/* * Copyright (c) 2020, Andreas Kling * Copyright (c) 2020-2021, Linus Groh * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include namespace JS { // 10.4.2.2 ArrayCreate ( length [ , proto ] ), https://tc39.es/ecma262/#sec-arraycreate ThrowCompletionOr Array::create(GlobalObject& global_object, size_t length, Object* prototype) { auto& vm = global_object.vm(); if (length > NumericLimits::max()) return vm.throw_completion(global_object, ErrorType::InvalidLength, "array"); if (!prototype) prototype = global_object.array_prototype(); auto* array = global_object.heap().allocate(global_object, *prototype); MUST(array->internal_define_own_property(vm.names.length, { .value = Value(length), .writable = true, .enumerable = false, .configurable = false })); return array; } // 7.3.18 CreateArrayFromList ( elements ), https://tc39.es/ecma262/#sec-createarrayfromlist Array* Array::create_from(GlobalObject& global_object, Vector const& elements) { // 1. Assert: elements is a List whose elements are all ECMAScript language values. // 2. Let array be ! ArrayCreate(0). auto* array = MUST(Array::create(global_object, 0)); // 3. Let n be 0. // 4. For each element e of elements, do for (u32 n = 0; n < elements.size(); ++n) { // a. Perform ! CreateDataPropertyOrThrow(array, ! ToString(𝔽(n)), e). MUST(array->create_data_property_or_throw(n, elements[n])); // b. Set n to n + 1. } // 5. Return array. return array; } Array::Array(Object& prototype) : Object(prototype) { } Array::~Array() { } // 10.4.2.4 ArraySetLength ( A, Desc ), https://tc39.es/ecma262/#sec-arraysetlength ThrowCompletionOr Array::set_length(PropertyDescriptor const& property_descriptor) { auto& global_object = this->global_object(); auto& vm = this->vm(); // 1. If Desc.[[Value]] is absent, then // a. Return OrdinaryDefineOwnProperty(A, "length", Desc). // 2. Let newLenDesc be a copy of Desc. // NOTE: Handled by step 16 size_t new_length = indexed_properties().array_like_size(); if (property_descriptor.value.has_value()) { // 3. Let newLen be ? ToUint32(Desc.[[Value]]). new_length = TRY(property_descriptor.value->to_u32(global_object)); // 4. Let numberLen be ? ToNumber(Desc.[[Value]]). auto number_length = TRY(property_descriptor.value->to_number(global_object)); // 5. If newLen is not the same value as numberLen, throw a RangeError exception. if (new_length != number_length.as_double()) return vm.throw_completion(global_object, ErrorType::InvalidLength, "array"); } // 6. Set newLenDesc.[[Value]] to newLen. // 7. Let oldLenDesc be OrdinaryGetOwnProperty(A, "length"). // 8. Assert: ! IsDataDescriptor(oldLenDesc) is true. // 9. Assert: oldLenDesc.[[Configurable]] is false. // 10. Let oldLen be oldLenDesc.[[Value]]. // 11. If newLen ≥ oldLen, then // a. Return OrdinaryDefineOwnProperty(A, "length", newLenDesc). // 12. If oldLenDesc.[[Writable]] is false, return false. // NOTE: Handled by step 16 // 13. If newLenDesc.[[Writable]] is absent or has the value true, let newWritable be true. // 14. Else, // a. NOTE: Setting the [[Writable]] attribute to false is deferred in case any elements cannot be deleted. // b. Let newWritable be false. auto new_writable = property_descriptor.writable.value_or(true); // c. Set newLenDesc.[[Writable]] to true. // 15. Let succeeded be ! OrdinaryDefineOwnProperty(A, "length", newLenDesc). // 16. If succeeded is false, return false. // NOTE: Because the length property does not actually exist calling OrdinaryDefineOwnProperty // will result in unintended behavior, so instead we only implement here the small subset of // checks performed inside of it that would have mattered to us: // 10.1.6.3 ValidateAndApplyPropertyDescriptor ( O, P, extensible, Desc, current ), https://tc39.es/ecma262/#sec-validateandapplypropertydescriptor // 4. If current.[[Configurable]] is false, then // a. If Desc.[[Configurable]] is present and its value is true, return false. if (property_descriptor.configurable.has_value() && *property_descriptor.configurable) return false; // b. If Desc.[[Enumerable]] is present and ! SameValue(Desc.[[Enumerable]], current.[[Enumerable]]) is false, return false. if (property_descriptor.enumerable.has_value() && *property_descriptor.enumerable) return false; // 6. Else if ! SameValue(! IsDataDescriptor(current), ! IsDataDescriptor(Desc)) is false, then if (property_descriptor.is_accessor_descriptor()) { // a. If current.[[Configurable]] is false, return false. return false; } // 7. Else if IsDataDescriptor(current) and IsDataDescriptor(Desc) are both true, then // a. If current.[[Configurable]] is false and current.[[Writable]] is false, then if (!m_length_writable) { // i. If Desc.[[Writable]] is present and Desc.[[Writable]] is true, return false. if (property_descriptor.writable.has_value() && *property_descriptor.writable) return false; // ii. If Desc.[[Value]] is present and SameValue(Desc.[[Value]], current.[[Value]]) is false, return false. if (new_length != indexed_properties().array_like_size()) return false; } // 17. For each own property key P of A that is an array index, whose numeric value is greater than or equal to newLen, in descending numeric index order, do // a. Let deleteSucceeded be ! A.[[Delete]](P). // b. If deleteSucceeded is false, then // i. Set newLenDesc.[[Value]] to ! ToUint32(P) + 1𝔽. bool success = indexed_properties().set_array_like_size(new_length); // ii. If newWritable is false, set newLenDesc.[[Writable]] to false. // iii. Perform ! OrdinaryDefineOwnProperty(A, "length", newLenDesc). // NOTE: Handled by step 18 // 18. If newWritable is false, then // a. Set succeeded to ! OrdinaryDefineOwnProperty(A, "length", PropertyDescriptor { [[Writable]]: false }). // b. Assert: succeeded is true. if (!new_writable) m_length_writable = false; // NOTE: Continuation of step #17 // iv. Return false. if (!success) return false; // 19. Return true. return true; } // NON-STANDARD: Used to return the value of the ephemeral length property ThrowCompletionOr> Array::internal_get_own_property(PropertyKey const& property_name) const { auto& vm = this->vm(); if (property_name.is_string() && property_name.as_string() == vm.names.length.as_string()) return PropertyDescriptor { .value = Value(indexed_properties().array_like_size()), .writable = m_length_writable, .enumerable = false, .configurable = false }; return Object::internal_get_own_property(property_name); } // 10.4.2.1 [[DefineOwnProperty]] ( P, Desc ), https://tc39.es/ecma262/#sec-array-exotic-objects-defineownproperty-p-desc ThrowCompletionOr Array::internal_define_own_property(PropertyKey const& property_name, PropertyDescriptor const& property_descriptor) { auto& vm = this->vm(); // 1. Assert: IsPropertyKey(P) is true. VERIFY(property_name.is_valid()); // 2. If P is "length", then if (property_name.is_string() && property_name.as_string() == vm.names.length.as_string()) { // a. Return ? ArraySetLength(A, Desc). return set_length(property_descriptor); } // 3. Else if P is an array index, then if (property_name.is_number()) { // a. Let oldLenDesc be OrdinaryGetOwnProperty(A, "length"). // b. Assert: ! IsDataDescriptor(oldLenDesc) is true. // c. Assert: oldLenDesc.[[Configurable]] is false. // d. Let oldLen be oldLenDesc.[[Value]]. // e. Assert: oldLen is a non-negative integral Number. // f. Let index be ! ToUint32(P). // g. If index ≥ oldLen and oldLenDesc.[[Writable]] is false, return false. if (property_name.as_number() >= indexed_properties().array_like_size() && !m_length_writable) return false; // h. Let succeeded be ! OrdinaryDefineOwnProperty(A, P, Desc). auto succeeded = MUST(Object::internal_define_own_property(property_name, property_descriptor)); // i. If succeeded is false, return false. if (!succeeded) return false; // j. If index ≥ oldLen, then // i. Set oldLenDesc.[[Value]] to index + 1𝔽. // ii. Set succeeded to OrdinaryDefineOwnProperty(A, "length", oldLenDesc). // iii. Assert: succeeded is true. // k. Return true. return true; } // 4. Return OrdinaryDefineOwnProperty(A, P, Desc). return Object::internal_define_own_property(property_name, property_descriptor); } // NON-STANDARD: Used to reject deletes to ephemeral (non-configurable) length property ThrowCompletionOr Array::internal_delete(PropertyKey const& property_name) { auto& vm = this->vm(); if (property_name.is_string() && property_name.as_string() == vm.names.length.as_string()) return false; return Object::internal_delete(property_name); } // NON-STANDARD: Used to inject the ephemeral length property's key ThrowCompletionOr Array::internal_own_property_keys() const { auto& vm = this->vm(); auto keys = TRY(Object::internal_own_property_keys()); // FIXME: This is pretty expensive, find a better way to do this keys.insert(indexed_properties().real_size(), js_string(vm, vm.names.length.as_string())); return { move(keys) }; } }