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arkcompiler_ets_runtime/ecmascript/js_async_generator_object.cpp
hecunmao 61b5c2f5fb An exception was generated when throwing an exception. Procedure 
issue:https://gitee.com/open_harmony/dashboard?issue_id=I9RPS3
Signed-off-by: hecunmao <hecunmao@huawei.com>

Change-Id: I34067353d54e2a670bf96fa0f4897b100505dbbf
2024-06-03 22:19:49 +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/js_async_generator_object.h"
#include "ecmascript/async_generator_helper.h"
#include "ecmascript/accessor_data.h"
#include "ecmascript/base/builtins_base.h"
#include "ecmascript/builtins/builtins_promise.h"
#include "ecmascript/ecma_string.h"
#include "ecmascript/global_env.h"
#include "ecmascript/interpreter/interpreter.h"
#include "ecmascript/js_promise.h"
#include "ecmascript/object_factory.h"
#include "ecmascript/tagged_queue.h"
#include "ecmascript/generator_helper.h"
#include "ecmascript/js_iterator.h"
#include "ecmascript/js_tagged_value-inl.h"
#include "ecmascript/js_function.h"
namespace panda::ecmascript {
using BuiltinsPromise = builtins::BuiltinsPromise;
// AsyncGeneratorValidate ( generator, generatorBrand )
void JSAsyncGeneratorObject::AsyncGeneratorValidate(JSThread *thread, const JSHandle<JSTaggedValue> &gen,
const JSTaggedValue &val)
{
// 1. Perform ? RequireInternalSlot(generator, [[AsyncGeneratorContext]]).
// 2. Perform ? RequireInternalSlot(generator, [[AsyncGeneratorState]]).
// 3. Perform ? RequireInternalSlot(generator, [[AsyncGeneratorQueue]]).
if (!gen->IsAsyncGeneratorObject()) {
THROW_TYPE_ERROR(thread, "Not a asyncgenerator object");
}
// 4. If generator.[[GeneratorBrand]] is not the same value as generatorBrand, throw a TypeError exception.
JSHandle<JSObject> obj = JSTaggedValue::ToObject(thread, gen);
RETURN_IF_ABRUPT_COMPLETION(thread);
JSHandle<JSAsyncGeneratorObject> generator = JSHandle<JSAsyncGeneratorObject>::Cast(obj);
if (!JSTaggedValue::SameValue(generator->GetGeneratorBrand(), val)) {
THROW_TYPE_ERROR(thread, "Results are not equal");
}
}
JSTaggedValue JSAsyncGeneratorObject::AsyncGeneratorResolve(JSThread *thread,
const JSHandle<JSAsyncGeneratorObject> &generator,
const JSHandle<JSTaggedValue> value, bool done)
{
// 1. Assert: generator is an AsyncGenerator instance.
ASSERT(generator->IsAsyncGeneratorObject());
// 2. Let queue be generator.[[AsyncGeneratorQueue]].
JSHandle<TaggedQueue> queue(thread, generator->GetAsyncGeneratorQueue());
// 3. Assert: queue is not an empty List.
ASSERT(!(queue->Empty()));
// 4. Let next be the first element of queue.
JSHandle<AsyncGeneratorRequest> next(thread, queue->Front());
// 5. Remove the first element from queue.
queue->Pop(thread);
// 6. Let promiseCapability be next.[[Capability]].
JSHandle<PromiseCapability> capability(thread, next->GetCapability());
// 7. Let iteratorResult be ! CreateIterResultObject(value, done).
JSHandle<JSObject> iteratorResult = JSIterator::CreateIterResultObject(thread, value, done);
// 8. Perform ! Call(promiseCapability.[[Resolve]], undefined, « iteratorResult »).
JSHandle<JSTaggedValue> its = JSHandle<JSTaggedValue>::Cast(iteratorResult);
JSHandle<JSTaggedValue> resolve(thread, capability->GetResolve());
JSHandle<JSTaggedValue> undefined = thread->GlobalConstants()->GetHandledUndefined();
EcmaRuntimeCallInfo* info =
EcmaInterpreter::NewRuntimeCallInfo(thread, resolve, undefined, undefined, 1, StackCheck::NO);
info->SetCallArg(its.GetTaggedValue());
[[maybe_unused]] JSTaggedValue res = JSFunction::Call(info);
if ((thread)->HasPendingException()) {
[[maybe_unused]] JSType errorType = thread->GetException().GetTaggedObject()->GetClass()->GetObjectType();
ASSERT(errorType == JSType::JS_RANGE_ERROR);
thread->ClearException();
return JSTaggedValue::Undefined();
}
// 9. Perform ! AsyncGeneratorResumeNext(generator).
AsyncGeneratorResumeNext(thread, generator);
// 10. Return undefined.
return JSTaggedValue::Undefined();
}
JSTaggedValue JSAsyncGeneratorObject::AsyncGeneratorReject(JSThread *thread,
const JSHandle<JSAsyncGeneratorObject> &generator,
const JSHandle<JSTaggedValue> value)
{
// 1. Assert: generator is an AsyncGenerator instance.
ASSERT(generator->IsAsyncGeneratorObject());
// 2. Let queue be generator.[[AsyncGeneratorQueue]].
JSHandle<TaggedQueue> queue(thread, generator->GetAsyncGeneratorQueue());
// 3. Assert: queue is not an empty List.
ASSERT(!(queue->Empty()));
// 4. Let next be the first element of queue.
JSHandle<JSTaggedValue> val(thread, queue->Front());
JSHandle<AsyncGeneratorRequest> next = JSHandle<AsyncGeneratorRequest>::Cast(val);
// 5. Remove the first element from queue.
queue->Pop(thread);
// 6. Let promiseCapability be next.[[Capability]].
JSHandle<PromiseCapability> capability(thread, next->GetCapability());
// 7. Perform ! Call(promiseCapability.[[Reject]], undefined, ? exception ?).
JSHandle<JSTaggedValue> reject(thread, capability->GetReject());
const GlobalEnvConstants *constants = thread->GlobalConstants();
const JSHandle<JSTaggedValue> thisArg = constants->GetHandledUndefined();
const JSHandle<JSTaggedValue> undefined = constants->GetHandledUndefined();
EcmaRuntimeCallInfo* info =
EcmaInterpreter::NewRuntimeCallInfo(thread, reject, thisArg, undefined, 1);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
info->SetCallArg(value.GetTaggedValue());
[[maybe_unused]] JSTaggedValue res = JSFunction::Call(info);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
// 8. Perform ! AsyncGeneratorResumeNext(generator).
AsyncGeneratorResumeNext(thread, generator);
// 9. Return undefined.
return JSTaggedValue::Undefined();
}
JSTaggedValue JSAsyncGeneratorObject::AsyncGeneratorResumeNext(JSThread *thread,
const JSHandle<JSAsyncGeneratorObject> &generator)
{
// 1. Assert: generator is an AsyncGenerator instance.
ASSERT(generator->IsAsyncGeneratorObject());
// 2. Let state be generator.[[AsyncGeneratorState]].
JSAsyncGeneratorState state = generator->GetAsyncGeneratorState();
// 3. Assert: state is not executing.
ASSERT(state != JSAsyncGeneratorState::EXECUTING);
// 4. If state is awaiting-return, return undefined.
if (state == JSAsyncGeneratorState::AWAITING_RETURN) {
return JSTaggedValue::Undefined();
}
// 5. Let queue be generator.[[AsyncGeneratorQueue]].
JSHandle<TaggedQueue> queue(thread, generator->GetAsyncGeneratorQueue());
// 6. If queue is an empty List, return undefined.
if (queue->Empty()) {
return JSTaggedValue::Undefined();
}
// 7. Let next be the value of the first element of queue.
JSHandle<AsyncGeneratorRequest> next(thread, queue->Front());
// 8. Assert: next is an AsyncGeneratorRequest record.
ASSERT(next->GetClass()->IsAsyncGeneratorRequest());
// 9. Let completion be next.[[Completion]].
JSTaggedValue rcd = next->GetCompletion();
JSHandle<CompletionRecord> completion(thread, rcd);
CompletionRecordType type = completion->GetType();
// 10. If completion is an abrupt completion, then
if (thread->HasPendingException() || type != CompletionRecordType::NORMAL) {
// a. If state is suspendedStart, then
if (state == JSAsyncGeneratorState::SUSPENDED_START) {
// i. Set generator.[[AsyncGeneratorState]] to completed.
// ii. Set state to completed.
state = JSAsyncGeneratorState::COMPLETED;
generator->SetAsyncGeneratorState(state);
}
// b. If state is completed, then
if (state == JSAsyncGeneratorState::COMPLETED) {
// i. If completion.[[Type]] is return, then
if (completion->GetType() == CompletionRecordType::RETURN) {
// 1. Set generator.[[AsyncGeneratorState]] to awaiting-return.
generator->SetAsyncGeneratorState(JSAsyncGeneratorState::AWAITING_RETURN);
// 2. Let promise be ? PromiseResolve(%Promise%, completion.[[Value]]).
JSHandle<GlobalEnv> env = thread->GetEcmaVM()->GetGlobalEnv();
JSHandle<JSTaggedValue> val(thread, completion->GetValue());
JSTaggedValue promise = PromiseResolve(thread,
JSHandle<JSTaggedValue>::Cast(env->GetPromiseFunction()), val);
JSHandle<JSPromise> handPromise(thread, promise);
// 3. Let stepsFulfilled be the algorithm steps defined in
// AsyncGeneratorResumeNext Return Processor Fulfilled Functions.
// 4. Let lengthFulfilled be the number of non-optional parameters of the
// function definition in AsyncGeneratorResumeNext Return Processor Fulfilled Functions.
// 5. Let onFulfilled be ! CreateBuiltinFunction(stepsFulfilled,
// lengthFulfilled, "", « [[Generator]] »).
// 7. Let stepsRejected be the algorithm steps defined in AsyncGeneratorResumeNext
// Return Processor Rejected Functions.
// 8. Let lengthRejected be the number of non-optional parameters of the function definition in
// AsyncGeneratorResumeNext Return Processor Rejected Functions.
// 9. Let onRejected be ! CreateBuiltinFunction(stepsRejected, lengthRejected, "", « [[Generator]] »).
ObjectFactory *factory = thread->GetEcmaVM()->GetFactory();
JSHandle<JSAsyncGeneratorResNextRetProRstFtn> onFulfilled =
factory->NewJSAsyGenResNextRetProRstFulfilledFtn();
onFulfilled->SetAsyncGeneratorObject(thread, generator);
JSHandle<JSAsyncGeneratorResNextRetProRstFtn> onFulRejected =
factory->NewJSAsyGenResNextRetProRstRejectedFtn();
onFulRejected->SetAsyncGeneratorObject(thread, generator);
// 11. Perform ! PerformPromiseThen(promise, onFulfilled, onRejected).
JSHandle<PromiseCapability> tcap =
JSPromise::NewPromiseCapability(thread, JSHandle<JSTaggedValue>::Cast(env->GetPromiseFunction()));
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
[[maybe_unused]] JSTaggedValue pres = BuiltinsPromise::PerformPromiseThen(
thread, handPromise, JSHandle<JSTaggedValue>::Cast(onFulfilled),
JSHandle<JSTaggedValue>::Cast(onFulRejected), tcap);
// 12. Return undefined.
return JSTaggedValue::Undefined();
} else {
// 1. Assert: completion.[[Type]] is throw.
ASSERT(completion->GetType() == CompletionRecordType::THROW);
// 2. Perform ! AsyncGeneratorReject(generator, completion.[[Value]]).
JSHandle<JSTaggedValue> comVal(thread, completion->GetValue());
AsyncGeneratorReject(thread, generator, comVal);
// 3. Return undefined.
return JSTaggedValue::Undefined();
}
}
// 11. Else if state is completed, return ! AsyncGeneratorResolve(generator, undefined, true).
} else if (state == JSAsyncGeneratorState::COMPLETED) {
JSHandle<JSTaggedValue> comVal(thread, JSTaggedValue::Undefined());
return AsyncGeneratorResolve(thread, generator, comVal, true);
}
// 12. Assert: state is either suspendedStart or suspendedYield.
ASSERT((state == JSAsyncGeneratorState::SUSPENDED_START) ||
(state == JSAsyncGeneratorState::SUSPENDED_YIELD));
// 13. Let genContext be generator.[[AsyncGeneratorContext]].
JSTaggedValue val = generator->GetGeneratorContext();
JSHandle<GeneratorContext> genContext(thread, val);
// 14. Let callerContext be the running execution context.
// 15. Suspend callerContext.
// 16. Set generator.[[AsyncGeneratorState]] to executing.
// 17. Push genContext onto the execution context stack; genContext is now the running execution context.
// 18. Resume the suspended evaluation of genContext using completion as the result of the operation that
// suspended it. Let result be the completion record returned by the resumed computation.
// 19. Assert: result is never an abrupt completion.
// 20. Assert: When we return here, genContext has already been removed from the execution context stack and
// callerContext is the currently running execution context.
// 21. Return undefined.
generator->SetAsyncGeneratorState(JSAsyncGeneratorState::EXECUTING);
if (completion->GetType() == CompletionRecordType::NORMAL) {
AsyncGeneratorHelper::Next(thread, genContext, completion->GetValue());
}
if (completion->GetType() == CompletionRecordType::RETURN) {
AsyncGeneratorHelper::Return(thread, genContext, completion);
}
if (completion->GetType() == CompletionRecordType::THROW) {
AsyncGeneratorHelper::Throw(thread, genContext, completion);
}
return JSTaggedValue::Undefined();
}
JSTaggedValue JSAsyncGeneratorObject::AsyncGeneratorEnqueue(JSThread *thread, const JSHandle<JSTaggedValue> &gen,
const JSHandle<CompletionRecord> completionRecord)
{
// 1. Let promiseCapability be ! NewPromiseCapability(%Promise%).
JSHandle<GlobalEnv> env = thread->GetEcmaVM()->GetGlobalEnv();
ObjectFactory *factory = thread->GetEcmaVM()->GetFactory();
JSHandle<PromiseCapability> pcap =
JSPromise::NewPromiseCapability(thread, JSHandle<JSTaggedValue>::Cast(env->GetPromiseFunction()));
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
// 2. Let check be AsyncGeneratorValidate(generator, generatorBrand).
AsyncGeneratorValidate(thread, gen, JSTaggedValue::Undefined());
// 3. If check is an abrupt completion, then
if (thread->HasPendingException()) {
thread->ClearException();
// a. Let badGeneratorError be a newly created TypeError object.
JSHandle<JSObject> resolutionError = factory->GetJSError(ErrorType::TYPE_ERROR,
"Resolve: The promise and resolution cannot be the same.", StackCheck::NO);
// b. Perform ! Call(promiseCapability.[[Reject]], undefined, « badGeneratorError »).
const GlobalEnvConstants *constants = thread->GlobalConstants();
JSHandle<JSTaggedValue> rstErr = JSHandle<JSTaggedValue>::Cast(resolutionError);
JSHandle<JSTaggedValue> reject(thread, pcap->GetReject());
JSHandle<JSTaggedValue> thisArg = constants->GetHandledUndefined();
JSHandle<JSTaggedValue> undefined = constants->GetHandledUndefined();
EcmaRuntimeCallInfo* info =
EcmaInterpreter::NewRuntimeCallInfo(thread, reject, thisArg, undefined, 1);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
info->SetCallArg(rstErr.GetTaggedValue());
[[maybe_unused]] JSTaggedValue res = JSFunction::Call(info);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
// c. Return promiseCapability.[[Promise]].
JSHandle<JSObject> promise(thread, pcap->GetPromise());
return promise.GetTaggedValue();
}
// 4. Let queue be generator.[[AsyncGeneratorQueue]].
JSHandle<JSObject> obj = JSTaggedValue::ToObject(thread, gen);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
JSHandle<JSAsyncGeneratorObject> generator = JSHandle<JSAsyncGeneratorObject>::Cast(obj);
JSHandle<TaggedQueue> queue(thread, generator->GetAsyncGeneratorQueue());
// 5. Let request be AsyncGeneratorRequest { [[Completion]]: completion, [[Capability]]: promiseCapability }.
ObjectFactory *fty = thread->GetEcmaVM()->GetFactory();
JSHandle<AsyncGeneratorRequest> asyncGeneratorRst = fty->NewAsyncGeneratorRequest();
asyncGeneratorRst->SetCompletion(thread, completionRecord);
asyncGeneratorRst->SetCapability(thread, pcap);
// 6. Append request to the end of queue.
TaggedQueue *newQueue = TaggedQueue::Push(thread, queue, JSHandle<JSTaggedValue>::Cast(asyncGeneratorRst));
generator->SetAsyncGeneratorQueue(thread, JSTaggedValue(newQueue));
// 7. Let state be generator.[[AsyncGeneratorState]].
JSAsyncGeneratorState state = generator->GetAsyncGeneratorState();
// 8. If state is not executing, then
if (state != JSAsyncGeneratorState::EXECUTING) {
// a. Perform ! AsyncGeneratorResumeNext(generator).
AsyncGeneratorResumeNext(thread, generator);
}
// 9. Return promiseCapability.[[Promise]].
JSHandle<JSObject> promise(thread, pcap->GetPromise());
return promise.GetTaggedValue();
}
JSTaggedValue JSAsyncGeneratorObject::PromiseResolve(JSThread *thread, const JSHandle<JSTaggedValue> promise,
const JSHandle<JSTaggedValue> value)
{
const GlobalEnvConstants *globalConst = thread->GlobalConstants();
ASSERT(promise->IsECMAObject());
if (value->IsJSPromise()) {
JSHandle<JSTaggedValue> ctorKey(globalConst->GetHandledConstructorString());
JSHandle<JSTaggedValue> ctorValue = JSObject::GetProperty(thread, value, ctorKey).GetValue();
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
if (JSTaggedValue::SameValue(ctorValue.GetTaggedValue(), promise.GetTaggedValue())) {
return value.GetTaggedValue();
}
}
JSHandle<PromiseCapability> promiseCapability = JSPromise::NewPromiseCapability(thread, promise);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
JSHandle<JSTaggedValue> resolve(thread, promiseCapability->GetResolve());
JSHandle<JSTaggedValue> undefined = globalConst->GetHandledUndefined();
JSHandle<JSTaggedValue> thisArg = globalConst->GetHandledUndefined();
EcmaRuntimeCallInfo* info =
EcmaInterpreter::NewRuntimeCallInfo(thread, resolve, thisArg, undefined, 1);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
info->SetCallArg(value.GetTaggedValue());
[[maybe_unused]] JSTaggedValue res = JSFunction::Call(info);
RETURN_EXCEPTION_IF_ABRUPT_COMPLETION(thread);
JSHandle<JSPromise> promiseObj(thread, promiseCapability->GetPromise());
return promiseObj.GetTaggedValue();
}
JSTaggedValue JSAsyncGeneratorObject::ProcessorFulfilledFunc(EcmaRuntimeCallInfo *argv)
{
// 1. Let F be the active function object.
JSThread *thread = argv->GetThread();
JSHandle<JSAsyncGeneratorResNextRetProRstFtn> asyncResNextRtnPro =
JSHandle<JSAsyncGeneratorResNextRetProRstFtn>::Cast(base::BuiltinsBase::GetConstructor(argv));
JSHandle<JSAsyncGeneratorObject> asyncGen(thread, asyncResNextRtnPro->GetAsyncGeneratorObject());
// 2. Set F.[[Generator]].[[AsyncGeneratorState]] to completed.
asyncGen->SetAsyncGeneratorState(JSAsyncGeneratorState::COMPLETED);
// 3. Return ! AsyncGeneratorResolve(F.[[Generator]], value, true).
JSHandle<JSTaggedValue> value = base::BuiltinsBase::GetCallArg(argv, 0);
return AsyncGeneratorResolve(thread, asyncGen, value, true);
}
JSTaggedValue JSAsyncGeneratorObject::ProcessorRejectedFunc(EcmaRuntimeCallInfo *argv)
{
// 1. Let F be the active function object.
JSThread *thread = argv->GetThread();
JSHandle<JSAsyncGeneratorResNextRetProRstFtn> asyncResNextRtnPro =
JSHandle<JSAsyncGeneratorResNextRetProRstFtn>::Cast(base::BuiltinsBase::GetConstructor(argv));
JSHandle<JSAsyncGeneratorObject> asyncGen(thread, asyncResNextRtnPro->GetAsyncGeneratorObject());
// 2. Set F.[[Generator]].[[AsyncGeneratorState]] to completed.
asyncGen->SetAsyncGeneratorState(JSAsyncGeneratorState::COMPLETED);
// 3. Return ! AsyncGeneratorReject(F.[[Generator]], reason).
JSHandle<JSTaggedValue> value = base::BuiltinsBase::GetCallArg(argv, 0);
return AsyncGeneratorReject(thread, asyncGen, value);
}
} // namespace panda::ecmascript
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