This library consists of three parts:
-
A convenient
Intl.RelativeTimeFormat
polyfill. No dependencies (doesn't requireIntl.PluralRules
because it's already built in). -
A high-level relative time formatting library.
-
A React component for relative time formatting.
npm install relative-time-format --save
If you're not using a bundler then use a standalone version from a CDN.
import RelativeTimeFormat from "relative-time-format"
import en from "relative-time-format/locale/en"
RelativeTimeFormat.addLocale(en)
// Returns "2 days ago"
new RelativeTimeFormat("en", {
style: "long" // "long" is the default. Other options: "short", "narrow".
}).format(-2, "day")
The localization resides in the locale
folder. The format of a localization is:
{
…
"day": {
"past": {
"one": "{0} day ago",
"other": "{0} days ago"
},
"future": {
"one": "in {0} day",
"other": "in {0} days"
}
},
…
}
The past
and future
can be defined by any of: zero
, one
, two
, few
, many
and other
. For more info on which is which read the official Unicode CLDR documentation. Unicode CLDR (Common Locale Data Repository) is an industry standard and is basically a collection of formatting rules for all locales (date, time, currency, measurement units, numbers, etc). All localizations come from cldr-dates-full
package (for example, en-US
).
To determine whether a certain amount of time (number) is one
, few
, or something else, relative-time-format
uses Unicode CLDR rules for formatting plurals. These rules are number quantifying functions (one for each locale) which can tell if a number should be treated as zero
, one
, two
, few
, many
or other
. Knowing how these pluralization rules work is not required but anyway here are some links for curious advanced readers: rules explanation, list of rules for all locales, list of rules for all locales in JSON format (part of cldr-core/supplemental
package), converting those rules to javascript functions. These quantifying functions can be found as quantify
properties of a locale data.
The locale
folder is generated from CLDR data by running:
npm run generate-locales
Locale data is extracted from cldr-core
(quantifiers) and cldr-dates-full
(relative time messages) packages which usually get some updates once or twice a year.
npm run update-locales
Intl.RelativeTimeFormat
is intentionally a low-level API. Third-party libraries are supposed to be built on top of this base-level API. An example of such library is javascript-time-ago
which uses Intl.RelativeTimeFormat
internally and provides a higher-level API:
import TimeAgo from 'javascript-time-ago'
// Load locale-specific relative date/time formatting rules.
import en from 'javascript-time-ago/locale/en'
// Add locale-specific relative date/time formatting rules.
TimeAgo.addLocale(en)
// Create relative date/time formatter.
const timeAgo = new TimeAgo('en-US')
timeAgo.format(new Date())
// "just now"
timeAgo.format(Date.now() - 60 * 1000)
// "a minute ago"
timeAgo.format(Date.now() - 2 * 60 * 60 * 1000)
// "2 hours ago"
timeAgo.format(Date.now() - 24 * 60 * 60 * 1000)
// "a day ago"
One can use any npm CDN service, e.g. unpkg.com or jsdelivr.net
<script src="https://unpkg.com/relative-time-format@[version]/bundle/polyfill.js"></script>
<script>
var en = ... // Somehow import `relative-time-format/locale/en`.
RelativeTimeFormat.addLocale(en)
console.log(new RelativeTimeFormat('en').format(-1, 'days'))
</script>
where [version]
is an npm package version range (for example, 0.2.x
or ^0.2.0
).
There's a test suite of about 150 test cases for Intl.RelativeTimeFormat
specification implementations. It's called "Test262". These tests check every possible imaginable aspect of formal correctness of a spec implementation including the weirdest artificial cases imaginable like accepting strings instead of numbers, accepting objects having keys 0
, 1
, etc instead of arrays, accepting objects with toString()
method instead of strings, defining all class methods as special "non-enumerable" properties via Object.defineProperty()
instead of the regular way everyone defines class methods in real life, and so on. Handling all these formal edge cases would result in an unnecessarily convoluted and less readable code and I'd prefer to keep things simple and elegant, so this library intentionally chose not to pass all of the "Test262" test cases while still passing most of them: it passes the functional correctness part and skips the not-relevant-in-real-life cases part.
This component comes with a 100% code coverage.
To run tests:
npm test
To generate a code coverage report:
npm run test-coverage
The code coverage report can be viewed by opening ./coverage/lcov-report/index.html
.
The [email protected]
workaround in devDependencies
is for the test coverage to not produce empty reports:
Handlebars: Access has been denied to resolve the property "statements" because it is not an "own property" of its parent.
You can add a runtime option to disable the check or this warning:
See https://handlebarsjs.com/api-reference/runtime-options.html#options-to-control-prototype-access for details
This library comes with TypeScript "typings". If you happen to find any bugs in those, create an issue.