsDictionaryMode();
}
inline bool JSObject::IsPropertiesDict() const
{
return TaggedArray::Cast(GetProperties().GetTaggedObject())->IsDictionaryMode();
}
inline bool JSObject::IsTypedArray() const
{
return GetJSHClass()->IsTypedArray();
}
std::pair<bool, JSTaggedValue> JSObject::ConvertValueWithRep(PropertyAttributes attr, JSTaggedValue value)
{
if (attr.IsDoubleRep()) {
if (value.IsInt()) {
double doubleValue = value.GetInt();
return std::pair(true, JSTaggedValue(bit_cast<JSTaggedType>(doubleValue)));
} else if (value.IsDouble()) {
return std::pair(true, JSTaggedValue(bit_cast<JSTaggedType>(value.GetDouble())));
} else {
return std::pair(false, value);
}
} else if (attr.IsIntRep()) {
if (value.IsInt()) {
int intValue = value.GetInt();
return std::pair(true, JSTaggedValue(static_cast<JSTaggedType>(intValue)));
} else {
return std::pair(false, value);
}
}
return std::pair(true, value);
}
void JSObject::SetPropertyInlinedPropsWithRep(const JSThread *thread, uint32_t index, JSTaggedValue value)
{
auto layout = LayoutInfo::Cast(GetJSHClass()->GetLayout().GetTaggedObject());
auto attr = layout->GetAttr(index);
if (attr.IsTaggedRep()) {
SetPropertyInlinedProps<true>(thread, index, value);
} else {
SetPropertyInlinedProps<false>(thread, index, value);
}
}
template <bool needBarrier>
void JSObject::SetPropertyInlinedProps(const JSThread *thread, uint32_t index, JSTaggedValue value)
{
SetPropertyInlinedProps<needBarrier>(thread, GetJSHClass(), index, value);
}
JSTaggedValue JSObject::GetPropertyInlinedPropsWithRep(uint32_t index, PropertyAttributes attr) const
{
return GetPropertyInlinedPropsWithRep(GetJSHClass(), index, attr);
}
JSTaggedValue JSObject::GetPropertyInlinedPropsWithRep(const JSHClass *hclass, uint32_t index,
PropertyAttributes attr) const
{
auto value = GetPropertyInlinedProps(hclass, index);
if (attr.IsDoubleRep()) {
value = JSTaggedValue(bit_cast<double>(value.GetRawData()));
} else if (attr.IsIntRep()) {
value = JSTaggedValue(static_cast<int32_t>(value.GetRawData()));
}
return value;
}
JSTaggedValue JSObject::GetPropertyInlinedProps(uint32_t index) const
{
return GetPropertyInlinedProps(GetJSHClass(), index);
}
template <bool needBarrier>
void JSObject::SetPropertyInlinedProps(const JSThread *thread, const JSHClass *hclass, uint32_t index,
JSTaggedValue value)
{
uint32_t offset = hclass->GetInlinedPropertiesOffset(index);
ASSERT(hclass->GetObjectSize() > offset);
if constexpr (needBarrier) {
SET_VALUE_WITH_BARRIER(thread, this, offset, value);
} else {
SET_VALUE_PRIMITIVE(this, offset, value);
}
}
JSTaggedValue JSObject::GetPropertyInlinedProps(const JSHClass *hclass, uint32_t index) const
{
uint32_t offset = hclass->GetInlinedPropertiesOffset(index);
return JSTaggedValue(GET_VALUE(this, offset));
}
JSTaggedValue JSObject::GetProperty(const JSHClass *hclass, PropertyAttributes attr) const
{
if (attr.IsInlinedProps()) {
return GetPropertyInlinedPropsWithRep(hclass, attr.GetOffset(), attr);
}
TaggedArray *array = TaggedArray::Cast(GetProperties().GetTaggedObject());
return array->Get(attr.GetOffset() - hclass->GetInlinedProperties());
}
template <bool needBarrier>
void JSObject::SetProperty(const JSThread *thread, const JSHClass *hclass, PropertyAttributes attr, JSTaggedValue value)
{
if (attr.IsInlinedProps()) {
SetPropertyInlinedProps<needBarrier>(thread, hclass, attr.GetOffset(), value);
} else {
TaggedArray *array = TaggedArray::Cast(GetProperties().GetTaggedObject());
array->Set<needBarrier>(thread, attr.GetOffset() - hclass->GetInlinedProperties(), value);
}
}
inline bool JSObject::ShouldTransToDict(uint32_t capacity, uint32_t index)
{
if (index < capacity) {
return false;
}
if (index - capacity > MAX_GAP) {
return true;
}
if (index >= static_cast<uint32_t>(INT32_MAX)) {
return true;
}
if (capacity >= MIN_GAP) {
return index > capacity * FAST_ELEMENTS_FACTOR;
}
return false;
}
inline bool JSObject::ShouldTransToFastElements(JSHandle<NumberDictionary> dictionary,
uint32_t capacity, uint32_t index)
{
if (index >= static_cast<uint32_t>(INT32_MAX)) {
return false;
}
uint32_t dictionarySize = static_cast<uint32_t>(dictionary->GetLength());
// Turn fast if only saves 50% space.
if (dictionarySize * SHOULD_TRANS_TO_FAST_ELEMENTS_FACTOR >= capacity) {
return true;
}
return false;
}
inline uint32_t JSObject::ComputeElementCapacity(uint32_t oldCapacity, bool isNew)
{
uint32_t newCapacity = isNew ? oldCapacity : (oldCapacity + (oldCapacity >> 1U));
return newCapacity > MIN_ELEMENTS_LENGTH ? newCapacity : MIN_ELEMENTS_LENGTH;
}
inline uint32_t JSObject::ComputeElementCapacityHighGrowth(uint32_t oldCapacity)
{
uint32_t newCapacity = oldCapacity * 2;
return newCapacity > MIN_ELEMENTS_LENGTH ? newCapacity : MIN_ELEMENTS_LENGTH;
}
inline uint32_t JSObject::ComputeElementCapacityWithHint(uint32_t oldCapacity, uint32_t hint)
{
uint32_t newCapacity = 0;
if ((oldCapacity >= hint) || (hint < MIN_ELEMENTS_HINT_LENGTH) || (hint >= MAX_ELEMENTS_HINT_LENGTH)) {
return newCapacity;
}
if ((hint / oldCapacity) <= ELEMENTS_HINT_FACTOR) {
newCapacity = hint;
}
return newCapacity;
}
inline uint32_t JSObject::ComputeNonInlinedFastPropsCapacity(JSThread *thread, uint32_t oldCapacity,
uint32_t maxNonInlinedFastPropsCapacity)
{
uint32_t newCapacity = oldCapacity + thread->GetPropertiesGrowStep();
return newCapacity > maxNonInlinedFastPropsCapacity ? maxNonInlinedFastPropsCapacity : newCapacity;
}
// static
template<ElementTypes types>
JSHandle<JSTaggedValue> JSObject::CreateListFromArrayLike(JSThread *thread, const JSHandle<JSTaggedValue> &obj)
{
// 3. If Type(obj) is not Object, throw a TypeError exception.
if (!obj->IsECMAObject()) {
THROW_TYPE_ERROR_AND_RETURN(thread, "CreateListFromArrayLike must accept object",
JSHandle<JSTaggedValue>(thread, JSTaggedValue::Exception()));
}
if (obj->IsTypedArray()) {
uint32_t len = JSHandle<JSTypedArray>::Cast(obj)->GetArrayLength();
JSHandle<TaggedArray> array = thread->GetEcmaVM()->GetFactory()->NewTaggedArray(len);
JSTypedArray::FastCopyElementToArray(thread, obj, array);
// c. ReturnIfAbrupt(next).
RETURN_HANDLE_IF_ABRUPT_COMPLETION(JSTaggedValue, thread);
return JSHandle<JSTaggedValue>(array);
}
// 4. Let len be ToLength(Get(obj, "length")).
JSHandle<JSTaggedValue> lengthKeyHandle = thread->GlobalConstants()->GetHandledLengthString();
JSHandle<JSTaggedValue> value = GetProperty(thread, obj, lengthKeyHandle).GetValue();
JSTaggedNumber number = JSTaggedValue::ToLength(thread, value);
// 5. ReturnIfAbrupt(len).
RETURN_HANDLE_IF_ABRUPT_COMPLETION(JSTaggedValue, thread);
if (number.GetNumber() > MAX_ELEMENT_INDEX) {
THROW_TYPE_ERROR_AND_RETURN(thread, "len is bigger than 2^32 - 1",
JSHandle<JSTaggedValue>(thread, JSTaggedValue::Exception()));
}
uint32_t len = number.ToUint32();
// 6. Let list be an empty List.
JSHandle<TaggedArray> array = thread->GetEcmaVM()->GetFactory()->NewTaggedArray(len);
// 8. Repeat while index < len
for (uint32_t i = 0; i < len; i++) {
JSTaggedValue next = JSTaggedValue::GetProperty(thread, obj, i).GetValue().GetTaggedValue();
// c. ReturnIfAbrupt(next).
RETURN_HANDLE_IF_ABRUPT_COMPLETION(JSTaggedValue, thread);
if constexpr (types == ElementTypes::STRING_AND_SYMBOL) {
if (!next.IsString() && !next.IsSymbol()) {
THROW_TYPE_ERROR_AND_RETURN(thread, "CreateListFromArrayLike: not an element of elementTypes",
JSHandle<JSTaggedValue>(thread, JSTaggedValue::Exception()));
}
}
array->Set(thread, i, next);
}
return JSHandle<JSTaggedValue>(array);
}
inline JSTaggedValue JSObject::ShouldGetValueFromBox(ObjectOperator *op)
{
JSTaggedValue result = op->GetValue();
if (result.IsPropertyBox()) {
result = PropertyBox::Cast(result.GetTaggedObject())->GetValue();
}
return result;
}
inline bool JSObject::CheckHClassHit(const JSHandle<JSObject> &obj, const JSHandle<JSHClass> &cls)
{
return obj->GetJSHClass() == *cls;
}
inline uint32_t JSObject::SetValuesOrEntries(JSThread *thread, const JSHandle<TaggedArray> &prop, uint32_t index,
const JSHandle<JSTaggedValue> &key, const JSHandle<JSTaggedValue> &value,
PropertyKind kind)
{
if (kind == PropertyKind::VALUE) {
prop->Set(thread, index++, value);
return index;
}
JSHandle<TaggedArray> keyValue = thread->GetEcmaVM()->GetFactory()->NewTaggedArray(2); // 2: key-value pair
keyValue->Set(thread, 0, key);
keyValue->Set(thread, 1, value);
JSHandle<JSArray> entry = JSArray::CreateArrayFromList(thread, keyValue);
prop->Set(thread, index++, entry.GetTaggedValue());
return index;
}
inline void JSObject::SetEnumCacheKind(JSThread *thread, TaggedArray *array, EnumCacheKind kind)
{
array->Set(thread, EnumCache::ENUM_CACHE_KIND_OFFSET, JSTaggedValue(static_cast<uint8_t>(kind)));
}
inline EnumCacheKind JSObject::GetEnumCacheKind(JSThread *thread, TaggedArray *array)
{
return static_cast<EnumCacheKind>(array->Get(thread, EnumCache::ENUM_CACHE_KIND_OFFSET).GetInt());
}
inline EnumCacheKind JSObject::GetEnumCacheKind(JSThread *thread, JSTaggedValue enumCache)
{
if (enumCache.IsUndefinedOrNull()) {
return EnumCacheKind::NONE;
}
JSTaggedValue emptyArray = thread->GlobalConstants()->GetEmptyArray();
if (enumCache == emptyArray) {
return EnumCacheKind::SIMPLE;
}
TaggedArray *array = TaggedArray::Cast(enumCache.GetTaggedObject());
return JSObject::GetEnumCacheKind(thread, array);
}
inline JSTaggedValue JSObject::GetPrototype(JSTaggedValue obj)
{
JSHClass *hclass = obj.GetTaggedObject()->GetClass();
return hclass->GetPrototype();
}
inline bool JSObject::IsDepulicateKeys(JSThread *thread, JSHandle<TaggedArray> keys, int32_t lastLength,
JSHandle<TaggedQueue> shadowQueue, JSHandle<JSTaggedValue> key)
{
if (lastLength < 0) {
return false;
}
JSMutableHandle<JSTaggedValue> value(thread, JSTaggedValue::Undefined());
for (int32_t i = EnumCache::ENUM_CACHE_HEADER_SIZE; i < lastLength; i++) {
value.Update(keys->Get(i));
bool has = JSTaggedValue::Equal(thread, value, key);
if (has) {
return true;
}
}
uint32_t shadowSize = shadowQueue->Size();
for (uint32_t i = 0; i < shadowSize; i++) {
value.Update(shadowQueue->Get(i));
bool has = JSTaggedValue::Equal(thread, value, key);
if (has) {
return true;
}
}
return false;
}
inline void JSObject::ClearHasDeleteProperty(JSHandle<JSTaggedValue> object)
{
object->GetTaggedObject()->GetClass()->SetHasDeleteProperty(false);
}
inline std::pair<JSHandle<TaggedArray>, JSHandle<TaggedArray>> JSObject::GetOwnEnumerableNamesInFastMode(
JSThread *thread, const JSHandle<JSObject> &obj, uint32_t *copyLengthOfKeys, uint32_t *copyLengthOfElements)
{
ObjectFactory *factory = thread->GetEcmaVM()->GetFactory();
std::pair<uint32_t, uint32_t> numOfKeys = obj->GetNumberOfEnumKeys();
uint32_t numOfEnumKeys = numOfKeys.first;
uint32_t numOfElements = obj->GetNumberOfElements();
JSHandle<TaggedArray> elementArray = numOfElements > 0 ? JSObject::GetEnumElementKeys(
thread, obj, 0, numOfElements, copyLengthOfElements) : factory->EmptyArray();
JSHandle<TaggedArray> keyArray = numOfEnumKeys > 0 ? JSObject::GetAllEnumKeys(
thread, obj, numOfEnumKeys, copyLengthOfKeys) : factory->EmptyArray();
return std::make_pair(keyArray, elementArray);
}
} // namespace panda::ecmascript
#endif // ECMASCRIPT_JSOBJECT_INL_H