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arkcompiler_ets_runtime/ecmascript/containers/containers_lightweightmap.cpp
coollixin 107d5d0538 hashmap set函数返回值修改 
https://gitee.com/openharmony/arkcompiler_ets_runtime/issues/I8EMMO

Signed-off-by: coollixin <lixin581@huawei.com>
2023-11-09 20:12:22 +08:00

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/*
* Copyright (c) 2022 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.
*/
#include "ecmascript/containers/containers_lightweightmap.h"
#include "ecmascript/base/array_helper.h"
#include "ecmascript/base/number_helper.h"
#include "ecmascript/base/typed_array_helper.h"
#include "ecmascript/base/typed_array_helper-inl.h"
#include "ecmascript/containers/containers_errors.h"
#include "ecmascript/ecma_vm.h"
#include "ecmascript/interpreter/interpreter.h"
#include "ecmascript/js_api/js_api_lightweightmap.h"
#include "ecmascript/js_api/js_api_lightweightmap_iterator.h"
#include "ecmascript/js_array.h"
#include "ecmascript/object_factory.h"
#include "ecmascript/tagged_array-inl.h"
namespace panda::ecmascript::containers {
JSTaggedValue ContainersLightWeightMap::LightWeightMapConstructor(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, Constructor);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
ObjectFactory *factory = thread->GetEcmaVM()->GetFactory();
JSHandle<JSTaggedValue> newTarget = GetNewTarget(argv);
if (newTarget->IsUndefined()) {
JSTaggedValue error =
ContainerError::BusinessError(thread, ErrorFlag::IS_NULL_ERROR,
"The LightWeightMap's constructor cannot be directly invoked");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
JSHandle<JSTaggedValue> constructor = GetConstructor(argv);
JSHandle<JSObject> obj = factory->NewJSObjectByConstructor(JSHandle<JSFunction>(constructor), newTarget);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
JSHandle<JSAPILightWeightMap> lwMap = JSHandle<JSAPILightWeightMap>::Cast(obj);
JSHandle<TaggedArray> hashArray = factory->NewTaggedArray(JSAPILightWeightMap::DEFAULT_CAPACITY_LENGTH);
JSHandle<TaggedArray> keyArray = factory->NewTaggedArray(JSAPILightWeightMap::DEFAULT_CAPACITY_LENGTH);
JSHandle<TaggedArray> valueArray = factory->NewTaggedArray(JSAPILightWeightMap::DEFAULT_CAPACITY_LENGTH);
lwMap->SetHashes(thread, hashArray.GetTaggedValue());
lwMap->SetKeys(thread, keyArray.GetTaggedValue());
lwMap->SetValues(thread, valueArray.GetTaggedValue());
return lwMap.GetTaggedValue();
}
JSTaggedValue ContainersLightWeightMap::Length(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, Length);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The length method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
return JSTaggedValue(JSHandle<JSAPILightWeightMap>::Cast(self)->GetLength());
}
JSTaggedValue ContainersLightWeightMap::HasAll(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, HasAll);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The hasAll method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> lightWeightMap(GetCallArg(argv, 0));
if (!lightWeightMap->IsJSAPILightWeightMap()) {
if (lightWeightMap->IsJSProxy() &&
JSHandle<JSProxy>::Cast(lightWeightMap)->GetTarget().IsJSAPILightWeightMap()) {
lightWeightMap = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(lightWeightMap)->GetTarget());
} else {
JSHandle<EcmaString> result = JSTaggedValue::ToString(thread, lightWeightMap.GetTaggedValue());
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
CString errorMsg =
"The type of \"map\" must be LightWeightMap. Received value is: " + ConvertToString(*result);
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::TYPE_ERROR, errorMsg.c_str());
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
return JSAPILightWeightMap::HasAll(thread, JSHandle<JSAPILightWeightMap>::Cast(self),
JSHandle<JSAPILightWeightMap>::Cast(lightWeightMap));
}
JSTaggedValue ContainersLightWeightMap::HasKey(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, HasKey);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The hasKey method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> key(GetCallArg(argv, 0));
return JSAPILightWeightMap::HasKey(thread, JSHandle<JSAPILightWeightMap>::Cast(self), key);
}
JSTaggedValue ContainersLightWeightMap::HasValue(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, HasValue);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The hasValue method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> value(GetCallArg(argv, 0));
return JSAPILightWeightMap::HasValue(thread, JSHandle<JSAPILightWeightMap>::Cast(self), value);
}
JSTaggedValue ContainersLightWeightMap::IncreaseCapacityTo(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, IncreaseCapacityTo);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The increaseCapacityTo method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> index(GetCallArg(argv, 0));
if (!index->IsInt()) {
JSHandle<EcmaString> result = JSTaggedValue::ToString(thread, index);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
CString errorMsg =
"The type of \"minimumCapacity\" must be number. Received value is: " + ConvertToString(*result);
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::TYPE_ERROR, errorMsg.c_str());
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
JSAPILightWeightMap::IncreaseCapacityTo(thread, JSHandle<JSAPILightWeightMap>::Cast(self),
index.GetTaggedValue().GetInt());
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
return JSTaggedValue::Undefined();
}
JSTaggedValue ContainersLightWeightMap::Entries(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, Entries);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
JSHandle<JSTaggedValue> iter =
JSAPILightWeightMapIterator::CreateLightWeightMapIterator(thread, self, IterationKind::KEY_AND_VALUE);
return iter.GetTaggedValue();
}
JSTaggedValue ContainersLightWeightMap::Get(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, Get);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The get method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> key(GetCallArg(argv, 0));
return JSAPILightWeightMap::Get(thread, JSHandle<JSAPILightWeightMap>::Cast(self), key);
}
JSTaggedValue ContainersLightWeightMap::GetIndexOfKey(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, GetIndexOfKey);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The getIndexOfKey method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> key(GetCallArg(argv, 0));
int32_t index = JSAPILightWeightMap::GetIndexOfKey(thread, JSHandle<JSAPILightWeightMap>::Cast(self), key);
return JSTaggedValue(index);
}
JSTaggedValue ContainersLightWeightMap::GetIndexOfValue(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, GetIndexOfValue);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The getIndexOfValue method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> value(GetCallArg(argv, 0));
int32_t index = JSAPILightWeightMap::GetIndexOfValue(thread, JSHandle<JSAPILightWeightMap>::Cast(self), value);
return JSTaggedValue(index);
}
JSTaggedValue ContainersLightWeightMap::IsEmpty(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, IsEmpty);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The isEmpty method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
return JSHandle<JSAPILightWeightMap>::Cast(self)->IsEmpty();
}
JSTaggedValue ContainersLightWeightMap::GetKeyAt(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, GetKeyAt);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The getKeyAt method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> index(GetCallArg(argv, 0));
if (!index->IsInt()) {
JSHandle<EcmaString> result = JSTaggedValue::ToString(thread, index);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
CString errorMsg =
"The type of \"index\" must be number. Received value is: " + ConvertToString(*result);
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::TYPE_ERROR, errorMsg.c_str());
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
return JSAPILightWeightMap::GetKeyAt(thread, JSHandle<JSAPILightWeightMap>::Cast(self),
index->GetInt());
}
JSTaggedValue ContainersLightWeightMap::Keys(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, Keys);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
JSHandle<JSTaggedValue> iter =
JSAPILightWeightMapIterator::CreateLightWeightMapIterator(thread, self, IterationKind::KEY);
return iter.GetTaggedValue();
}
JSTaggedValue ContainersLightWeightMap::SetAll(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, SetAll);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The setAll method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> lightWeightMap(GetCallArg(argv, 0));
if (!lightWeightMap->IsJSAPILightWeightMap()) {
if (lightWeightMap->IsJSProxy() &&
JSHandle<JSProxy>::Cast(lightWeightMap)->GetTarget().IsJSAPILightWeightMap()) {
lightWeightMap = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(lightWeightMap)->GetTarget());
} else {
JSHandle<EcmaString> result = JSTaggedValue::ToString(thread, lightWeightMap.GetTaggedValue());
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
CString errorMsg =
"The type of \"map\" must be LightWeightMap. Received value is: " + ConvertToString(*result);
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::TYPE_ERROR, errorMsg.c_str());
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSAPILightWeightMap::SetAll(thread, JSHandle<JSAPILightWeightMap>::Cast(self),
JSHandle<JSAPILightWeightMap>::Cast(lightWeightMap));
return JSTaggedValue::True();
}
JSTaggedValue ContainersLightWeightMap::Set(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, Set);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The set method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> key(GetCallArg(argv, 0));
JSHandle<JSTaggedValue> value(GetCallArg(argv, 1));
JSHandle<JSAPILightWeightMap> lightWeightMap = JSHandle<JSAPILightWeightMap>::Cast(self);
JSAPILightWeightMap::Set(thread, lightWeightMap, key, value);
return lightWeightMap.GetTaggedValue();
}
JSTaggedValue ContainersLightWeightMap::Remove(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, Remove);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The remove method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> key(GetCallArg(argv, 0));
return JSAPILightWeightMap::Remove(thread, JSHandle<JSAPILightWeightMap>::Cast(self), key);
}
JSTaggedValue ContainersLightWeightMap::RemoveAt(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, RemoveAt);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The removeAt method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> index(GetCallArg(argv, 0));
if (!index->IsInt()) {
JSHandle<EcmaString> result = JSTaggedValue::ToString(thread, index);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
CString errorMsg =
"The type of \"index\" must be number. Received value is: " + ConvertToString(*result);
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::TYPE_ERROR, errorMsg.c_str());
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
return JSAPILightWeightMap::RemoveAt(thread, JSHandle<JSAPILightWeightMap>::Cast(self),
index->GetInt());
}
JSTaggedValue ContainersLightWeightMap::Clear(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, Clear);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The clear method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSAPILightWeightMap::Clear(thread, JSHandle<JSAPILightWeightMap>::Cast(self));
return JSTaggedValue::True();
}
JSTaggedValue ContainersLightWeightMap::SetValueAt(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, SetValueAt);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The setValueAt method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> index(GetCallArg(argv, 0));
JSHandle<JSTaggedValue> value(GetCallArg(argv, 1));
if (!index->IsInt()) {
JSHandle<EcmaString> result = JSTaggedValue::ToString(thread, index);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
CString errorMsg =
"The type of \"index\" must be number. Received value is: " + ConvertToString(*result);
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::TYPE_ERROR, errorMsg.c_str());
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
return JSAPILightWeightMap::SetValueAt(thread, JSHandle<JSAPILightWeightMap>::Cast(self),
index->GetInt(), value);
}
JSTaggedValue ContainersLightWeightMap::ForEach(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, ForEach);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
// get and check lightweightmap object
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The forEach method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
// get and check callback function
JSHandle<JSTaggedValue> func(GetCallArg(argv, 0));
if (!func->IsCallable()) {
JSHandle<EcmaString> result = JSTaggedValue::ToString(thread, func.GetTaggedValue());
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
CString errorMsg =
"The type of \"callbackfn\" must be callable. Received value is: " + ConvertToString(*result);
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::TYPE_ERROR, errorMsg.c_str());
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
// If thisArg was supplied, let T be thisArg; else let T be undefined.
JSHandle<JSTaggedValue> thisArg = GetCallArg(argv, 1);
JSHandle<JSAPILightWeightMap> tmap = JSHandle<JSAPILightWeightMap>::Cast(self);
JSMutableHandle<TaggedArray> keys(thread, tmap->GetKeys());
JSMutableHandle<TaggedArray> values(thread, tmap->GetValues());
uint32_t index = 0;
uint32_t length = tmap->GetSize();
const uint32_t argsLength = 3;
JSHandle<JSTaggedValue> undefined = thread->GlobalConstants()->GetHandledUndefined();
while (index < length) {
// ignore the hash value is required to determine the true index
// Let funcResult be Call(callbackfn, T, «e, e, S»).
EcmaRuntimeCallInfo *info = EcmaInterpreter::NewRuntimeCallInfo(thread, func, thisArg, undefined, argsLength);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
info->SetCallArg(values->Get(index), keys->Get(index), self.GetTaggedValue());
JSTaggedValue ret = JSFunction::Call(info);
RETURN_VALUE_IF_ABRUPT_COMPLETION(thread, ret);
// check entries should be update, size will be update in tmap set or remove.
if (tmap->GetSize() != length) {
keys.Update(tmap->GetKeys());
values.Update(tmap->GetValues());
length = tmap->GetSize();
}
index++;
}
return JSTaggedValue::Undefined();
}
JSTaggedValue ContainersLightWeightMap::ToString(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, ToString);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The toString method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
return JSAPILightWeightMap::ToString(thread, JSHandle<JSAPILightWeightMap>::Cast(self));
}
JSTaggedValue ContainersLightWeightMap::GetValueAt(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, GetValueAt);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
if (!self->IsJSAPILightWeightMap()) {
if (self->IsJSProxy() && JSHandle<JSProxy>::Cast(self)->GetTarget().IsJSAPILightWeightMap()) {
self = JSHandle<JSTaggedValue>(thread, JSHandle<JSProxy>::Cast(self)->GetTarget());
} else {
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::BIND_ERROR,
"The getValueAt method cannot be bound");
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
}
JSHandle<JSTaggedValue> index(GetCallArg(argv, 0));
if (!index->IsInt()) {
JSHandle<EcmaString> result = JSTaggedValue::ToString(thread, index);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
CString errorMsg =
"The type of \"index\" must be number. Received value is: " + ConvertToString(*result);
JSTaggedValue error = ContainerError::BusinessError(thread, ErrorFlag::TYPE_ERROR, errorMsg.c_str());
THROW_NEW_ERROR_AND_RETURN_VALUE(thread, error, JSTaggedValue::Exception());
}
return JSAPILightWeightMap::GetValueAt(thread, JSHandle<JSAPILightWeightMap>::Cast(self),
index->GetInt());
}
JSTaggedValue ContainersLightWeightMap::Values(EcmaRuntimeCallInfo *argv)
{
ASSERT(argv != nullptr);
JSThread *thread = argv->GetThread();
BUILTINS_API_TRACE(thread, LightWeightMap, Keys);
[[maybe_unused]] EcmaHandleScope handleScope(thread);
JSHandle<JSTaggedValue> self = GetThis(argv);
JSHandle<JSTaggedValue> iter =
JSAPILightWeightMapIterator::CreateLightWeightMapIterator(thread, self, IterationKind::VALUE);
return iter.GetTaggedValue();
}
} // namespace panda::ecmascript::containers
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