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/*
* Copyright (c) 2021-2022, Linus Groh <linusg@serenityos.org>
* Copyright (c) 2021, Idan Horowitz <idan.horowitz@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Variant.h>
#include <LibCrypto/BigInt/SignedBigInteger.h>
#include <LibJS/Runtime/AbstractOperations.h>
#include <LibJS/Runtime/Completion.h>
#include <LibJS/Runtime/GlobalObject.h>
#include <LibJS/Runtime/Temporal/AbstractOperations.h>
#include <LibJS/Runtime/Temporal/Calendar.h>
#include <LibJS/Runtime/Temporal/Instant.h>
#include <LibJS/Runtime/Temporal/InstantConstructor.h>
#include <LibJS/Runtime/Temporal/PlainDateTime.h>
#include <LibJS/Runtime/Temporal/TimeZone.h>
#include <LibJS/Runtime/Temporal/ZonedDateTime.h>
namespace JS::Temporal {
// 8 Temporal.Instant Objects, https://tc39.es/proposal-temporal/#sec-temporal-instant-objects
Instant::Instant(BigInt const& nanoseconds, Object& prototype)
: Object(prototype)
, m_nanoseconds(nanoseconds)
{
}
void Instant::visit_edges(Cell::Visitor& visitor)
{
Base::visit_edges(visitor);
visitor.visit(&m_nanoseconds);
}
// 8.5.1 IsValidEpochNanoseconds ( epochNanoseconds ), https://tc39.es/proposal-temporal/#sec-temporal-isvalidepochnanoseconds
bool is_valid_epoch_nanoseconds(BigInt const& epoch_nanoseconds)
{
// 1. Assert: Type(epochNanoseconds) is BigInt.
// 2. If ℝ(epochNanoseconds) < nsMinInstant or ℝ(epochNanoseconds) > nsMaxInstant, then
if (epoch_nanoseconds.big_integer() < ns_min_instant || epoch_nanoseconds.big_integer() > ns_max_instant) {
// a. Return false.
return false;
}
// 3. Return true.
return true;
}
// 8.5.2 CreateTemporalInstant ( epochNanoseconds [ , newTarget ] ), https://tc39.es/proposal-temporal/#sec-temporal-createtemporalinstant
ThrowCompletionOr<Instant*> create_temporal_instant(VM& vm, BigInt const& epoch_nanoseconds, FunctionObject const* new_target)
{
auto& realm = *vm.current_realm();
auto& global_object = realm.global_object();
// 1. Assert: Type(epochNanoseconds) is BigInt.
// 2. Assert: ! IsValidEpochNanoseconds(epochNanoseconds) is true.
VERIFY(is_valid_epoch_nanoseconds(epoch_nanoseconds));
// 3. If newTarget is not present, set newTarget to %Temporal.Instant%.
if (!new_target)
new_target = global_object.temporal_instant_constructor();
// 4. Let object be ? OrdinaryCreateFromConstructor(newTarget, "%Temporal.Instant.prototype%", « [[InitializedTemporalInstant]], [[Nanoseconds]] »).
// 5. Set object.[[Nanoseconds]] to epochNanoseconds.
auto* object = TRY(ordinary_create_from_constructor<Instant>(vm, *new_target, &GlobalObject::temporal_instant_prototype, epoch_nanoseconds));
// 6. Return object.
return object;
}
// 8.5.3 ToTemporalInstant ( item ), https://tc39.es/proposal-temporal/#sec-temporal-totemporalinstant
ThrowCompletionOr<Instant*> to_temporal_instant(VM& vm, Value item)
{
// 1. If Type(item) is Object, then
if (item.is_object()) {
// a. If item has an [[InitializedTemporalInstant]] internal slot, then
if (is<Instant>(item.as_object())) {
// i. Return item.
return &static_cast<Instant&>(item.as_object());
}
// b. If item has an [[InitializedTemporalZonedDateTime]] internal slot, then
if (is<ZonedDateTime>(item.as_object())) {
auto& zoned_date_time = static_cast<ZonedDateTime&>(item.as_object());
// i. Return ! CreateTemporalInstant(item.[[Nanoseconds]]).
return create_temporal_instant(vm, zoned_date_time.nanoseconds());
}
}
// 2. Let string be ? ToString(item).
auto string = TRY(item.to_string(vm));
// 3. Let epochNanoseconds be ? ParseTemporalInstant(string).
auto* epoch_nanoseconds = TRY(parse_temporal_instant(vm, string));
// 4. Return ! CreateTemporalInstant(ℤ(epochNanoseconds)).
return create_temporal_instant(vm, *epoch_nanoseconds);
}
// 8.5.4 ParseTemporalInstant ( isoString ), https://tc39.es/proposal-temporal/#sec-temporal-parsetemporalinstant
ThrowCompletionOr<BigInt*> parse_temporal_instant(VM& vm, String const& iso_string)
{
// 1. Assert: Type(isoString) is String.
// 2. Let result be ? ParseTemporalInstantString(isoString).
auto result = TRY(parse_temporal_instant_string(vm, iso_string));
// 3. Let offsetString be result.[[TimeZoneOffsetString]].
auto& offset_string = result.time_zone_offset;
// 4. Assert: offsetString is not undefined.
VERIFY(offset_string.has_value());
// 5. Let utc be GetEpochFromISOParts(result.[[Year]], result.[[Month]], result.[[Day]], result.[[Hour]], result.[[Minute]], result.[[Second]], result.[[Millisecond]], result.[[Microsecond]], result.[[Nanosecond]]).
auto* utc = get_epoch_from_iso_parts(vm, result.year, result.month, result.day, result.hour, result.minute, result.second, result.millisecond, result.microsecond, result.nanosecond);
// 6. Let offsetNanoseconds be ? ParseTimeZoneOffsetString(offsetString).
auto offset_nanoseconds = TRY(parse_time_zone_offset_string(vm, *offset_string));
// 7. Let result be utc - ℤ(offsetNanoseconds).
auto* result_ns = js_bigint(vm, utc->big_integer().minus(Crypto::SignedBigInteger::create_from(offset_nanoseconds)));
// 8. If ! IsValidEpochNanoseconds(result) is false, then
if (!is_valid_epoch_nanoseconds(*result_ns)) {
// a. Throw a RangeError exception.
return vm.throw_completion<RangeError>(ErrorType::TemporalInvalidEpochNanoseconds);
}
// 9. Return result.
return result_ns;
}
// 8.5.5 CompareEpochNanoseconds ( epochNanosecondsOne, epochNanosecondsTwo ), https://tc39.es/proposal-temporal/#sec-temporal-compareepochnanoseconds
i32 compare_epoch_nanoseconds(BigInt const& epoch_nanoseconds_one, BigInt const& epoch_nanoseconds_two)
{
// 1. If epochNanosecondsOne > epochNanosecondsTwo, return 1.
if (epoch_nanoseconds_one.big_integer() > epoch_nanoseconds_two.big_integer())
return 1;
// 2. If epochNanosecondsOne < epochNanosecondsTwo, return -1.
if (epoch_nanoseconds_one.big_integer() < epoch_nanoseconds_two.big_integer())
return -1;
// 3. Return 0.
return 0;
}
// 8.5.6 AddInstant ( epochNanoseconds, hours, minutes, seconds, milliseconds, microseconds, nanoseconds ), https://tc39.es/proposal-temporal/#sec-temporal-addinstant
ThrowCompletionOr<BigInt*> add_instant(VM& vm, BigInt const& epoch_nanoseconds, double hours, double minutes, double seconds, double milliseconds, double microseconds, double nanoseconds)
{
VERIFY(hours == trunc(hours) && minutes == trunc(minutes) && seconds == trunc(seconds) && milliseconds == trunc(milliseconds) && microseconds == trunc(microseconds) && nanoseconds == trunc(nanoseconds));
// 1. Let result be epochNanoseconds + ℤ(nanoseconds) + ℤ(microseconds) × 1000ℤ + ℤ(milliseconds) × 10^6ℤ + ℤ(seconds) × 10^9ℤ + ℤ(minutes) × 60ℤ × 10^9ℤ + ℤ(hours) × 3600ℤ × 10^9ℤ.
// FIXME: Pretty sure i64's are not sufficient for the extreme cases.
auto* result = js_bigint(vm,
epoch_nanoseconds.big_integer()
.plus(Crypto::SignedBigInteger::create_from((i64)nanoseconds))
.plus(Crypto::SignedBigInteger::create_from((i64)microseconds).multiplied_by(Crypto::SignedBigInteger { 1'000 }))
.plus(Crypto::SignedBigInteger::create_from((i64)milliseconds).multiplied_by(Crypto::SignedBigInteger { 1'000'000 }))
.plus(Crypto::SignedBigInteger::create_from((i64)seconds).multiplied_by(Crypto::SignedBigInteger { 1'000'000'000 }))
.plus(Crypto::SignedBigInteger::create_from((i64)minutes).multiplied_by(Crypto::SignedBigInteger { 60 }).multiplied_by(Crypto::SignedBigInteger { 1'000'000'000 }))
.plus(Crypto::SignedBigInteger::create_from((i64)hours).multiplied_by(Crypto::SignedBigInteger { 3600 }).multiplied_by(Crypto::SignedBigInteger { 1'000'000'000 })));
// 2. If ! IsValidEpochNanoseconds(result) is false, throw a RangeError exception.
if (!is_valid_epoch_nanoseconds(*result))
return vm.throw_completion<RangeError>(ErrorType::TemporalInvalidEpochNanoseconds);
// 3. Return result.
return result;
}
// 8.5.7 DifferenceInstant ( ns1, ns2, roundingIncrement, smallestUnit, roundingMode ), https://tc39.es/proposal-temporal/#sec-temporal-differenceinstant
BigInt* difference_instant(VM& vm, BigInt const& nanoseconds1, BigInt const& nanoseconds2, u64 rounding_increment, StringView smallest_unit, StringView rounding_mode)
{
// 1. Assert: Type(ns1) is BigInt.
// 2. Assert: Type(ns2) is BigInt.
// 3. Return ! RoundTemporalInstant(ns2 - ns1, roundingIncrement, smallestUnit, roundingMode).
return round_temporal_instant(vm, *js_bigint(vm, nanoseconds2.big_integer().minus(nanoseconds1.big_integer())), rounding_increment, smallest_unit, rounding_mode);
}
// 8.5.8 RoundTemporalInstant ( ns, increment, unit, roundingMode ), https://tc39.es/proposal-temporal/#sec-temporal-roundtemporalinstant
BigInt* round_temporal_instant(VM& vm, BigInt const& nanoseconds, u64 increment, StringView unit, StringView rounding_mode)
{
// 1. Assert: Type(ns) is BigInt.
u64 increment_nanoseconds;
// 2. If unit is "hour", then
if (unit == "hour"sv) {
// a. Let incrementNs be increment × 3.6 × 10^12.
increment_nanoseconds = increment * 3600000000000;
}
// 3. Else if unit is "minute", then
else if (unit == "minute"sv) {
// a. Let incrementNs be increment × 6 × 10^10.
increment_nanoseconds = increment * 60000000000;
}
// 4. Else if unit is "second", then
else if (unit == "second"sv) {
// a. Let incrementNs be increment × 10^9.
increment_nanoseconds = increment * 1000000000;
}
// 5. Else if unit is "millisecond", then
else if (unit == "millisecond"sv) {
// a. Let incrementNs be increment × 10^6.
increment_nanoseconds = increment * 1000000;
}
// 6. Else if unit is "microsecond", then
else if (unit == "microsecond"sv) {
// a. Let incrementNs be increment × 10^3.
increment_nanoseconds = increment * 1000;
}
// 7. Else,
else {
// a. Assert: unit is "nanosecond".
VERIFY(unit == "nanosecond"sv);
// b. Let incrementNs be increment.
increment_nanoseconds = increment;
}
// 8. Return RoundNumberToIncrementAsIfPositive(ℝ(ns), incrementNs, roundingMode).
return js_bigint(vm, round_number_to_increment_as_if_positive(nanoseconds.big_integer(), increment_nanoseconds, rounding_mode));
}
// 8.5.9 TemporalInstantToString ( instant, timeZone, precision ), https://tc39.es/proposal-temporal/#sec-temporal-temporalinstanttostring
ThrowCompletionOr<String> temporal_instant_to_string(VM& vm, Instant& instant, Value time_zone, Variant<StringView, u8> const& precision)
{
// 1. Assert: Type(instant) is Object.
// 2. Assert: instant has an [[InitializedTemporalInstant]] internal slot.
// 3. Let outputTimeZone be timeZone.
auto output_time_zone = time_zone;
// 4. If outputTimeZone is undefined, then
if (output_time_zone.is_undefined()) {
// a. Set outputTimeZone to ! CreateTemporalTimeZone("UTC").
output_time_zone = MUST(create_temporal_time_zone(vm, "UTC"sv));
}
// 5. Let isoCalendar be ! GetISO8601Calendar().
auto* iso_calendar = get_iso8601_calendar(vm);
// 6. Let dateTime be ? BuiltinTimeZoneGetPlainDateTimeFor(outputTimeZone, instant, isoCalendar).
auto* date_time = TRY(builtin_time_zone_get_plain_date_time_for(vm, output_time_zone, instant, *iso_calendar));
// 7. Let dateTimeString be ? TemporalDateTimeToString(dateTime.[[ISOYear]], dateTime.[[ISOMonth]], dateTime.[[ISODay]], dateTime.[[ISOHour]], dateTime.[[ISOMinute]], dateTime.[[ISOSecond]], dateTime.[[ISOMillisecond]], dateTime.[[ISOMicrosecond]], dateTime.[[ISONanosecond]], undefined, precision, "never").
auto date_time_string = TRY(temporal_date_time_to_string(vm, date_time->iso_year(), date_time->iso_month(), date_time->iso_day(), date_time->iso_hour(), date_time->iso_minute(), date_time->iso_second(), date_time->iso_millisecond(), date_time->iso_microsecond(), date_time->iso_nanosecond(), js_undefined(), precision, "never"sv));
String time_zone_string;
// 8. If timeZone is undefined, then
if (time_zone.is_undefined()) {
// a. Let timeZoneString be "Z".
time_zone_string = "Z"sv;
}
// 9. Else,
else {
// a. Let offsetNs be ? GetOffsetNanosecondsFor(timeZone, instant).
auto offset_ns = TRY(get_offset_nanoseconds_for(vm, time_zone, instant));
// b. Let timeZoneString be ! FormatISOTimeZoneOffsetString(offsetNs).
time_zone_string = format_iso_time_zone_offset_string(offset_ns);
}
// 10. Return the string-concatenation of dateTimeString and timeZoneString.
return String::formatted("{}{}", date_time_string, time_zone_string);
}
// 8.5.10 DifferenceTemporalInstant ( operation, instant, other, options ), https://tc39.es/proposal-temporal/#sec-temporal-differencetemporalinstant
ThrowCompletionOr<Duration*> difference_temporal_instant(VM& vm, DifferenceOperation operation, Instant const& instant, Value other_value, Value options_value)
{
// 1. If operation is since, let sign be -1. Otherwise, let sign be 1.
i8 sign = operation == DifferenceOperation::Since ? -1 : 1;
// 2. Set other to ? ToTemporalInstant(other).
auto* other = TRY(to_temporal_instant(vm, other_value));
// 3. Let settings be ? GetDifferenceSettings(operation, options, time, « », "nanosecond", "second").
auto settings = TRY(get_difference_settings(vm, operation, options_value, UnitGroup::Time, {}, { "nanosecond"sv }, "second"sv));
// 4. Let roundedNs be ! DifferenceInstant(instant.[[Nanoseconds]], other.[[Nanoseconds]], settings.[[RoundingIncrement]], settings.[[SmallestUnit]], settings.[[RoundingMode]]).
auto* rounded_ns = difference_instant(vm, instant.nanoseconds(), other->nanoseconds(), settings.rounding_increment, settings.smallest_unit, settings.rounding_mode);
// 5. Assert: The following steps cannot fail due to overflow in the Number domain because abs(roundedNs) ≤ 2 × nsMaxInstant.
// 6. Let result be ! BalanceDuration(0, 0, 0, 0, 0, 0, roundedNs, settings.[[LargestUnit]]).
auto result = MUST(balance_duration(vm, 0, 0, 0, 0, 0, 0, rounded_ns->big_integer(), settings.largest_unit));
// 7. Return ! CreateTemporalDuration(0, 0, 0, 0, sign × result.[[Hours]], sign × result.[[Minutes]], sign × result.[[Seconds]], sign × result.[[Milliseconds]], sign × result.[[Microseconds]], sign × result.[[Nanoseconds]]).
return MUST(create_temporal_duration(vm, 0, 0, 0, 0, sign * result.hours, sign * result.minutes, sign * result.seconds, sign * result.milliseconds, sign * result.microseconds, sign * result.nanoseconds));
}
// 8.5.11 AddDurationToOrSubtractDurationFromInstant ( operation, instant, temporalDurationLike ), https://tc39.es/proposal-temporal/#sec-temporal-adddurationtoorsubtractdurationfrominstant
ThrowCompletionOr<Instant*> add_duration_to_or_subtract_duration_from_instant(VM& vm, ArithmeticOperation operation, Instant const& instant, Value temporal_duration_like)
{
// 1. If operation is subtract, let sign be -1. Otherwise, let sign be 1.
i8 sign = operation == ArithmeticOperation::Subtract ? -1 : 1;
// 2. Let duration be ? ToTemporalDurationRecord(temporalDurationLike).
auto duration = TRY(to_temporal_duration_record(vm, temporal_duration_like));
// 3. If duration.[[Days]] is not 0, throw a RangeError exception.
if (duration.days != 0)
return vm.throw_completion<RangeError>(ErrorType::TemporalInvalidDurationPropertyValueNonZero, "days", duration.days);
// 4. If duration.[[Months]] is not 0, throw a RangeError exception.
if (duration.months != 0)
return vm.throw_completion<RangeError>(ErrorType::TemporalInvalidDurationPropertyValueNonZero, "months", duration.months);
// 5. If duration.[[Weeks]] is not 0, throw a RangeError exception.
if (duration.weeks != 0)
return vm.throw_completion<RangeError>(ErrorType::TemporalInvalidDurationPropertyValueNonZero, "weeks", duration.weeks);
// 6. If duration.[[Years]] is not 0, throw a RangeError exception.
if (duration.years != 0)
return vm.throw_completion<RangeError>(ErrorType::TemporalInvalidDurationPropertyValueNonZero, "years", duration.years);
// 7. Let ns be ? AddInstant(instant.[[Nanoseconds]], sign × duration.[[Hours]], sign × duration.[[Minutes]], sign × duration.[[Seconds]], sign × duration.[[Milliseconds]], sign × duration.[[Microseconds]], sign × duration.[[Nanoseconds]]).
auto* ns = TRY(add_instant(vm, instant.nanoseconds(), sign * duration.hours, sign * duration.minutes, sign * duration.seconds, sign * duration.milliseconds, sign * duration.microseconds, sign * duration.nanoseconds));
// 8. Return ! CreateTemporalInstant(ns).
return MUST(create_temporal_instant(vm, *ns));
}
}
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