mirror of
https://github.com/LadybirdBrowser/ladybird.git
synced 2024-12-01 12:00:27 +00:00
f87041bf3a
Resulting in a massive rename across almost everywhere! Alongside the namespace change, we now have the following names: * JS::NonnullGCPtr -> GC::Ref * JS::GCPtr -> GC::Ptr * JS::HeapFunction -> GC::Function * JS::CellImpl -> GC::Cell * JS::Handle -> GC::Root
585 lines
22 KiB
C++
585 lines
22 KiB
C++
/*
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* Copyright (c) 2020, Andreas Kling <andreas@ladybird.org>
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* Copyright (c) 2020-2023, Linus Groh <linusg@serenityos.org>
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* Copyright (c) 2023, Shannon Booth <shannon@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/Function.h>
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#include <LibJS/Runtime/AbstractOperations.h>
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#include <LibJS/Runtime/Array.h>
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#include <LibJS/Runtime/ArrayConstructor.h>
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#include <LibJS/Runtime/AsyncFromSyncIteratorPrototype.h>
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#include <LibJS/Runtime/Completion.h>
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#include <LibJS/Runtime/ECMAScriptFunctionObject.h>
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#include <LibJS/Runtime/Error.h>
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#include <LibJS/Runtime/GlobalObject.h>
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#include <LibJS/Runtime/Iterator.h>
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#include <LibJS/Runtime/PromiseCapability.h>
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#include <LibJS/Runtime/PromiseConstructor.h>
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#include <LibJS/Runtime/Shape.h>
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namespace JS {
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GC_DEFINE_ALLOCATOR(ArrayConstructor);
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ArrayConstructor::ArrayConstructor(Realm& realm)
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: NativeFunction(realm.vm().names.Array.as_string(), realm.intrinsics().function_prototype())
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{
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}
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void ArrayConstructor::initialize(Realm& realm)
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{
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auto& vm = this->vm();
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Base::initialize(realm);
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// 23.1.2.4 Array.prototype, https://tc39.es/ecma262/#sec-array.prototype
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define_direct_property(vm.names.prototype, realm.intrinsics().array_prototype(), 0);
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u8 attr = Attribute::Writable | Attribute::Configurable;
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define_native_function(realm, vm.names.from, from, 1, attr);
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define_native_function(realm, vm.names.fromAsync, from_async, 1, attr);
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define_native_function(realm, vm.names.isArray, is_array, 1, attr);
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define_native_function(realm, vm.names.of, of, 0, attr);
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// 23.1.2.5 get Array [ @@species ], https://tc39.es/ecma262/#sec-get-array-@@species
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define_native_accessor(realm, vm.well_known_symbol_species(), symbol_species_getter, {}, Attribute::Configurable);
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define_direct_property(vm.names.length, Value(1), Attribute::Configurable);
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}
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// 23.1.1.1 Array ( ...values ), https://tc39.es/ecma262/#sec-array
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ThrowCompletionOr<Value> ArrayConstructor::call()
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{
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// 1. If NewTarget is undefined, let newTarget be the active function object; else let newTarget be NewTarget.
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return TRY(construct(*this));
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}
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// 23.1.1.1 Array ( ...values ), https://tc39.es/ecma262/#sec-array
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ThrowCompletionOr<GC::Ref<Object>> ArrayConstructor::construct(FunctionObject& new_target)
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{
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auto& vm = this->vm();
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auto& realm = *vm.current_realm();
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// 2. Let proto be ? GetPrototypeFromConstructor(newTarget, "%Array.prototype%").
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auto* proto = TRY(get_prototype_from_constructor(vm, new_target, &Intrinsics::array_prototype));
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// 3. Let numberOfArgs be the number of elements in values.
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// 4. If numberOfArgs = 0, then
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if (vm.argument_count() == 0) {
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// a. Return ! ArrayCreate(0, proto).
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return MUST(Array::create(realm, 0, proto));
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}
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// 5. Else if numberOfArgs = 1, then
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if (vm.argument_count() == 1) {
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// a. Let len be values[0].
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auto length = vm.argument(0);
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// b. Let array be ! ArrayCreate(0, proto).
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auto array = MUST(Array::create(realm, 0, proto));
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size_t int_length;
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// c. If len is not a Number, then
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if (!length.is_number()) {
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// i. Perform ! CreateDataPropertyOrThrow(array, "0", len).
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MUST(array->create_data_property_or_throw(0, length));
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// ii. Let intLen be 1𝔽.
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int_length = 1;
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}
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// d. Else,
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else {
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// i. Let intLen be ! ToUint32(len).
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int_length = MUST(length.to_u32(vm));
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// ii. If SameValueZero(intLen, len) is false, throw a RangeError exception.
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if (int_length != length.as_double())
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return vm.throw_completion<RangeError>(ErrorType::InvalidLength, "array");
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}
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// e. Perform ! Set(array, "length", intLen, true).
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TRY(array->set(vm.names.length, Value(int_length), Object::ShouldThrowExceptions::Yes));
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// f. Return array.
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return array;
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}
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// 6. Else,
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// a. Assert: numberOfArgs ≥ 2.
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VERIFY(vm.argument_count() >= 2);
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// b. Let array be ? ArrayCreate(numberOfArgs, proto).
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auto array = TRY(Array::create(realm, vm.argument_count(), proto));
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// c. Let k be 0.
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// d. Repeat, while k < numberOfArgs,
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for (size_t k = 0; k < vm.argument_count(); ++k) {
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// i. Let Pk be ! ToString(𝔽(k)).
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auto property_key = PropertyKey { k };
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// ii. Let itemK be values[k].
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auto item_k = vm.argument(k);
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// iii. Perform ! CreateDataPropertyOrThrow(array, Pk, itemK).
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MUST(array->create_data_property_or_throw(property_key, item_k));
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// iv. Set k to k + 1.
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}
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// e. Assert: The mathematical value of array's "length" property is numberOfArgs.
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// f. Return array.
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return array;
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}
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// 23.1.2.1 Array.from ( items [ , mapfn [ , thisArg ] ] ), https://tc39.es/ecma262/#sec-array.from
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JS_DEFINE_NATIVE_FUNCTION(ArrayConstructor::from)
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{
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auto& realm = *vm.current_realm();
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auto items = vm.argument(0);
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auto mapfn_value = vm.argument(1);
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auto this_arg = vm.argument(2);
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// 1. Let C be the this value.
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auto constructor = vm.this_value();
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// 2. If mapfn is undefined, let mapping be false.
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GC::Ptr<FunctionObject> mapfn;
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// 3. Else,
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if (!mapfn_value.is_undefined()) {
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// a. If IsCallable(mapfn) is false, throw a TypeError exception.
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if (!mapfn_value.is_function())
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return vm.throw_completion<TypeError>(ErrorType::NotAFunction, mapfn_value.to_string_without_side_effects());
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// b. Let mapping be true.
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mapfn = &mapfn_value.as_function();
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}
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// 4. Let usingIterator be ? GetMethod(items, @@iterator).
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auto using_iterator = TRY(items.get_method(vm, vm.well_known_symbol_iterator()));
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// 5. If usingIterator is not undefined, then
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if (using_iterator) {
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GC::Ptr<Object> array;
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// a. If IsConstructor(C) is true, then
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if (constructor.is_constructor()) {
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// i. Let A be ? Construct(C).
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array = TRY(JS::construct(vm, constructor.as_function()));
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}
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// b. Else,
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else {
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// i. Let A be ! ArrayCreate(0).
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array = MUST(Array::create(realm, 0));
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}
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// c. Let iteratorRecord be ? GetIteratorFromMethod(items, usingIterator).
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auto iterator = TRY(get_iterator_from_method(vm, items, *using_iterator));
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// d. Let k be 0.
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// e. Repeat,
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for (size_t k = 0;; ++k) {
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// i. If k ≥ 2^53 - 1, then
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if (k >= MAX_ARRAY_LIKE_INDEX) {
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// 1. Let error be ThrowCompletion(a newly created TypeError object).
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auto error = vm.throw_completion<TypeError>(ErrorType::ArrayMaxSize);
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// 2. Return ? IteratorClose(iteratorRecord, error).
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return *TRY(iterator_close(vm, iterator, move(error)));
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}
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// ii. Let Pk be ! ToString(𝔽(k)).
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auto property_key = PropertyKey { k };
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// iii. Let next be ? IteratorStepValue(iteratorRecord).
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auto next = TRY(iterator_step_value(vm, iterator));
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// iv. If next is DONE, then
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if (!next.has_value()) {
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// 1. Perform ? Set(A, "length", 𝔽(k), true).
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TRY(array->set(vm.names.length, Value(k), Object::ShouldThrowExceptions::Yes));
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// 2. Return A.
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return array;
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}
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Value mapped_value;
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// v. If mapping is true, then
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if (mapfn) {
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// 1. Let mappedValue be Completion(Call(mapfn, thisArg, « nextValue, 𝔽(k) »)).
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auto mapped_value_or_error = JS::call(vm, *mapfn, this_arg, next.release_value(), Value(k));
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// 2. IfAbruptCloseIterator(mappedValue, iteratorRecord).
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if (mapped_value_or_error.is_error())
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return *TRY(iterator_close(vm, iterator, mapped_value_or_error.release_error()));
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mapped_value = mapped_value_or_error.release_value();
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}
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// vi. Else, let mappedValue be nextValue.
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else {
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mapped_value = next.release_value();
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}
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// vii. Let defineStatus be Completion(CreateDataPropertyOrThrow(A, Pk, mappedValue)).
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auto result_or_error = array->create_data_property_or_throw(property_key, mapped_value);
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// viii. IfAbruptCloseIterator(defineStatus, iteratorRecord).
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if (result_or_error.is_error())
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return *TRY(iterator_close(vm, iterator, result_or_error.release_error()));
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// ix. Set k to k + 1.
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}
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}
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// 6. NOTE: items is not an Iterable so assume it is an array-like object.
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// 7. Let arrayLike be ! ToObject(items).
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auto array_like = MUST(items.to_object(vm));
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// 8. Let len be ? LengthOfArrayLike(arrayLike).
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auto length = TRY(length_of_array_like(vm, array_like));
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GC::Ptr<Object> array;
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// 9. If IsConstructor(C) is true, then
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if (constructor.is_constructor()) {
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// a. Let A be ? Construct(C, « 𝔽(len) »).
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array = TRY(JS::construct(vm, constructor.as_function(), Value(length)));
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} else {
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// a. Let A be ? ArrayCreate(len).
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array = TRY(Array::create(realm, length));
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}
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// 11. Let k be 0.
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// 12. Repeat, while k < len,
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for (size_t k = 0; k < length; ++k) {
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// a. Let Pk be ! ToString(𝔽(k)).
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auto property_key = PropertyKey { k };
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// b. Let kValue be ? Get(arrayLike, Pk).
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auto k_value = TRY(array_like->get(property_key));
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Value mapped_value;
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// c. If mapping is true, then
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if (mapfn) {
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// i. Let mappedValue be ? Call(mapfn, thisArg, « kValue, 𝔽(k) »).
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mapped_value = TRY(JS::call(vm, *mapfn, this_arg, k_value, Value(k)));
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}
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// d. Else, let mappedValue be kValue.
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else {
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mapped_value = k_value;
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}
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// e. Perform ? CreateDataPropertyOrThrow(A, Pk, mappedValue).
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TRY(array->create_data_property_or_throw(property_key, mapped_value));
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// f. Set k to k + 1.
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}
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// 13. Perform ? Set(A, "length", 𝔽(len), true).
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TRY(array->set(vm.names.length, Value(length), Object::ShouldThrowExceptions::Yes));
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// 14. Return A.
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return array;
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}
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// 2.1.1.1 Array.fromAsync ( asyncItems [ , mapfn [ , thisArg ] ] ), https://tc39.es/proposal-array-from-async/#sec-array.fromAsync
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JS_DEFINE_NATIVE_FUNCTION(ArrayConstructor::from_async)
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{
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auto& realm = *vm.current_realm();
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auto async_items = vm.argument(0);
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auto mapfn = vm.argument(1);
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auto this_arg = vm.argument(2);
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// 1. Let C be the this value.
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auto constructor = vm.this_value();
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// 2. Let promiseCapability be ! NewPromiseCapability(%Promise%).
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auto promise_capability = MUST(new_promise_capability(vm, realm.intrinsics().promise_constructor()));
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// 3. Let fromAsyncClosure be a new Abstract Closure with no parameters that captures C, mapfn, and thisArg and performs the following steps when called:
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auto from_async_closure = GC::create_function(realm.heap(), [constructor, mapfn, this_arg, &vm, &realm, async_items]() mutable -> Completion {
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bool mapping;
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// a. If mapfn is undefined, let mapping be false.
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if (mapfn.is_undefined()) {
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mapping = false;
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}
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// b. Else,
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else {
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// i. If IsCallable(mapfn) is false, throw a TypeError exception.
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if (!mapfn.is_function())
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return vm.throw_completion<TypeError>(ErrorType::NotAFunction, mapfn.to_string_without_side_effects());
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// ii. Let mapping be true.
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mapping = true;
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}
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// c. Let usingAsyncIterator be ? GetMethod(asyncItems, @@asyncIterator).
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auto using_async_iterator = TRY(async_items.get_method(vm, vm.well_known_symbol_async_iterator()));
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GC::Ptr<FunctionObject> using_sync_iterator;
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// d. If usingAsyncIterator is undefined, then
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if (!using_async_iterator) {
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// i. Let usingSyncIterator be ? GetMethod(asyncItems, @@iterator).
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using_sync_iterator = TRY(async_items.get_method(vm, vm.well_known_symbol_iterator()));
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}
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// e. Let iteratorRecord be undefined.
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GC::Ptr<IteratorRecord> iterator_record;
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// f. If usingAsyncIterator is not undefined, then
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if (using_async_iterator) {
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// i. Set iteratorRecord to ? GetIterator(asyncItems, async, usingAsyncIterator).
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// FIXME: The Array.from proposal is out of date - it should be using GetIteratorFromMethod.
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iterator_record = TRY(get_iterator_from_method(vm, async_items, *using_async_iterator));
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}
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// g. Else if usingSyncIterator is not undefined, then
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else if (using_sync_iterator) {
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// i. Set iteratorRecord to ? CreateAsyncFromSyncIterator(GetIterator(asyncItems, sync, usingSyncIterator)).
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// FIXME: The Array.from proposal is out of date - it should be using GetIteratorFromMethod.
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iterator_record = create_async_from_sync_iterator(vm, TRY(get_iterator_from_method(vm, async_items, *using_sync_iterator)));
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}
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// h. If iteratorRecord is not undefined, then
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if (iterator_record) {
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GC::Ptr<Object> array;
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// i. If IsConstructor(C) is true, then
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if (constructor.is_constructor()) {
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// 1. Let A be ? Construct(C).
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array = TRY(JS::construct(vm, constructor.as_function()));
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}
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// ii. Else,
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else {
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// i. Let A be ! ArrayCreate(0).
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array = MUST(Array::create(realm, 0));
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}
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// iii. Let k be 0.
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// iv. Repeat,
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for (size_t k = 0;; ++k) {
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// 1. If k ≥ 2^53 - 1, then
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if (k >= MAX_ARRAY_LIKE_INDEX) {
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// a. Let error be ThrowCompletion(a newly created TypeError object).
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auto error = vm.throw_completion<TypeError>(ErrorType::ArrayMaxSize);
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// b. Return ? AsyncIteratorClose(iteratorRecord, error).
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return *TRY(async_iterator_close(vm, *iterator_record, move(error)));
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}
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// 2. Let Pk be ! ToString(𝔽(k)).
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auto property_key = PropertyKey { k };
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// FIXME: There seems to be a bug here where we are not respecting array mutation. After resolving the first entry, the
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// iterator should also take into account any other changes which are made to async_items (which does not seem to
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// be happening).
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// 3. Let nextResult be ? Call(iteratorRecord.[[NextMethod]], iteratorRecord.[[Iterator]]).
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auto next_result = TRY(JS::call(vm, iterator_record->next_method, iterator_record->iterator));
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// 4. Set nextResult to ? Await(nextResult).
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next_result = TRY(await(vm, next_result));
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// 5. If nextResult is not an Object, throw a TypeError exception.
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if (!next_result.is_object())
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return vm.throw_completion<TypeError>(ErrorType::IterableNextBadReturn);
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// 6. Let done be ? IteratorComplete(nextResult).
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auto done = TRY(JS::iterator_complete(vm, next_result.as_object()));
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// 7. If done is true,
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if (done) {
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// a. Perform ? Set(A, "length", 𝔽(k), true).
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TRY(array->set(vm.names.length, Value(k), Object::ShouldThrowExceptions::Yes));
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// b. Return Completion Record { [[Type]]: return, [[Value]]: A, [[Target]]: empty }.
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return Completion { Completion::Type::Return, array };
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}
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// 8. Let nextValue be ? IteratorValue(nextResult).
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auto next_value = TRY(iterator_value(vm, next_result.as_object()));
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Value mapped_value;
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// 9. If mapping is true, then
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if (mapping) {
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// a. Let mappedValue be Call(mapfn, thisArg, « nextValue, 𝔽(k) »).
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auto mapped_value_or_error = JS::call(vm, mapfn, this_arg, next_value, Value(k));
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// b. IfAbruptCloseAsyncIterator(mappedValue, iteratorRecord).
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if (mapped_value_or_error.is_error()) {
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TRY(async_iterator_close(vm, *iterator_record, mapped_value_or_error));
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return mapped_value_or_error;
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}
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// c. Set mappedValue to Await(mappedValue).
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mapped_value_or_error = await(vm, mapped_value_or_error.value());
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// d. IfAbruptCloseAsyncIterator(mappedValue, iteratorRecord).
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if (mapped_value_or_error.is_error()) {
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TRY(async_iterator_close(vm, *iterator_record, mapped_value_or_error));
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return mapped_value_or_error;
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}
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mapped_value = mapped_value_or_error.value();
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}
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// 10. Else, let mappedValue be nextValue.
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else {
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mapped_value = next_value;
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}
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// 11. Let defineStatus be CreateDataPropertyOrThrow(A, Pk, mappedValue).
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auto define_status = array->create_data_property_or_throw(property_key, mapped_value);
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// 12. If defineStatus is an abrupt completion, return ? AsyncIteratorClose(iteratorRecord, defineStatus).
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if (define_status.is_error())
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return *TRY(iterator_close(vm, *iterator_record, define_status.release_error()));
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// 13. Set k to k + 1.
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}
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}
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// k. Else,
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else {
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// i. NOTE: asyncItems is neither an AsyncIterable nor an Iterable so assume it is an array-like object.
|
||
|
||
// ii. Let arrayLike be ! ToObject(asyncItems).
|
||
auto array_like = MUST(async_items.to_object(vm));
|
||
|
||
// iii. Let len be ? LengthOfArrayLike(arrayLike).
|
||
auto length = TRY(length_of_array_like(vm, array_like));
|
||
|
||
GC::Ptr<Object> array;
|
||
|
||
// iv. If IsConstructor(C) is true, then
|
||
if (constructor.is_constructor()) {
|
||
// 1. Let A be ? Construct(C, « 𝔽(len) »).
|
||
array = TRY(JS::construct(vm, constructor.as_function(), Value(length)));
|
||
}
|
||
// v. Else,
|
||
else {
|
||
// 1. Let A be ? ArrayCreate(len).
|
||
array = TRY(Array::create(realm, length));
|
||
}
|
||
|
||
// vi. Let k be 0.
|
||
// vii. Repeat, while k < len,
|
||
for (size_t k = 0; k < length; ++k) {
|
||
// 1. Let Pk be ! ToString(𝔽(k)).
|
||
auto property_key = PropertyKey { k };
|
||
|
||
// 2. Let kValue be ? Get(arrayLike, Pk).
|
||
auto k_value = TRY(array_like->get(property_key));
|
||
|
||
// 3. Set kValue to ? Await(kValue).
|
||
k_value = TRY(await(vm, k_value));
|
||
|
||
Value mapped_value;
|
||
|
||
// 4. If mapping is true, then
|
||
if (mapping) {
|
||
// a. Let mappedValue be ? Call(mapfn, thisArg, « kValue, 𝔽(k) »).
|
||
mapped_value = TRY(JS::call(vm, mapfn, this_arg, k_value, Value(k)));
|
||
|
||
// b. Set mappedValue to ? Await(mappedValue).
|
||
mapped_value = TRY(await(vm, mapped_value));
|
||
}
|
||
// 5. Else, let mappedValue be kValue.
|
||
else {
|
||
mapped_value = k_value;
|
||
}
|
||
|
||
// 6. Perform ? CreateDataPropertyOrThrow(A, Pk, mappedValue).
|
||
TRY(array->create_data_property_or_throw(property_key, mapped_value));
|
||
|
||
// 7. Set k to k + 1.
|
||
}
|
||
|
||
// viii. Perform ? Set(A, "length", 𝔽(len), true).
|
||
TRY(array->set(vm.names.length, Value(length), Object::ShouldThrowExceptions::Yes));
|
||
|
||
// ix. Return Completion Record { [[Type]]: return, [[Value]]: A, [[Target]]: empty }.
|
||
return Completion { Completion::Type::Return, array };
|
||
}
|
||
});
|
||
|
||
// 4. Perform AsyncFunctionStart(promiseCapability, fromAsyncClosure).
|
||
async_function_start(vm, promise_capability, *from_async_closure);
|
||
|
||
// 5. Return promiseCapability.[[Promise]].
|
||
return promise_capability->promise();
|
||
}
|
||
|
||
// 23.1.2.2 Array.isArray ( arg ), https://tc39.es/ecma262/#sec-array.isarray
|
||
JS_DEFINE_NATIVE_FUNCTION(ArrayConstructor::is_array)
|
||
{
|
||
auto arg = vm.argument(0);
|
||
|
||
// 1. Return ? IsArray(arg).
|
||
return Value(TRY(arg.is_array(vm)));
|
||
}
|
||
|
||
// 23.1.2.3 Array.of ( ...items ), https://tc39.es/ecma262/#sec-array.of
|
||
JS_DEFINE_NATIVE_FUNCTION(ArrayConstructor::of)
|
||
{
|
||
auto& realm = *vm.current_realm();
|
||
|
||
// 1. Let len be the number of elements in items.
|
||
auto len = vm.argument_count();
|
||
|
||
// 2. Let lenNumber be 𝔽(len).
|
||
auto len_number = Value(len);
|
||
|
||
// 3. Let C be the this value.
|
||
auto constructor = vm.this_value();
|
||
|
||
GC::Ptr<Object> array;
|
||
|
||
// 4. If IsConstructor(C) is true, then
|
||
if (constructor.is_constructor()) {
|
||
// a. Let A be ? Construct(C, « lenNumber »).
|
||
array = TRY(JS::construct(vm, constructor.as_function(), Value(vm.argument_count())));
|
||
} else {
|
||
// a. Let A be ? ArrayCreate(len).
|
||
array = TRY(Array::create(realm, len));
|
||
}
|
||
|
||
// 6. Let k be 0.
|
||
// 7. Repeat, while k < len,
|
||
for (size_t k = 0; k < len; ++k) {
|
||
// a. Let kValue be items[k].
|
||
auto k_value = vm.argument(k);
|
||
|
||
// b. Let Pk be ! ToString(𝔽(k)).
|
||
auto property_key = PropertyKey { k };
|
||
|
||
// c. Perform ? CreateDataPropertyOrThrow(A, Pk, kValue).
|
||
TRY(array->create_data_property_or_throw(property_key, k_value));
|
||
|
||
// d. Set k to k + 1.
|
||
}
|
||
|
||
// 8. Perform ? Set(A, "length", lenNumber, true).
|
||
TRY(array->set(vm.names.length, len_number, Object::ShouldThrowExceptions::Yes));
|
||
|
||
// 9. Return A.
|
||
return array;
|
||
}
|
||
|
||
// 23.1.2.5 get Array [ @@species ], https://tc39.es/ecma262/#sec-get-array-@@species
|
||
JS_DEFINE_NATIVE_FUNCTION(ArrayConstructor::symbol_species_getter)
|
||
{
|
||
// 1. Return the this value.
|
||
return vm.this_value();
|
||
}
|
||
|
||
}
|