/* * Copyright (c) 2021-2022, Linus Groh * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include namespace JS { // 27.2.1.5 NewPromiseCapability ( C ), https://tc39.es/ecma262/#sec-newpromisecapability ThrowCompletionOr new_promise_capability(GlobalObject& global_object, Value constructor) { auto& vm = global_object.vm(); // 1. If IsConstructor(C) is false, throw a TypeError exception. if (!constructor.is_constructor()) return vm.throw_completion(global_object, ErrorType::NotAConstructor, constructor.to_string_without_side_effects()); // 2. NOTE: C is assumed to be a constructor function that supports the parameter conventions of the Promise constructor (see 27.2.3.1). // 3. Let promiseCapability be the PromiseCapability Record { [[Promise]]: undefined, [[Resolve]]: undefined, [[Reject]]: undefined }. // FIXME: This should not be stack-allocated, the executor function below can be captured and outlive it! // See https://discord.com/channels/830522505605283862/886211697843531866/900081190621569154 for some discussion. struct { Value resolve { js_undefined() }; Value reject { js_undefined() }; } promise_capability_functions; // 4. Let executorClosure be a new Abstract Closure with parameters (resolve, reject) that captures promiseCapability and performs the following steps when called: auto executor_closure = [&promise_capability_functions](auto& vm, auto& global_object) -> ThrowCompletionOr { auto resolve = vm.argument(0); auto reject = vm.argument(1); // No idea what other engines say here. // a. If promiseCapability.[[Resolve]] is not undefined, throw a TypeError exception. if (!promise_capability_functions.resolve.is_undefined()) return vm.template throw_completion(global_object, ErrorType::GetCapabilitiesExecutorCalledMultipleTimes); // b. If promiseCapability.[[Reject]] is not undefined, throw a TypeError exception. if (!promise_capability_functions.reject.is_undefined()) return vm.template throw_completion(global_object, ErrorType::GetCapabilitiesExecutorCalledMultipleTimes); // c. Set promiseCapability.[[Resolve]] to resolve. promise_capability_functions.resolve = resolve; // d. Set promiseCapability.[[Reject]] to reject. promise_capability_functions.reject = reject; // e. Return undefined. return js_undefined(); }; // 5. Let executor be CreateBuiltinFunction(executorClosure, 2, "", « »). auto* executor = NativeFunction::create(global_object, move(executor_closure), 2, ""); // 6. Let promise be ? Construct(C, « executor »). auto* promise = TRY(construct(global_object, constructor.as_function(), executor)); // 7. If IsCallable(promiseCapability.[[Resolve]]) is false, throw a TypeError exception. if (!promise_capability_functions.resolve.is_function()) return vm.throw_completion(global_object, ErrorType::NotAFunction, promise_capability_functions.resolve.to_string_without_side_effects()); // 8. If IsCallable(promiseCapability.[[Reject]]) is false, throw a TypeError exception. if (!promise_capability_functions.reject.is_function()) return vm.throw_completion(global_object, ErrorType::NotAFunction, promise_capability_functions.reject.to_string_without_side_effects()); // 9. Set promiseCapability.[[Promise]] to promise. // 10. Return promiseCapability. return PromiseCapability { promise, &promise_capability_functions.resolve.as_function(), &promise_capability_functions.reject.as_function(), }; } PromiseReaction::PromiseReaction(Type type, Optional capability, Optional handler) : m_type(type) , m_capability(move(capability)) , m_handler(move(handler)) { } void PromiseReaction::visit_edges(Cell::Visitor& visitor) { Cell::visit_edges(visitor); if (m_capability.has_value()) { auto& capability = m_capability.value(); visitor.visit(capability.promise); visitor.visit(capability.resolve); visitor.visit(capability.reject); } } }