/* * Copyright (c) 2020-2021, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include namespace JS { // 6.2.4.6 PutValue ( V, W ), https://tc39.es/ecma262/#sec-putvalue void Reference::put_value(GlobalObject& global_object, Value value) { auto& vm = global_object.vm(); if (!is_valid_reference()) { vm.throw_exception(global_object, ErrorType::InvalidLeftHandAssignment); return; } if (is_unresolvable()) { if (m_strict) { throw_reference_error(global_object); return; } MUST(global_object.set(m_name, value, Object::ShouldThrowExceptions::No)); return; } if (is_property_reference()) { auto base_obj_or_error = m_base_value.to_object(global_object); if (base_obj_or_error.is_error()) return; auto* base_obj = base_obj_or_error.release_value(); auto succeeded_or_error = base_obj->internal_set(m_name, value, get_this_value()); if (succeeded_or_error.is_error()) return; auto succeeded = succeeded_or_error.release_value(); if (!succeeded && m_strict) { vm.throw_exception(global_object, ErrorType::ReferenceNullishSetProperty, m_name, m_base_value.to_string_without_side_effects()); return; } return; } VERIFY(m_base_type == BaseType::Environment); VERIFY(m_base_environment); // These can throw, TRY() when converting put_value() to ThrowCompletionOr if (m_environment_coordinate.has_value()) (void)static_cast(m_base_environment)->set_mutable_binding_direct(global_object, m_environment_coordinate->index, value, m_strict); else (void)m_base_environment->set_mutable_binding(global_object, m_name.as_string(), value, m_strict); } void Reference::throw_reference_error(GlobalObject& global_object) const { auto& vm = global_object.vm(); if (!m_name.is_valid()) vm.throw_exception(global_object, ErrorType::ReferenceUnresolvable); else vm.throw_exception(global_object, ErrorType::UnknownIdentifier, m_name.to_string_or_symbol().to_display_string()); } // 6.2.4.5 GetValue ( V ), https://tc39.es/ecma262/#sec-getvalue Value Reference::get_value(GlobalObject& global_object) const { if (!is_valid_reference() || is_unresolvable()) { throw_reference_error(global_object); return {}; } if (is_property_reference()) { auto* base_obj = TRY_OR_DISCARD(m_base_value.to_object(global_object)); return TRY_OR_DISCARD(base_obj->get(m_name)); } VERIFY(m_base_type == BaseType::Environment); VERIFY(m_base_environment); if (m_environment_coordinate.has_value()) return TRY_OR_DISCARD(static_cast(m_base_environment)->get_binding_value_direct(global_object, m_environment_coordinate->index, m_strict)); return TRY_OR_DISCARD(m_base_environment->get_binding_value(global_object, m_name.as_string(), m_strict)); } // 13.5.1.2 Runtime Semantics: Evaluation, https://tc39.es/ecma262/#sec-delete-operator-runtime-semantics-evaluation bool Reference::delete_(GlobalObject& global_object) { // 13.5.1.2 Runtime Semantics: Evaluation, https://tc39.es/ecma262/#sec-delete-operator-runtime-semantics-evaluation // UnaryExpression : delete UnaryExpression // NOTE: The following steps have already been evaluated by the time we get here: // 1. Let ref be the result of evaluating UnaryExpression. // 2. ReturnIfAbrupt(ref). // 3. If ref is not a Reference Record, return true. // 4. If IsUnresolvableReference(ref) is true, then if (is_unresolvable()) { // a. Assert: ref.[[Strict]] is false. VERIFY(!m_strict); // b. Return true. return true; } auto& vm = global_object.vm(); // 5. If IsPropertyReference(ref) is true, then if (is_property_reference()) { // a. Assert: ! IsPrivateReference(ref) is false. // FIXME: We don't have private references yet. // b. If IsSuperReference(ref) is true, throw a ReferenceError exception. if (is_super_reference()) { vm.throw_exception(global_object, ErrorType::UnsupportedDeleteSuperProperty); return {}; } // c. Let baseObj be ! ToObject(ref.[[Base]]). auto* base_obj = MUST(m_base_value.to_object(global_object)); // d. Let deleteStatus be ? baseObj.[[Delete]](ref.[[ReferencedName]]). bool delete_status = TRY_OR_DISCARD(base_obj->internal_delete(m_name)); // e. If deleteStatus is false and ref.[[Strict]] is true, throw a TypeError exception. if (!delete_status && m_strict) { vm.throw_exception(global_object, ErrorType::ReferenceNullishDeleteProperty, m_name, m_base_value.to_string_without_side_effects()); return {}; } // f. Return deleteStatus. return delete_status; } // 6. Else, // a. Let base be ref.[[Base]]. // b. Assert: base is an Environment Record. VERIFY(m_base_type == BaseType::Environment); // c. Return ? base.DeleteBinding(ref.[[ReferencedName]]). return TRY_OR_DISCARD(m_base_environment->delete_binding(global_object, m_name.as_string())); } String Reference::to_string() const { StringBuilder builder; builder.append("Reference { Base="); switch (m_base_type) { case BaseType::Unresolvable: builder.append("Unresolvable"); break; case BaseType::Environment: builder.appendff("{}", base_environment().class_name()); break; case BaseType::Value: if (m_base_value.is_empty()) builder.append(""); else builder.appendff("{}", m_base_value.to_string_without_side_effects()); break; } builder.append(", ReferencedName="); if (!m_name.is_valid()) builder.append(""); else if (m_name.is_symbol()) builder.appendff("{}", m_name.as_symbol()->to_string()); else builder.appendff("{}", m_name.to_string()); builder.appendff(", Strict={}", m_strict); builder.appendff(", ThisValue="); if (m_this_value.is_empty()) builder.append(""); else builder.appendff("{}", m_this_value.to_string_without_side_effects()); builder.append(" }"); return builder.to_string(); } }