/* * Copyright (c) 2020, Jack Karamanian * Copyright (c) 2021-2022, Linus Groh * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include namespace JS { // 10.4.1.3 BoundFunctionCreate ( targetFunction, boundThis, boundArgs ), https://tc39.es/ecma262/#sec-boundfunctioncreate ThrowCompletionOr BoundFunction::create(Realm& realm, FunctionObject& target_function, Value bound_this, Vector bound_arguments) { // 1. Let proto be ? targetFunction.[[GetPrototypeOf]](). auto* prototype = TRY(target_function.internal_get_prototype_of()); // 2. Let internalSlotsList be the list-concatenation of « [[Prototype]], [[Extensible]] » and the internal slots listed in Table 34. // 3. Let obj be MakeBasicObject(internalSlotsList). // 4. Set obj.[[Prototype]] to proto. // 5. Set obj.[[Call]] as described in 10.4.1.1. // 6. If IsConstructor(targetFunction) is true, then // a. Set obj.[[Construct]] as described in 10.4.1.2. // 7. Set obj.[[BoundTargetFunction]] to targetFunction. // 8. Set obj.[[BoundThis]] to boundThis. // 9. Set obj.[[BoundArguments]] to boundArgs. auto* object = realm.heap().allocate(realm, realm, target_function, bound_this, move(bound_arguments), prototype); // 10. Return obj. return object; } BoundFunction::BoundFunction(Realm& realm, FunctionObject& bound_target_function, Value bound_this, Vector bound_arguments, Object* prototype) : FunctionObject(realm, prototype) , m_bound_target_function(&bound_target_function) , m_bound_this(bound_this) , m_bound_arguments(move(bound_arguments)) // FIXME: Non-standard and redundant, remove. , m_name(String::formatted("bound {}", bound_target_function.name())) { } // 10.4.1.1 [[Call]] ( thisArgument, argumentsList ), https://tc39.es/ecma262/#sec-bound-function-exotic-objects-call-thisargument-argumentslist ThrowCompletionOr BoundFunction::internal_call([[maybe_unused]] Value this_argument, MarkedVector arguments_list) { auto& vm = this->vm(); // 1. Let target be F.[[BoundTargetFunction]]. auto& target = *m_bound_target_function; // 2. Let boundThis be F.[[BoundThis]]. auto bound_this = m_bound_this; // 3. Let boundArgs be F.[[BoundArguments]]. auto& bound_args = m_bound_arguments; // 4. Let args be the list-concatenation of boundArgs and argumentsList. auto args = MarkedVector { heap() }; args.extend(bound_args); args.extend(move(arguments_list)); // 5. Return ? Call(target, boundThis, args). return call(vm, &target, bound_this, move(args)); } // 10.4.1.2 [[Construct]] ( argumentsList, newTarget ), https://tc39.es/ecma262/#sec-bound-function-exotic-objects-construct-argumentslist-newtarget ThrowCompletionOr BoundFunction::internal_construct(MarkedVector arguments_list, FunctionObject& new_target) { auto& vm = this->vm(); // 1. Let target be F.[[BoundTargetFunction]]. auto& target = *m_bound_target_function; // 2. Assert: IsConstructor(target) is true. VERIFY(Value(&target).is_constructor()); // 3. Let boundArgs be F.[[BoundArguments]]. auto& bound_args = m_bound_arguments; // 4. Let args be the list-concatenation of boundArgs and argumentsList. auto args = MarkedVector { heap() }; args.extend(bound_args); args.extend(move(arguments_list)); // 5. If SameValue(F, newTarget) is true, set newTarget to target. auto* final_new_target = &new_target; if (this == &new_target) final_new_target = ⌖ // 6. Return ? Construct(target, args, newTarget). return construct(vm, target, move(args), final_new_target); } void BoundFunction::visit_edges(Visitor& visitor) { Base::visit_edges(visitor); visitor.visit(m_bound_target_function); visitor.visit(m_bound_this); for (auto argument : m_bound_arguments) visitor.visit(argument); } }