Due to common use, relative time–formatted values exist in a majority of websites and are available for the majority of frameworks (e.g., React, via react-intl and react-globalize; Ember, via ember-intl). Popular localization libraries like Moment.js, Format.js, Globalize, and others have implemented a formatting process for relative time values as well.
It is highly probable that the majority of current relative time formatting implementations require a large portion of CLDR raw or compiled data to format relative time values. Bringing this into the platform will improve performance of the web and developer productivity as they no longer have to bring extra weight to format relative time values.
The following example shows how to create a relative time formatter using the English language.
Units : "year", "quarter", "month", "week", "day", "hour", "minute" and "second".
// Create a relative time formatter in your locale
// with default values explicitly passed in.
const rtf = new Intl.RelativeTimeFormat("en", {
localeMatcher: "best fit", // other values: "lookup"
numeric: "always", // other values: "auto"
style: "long", // other values: "short" or "narrow"
});
// Format relative time using negative value (-1).
rtf.format(-1, "day");
// > "1 day ago"
// Format relative time using positive value (1).
rtf.format(1, "day");
// > "in 1 day"
Note: If
numeric:auto
option is passed, it will produce the stringyesterday
ortomorrow
instead of1 day ago
orin 1 day
, this allows to not always have to use numeric values in the output.
// Create a relative time formatter in your locale
// with numeric: "auto" option value passed in.
const rtf = new Intl.RelativeTimeFormat("en", { numeric: "auto" });
// Format relative time using negative value (-1).
rtf.format(-1, "day");
// > "yesterday"
// Format relative time using positive day unit (1).
rtf.format(1, "day");
// > "tomorrow"
Stage 4
Implementation Progress
- V8 v7.1.179, shipped in Chrome 71
- Shipped in Firefox 65
- Polyfills are available
- Browser compatibility
Backpointers
There're several polyfills available which are listed in the comparison table below. The functionality of all polyfills is the same in terms of the API: they only differ in their implementation details like the way the polyfill is imported or the way locales are loaded or whether the implementation passes the Official ECMAScript Conformance Test for the complete coverage of all possible edge cases.
Polyfill | intl-relative-time-format |
@formatjs/intl-relativetimeformat |
relative-time-format |
---|---|---|---|
Requirements | Requirements: Intl.NumberFormat , Intl.PluralRules , Intl.getCanonicalLocales , Object.is , WeakMap and others |
Requirements: Intl.NumberFormat , Intl.PluralRules , Object.is |
No requirements |
Core bundle size (gzipped) | |||
Passes the Official ECMAScript Conformance Test | ✔️ Yes | ✔️ Yes | No |
- Caridy Patiño (@caridy)
- Eric Ferraiuolo (@ericf)
- Zibi Braniecki (@zbraniecki)
- Rafael Xavier (@rxaviers)
- Daniel Ehrenberg (@littledan)
TBD
Intl.RelativeTimeFormat
is a low level API to facilitate libraries and frameworks to format relative time in a localized fashion by providing internationalized messages for date and time fields, using customary word or phrase when available.
You can view the spec text or rendered as HTML.
This proposal is based on the ICU Relative Date Time Formatter and on the Unicode CLDR Calendar Fields Relative values:
- http://icu-project.org/apiref/icu4j/com/ibm/icu/text/RelativeDateTimeFormatter.html
- https://unicode.org/reports/tr35/tr35-dates.html#Calendar_Fields
It is also based on the LDML spec, C.11 Language Plural Rules:
- ICU:
com.ibm.icu.impl.RelativeDateFormat
org.ocpsoft.prettytime.PrettyTime
include ActionView::Helpers::DateHelper
def index
 @friendly_date = time_ago_in_words(Date.today - 1)
end
For consistency with Intl.NumberFormat
and Intl.DateTimeFormat
, we have chosen a similar form for this new feature. The creation of an Intl.RelativeTimeFormat
instance is an expensive operation that requires resolution of locale data, and most likely, libraries will attempt to cache those instances, just like they do for Intl.NumberFormat
and Intl.DateTimeFormat
.
We have also chosen style
as the primary form of switching between different formatting forms for consistency with Intl.NumberFormat
and Intl.DateTimeFormat
.
Since this new feature does format a provided value just like instances of Intl.NumberFormat
, and Intl.DateTimeFormat
, we have chosen the same form by providing a format(value)
method of the instance, which returns a formatted string value.
Relative time is used to display date distances, therefore the natural form of input should intuitively be a date object. Although, in this API we chose to take a number instead due to the following reasons:
- Basically, taking a number as input for the format method instead of a date object significantly simplifies the scope of this proposal while it still fully addresses the main objective which is to provide i18n building blocks to address this problem realm.
- Taking a date object means we should implement the comparison logic (relative time is about date distance between target and source dates). The source date is usually now, but not always. We would have to address modifying that. See #4.
- Taking a date object also means we should allow for different calendar calculations, which implies
Date
should support it. See #6 and #13. - Taking a date object suggests we should be able to implement a bestFit algorithm, which has its own API challenges with respect to standardizing an approach that works for all cases. See #7, #14, and #15. We'd probably need to provide a flag for users to fill, with no default setting, to choose between options for calendar calculation.
An idea has been floated, in the context of "the extensible web", of just exposing the engine's copy of the CLDR database rather than a higher-level interface would be better. In the case of this specification, there is already a JS object model ready to go--the locale database is represented internally in the spec as a JavaScript object.
However, we opted not to go that route for a couple reasons:
- As described above, the API is already fairly low-level, taking numbers rather than dates.
- Although there are clearly use cases for different policies about rounding dates into units, we haven't come across a use case for seeing the underlying data.
- This new API is analogous to previous APIs, which should be useful for people learning the system.
- CLDR changes schema over time; if the data model improves, implementations can transparently upgrade users to better results with the same API. However, if we freeze things to the current logic, the old data model would need to be emulated.
The fundamental difference between RelativeTimeFormat
and UnitFormat
is that RelativeTimeFormat
displays a relative unit (e.g., 5 days ago
or in 5 days
) while UnitFormat
displays an absolute unit (e.g., -5 meters
or 5 meters
). Note that RelativeTimeFormat
uses different internationalized messages based on the value sign direction, while UnitFormat
uses the same internationalized message for all values.
A countdown for example is a mix of UnitFormat
and ListFormat
, and is not a RelativeTimeFormat
.
RelativeTimeFormat messages may include number parts (e.g., the 1,000
in 1,000 days ago
), which are formatted using the NumberFormat default options.
In this design, we didn't find any use case that could justify allowing to change/override these NumberFormat default options. Therefore, RelativeTimeFormat doesn't include any NumberFormat option.
The Intl.RelativeTimeFormat
object is a constructor for objects that enable language-sensitive relative time formatting.
Optional. A string with a BCP 47 language tag, or an array of such strings. For the general form and interpretation of the locales
argument, see the Intl
page.
Optional. An object with some or all of the following properties:
The locale matching algorithm to use. Possible values are "lookup"
and "best fit"
; the default is "best fit"
. For information about this option, see the Intl
page.
The format of output message. Possible values are "always"
(default, e.g., 1 day ago
), or "auto"
(e.g., yesterday
). "auto"
allows to not always have to use numeric values in the output.
The length of the internationalized message. Possible values are: "long"
(default, e.g., in 1 month
); "short"
(e.g., in 1 mo.
), or "narrow"
(e.g., in 1 mo.
). The narrow style could be similar to the short style for some locales.
// Create a relative time formatter in your locale.
let rtf = new Intl.RelativeTimeFormat("en", {
localeMatcher: "best fit", // other values: "lookup"
numeric: "always", // other values: "auto"
style: "long", // other values: "short" or "narrow"
});
The Intl.RelativeTimeFormat.prototype.format
method formats a value
and unit
according to the locale and formatting options of this Intl.RelativeTimeFormat
object.
While this method automatically provides the correct plural forms, the grammatical form is otherwise as neutral as possible. It is the caller's responsibility to handle cut-off logic such as deciding between displaying "in 7 days" or "in 1 week". This API does not support relative dates involving compound units. e.g "in 5 days and 4 hours".
Numeric value to use in the internationalized relative time message.
Unit to use in the relative time internationalized message. Possible values are: "year"
, "quarter"
, "month"
, "week"
, "day"
, "hour"
, "minute"
, "second"
. Plural forms are also permitted.
const rtf = new Intl.RelativeTimeFormat("en", { numeric: "auto" });
// Format relative time using the day unit.
rtf.format(-1, "day");
// > "yesterday"
rtf.format(2.15, "day");
// > "in 2.15 days"
rtf.format(100, "day");
// > "in 100 days"
rtf.format(0, "day");
// > "today"
rtf.format(-0, "day");
// > "today"
Additionally, by combining the class option style
and unit
, you can achieve any of the following results:
last year
this year
next year
in 1 year
in 2 years
1 year ago
2 years ago
yr.
last yr.
this yr.
next yr.
in 1 yr.
in 2 yr.
1 yr. ago
2 yr. ago
last quarter
this quarter
next quarter
in 1 quarter
in 2 quarters
1 quarter ago
2 quarters ago
last qtr.
this qtr.
next qtr.
in 1 qtr.
in 2 qtrs.
1 qtr. ago
2 qtrs. ago
last month
this month
next month
in 1 month
in 2 months
1 month ago
2 months ago
last mo.
this mo.
next mo.
in 1 mo.
in 2 mo.
1 mo. ago
2 mo. ago
last week
this week
next week
in 1 week
in 2 weeks
1 week ago
2 weeks ago
last wk.
this wk.
next wk.
in 1 wk.
in 2 wk.
1 wk. ago
2 wk. ago
in 1 day
in 2 days
1 day ago
2 days ago
yesterday
today
tomorrow
in 1 hour
in 2 hours
1 hour ago
2 hours ago
in 1 hr.
in 2 hr.
1 hr. ago
2 hr. ago
in 1 minute
in 2 minutes
1 minute ago
2 minutes ago
in 1 min.
in 2 min.
1 min. ago
2 min. ago
in 1 second
in 2 seconds
1 second ago
2 seconds ago
in 1 sec.
in 1 sec.
1 sec. ago
2 sec. ago
now
The Intl.RelativeTimeFormat.prototype.formatToParts
method is a version of the format
method which it returns an array of objects which represent "parts" of the object, separating the formatted number into its consituent parts and separating it from other surrounding text. These objects have two properties: type
a NumberFormat formatToParts type, and value
, which is the String which is the component of the output. If a "part" came from NumberFormat, it will have a unit
property which indicates the unit being formatted; literals which are part of the larger frame will not have this property.
const rtf = new Intl.RelativeTimeFormat("en", { numeric: "auto" });
// Format relative time using the day unit.
rtf.formatToParts(-1, "day");
// > [{ type: "literal", value: "yesterday"}]
rtf.formatToParts(100, "day");
// > [{ type: "literal", value: "in " }, { type: "integer", value: "100", unit: "day" }, { type: "literal", value: " days" }]
npm install
npm run build
open index.html