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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 19:33:14 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 19:33:14 +0000
commit36d22d82aa202bb199967e9512281e9a53db42c9 (patch)
tree105e8c98ddea1c1e4784a60a5a6410fa416be2de /js/src/vm/AsyncIteration.h
parentInitial commit. (diff)
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Adding upstream version 115.7.0esr.upstream/115.7.0esrupstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
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+/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
+ * vim: set ts=8 sts=2 et sw=2 tw=80:
+ * This Source Code Form is subject to the terms of the Mozilla Public
+ * License, v. 2.0. If a copy of the MPL was not distributed with this
+ * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
+
+#ifndef vm_AsyncIteration_h
+#define vm_AsyncIteration_h
+
+#include "builtin/Promise.h" // js::PromiseHandler
+#include "builtin/SelfHostingDefines.h"
+#include "js/Class.h"
+#include "vm/GeneratorObject.h"
+#include "vm/JSObject.h"
+#include "vm/List.h"
+#include "vm/PromiseObject.h"
+
+// [SMDOC] Async generators
+//
+// # Start
+//
+// When an async generator is called, it synchronously runs until the
+// JSOp::InitialYield and then suspends, just like a sync generator, and returns
+// an async generator object (js::AsyncGeneratorObject).
+//
+//
+// # Request queue
+//
+// When next/return/throw is called on the async generator object,
+// js::AsyncGeneratorEnqueue performs the following:
+// * Create a new AsyncGeneratorRequest and enqueue it in the generator
+// object's request queue.
+// * Resume the generator with the oldest request, if the generator is
+// suspended (see "Resume" section below)
+// * Return the promise for the request
+//
+// This is done in js::AsyncGeneratorEnqueue, which corresponds to
+// AsyncGeneratorEnqueue in the spec,
+// and js::AsyncGeneratorResumeNext corresponds to the following:
+// * AsyncGeneratorResolve
+// * AsyncGeneratorReject
+// * AsyncGeneratorResumeNext
+//
+// The returned promise is resolved when the resumption for the request
+// completes with yield/throw/return, in js::AsyncGeneratorResolve and
+// js::AsyncGeneratorReject.
+// They correspond to AsyncGeneratorResolve and AsyncGeneratorReject in the
+// spec.
+//
+//
+// # Await
+//
+// Async generator's `await` is implemented differently than async function's
+// `await`.
+//
+// The bytecode is the following:
+// (ignoring CanSkipAwait; see the comment in AsyncFunction.h for more details)
+//
+// ```
+// (operand here) # VALUE
+// GetAliasedVar ".generator" # VALUE .generator
+// Await 0 # RVAL GENERATOR RESUMEKIND
+//
+// AfterYield # RVAL GENERATOR RESUMEKIND
+// CheckResumeKind # RVAL
+// ```
+//
+// Async generators don't use JSOp::AsyncAwait, and that part is handled
+// in js::AsyncGeneratorResume, and js::AsyncGeneratorAwait called there.
+//
+// Both JSOp::Await and JSOp::Yield behave in the exactly same way,
+// and js::AsyncGeneratorResume checks the last opcode and branches for
+// await/yield/return cases.
+//
+//
+// # Reaction jobs and resume after await
+//
+// This is almost same as for async functions (see AsyncFunction.h).
+//
+// The reaction record for the job is marked as "this is for async generator"
+// (see js::AsyncGeneratorAwait), and handled specially in
+// js::PromiseReactionJob, which calls js::AsyncGeneratorPromiseReactionJob.
+//
+//
+// # Yield
+//
+// `yield` is implemented with the following bytecode sequence:
+// (Ignoring CanSkipAwait for simplicity)
+//
+// ```
+// (operand here) # VALUE
+// GetAliasedVar ".generator" # VALUE .generator
+// Await 1 # RVAL GENERATOR RESUMEKIND
+// AfterYield # RVAL GENERATOR RESUMEKIND
+// CheckResumeKind # RVAL
+//
+// GetAliasedVar ".generator" # RVAL .generator
+// Yield 2 # RVAL2 GENERATOR RESUMEKIND
+//
+// AfterYield # RVAL2 GENERATOR RESUMEKIND
+// CheckResumeKind # RVAL2
+// ```
+//
+// The 1st part (JSOp::Await + JSOp::CheckResumeKind) performs an implicit
+// `await`, as specified in AsyncGeneratorYield step 5.
+//
+// AsyncGeneratorYield ( value )
+// https://tc39.es/ecma262/#sec-asyncgeneratoryield
+//
+// 5. Set value to ? Await(value).
+//
+// The 2nd part (JSOp::Yield) suspends execution and yields the result of
+// `await`, as specified in AsyncGeneratorYield steps 1-4, 6-7, 9-10.
+//
+// AsyncGeneratorYield ( value )
+// https://tc39.es/ecma262/#sec-asyncgeneratoryield
+//
+// 1. Let genContext be the running execution context.
+// 2. Assert: genContext is the execution context of a generator.
+// 3. Let generator be the value of the Generator component of genContext.
+// 4. Assert: GetGeneratorKind() is async.
+// ..
+// 6. Set generator.[[AsyncGeneratorState]] to suspendedYield.
+// 7. Remove genContext from the execution context stack and restore the
+// execution context that is at the top of the execution context stack as
+// the running execution context.
+// 8. ...
+// 9. Return ! AsyncGeneratorResolve(generator, value, false).
+// 10. NOTE: This returns to the evaluation of the operation that had most
+// previously resumed evaluation of genContext.
+//
+// The last part (JSOp::CheckResumeKind) checks the resumption type and
+// resumes/throws/returns the execution, as specified in AsyncGeneratorYield
+// step 8.
+//
+// 8. Set the code evaluation state of genContext such that when evaluation is
+// resumed with a Completion resumptionValue the following steps will be
+// performed:
+// a. If resumptionValue.[[Type]] is not return, return
+// Completion(resumptionValue).
+// b. Let awaited be Await(resumptionValue.[[Value]]).
+// c. If awaited.[[Type]] is throw, return Completion(awaited).
+// d. Assert: awaited.[[Type]] is normal.
+// e. Return Completion { [[Type]]: return, [[Value]]: awaited.[[Value]],
+// [[Target]]: empty }.
+// f. NOTE: When one of the above steps returns, it returns to the
+// evaluation of the YieldExpression production that originally called
+// this abstract operation.
+//
+// Resumption with `AsyncGenerator.prototype.return` is handled differently.
+// See "Resumption with return" section below.
+//
+//
+// # Return
+//
+// `return` with operand is implemented with the following bytecode sequence:
+// (Ignoring CanSkipAwait for simplicity)
+//
+// ```
+// (operand here) # VALUE
+// GetAliasedVar ".generator" # VALUE .generator
+// Await 0 # RVAL GENERATOR RESUMEKIND
+// AfterYield # RVAL GENERATOR RESUMEKIND
+// CheckResumeKind # RVAL
+//
+// SetRval #
+// GetAliasedVar ".generator" # .generator
+// FinalYieldRval #
+// ```
+//
+// The 1st part (JSOp::Await + JSOp::CheckResumeKind) performs implicit
+// `await`, as specified in ReturnStatement's Evaluation step 3.
+//
+// ReturnStatement: return Expression;
+// https://tc39.es/ecma262/#sec-return-statement-runtime-semantics-evaluation
+//
+// 3. If ! GetGeneratorKind() is async, set exprValue to ? Await(exprValue).
+//
+// And the 2nd part corresponds to AsyncGeneratorStart steps 5.a-e, 5.g.
+//
+// AsyncGeneratorStart ( generator, generatorBody )
+// https://tc39.es/ecma262/#sec-asyncgeneratorstart
+//
+// 5. Set the code evaluation state of genContext such that when evaluation
+// is resumed for that execution context the following steps will be
+// performed:
+// a. Let result be the result of evaluating generatorBody.
+// b. Assert: If we return here, the async generator either threw an
+// exception or performed either an implicit or explicit return.
+// c. Remove genContext from the execution context stack and restore the
+// execution context that is at the top of the execution context stack
+// as the running execution context.
+// d. Set generator.[[AsyncGeneratorState]] to completed.
+// e. If result is a normal completion, let resultValue be undefined.
+// ...
+// g. Return ! AsyncGeneratorResolve(generator, resultValue, true).
+//
+// `return` without operand or implicit return is implicit with the following
+// bytecode sequence:
+//
+// ```
+// Undefined # undefined
+// SetRval #
+// GetAliasedVar ".generator" # .generator
+// FinalYieldRval #
+// ```
+//
+// This is also AsyncGeneratorStart steps 5.a-e, 5.g.
+//
+//
+// # Throw
+//
+// Unlike async function, async generator doesn't use implicit try-catch,
+// but the throw completion is handled by js::AsyncGeneratorResume,
+// and js::AsyncGeneratorThrown is called there.
+//
+// 5. ...
+// f. Else,
+// i. Let resultValue be result.[[Value]].
+// ii. If result.[[Type]] is not return, then
+// 1. Return ! AsyncGeneratorReject(generator, resultValue).
+//
+//
+// # Resumption with return
+//
+// Resumption with return completion is handled in js::AsyncGeneratorResumeNext.
+//
+// If the generator is suspended, it doesn't immediately resume the generator
+// script itself, but handles implicit `await` it in
+// js::AsyncGeneratorResumeNext.
+// (See PromiseHandlerAsyncGeneratorYieldReturnAwaitedFulfilled and
+// PromiseHandlerAsyncGeneratorYieldReturnAwaitedRejected), and resumes the
+// generator with the result of await.
+// And the return completion is finally handled in JSOp::CheckResumeKind
+// after JSOp::Yield.
+//
+// This corresponds to AsyncGeneratorYield step 8.
+//
+// AsyncGeneratorYield ( value )
+// https://tc39.es/ecma262/#sec-asyncgeneratoryield
+//
+// 8. Set the code evaluation state of genContext such that when evaluation
+// is resumed with a Completion resumptionValue the following steps will
+// be performed:
+// ..
+// b. Let awaited be Await(resumptionValue.[[Value]]).
+// c. If awaited.[[Type]] is throw, return Completion(awaited).
+// d. Assert: awaited.[[Type]] is normal.
+// e. Return Completion { [[Type]]: return, [[Value]]: awaited.[[Value]],
+// [[Target]]: empty }.
+//
+// If the generator is already completed, it awaits on the return value,
+// (See PromiseHandlerAsyncGeneratorResumeNextReturnFulfilled and
+// PromiseHandlerAsyncGeneratorResumeNextReturnRejected), and resolves the
+// request's promise with the value.
+//
+// It corresponds to AsyncGeneratorResumeNext step 10.b.i.
+//
+// AsyncGeneratorResumeNext ( generator )
+// https://tc39.es/ecma262/#sec-asyncgeneratorresumenext
+//
+// 10. If completion is an abrupt completion, then
+// ..
+// b. If state is completed, then
+// i. If completion.[[Type]] is return, then
+// 1. Set generator.[[AsyncGeneratorState]] to awaiting-return.
+// 2. Let promise be ? PromiseResolve(%Promise%, completion.[[Value]]).
+// 3. Let stepsFulfilled be the algorithm steps defined in
+// AsyncGeneratorResumeNext Return Processor Fulfilled Functions.
+// 4. Let onFulfilled be ! CreateBuiltinFunction(stepsFulfilled, «
+// [[Generator]] »).
+// 5. Set onFulfilled.[[Generator]] to generator.
+// 6. Let stepsRejected be the algorithm steps defined in
+// AsyncGeneratorResumeNext Return Processor Rejected Functions.
+// 7. Let onRejected be ! CreateBuiltinFunction(stepsRejected, «
+// [[Generator]] »).
+// 8. Set onRejected.[[Generator]] to generator.
+// 9. Perform ! PerformPromiseThen(promise, onFulfilled, onRejected).
+// 10. Return undefined.
+//
+
+namespace js {
+
+class AsyncGeneratorObject;
+enum class CompletionKind : uint8_t;
+
+extern const JSClass AsyncGeneratorFunctionClass;
+
+[[nodiscard]] bool AsyncGeneratorPromiseReactionJob(
+ JSContext* cx, PromiseHandler handler,
+ Handle<AsyncGeneratorObject*> generator, HandleValue argument);
+
+bool AsyncGeneratorNext(JSContext* cx, unsigned argc, Value* vp);
+bool AsyncGeneratorReturn(JSContext* cx, unsigned argc, Value* vp);
+bool AsyncGeneratorThrow(JSContext* cx, unsigned argc, Value* vp);
+
+// AsyncGeneratorRequest record in the spec.
+// Stores the info from AsyncGenerator#{next,return,throw}.
+//
+// This object is reused across multiple requests as an optimization, and
+// stored in the Slot_CachedRequest slot.
+class AsyncGeneratorRequest : public NativeObject {
+ private:
+ enum AsyncGeneratorRequestSlots {
+ // Int32 value with CompletionKind.
+ // Normal: next
+ // Return: return
+ // Throw: throw
+ Slot_CompletionKind = 0,
+
+ // The value passed to AsyncGenerator#{next,return,throw}.
+ Slot_CompletionValue,
+
+ // The promise returned by AsyncGenerator#{next,return,throw}.
+ Slot_Promise,
+
+ Slots,
+ };
+
+ void init(CompletionKind completionKind, const Value& completionValue,
+ PromiseObject* promise) {
+ setFixedSlot(Slot_CompletionKind,
+ Int32Value(static_cast<int32_t>(completionKind)));
+ setFixedSlot(Slot_CompletionValue, completionValue);
+ setFixedSlot(Slot_Promise, ObjectValue(*promise));
+ }
+
+ // Clear the request data for reuse.
+ void clearData() {
+ setFixedSlot(Slot_CompletionValue, NullValue());
+ setFixedSlot(Slot_Promise, NullValue());
+ }
+
+ friend AsyncGeneratorObject;
+
+ public:
+ static const JSClass class_;
+
+ static AsyncGeneratorRequest* create(JSContext* cx,
+ CompletionKind completionKind,
+ HandleValue completionValue,
+ Handle<PromiseObject*> promise);
+
+ CompletionKind completionKind() const {
+ return static_cast<CompletionKind>(
+ getFixedSlot(Slot_CompletionKind).toInt32());
+ }
+ JS::Value completionValue() const {
+ return getFixedSlot(Slot_CompletionValue);
+ }
+ PromiseObject* promise() const {
+ return &getFixedSlot(Slot_Promise).toObject().as<PromiseObject>();
+ }
+};
+
+class AsyncGeneratorObject : public AbstractGeneratorObject {
+ private:
+ enum AsyncGeneratorObjectSlots {
+ // Int32 value containing one of the |State| fields from below.
+ Slot_State = AbstractGeneratorObject::RESERVED_SLOTS,
+
+ // * null value if this async generator has no requests
+ // * AsyncGeneratorRequest if this async generator has only one request
+ // * list object if this async generator has 2 or more requests
+ Slot_QueueOrRequest,
+
+ // Cached AsyncGeneratorRequest for later use.
+ // undefined if there's no cache.
+ Slot_CachedRequest,
+
+ Slots
+ };
+
+ public:
+ enum State {
+ // "suspendedStart" in the spec.
+ // Suspended after invocation.
+ State_SuspendedStart,
+
+ // "suspendedYield" in the spec
+ // Suspended with `yield` expression.
+ State_SuspendedYield,
+
+ // "executing" in the spec.
+ // Resumed from initial suspend or yield, and either running the script
+ // or awaiting for `await` expression.
+ State_Executing,
+
+ // Part of "executing" in the spec.
+ // Awaiting on the value passed by AsyncGenerator#return which is called
+ // while executing.
+ State_AwaitingYieldReturn,
+
+ // "awaiting-return" in the spec.
+ // Awaiting on the value passed by AsyncGenerator#return which is called
+ // after completed.
+ State_AwaitingReturn,
+
+ // "completed" in the spec.
+ // The generator is completed.
+ State_Completed
+ };
+
+ State state() const {
+ return static_cast<State>(getFixedSlot(Slot_State).toInt32());
+ }
+ void setState(State state_) { setFixedSlot(Slot_State, Int32Value(state_)); }
+
+ private:
+ // Queue is implemented in 2 ways. If only one request is queued ever,
+ // request is stored directly to the slot. Once 2 requests are queued, a
+ // list is created and requests are appended into it, and the list is
+ // stored to the slot.
+
+ bool isSingleQueue() const {
+ return getFixedSlot(Slot_QueueOrRequest).isNull() ||
+ getFixedSlot(Slot_QueueOrRequest)
+ .toObject()
+ .is<AsyncGeneratorRequest>();
+ }
+ bool isSingleQueueEmpty() const {
+ return getFixedSlot(Slot_QueueOrRequest).isNull();
+ }
+ void setSingleQueueRequest(AsyncGeneratorRequest* request) {
+ setFixedSlot(Slot_QueueOrRequest, ObjectValue(*request));
+ }
+ void clearSingleQueueRequest() {
+ setFixedSlot(Slot_QueueOrRequest, NullValue());
+ }
+ AsyncGeneratorRequest* singleQueueRequest() const {
+ return &getFixedSlot(Slot_QueueOrRequest)
+ .toObject()
+ .as<AsyncGeneratorRequest>();
+ }
+
+ ListObject* queue() const {
+ return &getFixedSlot(Slot_QueueOrRequest).toObject().as<ListObject>();
+ }
+ void setQueue(ListObject* queue_) {
+ setFixedSlot(Slot_QueueOrRequest, ObjectValue(*queue_));
+ }
+
+ public:
+ static const JSClass class_;
+ static const JSClassOps classOps_;
+
+ static AsyncGeneratorObject* create(JSContext* cx, HandleFunction asyncGen);
+
+ bool isSuspendedStart() const { return state() == State_SuspendedStart; }
+ bool isSuspendedYield() const { return state() == State_SuspendedYield; }
+ bool isExecuting() const { return state() == State_Executing; }
+ bool isAwaitingYieldReturn() const {
+ return state() == State_AwaitingYieldReturn;
+ }
+ bool isAwaitingReturn() const { return state() == State_AwaitingReturn; }
+ bool isCompleted() const { return state() == State_Completed; }
+
+ void setSuspendedStart() { setState(State_SuspendedStart); }
+ void setSuspendedYield() { setState(State_SuspendedYield); }
+ void setExecuting() { setState(State_Executing); }
+ void setAwaitingYieldReturn() { setState(State_AwaitingYieldReturn); }
+ void setAwaitingReturn() { setState(State_AwaitingReturn); }
+ void setCompleted() { setState(State_Completed); }
+
+ [[nodiscard]] static bool enqueueRequest(
+ JSContext* cx, Handle<AsyncGeneratorObject*> generator,
+ Handle<AsyncGeneratorRequest*> request);
+
+ static AsyncGeneratorRequest* dequeueRequest(
+ JSContext* cx, Handle<AsyncGeneratorObject*> generator);
+
+ static AsyncGeneratorRequest* peekRequest(
+ Handle<AsyncGeneratorObject*> generator);
+
+ bool isQueueEmpty() const {
+ if (isSingleQueue()) {
+ return isSingleQueueEmpty();
+ }
+ return queue()->getDenseInitializedLength() == 0;
+ }
+
+ // This function does either of the following:
+ // * return a cached request object with the slots updated
+ // * create a new request object with the slots set
+ static AsyncGeneratorRequest* createRequest(
+ JSContext* cx, Handle<AsyncGeneratorObject*> generator,
+ CompletionKind completionKind, HandleValue completionValue,
+ Handle<PromiseObject*> promise);
+
+ // Stores the given request to the generator's cache after clearing its data
+ // slots. The cached request will be reused in the subsequent createRequest
+ // call.
+ void cacheRequest(AsyncGeneratorRequest* request) {
+ if (hasCachedRequest()) {
+ return;
+ }
+
+ request->clearData();
+ setFixedSlot(Slot_CachedRequest, ObjectValue(*request));
+ }
+
+ private:
+ bool hasCachedRequest() const {
+ return getFixedSlot(Slot_CachedRequest).isObject();
+ }
+
+ AsyncGeneratorRequest* takeCachedRequest() {
+ auto request = &getFixedSlot(Slot_CachedRequest)
+ .toObject()
+ .as<AsyncGeneratorRequest>();
+ clearCachedRequest();
+ return request;
+ }
+
+ void clearCachedRequest() { setFixedSlot(Slot_CachedRequest, NullValue()); }
+};
+
+JSObject* CreateAsyncFromSyncIterator(JSContext* cx, HandleObject iter,
+ HandleValue nextMethod);
+
+class AsyncFromSyncIteratorObject : public NativeObject {
+ private:
+ enum AsyncFromSyncIteratorObjectSlots {
+ // Object that implements the sync iterator protocol.
+ Slot_Iterator = 0,
+
+ // The `next` property of the iterator object.
+ Slot_NextMethod = 1,
+
+ Slots
+ };
+
+ void init(JSObject* iterator, const Value& nextMethod) {
+ setFixedSlot(Slot_Iterator, ObjectValue(*iterator));
+ setFixedSlot(Slot_NextMethod, nextMethod);
+ }
+
+ public:
+ static const JSClass class_;
+
+ static JSObject* create(JSContext* cx, HandleObject iter,
+ HandleValue nextMethod);
+
+ JSObject* iterator() const { return &getFixedSlot(Slot_Iterator).toObject(); }
+
+ const Value& nextMethod() const { return getFixedSlot(Slot_NextMethod); }
+};
+
+class AsyncIteratorObject : public NativeObject {
+ public:
+ static const JSClass class_;
+ static const JSClass protoClass_;
+};
+
+// Iterator Helpers proposal
+class AsyncIteratorHelperObject : public NativeObject {
+ public:
+ static const JSClass class_;
+
+ enum { GeneratorSlot, SlotCount };
+
+ static_assert(GeneratorSlot == ASYNC_ITERATOR_HELPER_GENERATOR_SLOT,
+ "GeneratorSlot must match self-hosting define for generator "
+ "object slot.");
+};
+
+AsyncIteratorHelperObject* NewAsyncIteratorHelper(JSContext* cx);
+
+} // namespace js
+
+#endif /* vm_AsyncIteration_h */