/* * Copyright (c) 2021-2023, Linus Groh * Copyright (c) 2021, Luke Wilde * Copyright (c) 2024, Tim Flynn * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include namespace JS::Temporal { GC_DEFINE_ALLOCATOR(DurationConstructor); // 7.1 The Temporal.Duration Constructor, https://tc39.es/proposal-temporal/#sec-temporal-duration-constructor DurationConstructor::DurationConstructor(Realm& realm) : NativeFunction(realm.vm().names.Duration.as_string(), realm.intrinsics().function_prototype()) { } void DurationConstructor::initialize(Realm& realm) { Base::initialize(realm); auto& vm = this->vm(); // 7.2.1 Temporal.Duration.prototype, https://tc39.es/proposal-temporal/#sec-temporal.duration.prototype define_direct_property(vm.names.prototype, realm.intrinsics().temporal_duration_prototype(), 0); u8 attr = Attribute::Writable | Attribute::Configurable; define_native_function(realm, vm.names.from, from, 1, attr); define_native_function(realm, vm.names.compare, compare, 2, attr); define_direct_property(vm.names.length, Value(0), Attribute::Configurable); } // 7.1.1 Temporal.Duration ( [ years [ , months [ , weeks [ , days [ , hours [ , minutes [ , seconds [ , milliseconds [ , microseconds [ , nanoseconds ] ] ] ] ] ] ] ] ] ] ), https://tc39.es/proposal-temporal/#sec-temporal.duration ThrowCompletionOr DurationConstructor::call() { auto& vm = this->vm(); // 1. If NewTarget is undefined, then // a. Throw a TypeError exception. return vm.throw_completion(ErrorType::ConstructorWithoutNew, "Temporal.Duration"); } // 7.1.1 Temporal.Duration ( [ years [ , months [ , weeks [ , days [ , hours [ , minutes [ , seconds [ , milliseconds [ , microseconds [ , nanoseconds ] ] ] ] ] ] ] ] ] ] ), https://tc39.es/proposal-temporal/#sec-temporal.duration ThrowCompletionOr> DurationConstructor::construct(FunctionObject& new_target) { auto& vm = this->vm(); auto next_integer_argument = [&, index = 0]() mutable -> ThrowCompletionOr { if (auto value = vm.argument(index++); !value.is_undefined()) return to_integer_if_integral(vm, value, ErrorType::TemporalInvalidDuration); return 0; }; // 2. If years is undefined, let y be 0; else let y be ? ToIntegerIfIntegral(years). auto years = TRY(next_integer_argument()); // 3. If months is undefined, let mo be 0; else let mo be ? ToIntegerIfIntegral(months). auto months = TRY(next_integer_argument()); // 4. If weeks is undefined, let w be 0; else let w be ? ToIntegerIfIntegral(weeks). auto weeks = TRY(next_integer_argument()); // 5. If days is undefined, let d be 0; else let d be ? ToIntegerIfIntegral(days). auto days = TRY(next_integer_argument()); // 6. If hours is undefined, let h be 0; else let h be ? ToIntegerIfIntegral(hours). auto hours = TRY(next_integer_argument()); // 7. If minutes is undefined, let m be 0; else let m be ? ToIntegerIfIntegral(minutes). auto minutes = TRY(next_integer_argument()); // 8. If seconds is undefined, let s be 0; else let s be ? ToIntegerIfIntegral(seconds). auto seconds = TRY(next_integer_argument()); // 9. If milliseconds is undefined, let ms be 0; else let ms be ? ToIntegerIfIntegral(milliseconds). auto milliseconds = TRY(next_integer_argument()); // 10. If microseconds is undefined, let mis be 0; else let mis be ? ToIntegerIfIntegral(microseconds). auto microseconds = TRY(next_integer_argument()); // 11. If nanoseconds is undefined, let ns be 0; else let ns be ? ToIntegerIfIntegral(nanoseconds). auto nanoseconds = TRY(next_integer_argument()); // 12. Return ? CreateTemporalDuration(y, mo, w, d, h, m, s, ms, mis, ns, NewTarget). return TRY(create_temporal_duration(vm, years, months, weeks, days, hours, minutes, seconds, milliseconds, microseconds, nanoseconds, new_target)); } // 7.2.2 Temporal.Duration.from ( item ), https://tc39.es/proposal-temporal/#sec-temporal.duration.from JS_DEFINE_NATIVE_FUNCTION(DurationConstructor::from) { // 1. Return ? ToTemporalDuration(item). return TRY(to_temporal_duration(vm, vm.argument(0))); } // 7.2.3 Temporal.Duration.compare ( one, two [ , options ] ), https://tc39.es/proposal-temporal/#sec-temporal.duration.compare JS_DEFINE_NATIVE_FUNCTION(DurationConstructor::compare) { // 1. Set one to ? ToTemporalDuration(one). auto one = TRY(to_temporal_duration(vm, vm.argument(0))); // 2. Set two to ? ToTemporalDuration(two). auto two = TRY(to_temporal_duration(vm, vm.argument(1))); // 3. Let resolvedOptions be ? GetOptionsObject(options). auto resolved_options = TRY(get_options_object(vm, vm.argument(2))); // 4. Let relativeToRecord be ? GetTemporalRelativeToOption(resolvedOptions). auto relative_to_record = TRY(get_temporal_relative_to_option(vm, resolved_options)); // 5. If one.[[Years]] = two.[[Years]], and one.[[Months]] = two.[[Months]], and one.[[Weeks]] = two.[[Weeks]], and // one.[[Days]] = two.[[Days]], and one.[[Hours]] = two.[[Hours]], and one.[[Minutes]] = two.[[Minutes]], and // one.[[Seconds]] = two.[[Seconds]], and one.[[Milliseconds]] = two.[[Milliseconds]], and // one.[[Microseconds]] = two.[[Microseconds]], and one.[[Nanoseconds]] = two.[[Nanoseconds]], then if (one->years() == two->years() && one->months() == two->months() && one->weeks() == two->weeks() && one->days() == two->days() && one->hours() == two->hours() && one->minutes() == two->minutes() && one->seconds() == two->seconds() && one->milliseconds() == two->milliseconds() && one->microseconds() == two->microseconds() && one->nanoseconds() == two->nanoseconds()) { // a. Return +0𝔽. return 0; } // 6. Let zonedRelativeTo be relativeToRecord.[[ZonedRelativeTo]]. // 7. Let plainRelativeTo be relativeToRecord.[[PlainRelativeTo]]. auto [plain_relative_to, zoned_relative_to] = relative_to_record; // 8. Let largestUnit1 be DefaultTemporalLargestUnit(one). auto largest_unit1 = default_temporal_largest_unit(one); // 9. Let largestUnit2 be DefaultTemporalLargestUnit(two). auto largest_unit2 = default_temporal_largest_unit(two); // 10. Let duration1 be ToInternalDurationRecord(one). auto duration1 = to_internal_duration_record(vm, one); // 11. Let duration2 be ToInternalDurationRecord(two). auto duration2 = to_internal_duration_record(vm, two); // 12. If zonedRelativeTo is not undefined, and either TemporalUnitCategory(largestUnit1) or TemporalUnitCategory(largestUnit2) is date, then if (zoned_relative_to && (temporal_unit_category(largest_unit1) == UnitCategory::Date || temporal_unit_category(largest_unit2) == UnitCategory::Date)) { // FIXME: a. Let timeZone be zonedRelativeTo.[[TimeZone]]. // FIXME: b. Let calendar be zonedRelativeTo.[[Calendar]]. // FIXME: c. Let after1 be ? AddZonedDateTime(zonedRelativeTo.[[EpochNanoseconds]], timeZone, calendar, duration1, constrain). // FIXME: d. Let after2 be ? AddZonedDateTime(zonedRelativeTo.[[EpochNanoseconds]], timeZone, calendar, duration2, constrain). // FIXME: e. If after1 > after2, return 1𝔽. // FIXME: f. If after1 < after2, return -1𝔽. // g. Return +0𝔽. return 0; } double days1 = 0; double days2 = 0; // 13. If IsCalendarUnit(largestUnit1) is true or IsCalendarUnit(largestUnit2) is true, then if (is_calendar_unit(largest_unit1) || is_calendar_unit(largest_unit2)) { // a. If plainRelativeTo is undefined, throw a RangeError exception. if (!plain_relative_to) return vm.throw_completion(ErrorType::TemporalMissingStartingPoint, "calendar units"); // b. Let days1 be ? DateDurationDays(duration1.[[Date]], plainRelativeTo). days1 = TRY(date_duration_days(vm, duration1.date, *plain_relative_to)); // c. Let days2 be ? DateDurationDays(duration2.[[Date]], plainRelativeTo). days2 = TRY(date_duration_days(vm, duration2.date, *plain_relative_to)); } // 14. Else, else { // a. Let days1 be one.[[Days]]. days1 = one->days(); // b. Let days2 be two.[[Days]]. days2 = two->days(); } // 15. Let timeDuration1 be ? Add24HourDaysToTimeDuration(duration1.[[Time]], days1). auto time_duration1 = TRY(add_24_hour_days_to_time_duration(vm, duration1.time, days1)); // 16. Let timeDuration2 be ? Add24HourDaysToTimeDuration(duration2.[[Time]], days2). auto time_duration2 = TRY(add_24_hour_days_to_time_duration(vm, duration2.time, days2)); // 17. Return 𝔽(CompareTimeDuration(timeDuration1, timeDuration2)). return compare_time_duration(time_duration1, time_duration2); } }