/* * Copyright (c) 2021-2024, Linus Groh * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include namespace JS { GC_DEFINE_ALLOCATOR(PromiseConstructor); // 27.2.4.1.1 GetPromiseResolve ( promiseConstructor ), https://tc39.es/ecma262/#sec-getpromiseresolve static ThrowCompletionOr get_promise_resolve(VM& vm, Value constructor) { VERIFY(constructor.is_constructor()); // 1. Let promiseResolve be ? Get(promiseConstructor, "resolve"). auto promise_resolve = TRY(constructor.get(vm, vm.names.resolve)); // 2. If IsCallable(promiseResolve) is false, throw a TypeError exception. if (!promise_resolve.is_function()) return vm.throw_completion(ErrorType::NotAFunction, promise_resolve.to_string_without_side_effects()); // 3. Return promiseResolve. return promise_resolve; } using EndOfElementsCallback = Function(PromiseValueList&)>; using InvokeElementFunctionCallback = Function(PromiseValueList&, RemainingElements&, Value, size_t)>; static ThrowCompletionOr perform_promise_common(VM& vm, IteratorRecord& iterator_record, Value constructor, PromiseCapability const& result_capability, Value promise_resolve, EndOfElementsCallback end_of_list, InvokeElementFunctionCallback invoke_element_function) { VERIFY(constructor.is_constructor()); VERIFY(promise_resolve.is_function()); // 1. Let values be a new empty List. auto values = vm.heap().allocate(); // 2. Let remainingElementsCount be the Record { [[Value]]: 1 }. auto remaining_elements_count = vm.heap().allocate(1); // 3. Let index be 0. size_t index = 0; // 4. Repeat, while (true) { // a. Let next be ? IteratorStepValue(iteratorRecord). auto next = TRY(iterator_step_value(vm, iterator_record)); // b. If next is DONE, then if (!next.has_value()) { // i. Set remainingElementsCount.[[Value]] to remainingElementsCount.[[Value]] - 1. // ii. If remainingElementsCount.[[Value]] = 0, then if (--remaining_elements_count->value == 0) { // 1-2. are handled in `end_of_list` return TRY(end_of_list(*values)); } // iii. Return resultCapability.[[Promise]]. return result_capability.promise(); } // c. Append undefined to values. values->values().append(js_undefined()); // d. Let nextPromise be ? Call(promiseResolve, constructor, « next »). auto next_promise = TRY(call(vm, promise_resolve.as_function(), constructor, next.release_value())); // e-l. are handled in `invoke_element_function` // m. Set remainingElementsCount.[[Value]] to remainingElementsCount.[[Value]] + 1. ++remaining_elements_count->value; // n. Perform ? Invoke(nextPromise, "then", « ... »). TRY(invoke_element_function(*values, *remaining_elements_count, next_promise, index)); // o. Set index to index + 1. ++index; } } // 27.2.4.1.2 PerformPromiseAll ( iteratorRecord, constructor, resultCapability, promiseResolve ), https://tc39.es/ecma262/#sec-performpromiseall static ThrowCompletionOr perform_promise_all(VM& vm, IteratorRecord& iterator_record, Value constructor, PromiseCapability const& result_capability, Value promise_resolve) { auto& realm = *vm.current_realm(); return perform_promise_common( vm, iterator_record, constructor, result_capability, promise_resolve, [&](PromiseValueList& values) -> ThrowCompletionOr { // 1. Let valuesArray be CreateArrayFromList(values). auto values_array = Array::create_from(realm, values.values()); // 2. Perform ? Call(resultCapability.[[Resolve]], undefined, « valuesArray »). TRY(call(vm, *result_capability.resolve(), js_undefined(), values_array)); // iv. Return resultCapability.[[Promise]]. return result_capability.promise(); }, [&](PromiseValueList& values, RemainingElements& remaining_elements_count, Value next_promise, size_t index) { // j. Let steps be the algorithm steps defined in Promise.all Resolve Element Functions. // k. Let length be the number of non-optional parameters of the function definition in Promise.all Resolve Element Functions. // l. Let onFulfilled be CreateBuiltinFunction(steps, length, "", « [[AlreadyCalled]], [[Index]], [[Values]], [[Capability]], [[RemainingElements]] »). // m. Set onFulfilled.[[AlreadyCalled]] to false. // n. Set onFulfilled.[[Index]] to index. // o. Set onFulfilled.[[Values]] to values. // p. Set onFulfilled.[[Capability]] to resultCapability. // q. Set onFulfilled.[[RemainingElements]] to remainingElementsCount. auto on_fulfilled = PromiseAllResolveElementFunction::create(realm, index, values, result_capability, remaining_elements_count); on_fulfilled->define_direct_property(vm.names.name, PrimitiveString::create(vm, String {}), Attribute::Configurable); // s. Perform ? Invoke(nextPromise, "then", « onFulfilled, resultCapability.[[Reject]] »). return next_promise.invoke(vm, vm.names.then, on_fulfilled, result_capability.reject()); }); } // 27.2.4.2.1 PerformPromiseAllSettled ( iteratorRecord, constructor, resultCapability, promiseResolve ), https://tc39.es/ecma262/#sec-performpromiseallsettled static ThrowCompletionOr perform_promise_all_settled(VM& vm, IteratorRecord& iterator_record, Value constructor, PromiseCapability const& result_capability, Value promise_resolve) { auto& realm = *vm.current_realm(); return perform_promise_common( vm, iterator_record, constructor, result_capability, promise_resolve, [&](PromiseValueList& values) -> ThrowCompletionOr { auto values_array = Array::create_from(realm, values.values()); TRY(call(vm, *result_capability.resolve(), js_undefined(), values_array)); return result_capability.promise(); }, [&](PromiseValueList& values, RemainingElements& remaining_elements_count, Value next_promise, size_t index) { // j. Let stepsFulfilled be the algorithm steps defined in Promise.allSettled Resolve Element Functions. // k. Let lengthFulfilled be the number of non-optional parameters of the function definition in Promise.allSettled Resolve Element Functions. // l. Let onFulfilled be CreateBuiltinFunction(stepsFulfilled, lengthFulfilled, "", « [[AlreadyCalled]], [[Index]], [[Values]], [[Capability]], [[RemainingElements]] »). // m. Let alreadyCalled be the Record { [[Value]]: false }. // n. Set onFulfilled.[[AlreadyCalled]] to alreadyCalled. // o. Set onFulfilled.[[Index]] to index. // p. Set onFulfilled.[[Values]] to values. // q. Set onFulfilled.[[Capability]] to resultCapability. // r. Set onFulfilled.[[RemainingElements]] to remainingElementsCount. auto on_fulfilled = PromiseAllSettledResolveElementFunction::create(realm, index, values, result_capability, remaining_elements_count); on_fulfilled->define_direct_property(vm.names.name, PrimitiveString::create(vm, String {}), Attribute::Configurable); // s. Let stepsRejected be the algorithm steps defined in Promise.allSettled Reject Element Functions. // t. Let lengthRejected be the number of non-optional parameters of the function definition in Promise.allSettled Reject Element Functions. // u. Let onRejected be CreateBuiltinFunction(stepsRejected, lengthRejected, "", « [[AlreadyCalled]], [[Index]], [[Values]], [[Capability]], [[RemainingElements]] »). // v. Set onRejected.[[AlreadyCalled]] to alreadyCalled. // w. Set onRejected.[[Index]] to index. // x. Set onRejected.[[Values]] to values. // y. Set onRejected.[[Capability]] to resultCapability. // z. Set onRejected.[[RemainingElements]] to remainingElementsCount. auto on_rejected = PromiseAllSettledRejectElementFunction::create(realm, index, values, result_capability, remaining_elements_count); on_rejected->define_direct_property(vm.names.name, PrimitiveString::create(vm, String {}), Attribute::Configurable); // ab. Perform ? Invoke(nextPromise, "then", « onFulfilled, onRejected »). return next_promise.invoke(vm, vm.names.then, on_fulfilled, on_rejected); }); } // 27.2.4.3.1 PerformPromiseAny ( iteratorRecord, constructor, resultCapability, promiseResolve ), https://tc39.es/ecma262/#sec-performpromiseany static ThrowCompletionOr perform_promise_any(VM& vm, IteratorRecord& iterator_record, Value constructor, PromiseCapability& result_capability, Value promise_resolve) { auto& realm = *vm.current_realm(); return perform_promise_common( vm, iterator_record, constructor, result_capability, promise_resolve, [&](PromiseValueList& errors) -> ThrowCompletionOr { // 1. Let error be a newly created AggregateError object. auto error = AggregateError::create(realm); // 2. Perform ! DefinePropertyOrThrow(error, "errors", PropertyDescriptor { [[Configurable]]: true, [[Enumerable]]: false, [[Writable]]: true, [[Value]]: CreateArrayFromList(errors) }). auto errors_array = Array::create_from(realm, errors.values()); MUST(error->define_property_or_throw(vm.names.errors, { .value = errors_array, .writable = true, .enumerable = false, .configurable = true })); // 3. Return ThrowCompletion(error). return throw_completion(error); }, [&](PromiseValueList& errors, RemainingElements& remaining_elements_count, Value next_promise, size_t index) { // j. Let stepsRejected be the algorithm steps defined in Promise.any Reject Element Functions. // k. Let lengthRejected be the number of non-optional parameters of the function definition in Promise.any Reject Element Functions. // l. Let onRejected be CreateBuiltinFunction(stepsRejected, lengthRejected, "", « [[AlreadyCalled]], [[Index]], [[Errors]], [[Capability]], [[RemainingElements]] »). // m. Set onRejected.[[AlreadyCalled]] to false. // n. Set onRejected.[[Index]] to index. // o. Set onRejected.[[Errors]] to errors. // p. Set onRejected.[[Capability]] to resultCapability. // q. Set onRejected.[[RemainingElements]] to remainingElementsCount. auto on_rejected = PromiseAnyRejectElementFunction::create(realm, index, errors, result_capability, remaining_elements_count); on_rejected->define_direct_property(vm.names.name, PrimitiveString::create(vm, String {}), Attribute::Configurable); // s. Perform ? Invoke(nextPromise, "then", « resultCapability.[[Resolve]], onRejected »). return next_promise.invoke(vm, vm.names.then, result_capability.resolve(), on_rejected); }); } // 27.2.4.5.1 PerformPromiseRace ( iteratorRecord, constructor, resultCapability, promiseResolve ), https://tc39.es/ecma262/#sec-performpromiserace static ThrowCompletionOr perform_promise_race(VM& vm, IteratorRecord& iterator_record, Value constructor, PromiseCapability const& result_capability, Value promise_resolve) { return perform_promise_common( vm, iterator_record, constructor, result_capability, promise_resolve, [&](PromiseValueList&) -> ThrowCompletionOr { // ii. Return resultCapability.[[Promise]]. return result_capability.promise(); }, [&](PromiseValueList&, RemainingElements&, Value next_promise, size_t) { // i. Perform ? Invoke(nextPromise, "then", « resultCapability.[[Resolve]], resultCapability.[[Reject]] »). return next_promise.invoke(vm, vm.names.then, result_capability.resolve(), result_capability.reject()); }); } PromiseConstructor::PromiseConstructor(Realm& realm) : NativeFunction(realm.vm().names.Promise.as_string(), realm.intrinsics().function_prototype()) { } void PromiseConstructor::initialize(Realm& realm) { auto& vm = this->vm(); Base::initialize(realm); // 27.2.4.4 Promise.prototype, https://tc39.es/ecma262/#sec-promise.prototype define_direct_property(vm.names.prototype, realm.intrinsics().promise_prototype(), 0); u8 attr = Attribute::Writable | Attribute::Configurable; define_native_function(realm, vm.names.all, all, 1, attr); define_native_function(realm, vm.names.allSettled, all_settled, 1, attr); define_native_function(realm, vm.names.any, any, 1, attr); define_native_function(realm, vm.names.race, race, 1, attr); define_native_function(realm, vm.names.reject, reject, 1, attr); define_native_function(realm, vm.names.resolve, resolve, 1, attr); define_native_function(realm, vm.names.try_, try_, 1, attr); define_native_function(realm, vm.names.withResolvers, with_resolvers, 0, attr); define_native_accessor(realm, vm.well_known_symbol_species(), symbol_species_getter, {}, Attribute::Configurable); define_direct_property(vm.names.length, Value(1), Attribute::Configurable); } // 27.2.3.1 Promise ( executor ), https://tc39.es/ecma262/#sec-promise-executor ThrowCompletionOr PromiseConstructor::call() { auto& vm = this->vm(); // 1. If NewTarget is undefined, throw a TypeError exception. return vm.throw_completion(ErrorType::ConstructorWithoutNew, vm.names.Promise); } // 27.2.3.1 Promise ( executor ), https://tc39.es/ecma262/#sec-promise-executor ThrowCompletionOr> PromiseConstructor::construct(FunctionObject& new_target) { auto& vm = this->vm(); auto executor = vm.argument(0); // 2. If IsCallable(executor) is false, throw a TypeError exception. if (!executor.is_function()) return vm.throw_completion(ErrorType::PromiseExecutorNotAFunction); // 3. Let promise be ? OrdinaryCreateFromConstructor(NewTarget, "%Promise.prototype%", « [[PromiseState]], [[PromiseResult]], [[PromiseFulfillReactions]], [[PromiseRejectReactions]], [[PromiseIsHandled]] »). // 4. Set promise.[[PromiseState]] to pending. // 5. Set promise.[[PromiseFulfillReactions]] to a new empty List. // 6. Set promise.[[PromiseRejectReactions]] to a new empty List. // 7. Set promise.[[PromiseIsHandled]] to false. auto promise = TRY(ordinary_create_from_constructor(vm, new_target, &Intrinsics::promise_prototype)); // 8. Let resolvingFunctions be CreateResolvingFunctions(promise). auto [resolve_function, reject_function] = promise->create_resolving_functions(); // 9. Let completion be Completion(Call(executor, undefined, « resolvingFunctions.[[Resolve]], resolvingFunctions.[[Reject]] »)). auto completion = JS::call(vm, executor.as_function(), js_undefined(), resolve_function, reject_function); // 10. If completion is an abrupt completion, then if (completion.is_error()) { // a. Perform ? Call(resolvingFunctions.[[Reject]], undefined, « completion.[[Value]] »). TRY(JS::call(vm, *reject_function, js_undefined(), *completion.release_error().value())); } // 11. Return promise. return promise; } // 27.2.4.1 Promise.all ( iterable ), https://tc39.es/ecma262/#sec-promise.all JS_DEFINE_NATIVE_FUNCTION(PromiseConstructor::all) { // 1. Let C be the this value. auto constructor = TRY(vm.this_value().to_object(vm)); // 2. Let promiseCapability be ? NewPromiseCapability(C). auto promise_capability = TRY(new_promise_capability(vm, constructor)); // 3. Let promiseResolve be Completion(GetPromiseResolve(C)). // 4. IfAbruptRejectPromise(promiseResolve, promiseCapability). auto promise_resolve = TRY_OR_REJECT(vm, promise_capability, get_promise_resolve(vm, constructor)); // 5. Let iteratorRecord be Completion(GetIterator(iterable, sync)). // 6. IfAbruptRejectPromise(iteratorRecord, promiseCapability). auto iterator_record = TRY_OR_REJECT(vm, promise_capability, get_iterator(vm, vm.argument(0), IteratorHint::Sync)); // 7. Let result be Completion(PerformPromiseAll(iteratorRecord, C, promiseCapability, promiseResolve)). auto result = perform_promise_all(vm, iterator_record, constructor, promise_capability, promise_resolve); // 8. If result is an abrupt completion, then if (result.is_error()) { // a. If iteratorRecord.[[Done]] is false, set result to Completion(IteratorClose(iteratorRecord, result)). if (!iterator_record->done) result = iterator_close(vm, iterator_record, result.release_error()); // b. IfAbruptRejectPromise(result, promiseCapability). TRY_OR_REJECT(vm, promise_capability, result); } // 9. Return ? result. return result; } // 27.2.4.2 Promise.allSettled ( iterable ), https://tc39.es/ecma262/#sec-promise.allsettled JS_DEFINE_NATIVE_FUNCTION(PromiseConstructor::all_settled) { // 1. Let C be the this value. auto constructor = TRY(vm.this_value().to_object(vm)); // 2. Let promiseCapability be ? NewPromiseCapability(C). auto promise_capability = TRY(new_promise_capability(vm, constructor)); // 3. Let promiseResolve be Completion(GetPromiseResolve(C)). // 4. IfAbruptRejectPromise(promiseResolve, promiseCapability). auto promise_resolve = TRY_OR_REJECT(vm, promise_capability, get_promise_resolve(vm, constructor)); // 5. Let iteratorRecord be Completion(GetIterator(iterable, sync)). // 6. IfAbruptRejectPromise(iteratorRecord, promiseCapability). auto iterator_record = TRY_OR_REJECT(vm, promise_capability, get_iterator(vm, vm.argument(0), IteratorHint::Sync)); // 7. Let result be Completion(PerformPromiseAllSettled(iteratorRecord, C, promiseCapability, promiseResolve)). auto result = perform_promise_all_settled(vm, iterator_record, constructor, promise_capability, promise_resolve); // 8. If result is an abrupt completion, then if (result.is_error()) { // a. If iteratorRecord.[[Done]] is false, set result to Completion(IteratorClose(iteratorRecord, result)). if (!iterator_record->done) result = iterator_close(vm, iterator_record, result.release_error()); // b. IfAbruptRejectPromise(result, promiseCapability). TRY_OR_REJECT(vm, promise_capability, result); } // 9. Return ? result. return result; } // 27.2.4.3 Promise.any ( iterable ), https://tc39.es/ecma262/#sec-promise.any JS_DEFINE_NATIVE_FUNCTION(PromiseConstructor::any) { // 1. Let C be the this value. auto constructor = TRY(vm.this_value().to_object(vm)); // 2. Let promiseCapability be ? NewPromiseCapability(C). auto promise_capability = TRY(new_promise_capability(vm, constructor)); // 3. Let promiseResolve be Completion(GetPromiseResolve(C)). // 4. IfAbruptRejectPromise(promiseResolve, promiseCapability). auto promise_resolve = TRY_OR_REJECT(vm, promise_capability, get_promise_resolve(vm, constructor)); // 5. Let iteratorRecord be Completion(GetIterator(iterable, sync)). // 6. IfAbruptRejectPromise(iteratorRecord, promiseCapability). auto iterator_record = TRY_OR_REJECT(vm, promise_capability, get_iterator(vm, vm.argument(0), IteratorHint::Sync)); // 7. Let result be Completion(PerformPromiseAny(iteratorRecord, C, promiseCapability, promiseResolve)). auto result = perform_promise_any(vm, iterator_record, constructor, promise_capability, promise_resolve); // 8. If result is an abrupt completion, then if (result.is_error()) { // a. If iteratorRecord.[[Done]] is false, set result to Completion(IteratorClose(iteratorRecord, result)). if (!iterator_record->done) result = iterator_close(vm, iterator_record, result.release_error()); // b. IfAbruptRejectPromise(result, promiseCapability). TRY_OR_REJECT(vm, promise_capability, result); } // 9. Return ? result. return result; } // 27.2.4.5 Promise.race ( iterable ), https://tc39.es/ecma262/#sec-promise.race JS_DEFINE_NATIVE_FUNCTION(PromiseConstructor::race) { // 1. Let C be the this value. auto constructor = TRY(vm.this_value().to_object(vm)); // 2. Let promiseCapability be ? NewPromiseCapability(C). auto promise_capability = TRY(new_promise_capability(vm, constructor)); // 3. Let promiseResolve be Completion(GetPromiseResolve(C)). // 4. IfAbruptRejectPromise(promiseResolve, promiseCapability). auto promise_resolve = TRY_OR_REJECT(vm, promise_capability, get_promise_resolve(vm, constructor)); // 5. Let iteratorRecord be Completion(GetIterator(iterable, sync)). // 6. IfAbruptRejectPromise(iteratorRecord, promiseCapability). auto iterator_record = TRY_OR_REJECT(vm, promise_capability, get_iterator(vm, vm.argument(0), IteratorHint::Sync)); // 7. Let result be Completion(PerformPromiseRace(iteratorRecord, C, promiseCapability, promiseResolve)). auto result = perform_promise_race(vm, iterator_record, constructor, promise_capability, promise_resolve); // 8. If result is an abrupt completion, then if (result.is_error()) { // a. If iteratorRecord.[[Done]] is false, set result to Completion(IteratorClose(iteratorRecord, result)). if (!iterator_record->done) result = iterator_close(vm, iterator_record, result.release_error()); // b. IfAbruptRejectPromise(result, promiseCapability). TRY_OR_REJECT(vm, promise_capability, result); } // 9. Return ? result. return result; } // 27.2.4.6 Promise.reject ( r ), https://tc39.es/ecma262/#sec-promise.reject JS_DEFINE_NATIVE_FUNCTION(PromiseConstructor::reject) { auto reason = vm.argument(0); // 1. Let C be the this value. auto constructor = TRY(vm.this_value().to_object(vm)); // 2. Let promiseCapability be ? NewPromiseCapability(C). auto promise_capability = TRY(new_promise_capability(vm, constructor)); // 3. Perform ? Call(promiseCapability.[[Reject]], undefined, « r »). [[maybe_unused]] auto result = TRY(JS::call(vm, *promise_capability->reject(), js_undefined(), reason)); // 4. Return promiseCapability.[[Promise]]. return promise_capability->promise(); } // 27.2.4.7 Promise.resolve ( x ), https://tc39.es/ecma262/#sec-promise.resolve JS_DEFINE_NATIVE_FUNCTION(PromiseConstructor::resolve) { auto value = vm.argument(0); // 1. Let C be the this value. auto constructor = vm.this_value(); // 2. If Type(C) is not Object, throw a TypeError exception. if (!constructor.is_object()) return vm.throw_completion(ErrorType::NotAnObject, constructor.to_string_without_side_effects()); // 3. Return ? PromiseResolve(C, x). return TRY(promise_resolve(vm, constructor.as_object(), value)); } // 27.2.4.8 Promise.try ( callback, ...args ), https://tc39.es/ecma262/#sec-promise.try JS_DEFINE_NATIVE_FUNCTION(PromiseConstructor::try_) { auto callback = vm.argument(0); Span args; if (vm.argument_count() > 1) { args = vm.running_execution_context().arguments.span().slice(1, vm.argument_count() - 1); } // 1. Let C be the this value. auto constructor = vm.this_value(); // 2. If C is not an Object, throw a TypeError exception. if (!constructor.is_object()) return vm.throw_completion(ErrorType::NotAnObject, constructor.to_string_without_side_effects()); // 3. Let promiseCapability be ? NewPromiseCapability(C). auto promise_capability = TRY(new_promise_capability(vm, constructor)); // 4. Let status be Completion(Call(callback, undefined, args)). auto status = JS::call(vm, callback, js_undefined(), args); // 5. If status is an abrupt completion, then if (status.is_throw_completion()) { // a. Perform ? Call(promiseCapability.[[Reject]], undefined, « status.[[Value]] »). TRY(JS::call(vm, *promise_capability->reject(), js_undefined(), *status.throw_completion().value())); } // 6. Else, else { // a. Perform ? Call(promiseCapability.[[Resolve]], undefined, « status.[[Value]] »). TRY(JS::call(vm, *promise_capability->resolve(), js_undefined(), status.value())); } // 7. Return promiseCapability.[[Promise]]. return promise_capability->promise(); } // 27.2.4.9 Promise.withResolvers ( ), https://tc39.es/ecma262/#sec-promise.withResolvers JS_DEFINE_NATIVE_FUNCTION(PromiseConstructor::with_resolvers) { auto& realm = *vm.current_realm(); // 1. Let C be the this value. auto constructor = vm.this_value(); // 2. Let promiseCapability be ? NewPromiseCapability(C). auto promise_capability = TRY(new_promise_capability(vm, constructor)); // 3. Let obj be OrdinaryObjectCreate(%Object.prototype%). auto object = Object::create(realm, realm.intrinsics().object_prototype()); // 4. Perform ! CreateDataPropertyOrThrow(obj, "promise", promiseCapability.[[Promise]]). MUST(object->create_data_property_or_throw(vm.names.promise, promise_capability->promise())); // 5. Perform ! CreateDataPropertyOrThrow(obj, "resolve", promiseCapability.[[Resolve]]). MUST(object->create_data_property_or_throw(vm.names.resolve, promise_capability->resolve())); // 6. Perform ! CreateDataPropertyOrThrow(obj, "reject", promiseCapability.[[Reject]]). MUST(object->create_data_property_or_throw(vm.names.reject, promise_capability->reject())); // 7. Return obj. return object; } // 27.2.4.10 get Promise [ @@species ], https://tc39.es/ecma262/#sec-get-promise-@@species JS_DEFINE_NATIVE_FUNCTION(PromiseConstructor::symbol_species_getter) { // 1. Return the this value. return vm.this_value(); } }