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|
// 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/builtins/builtins-async-gen.h"
#include "src/builtins/builtins-utils-gen.h"
#include "src/builtins/builtins.h"
#include "src/codegen/code-factory.h"
#include "src/codegen/code-stub-assembler.h"
#include "src/execution/frames-inl.h"
#include "src/objects/js-generator.h"
#include "src/objects/js-promise.h"
namespace v8 {
namespace internal {
using compiler::Node;
namespace {
class AsyncGeneratorBuiltinsAssembler : public AsyncBuiltinsAssembler {
public:
explicit AsyncGeneratorBuiltinsAssembler(CodeAssemblerState* state)
: AsyncBuiltinsAssembler(state) {}
inline TNode<Smi> LoadGeneratorState(
const TNode<JSGeneratorObject> generator) {
return LoadObjectField<Smi>(generator,
JSGeneratorObject::kContinuationOffset);
}
inline TNode<BoolT> IsGeneratorStateClosed(const TNode<Smi> state) {
return SmiEqual(state, SmiConstant(JSGeneratorObject::kGeneratorClosed));
}
inline TNode<BoolT> IsGeneratorClosed(
const TNode<JSGeneratorObject> generator) {
return IsGeneratorStateClosed(LoadGeneratorState(generator));
}
inline TNode<BoolT> IsGeneratorStateSuspended(const TNode<Smi> state) {
return SmiGreaterThanOrEqual(state, SmiConstant(0));
}
inline TNode<BoolT> IsGeneratorSuspended(
const TNode<JSGeneratorObject> generator) {
return IsGeneratorStateSuspended(LoadGeneratorState(generator));
}
inline TNode<BoolT> IsGeneratorStateSuspendedAtStart(const TNode<Smi> state) {
return SmiEqual(state, SmiConstant(0));
}
inline TNode<BoolT> IsGeneratorStateNotExecuting(const TNode<Smi> state) {
return SmiNotEqual(state,
SmiConstant(JSGeneratorObject::kGeneratorExecuting));
}
inline TNode<BoolT> IsGeneratorNotExecuting(
const TNode<JSGeneratorObject> generator) {
return IsGeneratorStateNotExecuting(LoadGeneratorState(generator));
}
inline TNode<BoolT> IsGeneratorAwaiting(
const TNode<JSGeneratorObject> generator) {
TNode<Object> is_generator_awaiting =
LoadObjectField(generator, JSAsyncGeneratorObject::kIsAwaitingOffset);
return TaggedEqual(is_generator_awaiting, SmiConstant(1));
}
inline void SetGeneratorAwaiting(const TNode<JSGeneratorObject> generator) {
CSA_ASSERT(this, Word32BinaryNot(IsGeneratorAwaiting(generator)));
StoreObjectFieldNoWriteBarrier(
generator, JSAsyncGeneratorObject::kIsAwaitingOffset, SmiConstant(1));
CSA_ASSERT(this, IsGeneratorAwaiting(generator));
}
inline void SetGeneratorNotAwaiting(
const TNode<JSGeneratorObject> generator) {
CSA_ASSERT(this, IsGeneratorAwaiting(generator));
StoreObjectFieldNoWriteBarrier(
generator, JSAsyncGeneratorObject::kIsAwaitingOffset, SmiConstant(0));
CSA_ASSERT(this, Word32BinaryNot(IsGeneratorAwaiting(generator)));
}
inline void CloseGenerator(const TNode<JSGeneratorObject> generator) {
StoreObjectFieldNoWriteBarrier(
generator, JSGeneratorObject::kContinuationOffset,
SmiConstant(JSGeneratorObject::kGeneratorClosed));
}
inline TNode<HeapObject> LoadFirstAsyncGeneratorRequestFromQueue(
const TNode<JSGeneratorObject> generator) {
return LoadObjectField<HeapObject>(generator,
JSAsyncGeneratorObject::kQueueOffset);
}
inline TNode<Smi> LoadResumeTypeFromAsyncGeneratorRequest(
const TNode<AsyncGeneratorRequest> request) {
return LoadObjectField<Smi>(request,
AsyncGeneratorRequest::kResumeModeOffset);
}
inline TNode<JSPromise> LoadPromiseFromAsyncGeneratorRequest(
const TNode<AsyncGeneratorRequest> request) {
return LoadObjectField<JSPromise>(request,
AsyncGeneratorRequest::kPromiseOffset);
}
inline TNode<Object> LoadValueFromAsyncGeneratorRequest(
const TNode<AsyncGeneratorRequest> request) {
return LoadObjectField(request, AsyncGeneratorRequest::kValueOffset);
}
inline TNode<BoolT> IsAbruptResumeType(const TNode<Smi> resume_type) {
return SmiNotEqual(resume_type, SmiConstant(JSGeneratorObject::kNext));
}
void AsyncGeneratorEnqueue(CodeStubArguments* args, TNode<Context> context,
TNode<Object> receiver, TNode<Object> value,
JSAsyncGeneratorObject::ResumeMode resume_mode,
const char* method_name);
TNode<AsyncGeneratorRequest> TakeFirstAsyncGeneratorRequestFromQueue(
TNode<JSAsyncGeneratorObject> generator);
void AddAsyncGeneratorRequestToQueue(TNode<JSAsyncGeneratorObject> generator,
TNode<AsyncGeneratorRequest> request);
TNode<AsyncGeneratorRequest> AllocateAsyncGeneratorRequest(
JSAsyncGeneratorObject::ResumeMode resume_mode,
TNode<Object> resume_value, TNode<JSPromise> promise);
// Shared implementation of the catchable and uncatchable variations of Await
// for AsyncGenerators.
template <typename Descriptor>
void AsyncGeneratorAwait(bool is_catchable);
void AsyncGeneratorAwaitResumeClosure(
TNode<Context> context, TNode<Object> value,
JSAsyncGeneratorObject::ResumeMode resume_mode);
};
// Shared implementation for the 3 Async Iterator protocol methods of Async
// Generators.
void AsyncGeneratorBuiltinsAssembler::AsyncGeneratorEnqueue(
CodeStubArguments* args, TNode<Context> context, TNode<Object> receiver,
TNode<Object> value, JSAsyncGeneratorObject::ResumeMode resume_mode,
const char* method_name) {
// AsyncGeneratorEnqueue produces a new Promise, and appends it to the list
// of async generator requests to be executed. If the generator is not
// presently executing, then this method will loop through, processing each
// request from front to back.
// This loop resides in AsyncGeneratorResumeNext.
TNode<JSPromise> promise = NewJSPromise(context);
Label if_receiverisincompatible(this, Label::kDeferred);
GotoIf(TaggedIsSmi(receiver), &if_receiverisincompatible);
GotoIfNot(HasInstanceType(CAST(receiver), JS_ASYNC_GENERATOR_OBJECT_TYPE),
&if_receiverisincompatible);
{
Label done(this);
const TNode<JSAsyncGeneratorObject> generator = CAST(receiver);
const TNode<AsyncGeneratorRequest> req =
AllocateAsyncGeneratorRequest(resume_mode, value, promise);
AddAsyncGeneratorRequestToQueue(generator, req);
// Let state be generator.[[AsyncGeneratorState]]
// If state is not "executing", then
// Perform AsyncGeneratorResumeNext(Generator)
// Check if the {receiver} is running or already closed.
TNode<Smi> continuation = LoadGeneratorState(generator);
GotoIf(SmiEqual(continuation,
SmiConstant(JSAsyncGeneratorObject::kGeneratorExecuting)),
&done);
CallBuiltin(Builtins::kAsyncGeneratorResumeNext, context, generator);
Goto(&done);
BIND(&done);
args->PopAndReturn(promise);
}
BIND(&if_receiverisincompatible);
{
CallBuiltin(Builtins::kRejectPromise, context, promise,
MakeTypeError(MessageTemplate::kIncompatibleMethodReceiver,
context, StringConstant(method_name), receiver),
TrueConstant());
args->PopAndReturn(promise);
}
}
TNode<AsyncGeneratorRequest>
AsyncGeneratorBuiltinsAssembler::AllocateAsyncGeneratorRequest(
JSAsyncGeneratorObject::ResumeMode resume_mode, TNode<Object> resume_value,
TNode<JSPromise> promise) {
TNode<HeapObject> request = Allocate(AsyncGeneratorRequest::kSize);
StoreMapNoWriteBarrier(request, RootIndex::kAsyncGeneratorRequestMap);
StoreObjectFieldNoWriteBarrier(request, AsyncGeneratorRequest::kNextOffset,
UndefinedConstant());
StoreObjectFieldNoWriteBarrier(request,
AsyncGeneratorRequest::kResumeModeOffset,
SmiConstant(resume_mode));
StoreObjectFieldNoWriteBarrier(request, AsyncGeneratorRequest::kValueOffset,
resume_value);
StoreObjectFieldNoWriteBarrier(request, AsyncGeneratorRequest::kPromiseOffset,
promise);
StoreObjectFieldRoot(request, AsyncGeneratorRequest::kNextOffset,
RootIndex::kUndefinedValue);
return CAST(request);
}
void AsyncGeneratorBuiltinsAssembler::AsyncGeneratorAwaitResumeClosure(
TNode<Context> context, TNode<Object> value,
JSAsyncGeneratorObject::ResumeMode resume_mode) {
const TNode<JSAsyncGeneratorObject> generator =
CAST(LoadContextElement(context, Context::EXTENSION_INDEX));
SetGeneratorNotAwaiting(generator);
CSA_SLOW_ASSERT(this, IsGeneratorSuspended(generator));
// Remember the {resume_mode} for the {generator}.
StoreObjectFieldNoWriteBarrier(generator,
JSGeneratorObject::kResumeModeOffset,
SmiConstant(resume_mode));
CallStub(CodeFactory::ResumeGenerator(isolate()), context, value, generator);
TailCallBuiltin(Builtins::kAsyncGeneratorResumeNext, context, generator);
}
template <typename Descriptor>
void AsyncGeneratorBuiltinsAssembler::AsyncGeneratorAwait(bool is_catchable) {
TNode<JSAsyncGeneratorObject> async_generator_object =
CAST(Parameter(Descriptor::kAsyncGeneratorObject));
TNode<Object> value = CAST(Parameter(Descriptor::kValue));
TNode<Context> context = CAST(Parameter(Descriptor::kContext));
TNode<AsyncGeneratorRequest> request =
CAST(LoadFirstAsyncGeneratorRequestFromQueue(async_generator_object));
TNode<JSPromise> outer_promise = LoadObjectField<JSPromise>(
request, AsyncGeneratorRequest::kPromiseOffset);
const int resolve_index = Context::ASYNC_GENERATOR_AWAIT_RESOLVE_SHARED_FUN;
const int reject_index = Context::ASYNC_GENERATOR_AWAIT_REJECT_SHARED_FUN;
SetGeneratorAwaiting(async_generator_object);
Await(context, async_generator_object, value, outer_promise, resolve_index,
reject_index, is_catchable);
Return(UndefinedConstant());
}
void AsyncGeneratorBuiltinsAssembler::AddAsyncGeneratorRequestToQueue(
TNode<JSAsyncGeneratorObject> generator,
TNode<AsyncGeneratorRequest> request) {
TVARIABLE(HeapObject, var_current);
Label empty(this), loop(this, &var_current), done(this);
var_current = LoadObjectField<HeapObject>(
generator, JSAsyncGeneratorObject::kQueueOffset);
Branch(IsUndefined(var_current.value()), &empty, &loop);
BIND(&empty);
{
StoreObjectField(generator, JSAsyncGeneratorObject::kQueueOffset, request);
Goto(&done);
}
BIND(&loop);
{
Label loop_next(this), next_empty(this);
TNode<AsyncGeneratorRequest> current = CAST(var_current.value());
TNode<HeapObject> next = LoadObjectField<HeapObject>(
current, AsyncGeneratorRequest::kNextOffset);
Branch(IsUndefined(next), &next_empty, &loop_next);
BIND(&next_empty);
{
StoreObjectField(current, AsyncGeneratorRequest::kNextOffset, request);
Goto(&done);
}
BIND(&loop_next);
{
var_current = next;
Goto(&loop);
}
}
BIND(&done);
}
TNode<AsyncGeneratorRequest>
AsyncGeneratorBuiltinsAssembler::TakeFirstAsyncGeneratorRequestFromQueue(
TNode<JSAsyncGeneratorObject> generator) {
// Removes and returns the first AsyncGeneratorRequest from a
// JSAsyncGeneratorObject's queue. Asserts that the queue is not empty.
TNode<AsyncGeneratorRequest> request = LoadObjectField<AsyncGeneratorRequest>(
generator, JSAsyncGeneratorObject::kQueueOffset);
TNode<Object> next =
LoadObjectField(request, AsyncGeneratorRequest::kNextOffset);
StoreObjectField(generator, JSAsyncGeneratorObject::kQueueOffset, next);
return request;
}
} // namespace
// https://tc39.github.io/proposal-async-iteration/
// Section #sec-asyncgenerator-prototype-next
TF_BUILTIN(AsyncGeneratorPrototypeNext, AsyncGeneratorBuiltinsAssembler) {
const int kValueArg = 0;
TNode<IntPtrT> argc =
ChangeInt32ToIntPtr(Parameter(Descriptor::kJSActualArgumentsCount));
CodeStubArguments args(this, argc);
TNode<Object> generator = args.GetReceiver();
TNode<Object> value = args.GetOptionalArgumentValue(kValueArg);
TNode<Context> context = CAST(Parameter(Descriptor::kContext));
AsyncGeneratorEnqueue(&args, context, generator, value,
JSAsyncGeneratorObject::kNext,
"[AsyncGenerator].prototype.next");
}
// https://tc39.github.io/proposal-async-iteration/
// Section #sec-asyncgenerator-prototype-return
TF_BUILTIN(AsyncGeneratorPrototypeReturn, AsyncGeneratorBuiltinsAssembler) {
const int kValueArg = 0;
TNode<IntPtrT> argc =
ChangeInt32ToIntPtr(Parameter(Descriptor::kJSActualArgumentsCount));
CodeStubArguments args(this, argc);
TNode<Object> generator = args.GetReceiver();
TNode<Object> value = args.GetOptionalArgumentValue(kValueArg);
TNode<Context> context = CAST(Parameter(Descriptor::kContext));
AsyncGeneratorEnqueue(&args, context, generator, value,
JSAsyncGeneratorObject::kReturn,
"[AsyncGenerator].prototype.return");
}
// https://tc39.github.io/proposal-async-iteration/
// Section #sec-asyncgenerator-prototype-throw
TF_BUILTIN(AsyncGeneratorPrototypeThrow, AsyncGeneratorBuiltinsAssembler) {
const int kValueArg = 0;
TNode<IntPtrT> argc =
ChangeInt32ToIntPtr(Parameter(Descriptor::kJSActualArgumentsCount));
CodeStubArguments args(this, argc);
TNode<Object> generator = args.GetReceiver();
TNode<Object> value = args.GetOptionalArgumentValue(kValueArg);
TNode<Context> context = CAST(Parameter(Descriptor::kContext));
AsyncGeneratorEnqueue(&args, context, generator, value,
JSAsyncGeneratorObject::kThrow,
"[AsyncGenerator].prototype.throw");
}
TF_BUILTIN(AsyncGeneratorAwaitResolveClosure, AsyncGeneratorBuiltinsAssembler) {
TNode<Object> value = CAST(Parameter(Descriptor::kValue));
TNode<Context> context = CAST(Parameter(Descriptor::kContext));
AsyncGeneratorAwaitResumeClosure(context, value,
JSAsyncGeneratorObject::kNext);
}
TF_BUILTIN(AsyncGeneratorAwaitRejectClosure, AsyncGeneratorBuiltinsAssembler) {
TNode<Object> value = CAST(Parameter(Descriptor::kValue));
TNode<Context> context = CAST(Parameter(Descriptor::kContext));
AsyncGeneratorAwaitResumeClosure(context, value,
JSAsyncGeneratorObject::kThrow);
}
TF_BUILTIN(AsyncGeneratorAwaitUncaught, AsyncGeneratorBuiltinsAssembler) {
const bool kIsCatchable = false;
AsyncGeneratorAwait<Descriptor>(kIsCatchable);
}
TF_BUILTIN(AsyncGeneratorAwaitCaught, AsyncGeneratorBuiltinsAssembler) {
const bool kIsCatchable = true;
AsyncGeneratorAwait<Descriptor>(kIsCatchable);
}
TF_BUILTIN(AsyncGeneratorResumeNext, AsyncGeneratorBuiltinsAssembler) {
using Descriptor = AsyncGeneratorResumeNextDescriptor;
const TNode<JSAsyncGeneratorObject> generator =
CAST(Parameter(Descriptor::kGenerator));
const TNode<Context> context = CAST(Parameter(Descriptor::kContext));
// The penultimate step of proposal-async-iteration/#sec-asyncgeneratorresolve
// and proposal-async-iteration/#sec-asyncgeneratorreject both recursively
// invoke AsyncGeneratorResumeNext() again.
//
// This implementation does not implement this recursively, but instead
// performs a loop in AsyncGeneratorResumeNext, which continues as long as
// there is an AsyncGeneratorRequest in the queue, and as long as the
// generator is not suspended due to an AwaitExpression.
TVARIABLE(Smi, var_state, LoadGeneratorState(generator));
TVARIABLE(HeapObject, var_next,
LoadFirstAsyncGeneratorRequestFromQueue(generator));
Label start(this, {&var_state, &var_next});
Goto(&start);
BIND(&start);
CSA_ASSERT(this, IsGeneratorNotExecuting(generator));
// Stop resuming if suspended for Await.
ReturnIf(IsGeneratorAwaiting(generator), UndefinedConstant());
// Stop resuming if request queue is empty.
ReturnIf(IsUndefined(var_next.value()), UndefinedConstant());
const TNode<AsyncGeneratorRequest> next = CAST(var_next.value());
const TNode<Smi> resume_type = LoadResumeTypeFromAsyncGeneratorRequest(next);
Label if_abrupt(this), if_normal(this), resume_generator(this);
Branch(IsAbruptResumeType(resume_type), &if_abrupt, &if_normal);
BIND(&if_abrupt);
{
Label settle_promise(this), if_return(this), if_throw(this);
GotoIfNot(IsGeneratorStateSuspendedAtStart(var_state.value()),
&settle_promise);
CloseGenerator(generator);
var_state = SmiConstant(JSGeneratorObject::kGeneratorClosed);
Goto(&settle_promise);
BIND(&settle_promise);
TNode<Object> next_value = LoadValueFromAsyncGeneratorRequest(next);
Branch(SmiEqual(resume_type, SmiConstant(JSGeneratorObject::kReturn)),
&if_return, &if_throw);
BIND(&if_return);
// For "return" completions, await the sent value. If the Await succeeds,
// and the generator is not closed, resume the generator with a "return"
// completion to allow `finally` blocks to be evaluated. Otherwise, perform
// AsyncGeneratorResolve(awaitedValue, true). If the await fails and the
// generator is not closed, resume the generator with a "throw" completion.
// If the generator was closed, perform AsyncGeneratorReject(thrownValue).
// In all cases, the last step is to call AsyncGeneratorResumeNext.
TNode<Object> is_caught = CallRuntime(
Runtime::kAsyncGeneratorHasCatchHandlerForPC, context, generator);
TailCallBuiltin(Builtins::kAsyncGeneratorReturn, context, generator,
next_value, is_caught);
BIND(&if_throw);
GotoIfNot(IsGeneratorStateClosed(var_state.value()), &resume_generator);
CallBuiltin(Builtins::kAsyncGeneratorReject, context, generator,
next_value);
var_next = LoadFirstAsyncGeneratorRequestFromQueue(generator);
Goto(&start);
}
BIND(&if_normal);
{
GotoIfNot(IsGeneratorStateClosed(var_state.value()), &resume_generator);
CallBuiltin(Builtins::kAsyncGeneratorResolve, context, generator,
UndefinedConstant(), TrueConstant());
var_state = LoadGeneratorState(generator);
var_next = LoadFirstAsyncGeneratorRequestFromQueue(generator);
Goto(&start);
}
BIND(&resume_generator);
{
// Remember the {resume_type} for the {generator}.
StoreObjectFieldNoWriteBarrier(
generator, JSGeneratorObject::kResumeModeOffset, resume_type);
CallStub(CodeFactory::ResumeGenerator(isolate()), context,
LoadValueFromAsyncGeneratorRequest(next), generator);
var_state = LoadGeneratorState(generator);
var_next = LoadFirstAsyncGeneratorRequestFromQueue(generator);
Goto(&start);
}
}
TF_BUILTIN(AsyncGeneratorResolve, AsyncGeneratorBuiltinsAssembler) {
const TNode<JSAsyncGeneratorObject> generator =
CAST(Parameter(Descriptor::kGenerator));
const TNode<Object> value = CAST(Parameter(Descriptor::kValue));
const TNode<Object> done = CAST(Parameter(Descriptor::kDone));
const TNode<Context> context = CAST(Parameter(Descriptor::kContext));
CSA_ASSERT(this, Word32BinaryNot(IsGeneratorAwaiting(generator)));
// This operation should be called only when the `value` parameter has been
// Await-ed. Typically, this means `value` is not a JSPromise value. However,
// it may be a JSPromise value whose "then" method has been overridden to a
// non-callable value. This can't be checked with assertions due to being
// observable, but keep it in mind.
const TNode<AsyncGeneratorRequest> next =
TakeFirstAsyncGeneratorRequestFromQueue(generator);
const TNode<JSPromise> promise = LoadPromiseFromAsyncGeneratorRequest(next);
// Let iteratorResult be CreateIterResultObject(value, done).
const TNode<HeapObject> iter_result = Allocate(JSIteratorResult::kSize);
{
TNode<Map> map = CAST(LoadContextElement(
LoadNativeContext(context), Context::ITERATOR_RESULT_MAP_INDEX));
StoreMapNoWriteBarrier(iter_result, map);
StoreObjectFieldRoot(iter_result, JSIteratorResult::kPropertiesOrHashOffset,
RootIndex::kEmptyFixedArray);
StoreObjectFieldRoot(iter_result, JSIteratorResult::kElementsOffset,
RootIndex::kEmptyFixedArray);
StoreObjectFieldNoWriteBarrier(iter_result, JSIteratorResult::kValueOffset,
value);
StoreObjectFieldNoWriteBarrier(iter_result, JSIteratorResult::kDoneOffset,
done);
}
// We know that {iter_result} itself doesn't have any "then" property (a
// freshly allocated IterResultObject only has "value" and "done" properties)
// and we also know that the [[Prototype]] of {iter_result} is the intrinsic
// %ObjectPrototype%. So we can skip the [[Resolve]] logic here completely
// and directly call into the FulfillPromise operation if we can prove
// that the %ObjectPrototype% also doesn't have any "then" property. This
// is guarded by the Promise#then() protector.
// If the PromiseHooks are enabled, we cannot take the shortcut here, since
// the "promiseResolve" hook would not be fired otherwise.
Label if_fast(this), if_slow(this, Label::kDeferred), return_promise(this);
GotoIfForceSlowPath(&if_slow);
GotoIf(IsPromiseHookEnabled(), &if_slow);
Branch(IsPromiseThenProtectorCellInvalid(), &if_slow, &if_fast);
BIND(&if_fast);
{
// Skip the "then" on {iter_result} and directly fulfill the {promise}
// with the {iter_result}.
CallBuiltin(Builtins::kFulfillPromise, context, promise, iter_result);
Goto(&return_promise);
}
BIND(&if_slow);
{
// Perform Call(promiseCapability.[[Resolve]], undefined, «iteratorResult»).
CallBuiltin(Builtins::kResolvePromise, context, promise, iter_result);
Goto(&return_promise);
}
// Per spec, AsyncGeneratorResolve() returns undefined. However, for the
// benefit of %TraceExit(), return the Promise.
BIND(&return_promise);
Return(promise);
}
TF_BUILTIN(AsyncGeneratorReject, AsyncGeneratorBuiltinsAssembler) {
using Descriptor = AsyncGeneratorRejectDescriptor;
const TNode<JSAsyncGeneratorObject> generator =
CAST(Parameter(Descriptor::kGenerator));
const TNode<Object> value = CAST(Parameter(Descriptor::kValue));
const TNode<Context> context = CAST(Parameter(Descriptor::kContext));
TNode<AsyncGeneratorRequest> next =
TakeFirstAsyncGeneratorRequestFromQueue(generator);
TNode<JSPromise> promise = LoadPromiseFromAsyncGeneratorRequest(next);
Return(CallBuiltin(Builtins::kRejectPromise, context, promise, value,
TrueConstant()));
}
TF_BUILTIN(AsyncGeneratorYield, AsyncGeneratorBuiltinsAssembler) {
const TNode<JSGeneratorObject> generator =
CAST(Parameter(Descriptor::kGenerator));
const TNode<Object> value = CAST(Parameter(Descriptor::kValue));
const TNode<Oddball> is_caught = CAST(Parameter(Descriptor::kIsCaught));
const TNode<Context> context = CAST(Parameter(Descriptor::kContext));
const TNode<AsyncGeneratorRequest> request =
CAST(LoadFirstAsyncGeneratorRequestFromQueue(generator));
const TNode<JSPromise> outer_promise =
LoadPromiseFromAsyncGeneratorRequest(request);
const int on_resolve = Context::ASYNC_GENERATOR_YIELD_RESOLVE_SHARED_FUN;
const int on_reject = Context::ASYNC_GENERATOR_AWAIT_REJECT_SHARED_FUN;
SetGeneratorAwaiting(generator);
Await(context, generator, value, outer_promise, on_resolve, on_reject,
is_caught);
Return(UndefinedConstant());
}
TF_BUILTIN(AsyncGeneratorYieldResolveClosure, AsyncGeneratorBuiltinsAssembler) {
const TNode<Context> context = CAST(Parameter(Descriptor::kContext));
const TNode<Object> value = CAST(Parameter(Descriptor::kValue));
const TNode<JSAsyncGeneratorObject> generator =
CAST(LoadContextElement(context, Context::EXTENSION_INDEX));
SetGeneratorNotAwaiting(generator);
// Per proposal-async-iteration/#sec-asyncgeneratoryield step 9
// Return ! AsyncGeneratorResolve(_F_.[[Generator]], _value_, *false*).
CallBuiltin(Builtins::kAsyncGeneratorResolve, context, generator, value,
FalseConstant());
TailCallBuiltin(Builtins::kAsyncGeneratorResumeNext, context, generator);
}
TF_BUILTIN(AsyncGeneratorReturn, AsyncGeneratorBuiltinsAssembler) {
// AsyncGeneratorReturn is called when resuming requests with "return" resume
// modes. It is similar to AsyncGeneratorAwait(), but selects different
// resolve/reject closures depending on whether or not the generator is marked
// as closed.
//
// In particular, non-closed generators will resume the generator with either
// "return" or "throw" resume modes, allowing finally blocks or catch blocks
// to be evaluated, as if the `await` were performed within the body of the
// generator. (per proposal-async-iteration/#sec-asyncgeneratoryield step 8.b)
//
// Closed generators do not resume the generator in the resolve/reject
// closures, but instead simply perform AsyncGeneratorResolve or
// AsyncGeneratorReject with the awaited value
// (per proposal-async-iteration/#sec-asyncgeneratorresumenext step 10.b.i)
//
// In all cases, the final step is to jump back to AsyncGeneratorResumeNext.
const TNode<JSGeneratorObject> generator =
CAST(Parameter(Descriptor::kGenerator));
const TNode<Object> value = CAST(Parameter(Descriptor::kValue));
const TNode<Oddball> is_caught = CAST(Parameter(Descriptor::kIsCaught));
const TNode<AsyncGeneratorRequest> req =
CAST(LoadFirstAsyncGeneratorRequestFromQueue(generator));
Label perform_await(this);
TVARIABLE(IntPtrT, var_on_resolve,
IntPtrConstant(
Context::ASYNC_GENERATOR_RETURN_CLOSED_RESOLVE_SHARED_FUN));
TVARIABLE(
IntPtrT, var_on_reject,
IntPtrConstant(Context::ASYNC_GENERATOR_RETURN_CLOSED_REJECT_SHARED_FUN));
const TNode<Smi> state = LoadGeneratorState(generator);
GotoIf(IsGeneratorStateClosed(state), &perform_await);
var_on_resolve =
IntPtrConstant(Context::ASYNC_GENERATOR_RETURN_RESOLVE_SHARED_FUN);
var_on_reject =
IntPtrConstant(Context::ASYNC_GENERATOR_AWAIT_REJECT_SHARED_FUN);
Goto(&perform_await);
BIND(&perform_await);
SetGeneratorAwaiting(generator);
TNode<Context> context = CAST(Parameter(Descriptor::kContext));
const TNode<JSPromise> outer_promise =
LoadPromiseFromAsyncGeneratorRequest(req);
Await(context, generator, value, outer_promise, var_on_resolve.value(),
var_on_reject.value(), is_caught);
Return(UndefinedConstant());
}
// On-resolve closure for Await in AsyncGeneratorReturn
// Resume the generator with "return" resume_mode, and finally perform
// AsyncGeneratorResumeNext. Per
// proposal-async-iteration/#sec-asyncgeneratoryield step 8.e
TF_BUILTIN(AsyncGeneratorReturnResolveClosure,
AsyncGeneratorBuiltinsAssembler) {
const TNode<Context> context = CAST(Parameter(Descriptor::kContext));
const TNode<Object> value = CAST(Parameter(Descriptor::kValue));
AsyncGeneratorAwaitResumeClosure(context, value, JSGeneratorObject::kReturn);
}
// On-resolve closure for Await in AsyncGeneratorReturn
// Perform AsyncGeneratorResolve({awaited_value}, true) and finally perform
// AsyncGeneratorResumeNext.
TF_BUILTIN(AsyncGeneratorReturnClosedResolveClosure,
AsyncGeneratorBuiltinsAssembler) {
const TNode<Context> context = CAST(Parameter(Descriptor::kContext));
const TNode<Object> value = CAST(Parameter(Descriptor::kValue));
const TNode<JSAsyncGeneratorObject> generator =
CAST(LoadContextElement(context, Context::EXTENSION_INDEX));
SetGeneratorNotAwaiting(generator);
// https://tc39.github.io/proposal-async-iteration/
// #async-generator-resume-next-return-processor-fulfilled step 2:
// Return ! AsyncGeneratorResolve(_F_.[[Generator]], _value_, *true*).
CallBuiltin(Builtins::kAsyncGeneratorResolve, context, generator, value,
TrueConstant());
TailCallBuiltin(Builtins::kAsyncGeneratorResumeNext, context, generator);
}
TF_BUILTIN(AsyncGeneratorReturnClosedRejectClosure,
AsyncGeneratorBuiltinsAssembler) {
const TNode<Context> context = CAST(Parameter(Descriptor::kContext));
const TNode<Object> value = CAST(Parameter(Descriptor::kValue));
const TNode<JSAsyncGeneratorObject> generator =
CAST(LoadContextElement(context, Context::EXTENSION_INDEX));
SetGeneratorNotAwaiting(generator);
// https://tc39.github.io/proposal-async-iteration/
// #async-generator-resume-next-return-processor-rejected step 2:
// Return ! AsyncGeneratorReject(_F_.[[Generator]], _reason_).
CallBuiltin(Builtins::kAsyncGeneratorReject, context, generator, value);
TailCallBuiltin(Builtins::kAsyncGeneratorResumeNext, context, generator);
}
} // namespace internal
} // namespace v8
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