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Date has been a long-standing pain point in ECMAScript. This is a proposal for Temporal, a global Object that acts as a top-level namespace (like Math), that brings a modern date/time API to the ECMAScript language. For a detailed look at some of the problems with Date, and the motivations for Temporal, see: Fixing JavaScript Date.

Temporal fixes these problems by:

Temporal provides separate ECMAScript classes for date-only, time-only, and other scoped use cases. This makes code more readable and prevents bugs caused by incorrectly assuming 0, UTC, or the local time zone for values that are actually unknown.


A cookbook to help you get started and learn the ins and outs of Temporal is available here.

API Documentation

The Temporal API follows a convention of using types whose names start with "Plain" (like Temporal.PlainDate, Temporal.PlainTime, and Temporal.PlainDateTime) for objects which do not have an associated time zone. Converting between such types and exact time types (Temporal.Instant and Temporal.ZonedDateTime) can be ambiguous because of time zones and daylight saving time, and the Temporal API lets developers configure how this ambiguity is resolved.

Several important concepts are explained elsewhere: exact time, wall-clock time, time zones, DST, handling ambiguity, and more.


console.log('Initialization complete', Temporal.Now.instant());
// example output:
// Initialization complete 2021-01-13T20:57:01.500944804Z

See Temporal.Now Documentation for detailed documentation.


A Temporal.Instant represents a fixed point in time (called "exact time"), without regard to calendar or location, e.g. July 20, 1969, at 20:17 UTC. For a human-readable local calendar date or clock time, use a Temporal.TimeZone and Temporal.Calendar to obtain a Temporal.ZonedDateTime or Temporal.PlainDateTime.

const instant = Temporal.Instant.from('1969-07-20T20:17Z');
instant.toString(); // => '1969-07-20T20:17:00Z'
instant.epochMilliseconds; // => -14182980000

See Temporal.Instant Documentation for detailed documentation.


A Temporal.ZonedDateTime is a timezone-aware, calendar-aware date/time object that represents a real event that has happened (or will happen) at a particular exact time from the perspective of a particular region on Earth, e.g. December 7th, 1995 at 3:24 AM in US Pacific time (in Gregorian calendar). This type is optimized for use cases that require a time zone, including DST-safe arithmetic and interoperability with RFC 5545 (iCalendar).

const zonedDateTime = Temporal.ZonedDateTime.from({
  timeZone: 'America/Los_Angeles',
  year: 1995,
  month: 12,
  day: 7,
  hour: 3,
  minute: 24,
  second: 30,
  millisecond: 0,
  microsecond: 3,
  nanosecond: 500
}); // => 1995-12-07T03:24:30.0000035-08:00[America/Los_Angeles]

As the broadest Temporal type, Temporal.ZonedDateTime can be considered a combination of Temporal.TimeZone, Temporal.Instant, and Temporal.PlainDateTime (which includes Temporal.Calendar).

See Temporal.ZonedDateTime Documentation for detailed documentation.


A Temporal.PlainDate object represents a calendar date that is not associated with a particular time or time zone, e.g. August 24th, 2006.

const date = Temporal.PlainDate.from({ year: 2006, month: 8, day: 24 }); // => 2006-08-24
date.year; // => 2006
date.inLeapYear; // => false
date.toString(); // => '2006-08-24'

This can also be converted to partial dates such as Temporal.PlainYearMonth and Temporal.PlainMonthDay.

See Temporal.PlainDate Documentation for detailed documentation.


A Temporal.PlainTime object represents a wall-clock time that is not associated with a particular date or time zone, e.g. 7:39 PM.

const time = Temporal.PlainTime.from({
  hour: 19,
  minute: 39,
  second: 9,
  millisecond: 68,
  microsecond: 346,
  nanosecond: 205
}); // => 19:39:09.068346205

time.second; // => 9
time.toString(); // => '19:39:09.068346205'

See Temporal.PlainTime Documentation for detailed documentation.


A Temporal.PlainDateTime represents a calendar date and wall-clock time that does not carry time zone information, e.g. December 7th, 1995 at 3:00 PM (in the Gregorian calendar).

It can be converted to a Temporal.ZonedDateTime using a Temporal.TimeZone. For use cases that require a time zone, especially using arithmetic or other derived values, consider using Temporal.ZonedDateTime instead because that type automatically adjusts for Daylight Saving Time.

const dateTime = Temporal.PlainDateTime.from({
  year: 1995,
  month: 12,
  day: 7,
  hour: 15
}); // => 1995-12-07T15:00:00
const dateTime1 = dateTime.with({
  minute: 17,
  second: 19
}); // => 1995-12-07T15:17:19

See Temporal.PlainDateTime Documentation for detailed documentation.


A date without a day component. This is useful to express things like "the October 2020 meeting".

const yearMonth = Temporal.PlainYearMonth.from({ year: 2020, month: 10 }); // => 2020-10
yearMonth.daysInMonth; // => 31
yearMonth.daysInYear; // => 366

See Temporal.PlainYearMonth Documentation for detailed documentation.


A date without a year component. This is useful to express things like "Bastille Day is on the 14th of July".

const monthDay = Temporal.PlainMonthDay.from({ month: 7, day: 14 }); // => 07-14
const date = monthDay.toPlainDate({ year: 2030 }); // => 2030-07-14
date.dayOfWeek; // => 7

See Temporal.PlainMonthDay Documentation for detailed documentation.


A Temporal.Duration expresses a length of time, e.g. 5 minutes and 30 seconds. This is used for date/time arithmetic and for measuring differences between Temporal objects.

const duration = Temporal.Duration.from({
  hours: 130,
  minutes: 20

duration.total({ unit: 'second' }); // => 469200

See Temporal.Duration Documentation for detailed documentation.


Unlike the other Temporal types, the units in Temporal.Duration don't naturally wrap around to 0: you may want to have a duration of "90 minutes," and you don't want it to unexpectedly turn into "1 hour and 30 minutes."

See Duration balancing for more on this topic.


A Temporal.TimeZone represents an IANA time zone, a specific UTC offset, or UTC itself. Time zones translate from a date/time in UTC to a local date/time. Because of this Temporal.TimeZone can be used to convert between Temporal.Instant and Temporal.PlainDateTime as well as finding out the offset at a specific Temporal.Instant.

It is also possible to implement your own time zones.

const timeZone = Temporal.TimeZone.from('Africa/Cairo');
timeZone.getInstantFor('2000-01-01T00:00'); // => 1999-12-31T22:00:00Z
timeZone.getPlainDateTimeFor('2000-01-01T00:00Z'); // => 2000-01-01T02:00:00
timeZone.getPreviousTransition(Temporal.Now.instant()); // => 2014-09-25T21:00:00Z
timeZone.getNextTransition(Temporal.Now.instant()); // => null

See Temporal.TimeZone Documentation for detailed documentation. A conceptual explanation of handling time zones, DST, and ambiguity in Temporal is also available.


A Temporal.Calendar represents a calendar system. Most code will use the ISO 8601 calendar, but other calendar systems are available.

Dates have associated Temporal.Calendar objects, to perform calendar-related math. Under the hood, this math is done by methods on the calendars.

It is also possible to implement your own calendars.

const cal = Temporal.Calendar.from('iso8601');
const date = cal.dateFromFields({ year: 1999, month: 12, day: 31 }, {});
date.monthsInYear; // => 12
date.daysInYear; // => 365

See Temporal.Calendar Documentation for detailed documentation.

Object relationship

String persistence, parsing, and formatting

All Temporal types have a string representation for persistence and interoperability. The correspondence between types and machine-readable strings is shown below. For more information about string parsing, serialization, and formatting in Temporal (including how Temporal is using industry standards like ISO 8601 and RFC 3339), see String Parsing, Serialization, and Formatting.

Other documentation