2023-10-03 11:14:36 +08:00
'use strict' ;
Object . defineProperty ( exports , '__esModule' , { value : true } ) ;
// these aren't really private, but nor are they really useful to document
/ * *
* @ private
* /
class LuxonError extends Error { }
/ * *
* @ private
* /
class InvalidDateTimeError extends LuxonError {
constructor ( reason ) {
super ( ` Invalid DateTime: ${ reason . toMessage ( ) } ` ) ;
}
}
/ * *
* @ private
* /
class InvalidIntervalError extends LuxonError {
constructor ( reason ) {
super ( ` Invalid Interval: ${ reason . toMessage ( ) } ` ) ;
}
}
/ * *
* @ private
* /
class InvalidDurationError extends LuxonError {
constructor ( reason ) {
super ( ` Invalid Duration: ${ reason . toMessage ( ) } ` ) ;
}
}
/ * *
* @ private
* /
class ConflictingSpecificationError extends LuxonError { }
/ * *
* @ private
* /
class InvalidUnitError extends LuxonError {
constructor ( unit ) {
super ( ` Invalid unit ${ unit } ` ) ;
}
}
/ * *
* @ private
* /
class InvalidArgumentError extends LuxonError { }
/ * *
* @ private
* /
class ZoneIsAbstractError extends LuxonError {
constructor ( ) {
super ( "Zone is an abstract class" ) ;
}
}
/ * *
* @ private
* /
const n = "numeric" ,
s = "short" ,
l = "long" ;
const DATE _SHORT = {
year : n ,
month : n ,
day : n
} ;
const DATE _MED = {
year : n ,
month : s ,
day : n
} ;
const DATE _MED _WITH _WEEKDAY = {
year : n ,
month : s ,
day : n ,
weekday : s
} ;
const DATE _FULL = {
year : n ,
month : l ,
day : n
} ;
const DATE _HUGE = {
year : n ,
month : l ,
day : n ,
weekday : l
} ;
const TIME _SIMPLE = {
hour : n ,
minute : n
} ;
const TIME _WITH _SECONDS = {
hour : n ,
minute : n ,
second : n
} ;
const TIME _WITH _SHORT _OFFSET = {
hour : n ,
minute : n ,
second : n ,
timeZoneName : s
} ;
const TIME _WITH _LONG _OFFSET = {
hour : n ,
minute : n ,
second : n ,
timeZoneName : l
} ;
const TIME _24 _SIMPLE = {
hour : n ,
minute : n ,
hourCycle : "h23"
} ;
const TIME _24 _WITH _SECONDS = {
hour : n ,
minute : n ,
second : n ,
hourCycle : "h23"
} ;
const TIME _24 _WITH _SHORT _OFFSET = {
hour : n ,
minute : n ,
second : n ,
hourCycle : "h23" ,
timeZoneName : s
} ;
const TIME _24 _WITH _LONG _OFFSET = {
hour : n ,
minute : n ,
second : n ,
hourCycle : "h23" ,
timeZoneName : l
} ;
const DATETIME _SHORT = {
year : n ,
month : n ,
day : n ,
hour : n ,
minute : n
} ;
const DATETIME _SHORT _WITH _SECONDS = {
year : n ,
month : n ,
day : n ,
hour : n ,
minute : n ,
second : n
} ;
const DATETIME _MED = {
year : n ,
month : s ,
day : n ,
hour : n ,
minute : n
} ;
const DATETIME _MED _WITH _SECONDS = {
year : n ,
month : s ,
day : n ,
hour : n ,
minute : n ,
second : n
} ;
const DATETIME _MED _WITH _WEEKDAY = {
year : n ,
month : s ,
day : n ,
weekday : s ,
hour : n ,
minute : n
} ;
const DATETIME _FULL = {
year : n ,
month : l ,
day : n ,
hour : n ,
minute : n ,
timeZoneName : s
} ;
const DATETIME _FULL _WITH _SECONDS = {
year : n ,
month : l ,
day : n ,
hour : n ,
minute : n ,
second : n ,
timeZoneName : s
} ;
const DATETIME _HUGE = {
year : n ,
month : l ,
day : n ,
weekday : l ,
hour : n ,
minute : n ,
timeZoneName : l
} ;
const DATETIME _HUGE _WITH _SECONDS = {
year : n ,
month : l ,
day : n ,
weekday : l ,
hour : n ,
minute : n ,
second : n ,
timeZoneName : l
} ;
/ * *
* @ interface
* /
class Zone {
/ * *
* The type of zone
* @ abstract
* @ type { string }
* /
get type ( ) {
throw new ZoneIsAbstractError ( ) ;
}
/ * *
* The name of this zone .
* @ abstract
* @ type { string }
* /
get name ( ) {
throw new ZoneIsAbstractError ( ) ;
}
get ianaName ( ) {
return this . name ;
}
/ * *
* Returns whether the offset is known to be fixed for the whole year .
* @ abstract
* @ type { boolean }
* /
get isUniversal ( ) {
throw new ZoneIsAbstractError ( ) ;
}
/ * *
* Returns the offset ' s common name ( such as EST ) at the specified timestamp
* @ abstract
* @ param { number } ts - Epoch milliseconds for which to get the name
* @ param { Object } opts - Options to affect the format
* @ param { string } opts . format - What style of offset to return . Accepts 'long' or 'short' .
* @ param { string } opts . locale - What locale to return the offset name in .
* @ return { string }
* /
offsetName ( ts , opts ) {
throw new ZoneIsAbstractError ( ) ;
}
/ * *
* Returns the offset ' s value as a string
* @ abstract
* @ param { number } ts - Epoch milliseconds for which to get the offset
* @ param { string } format - What style of offset to return .
* Accepts 'narrow' , 'short' , or 'techie' . Returning '+6' , '+06:00' , or '+0600' respectively
* @ return { string }
* /
formatOffset ( ts , format ) {
throw new ZoneIsAbstractError ( ) ;
}
/ * *
* Return the offset in minutes for this zone at the specified timestamp .
* @ abstract
* @ param { number } ts - Epoch milliseconds for which to compute the offset
* @ return { number }
* /
offset ( ts ) {
throw new ZoneIsAbstractError ( ) ;
}
/ * *
* Return whether this Zone is equal to another zone
* @ abstract
* @ param { Zone } otherZone - the zone to compare
* @ return { boolean }
* /
equals ( otherZone ) {
throw new ZoneIsAbstractError ( ) ;
}
/ * *
* Return whether this Zone is valid .
* @ abstract
* @ type { boolean }
* /
get isValid ( ) {
throw new ZoneIsAbstractError ( ) ;
}
}
let singleton$1 = null ;
/ * *
* Represents the local zone for this JavaScript environment .
* @ implements { Zone }
* /
class SystemZone extends Zone {
/ * *
* Get a singleton instance of the local zone
* @ return { SystemZone }
* /
static get instance ( ) {
if ( singleton$1 === null ) {
singleton$1 = new SystemZone ( ) ;
}
return singleton$1 ;
}
/** @override **/
get type ( ) {
return "system" ;
}
/** @override **/
get name ( ) {
return new Intl . DateTimeFormat ( ) . resolvedOptions ( ) . timeZone ;
}
/** @override **/
get isUniversal ( ) {
return false ;
}
/** @override **/
offsetName ( ts , {
format ,
locale
} ) {
return parseZoneInfo ( ts , format , locale ) ;
}
/** @override **/
formatOffset ( ts , format ) {
return formatOffset ( this . offset ( ts ) , format ) ;
}
/** @override **/
offset ( ts ) {
return - new Date ( ts ) . getTimezoneOffset ( ) ;
}
/** @override **/
equals ( otherZone ) {
return otherZone . type === "system" ;
}
/** @override **/
get isValid ( ) {
return true ;
}
}
let dtfCache = { } ;
function makeDTF ( zone ) {
if ( ! dtfCache [ zone ] ) {
dtfCache [ zone ] = new Intl . DateTimeFormat ( "en-US" , {
hour12 : false ,
timeZone : zone ,
year : "numeric" ,
month : "2-digit" ,
day : "2-digit" ,
hour : "2-digit" ,
minute : "2-digit" ,
second : "2-digit" ,
era : "short"
} ) ;
}
return dtfCache [ zone ] ;
}
const typeToPos = {
year : 0 ,
month : 1 ,
day : 2 ,
era : 3 ,
hour : 4 ,
minute : 5 ,
second : 6
} ;
function hackyOffset ( dtf , date ) {
const formatted = dtf . format ( date ) . replace ( /\u200E/g , "" ) ,
parsed = /(\d+)\/(\d+)\/(\d+) (AD|BC),? (\d+):(\d+):(\d+)/ . exec ( formatted ) ,
[ , fMonth , fDay , fYear , fadOrBc , fHour , fMinute , fSecond ] = parsed ;
return [ fYear , fMonth , fDay , fadOrBc , fHour , fMinute , fSecond ] ;
}
function partsOffset ( dtf , date ) {
const formatted = dtf . formatToParts ( date ) ;
const filled = [ ] ;
for ( let i = 0 ; i < formatted . length ; i ++ ) {
const {
type ,
value
} = formatted [ i ] ;
const pos = typeToPos [ type ] ;
if ( type === "era" ) {
filled [ pos ] = value ;
} else if ( ! isUndefined ( pos ) ) {
filled [ pos ] = parseInt ( value , 10 ) ;
}
}
return filled ;
}
let ianaZoneCache = { } ;
/ * *
* A zone identified by an IANA identifier , like America / New _York
* @ implements { Zone }
* /
class IANAZone extends Zone {
/ * *
* @ param { string } name - Zone name
* @ return { IANAZone }
* /
static create ( name ) {
if ( ! ianaZoneCache [ name ] ) {
ianaZoneCache [ name ] = new IANAZone ( name ) ;
}
return ianaZoneCache [ name ] ;
}
/ * *
* Reset local caches . Should only be necessary in testing scenarios .
* @ return { void }
* /
static resetCache ( ) {
ianaZoneCache = { } ;
dtfCache = { } ;
}
/ * *
* Returns whether the provided string is a valid specifier . This only checks the string ' s format , not that the specifier identifies a known zone ; see isValidZone for that .
* @ param { string } s - The string to check validity on
* @ example IANAZone . isValidSpecifier ( "America/New_York" ) //=> true
* @ example IANAZone . isValidSpecifier ( "Sport~~blorp" ) //=> false
* @ deprecated This method returns false for some valid IANA names . Use isValidZone instead .
* @ return { boolean }
* /
static isValidSpecifier ( s ) {
return this . isValidZone ( s ) ;
}
/ * *
* Returns whether the provided string identifies a real zone
* @ param { string } zone - The string to check
* @ example IANAZone . isValidZone ( "America/New_York" ) //=> true
* @ example IANAZone . isValidZone ( "Fantasia/Castle" ) //=> false
* @ example IANAZone . isValidZone ( "Sport~~blorp" ) //=> false
* @ return { boolean }
* /
static isValidZone ( zone ) {
if ( ! zone ) {
return false ;
}
try {
new Intl . DateTimeFormat ( "en-US" , {
timeZone : zone
} ) . format ( ) ;
return true ;
} catch ( e ) {
return false ;
}
}
constructor ( name ) {
super ( ) ;
/** @private **/
this . zoneName = name ;
/** @private **/
this . valid = IANAZone . isValidZone ( name ) ;
}
/** @override **/
get type ( ) {
return "iana" ;
}
/** @override **/
get name ( ) {
return this . zoneName ;
}
/** @override **/
get isUniversal ( ) {
return false ;
}
/** @override **/
offsetName ( ts , {
format ,
locale
} ) {
return parseZoneInfo ( ts , format , locale , this . name ) ;
}
/** @override **/
formatOffset ( ts , format ) {
return formatOffset ( this . offset ( ts ) , format ) ;
}
/** @override **/
offset ( ts ) {
const date = new Date ( ts ) ;
if ( isNaN ( date ) ) return NaN ;
const dtf = makeDTF ( this . name ) ;
let [ year , month , day , adOrBc , hour , minute , second ] = dtf . formatToParts ? partsOffset ( dtf , date ) : hackyOffset ( dtf , date ) ;
if ( adOrBc === "BC" ) {
year = - Math . abs ( year ) + 1 ;
}
// because we're using hour12 and https://bugs.chromium.org/p/chromium/issues/detail?id=1025564&can=2&q=%2224%3A00%22%20datetimeformat
const adjustedHour = hour === 24 ? 0 : hour ;
const asUTC = objToLocalTS ( {
year ,
month ,
day ,
hour : adjustedHour ,
minute ,
second ,
millisecond : 0
} ) ;
let asTS = + date ;
const over = asTS % 1000 ;
asTS -= over >= 0 ? over : 1000 + over ;
return ( asUTC - asTS ) / ( 60 * 1000 ) ;
}
/** @override **/
equals ( otherZone ) {
return otherZone . type === "iana" && otherZone . name === this . name ;
}
/** @override **/
get isValid ( ) {
return this . valid ;
}
}
// todo - remap caching
let intlLFCache = { } ;
function getCachedLF ( locString , opts = { } ) {
const key = JSON . stringify ( [ locString , opts ] ) ;
let dtf = intlLFCache [ key ] ;
if ( ! dtf ) {
dtf = new Intl . ListFormat ( locString , opts ) ;
intlLFCache [ key ] = dtf ;
}
return dtf ;
}
let intlDTCache = { } ;
function getCachedDTF ( locString , opts = { } ) {
const key = JSON . stringify ( [ locString , opts ] ) ;
let dtf = intlDTCache [ key ] ;
if ( ! dtf ) {
dtf = new Intl . DateTimeFormat ( locString , opts ) ;
intlDTCache [ key ] = dtf ;
}
return dtf ;
}
let intlNumCache = { } ;
function getCachedINF ( locString , opts = { } ) {
const key = JSON . stringify ( [ locString , opts ] ) ;
let inf = intlNumCache [ key ] ;
if ( ! inf ) {
inf = new Intl . NumberFormat ( locString , opts ) ;
intlNumCache [ key ] = inf ;
}
return inf ;
}
let intlRelCache = { } ;
function getCachedRTF ( locString , opts = { } ) {
const {
base ,
... cacheKeyOpts
} = opts ; // exclude `base` from the options
const key = JSON . stringify ( [ locString , cacheKeyOpts ] ) ;
let inf = intlRelCache [ key ] ;
if ( ! inf ) {
inf = new Intl . RelativeTimeFormat ( locString , opts ) ;
intlRelCache [ key ] = inf ;
}
return inf ;
}
let sysLocaleCache = null ;
function systemLocale ( ) {
if ( sysLocaleCache ) {
return sysLocaleCache ;
} else {
sysLocaleCache = new Intl . DateTimeFormat ( ) . resolvedOptions ( ) . locale ;
return sysLocaleCache ;
}
}
function parseLocaleString ( localeStr ) {
// I really want to avoid writing a BCP 47 parser
// see, e.g. https://github.com/wooorm/bcp-47
// Instead, we'll do this:
// a) if the string has no -u extensions, just leave it alone
// b) if it does, use Intl to resolve everything
// c) if Intl fails, try again without the -u
// private subtags and unicode subtags have ordering requirements,
// and we're not properly parsing this, so just strip out the
// private ones if they exist.
const xIndex = localeStr . indexOf ( "-x-" ) ;
if ( xIndex !== - 1 ) {
localeStr = localeStr . substring ( 0 , xIndex ) ;
}
const uIndex = localeStr . indexOf ( "-u-" ) ;
if ( uIndex === - 1 ) {
return [ localeStr ] ;
} else {
let options ;
let selectedStr ;
try {
options = getCachedDTF ( localeStr ) . resolvedOptions ( ) ;
selectedStr = localeStr ;
} catch ( e ) {
const smaller = localeStr . substring ( 0 , uIndex ) ;
options = getCachedDTF ( smaller ) . resolvedOptions ( ) ;
selectedStr = smaller ;
}
const {
numberingSystem ,
calendar
} = options ;
return [ selectedStr , numberingSystem , calendar ] ;
}
}
function intlConfigString ( localeStr , numberingSystem , outputCalendar ) {
if ( outputCalendar || numberingSystem ) {
if ( ! localeStr . includes ( "-u-" ) ) {
localeStr += "-u" ;
}
if ( outputCalendar ) {
localeStr += ` -ca- ${ outputCalendar } ` ;
}
if ( numberingSystem ) {
localeStr += ` -nu- ${ numberingSystem } ` ;
}
return localeStr ;
} else {
return localeStr ;
}
}
function mapMonths ( f ) {
const ms = [ ] ;
for ( let i = 1 ; i <= 12 ; i ++ ) {
const dt = DateTime . utc ( 2009 , i , 1 ) ;
ms . push ( f ( dt ) ) ;
}
return ms ;
}
function mapWeekdays ( f ) {
const ms = [ ] ;
for ( let i = 1 ; i <= 7 ; i ++ ) {
const dt = DateTime . utc ( 2016 , 11 , 13 + i ) ;
ms . push ( f ( dt ) ) ;
}
return ms ;
}
function listStuff ( loc , length , englishFn , intlFn ) {
const mode = loc . listingMode ( ) ;
if ( mode === "error" ) {
return null ;
} else if ( mode === "en" ) {
return englishFn ( length ) ;
} else {
return intlFn ( length ) ;
}
}
function supportsFastNumbers ( loc ) {
if ( loc . numberingSystem && loc . numberingSystem !== "latn" ) {
return false ;
} else {
return loc . numberingSystem === "latn" || ! loc . locale || loc . locale . startsWith ( "en" ) || new Intl . DateTimeFormat ( loc . intl ) . resolvedOptions ( ) . numberingSystem === "latn" ;
}
}
/ * *
* @ private
* /
class PolyNumberFormatter {
constructor ( intl , forceSimple , opts ) {
this . padTo = opts . padTo || 0 ;
this . floor = opts . floor || false ;
const {
padTo ,
floor ,
... otherOpts
} = opts ;
if ( ! forceSimple || Object . keys ( otherOpts ) . length > 0 ) {
const intlOpts = {
useGrouping : false ,
... opts
} ;
if ( opts . padTo > 0 ) intlOpts . minimumIntegerDigits = opts . padTo ;
this . inf = getCachedINF ( intl , intlOpts ) ;
}
}
format ( i ) {
if ( this . inf ) {
const fixed = this . floor ? Math . floor ( i ) : i ;
return this . inf . format ( fixed ) ;
} else {
// to match the browser's numberformatter defaults
const fixed = this . floor ? Math . floor ( i ) : roundTo ( i , 3 ) ;
return padStart ( fixed , this . padTo ) ;
}
}
}
/ * *
* @ private
* /
class PolyDateFormatter {
constructor ( dt , intl , opts ) {
this . opts = opts ;
this . originalZone = undefined ;
let z = undefined ;
if ( this . opts . timeZone ) {
// Don't apply any workarounds if a timeZone is explicitly provided in opts
this . dt = dt ;
} else if ( dt . zone . type === "fixed" ) {
// UTC-8 or Etc/UTC-8 are not part of tzdata, only Etc/GMT+8 and the like.
// That is why fixed-offset TZ is set to that unless it is:
// 1. Representing offset 0 when UTC is used to maintain previous behavior and does not become GMT.
// 2. Unsupported by the browser:
// - some do not support Etc/
// - < Etc/GMT-14, > Etc/GMT+12, and 30-minute or 45-minute offsets are not part of tzdata
const gmtOffset = - 1 * ( dt . offset / 60 ) ;
const offsetZ = gmtOffset >= 0 ? ` Etc/GMT+ ${ gmtOffset } ` : ` Etc/GMT ${ gmtOffset } ` ;
if ( dt . offset !== 0 && IANAZone . create ( offsetZ ) . valid ) {
z = offsetZ ;
this . dt = dt ;
} else {
// Not all fixed-offset zones like Etc/+4:30 are present in tzdata so
// we manually apply the offset and substitute the zone as needed.
z = "UTC" ;
this . dt = dt . offset === 0 ? dt : dt . setZone ( "UTC" ) . plus ( {
minutes : dt . offset
} ) ;
this . originalZone = dt . zone ;
}
} else if ( dt . zone . type === "system" ) {
this . dt = dt ;
} else if ( dt . zone . type === "iana" ) {
this . dt = dt ;
z = dt . zone . name ;
} else {
// Custom zones can have any offset / offsetName so we just manually
// apply the offset and substitute the zone as needed.
z = "UTC" ;
this . dt = dt . setZone ( "UTC" ) . plus ( {
minutes : dt . offset
} ) ;
this . originalZone = dt . zone ;
}
const intlOpts = {
... this . opts
} ;
intlOpts . timeZone = intlOpts . timeZone || z ;
this . dtf = getCachedDTF ( intl , intlOpts ) ;
}
format ( ) {
if ( this . originalZone ) {
// If we have to substitute in the actual zone name, we have to use
// formatToParts so that the timezone can be replaced.
return this . formatToParts ( ) . map ( ( {
value
} ) => value ) . join ( "" ) ;
}
return this . dtf . format ( this . dt . toJSDate ( ) ) ;
}
formatToParts ( ) {
const parts = this . dtf . formatToParts ( this . dt . toJSDate ( ) ) ;
if ( this . originalZone ) {
return parts . map ( part => {
if ( part . type === "timeZoneName" ) {
const offsetName = this . originalZone . offsetName ( this . dt . ts , {
locale : this . dt . locale ,
format : this . opts . timeZoneName
} ) ;
return {
... part ,
value : offsetName
} ;
} else {
return part ;
}
} ) ;
}
return parts ;
}
resolvedOptions ( ) {
return this . dtf . resolvedOptions ( ) ;
}
}
/ * *
* @ private
* /
class PolyRelFormatter {
constructor ( intl , isEnglish , opts ) {
this . opts = {
style : "long" ,
... opts
} ;
if ( ! isEnglish && hasRelative ( ) ) {
this . rtf = getCachedRTF ( intl , opts ) ;
}
}
format ( count , unit ) {
if ( this . rtf ) {
return this . rtf . format ( count , unit ) ;
} else {
return formatRelativeTime ( unit , count , this . opts . numeric , this . opts . style !== "long" ) ;
}
}
formatToParts ( count , unit ) {
if ( this . rtf ) {
return this . rtf . formatToParts ( count , unit ) ;
} else {
return [ ] ;
}
}
}
/ * *
* @ private
* /
class Locale {
static fromOpts ( opts ) {
return Locale . create ( opts . locale , opts . numberingSystem , opts . outputCalendar , opts . defaultToEN ) ;
}
static create ( locale , numberingSystem , outputCalendar , defaultToEN = false ) {
const specifiedLocale = locale || Settings . defaultLocale ;
// the system locale is useful for human readable strings but annoying for parsing/formatting known formats
const localeR = specifiedLocale || ( defaultToEN ? "en-US" : systemLocale ( ) ) ;
const numberingSystemR = numberingSystem || Settings . defaultNumberingSystem ;
const outputCalendarR = outputCalendar || Settings . defaultOutputCalendar ;
return new Locale ( localeR , numberingSystemR , outputCalendarR , specifiedLocale ) ;
}
static resetCache ( ) {
sysLocaleCache = null ;
intlDTCache = { } ;
intlNumCache = { } ;
intlRelCache = { } ;
}
static fromObject ( {
locale ,
numberingSystem ,
outputCalendar
} = { } ) {
return Locale . create ( locale , numberingSystem , outputCalendar ) ;
}
constructor ( locale , numbering , outputCalendar , specifiedLocale ) {
const [ parsedLocale , parsedNumberingSystem , parsedOutputCalendar ] = parseLocaleString ( locale ) ;
this . locale = parsedLocale ;
this . numberingSystem = numbering || parsedNumberingSystem || null ;
this . outputCalendar = outputCalendar || parsedOutputCalendar || null ;
this . intl = intlConfigString ( this . locale , this . numberingSystem , this . outputCalendar ) ;
this . weekdaysCache = {
format : { } ,
standalone : { }
} ;
this . monthsCache = {
format : { } ,
standalone : { }
} ;
this . meridiemCache = null ;
this . eraCache = { } ;
this . specifiedLocale = specifiedLocale ;
this . fastNumbersCached = null ;
}
get fastNumbers ( ) {
if ( this . fastNumbersCached == null ) {
this . fastNumbersCached = supportsFastNumbers ( this ) ;
}
return this . fastNumbersCached ;
}
listingMode ( ) {
const isActuallyEn = this . isEnglish ( ) ;
const hasNoWeirdness = ( this . numberingSystem === null || this . numberingSystem === "latn" ) && ( this . outputCalendar === null || this . outputCalendar === "gregory" ) ;
return isActuallyEn && hasNoWeirdness ? "en" : "intl" ;
}
clone ( alts ) {
if ( ! alts || Object . getOwnPropertyNames ( alts ) . length === 0 ) {
return this ;
} else {
return Locale . create ( alts . locale || this . specifiedLocale , alts . numberingSystem || this . numberingSystem , alts . outputCalendar || this . outputCalendar , alts . defaultToEN || false ) ;
}
}
redefaultToEN ( alts = { } ) {
return this . clone ( {
... alts ,
defaultToEN : true
} ) ;
}
redefaultToSystem ( alts = { } ) {
return this . clone ( {
... alts ,
defaultToEN : false
} ) ;
}
months ( length , format = false ) {
return listStuff ( this , length , months , ( ) => {
const intl = format ? {
month : length ,
day : "numeric"
} : {
month : length
} ,
formatStr = format ? "format" : "standalone" ;
if ( ! this . monthsCache [ formatStr ] [ length ] ) {
this . monthsCache [ formatStr ] [ length ] = mapMonths ( dt => this . extract ( dt , intl , "month" ) ) ;
}
return this . monthsCache [ formatStr ] [ length ] ;
} ) ;
}
weekdays ( length , format = false ) {
return listStuff ( this , length , weekdays , ( ) => {
const intl = format ? {
weekday : length ,
year : "numeric" ,
month : "long" ,
day : "numeric"
} : {
weekday : length
} ,
formatStr = format ? "format" : "standalone" ;
if ( ! this . weekdaysCache [ formatStr ] [ length ] ) {
this . weekdaysCache [ formatStr ] [ length ] = mapWeekdays ( dt => this . extract ( dt , intl , "weekday" ) ) ;
}
return this . weekdaysCache [ formatStr ] [ length ] ;
} ) ;
}
meridiems ( ) {
return listStuff ( this , undefined , ( ) => meridiems , ( ) => {
// In theory there could be aribitrary day periods. We're gonna assume there are exactly two
// for AM and PM. This is probably wrong, but it's makes parsing way easier.
if ( ! this . meridiemCache ) {
const intl = {
hour : "numeric" ,
hourCycle : "h12"
} ;
this . meridiemCache = [ DateTime . utc ( 2016 , 11 , 13 , 9 ) , DateTime . utc ( 2016 , 11 , 13 , 19 ) ] . map ( dt => this . extract ( dt , intl , "dayperiod" ) ) ;
}
return this . meridiemCache ;
} ) ;
}
eras ( length ) {
return listStuff ( this , length , eras , ( ) => {
const intl = {
era : length
} ;
// This is problematic. Different calendars are going to define eras totally differently. What I need is the minimum set of dates
// to definitely enumerate them.
if ( ! this . eraCache [ length ] ) {
this . eraCache [ length ] = [ DateTime . utc ( - 40 , 1 , 1 ) , DateTime . utc ( 2017 , 1 , 1 ) ] . map ( dt => this . extract ( dt , intl , "era" ) ) ;
}
return this . eraCache [ length ] ;
} ) ;
}
extract ( dt , intlOpts , field ) {
const df = this . dtFormatter ( dt , intlOpts ) ,
results = df . formatToParts ( ) ,
matching = results . find ( m => m . type . toLowerCase ( ) === field ) ;
return matching ? matching . value : null ;
}
numberFormatter ( opts = { } ) {
// this forcesimple option is never used (the only caller short-circuits on it, but it seems safer to leave)
// (in contrast, the rest of the condition is used heavily)
return new PolyNumberFormatter ( this . intl , opts . forceSimple || this . fastNumbers , opts ) ;
}
dtFormatter ( dt , intlOpts = { } ) {
return new PolyDateFormatter ( dt , this . intl , intlOpts ) ;
}
relFormatter ( opts = { } ) {
return new PolyRelFormatter ( this . intl , this . isEnglish ( ) , opts ) ;
}
listFormatter ( opts = { } ) {
return getCachedLF ( this . intl , opts ) ;
}
isEnglish ( ) {
return this . locale === "en" || this . locale . toLowerCase ( ) === "en-us" || new Intl . DateTimeFormat ( this . intl ) . resolvedOptions ( ) . locale . startsWith ( "en-us" ) ;
}
equals ( other ) {
return this . locale === other . locale && this . numberingSystem === other . numberingSystem && this . outputCalendar === other . outputCalendar ;
}
}
let singleton = null ;
/ * *
* A zone with a fixed offset ( meaning no DST )
* @ implements { Zone }
* /
class FixedOffsetZone extends Zone {
/ * *
* Get a singleton instance of UTC
* @ return { FixedOffsetZone }
* /
static get utcInstance ( ) {
if ( singleton === null ) {
singleton = new FixedOffsetZone ( 0 ) ;
}
return singleton ;
}
/ * *
* Get an instance with a specified offset
* @ param { number } offset - The offset in minutes
* @ return { FixedOffsetZone }
* /
static instance ( offset ) {
return offset === 0 ? FixedOffsetZone . utcInstance : new FixedOffsetZone ( offset ) ;
}
/ * *
* Get an instance of FixedOffsetZone from a UTC offset string , like "UTC+6"
* @ param { string } s - The offset string to parse
* @ example FixedOffsetZone . parseSpecifier ( "UTC+6" )
* @ example FixedOffsetZone . parseSpecifier ( "UTC+06" )
* @ example FixedOffsetZone . parseSpecifier ( "UTC-6:00" )
* @ return { FixedOffsetZone }
* /
static parseSpecifier ( s ) {
if ( s ) {
const r = s . match ( /^utc(?:([+-]\d{1,2})(?::(\d{2}))?)?$/i ) ;
if ( r ) {
return new FixedOffsetZone ( signedOffset ( r [ 1 ] , r [ 2 ] ) ) ;
}
}
return null ;
}
constructor ( offset ) {
super ( ) ;
/** @private **/
this . fixed = offset ;
}
/** @override **/
get type ( ) {
return "fixed" ;
}
/** @override **/
get name ( ) {
return this . fixed === 0 ? "UTC" : ` UTC ${ formatOffset ( this . fixed , "narrow" ) } ` ;
}
get ianaName ( ) {
if ( this . fixed === 0 ) {
return "Etc/UTC" ;
} else {
return ` Etc/GMT ${ formatOffset ( - this . fixed , "narrow" ) } ` ;
}
}
/** @override **/
offsetName ( ) {
return this . name ;
}
/** @override **/
formatOffset ( ts , format ) {
return formatOffset ( this . fixed , format ) ;
}
/** @override **/
get isUniversal ( ) {
return true ;
}
/** @override **/
offset ( ) {
return this . fixed ;
}
/** @override **/
equals ( otherZone ) {
return otherZone . type === "fixed" && otherZone . fixed === this . fixed ;
}
/** @override **/
get isValid ( ) {
return true ;
}
}
/ * *
* A zone that failed to parse . You should never need to instantiate this .
* @ implements { Zone }
* /
class InvalidZone extends Zone {
constructor ( zoneName ) {
super ( ) ;
/** @private */
this . zoneName = zoneName ;
}
/** @override **/
get type ( ) {
return "invalid" ;
}
/** @override **/
get name ( ) {
return this . zoneName ;
}
/** @override **/
get isUniversal ( ) {
return false ;
}
/** @override **/
offsetName ( ) {
return null ;
}
/** @override **/
formatOffset ( ) {
return "" ;
}
/** @override **/
offset ( ) {
return NaN ;
}
/** @override **/
equals ( ) {
return false ;
}
/** @override **/
get isValid ( ) {
return false ;
}
}
/ * *
* @ private
* /
function normalizeZone ( input , defaultZone ) {
if ( isUndefined ( input ) || input === null ) {
return defaultZone ;
} else if ( input instanceof Zone ) {
return input ;
} else if ( isString ( input ) ) {
const lowered = input . toLowerCase ( ) ;
if ( lowered === "default" ) return defaultZone ; else if ( lowered === "local" || lowered === "system" ) return SystemZone . instance ; else if ( lowered === "utc" || lowered === "gmt" ) return FixedOffsetZone . utcInstance ; else return FixedOffsetZone . parseSpecifier ( lowered ) || IANAZone . create ( input ) ;
} else if ( isNumber ( input ) ) {
return FixedOffsetZone . instance ( input ) ;
} else if ( typeof input === "object" && "offset" in input && typeof input . offset === "function" ) {
// This is dumb, but the instanceof check above doesn't seem to really work
// so we're duck checking it
return input ;
} else {
return new InvalidZone ( input ) ;
}
}
let now = ( ) => Date . now ( ) ,
defaultZone = "system" ,
defaultLocale = null ,
defaultNumberingSystem = null ,
defaultOutputCalendar = null ,
twoDigitCutoffYear = 60 ,
throwOnInvalid ;
/ * *
* Settings contains static getters and setters that control Luxon ' s overall behavior . Luxon is a simple library with few options , but the ones it does have live here .
* /
class Settings {
/ * *
* Get the callback for returning the current timestamp .
* @ type { function }
* /
static get now ( ) {
return now ;
}
/ * *
* Set the callback for returning the current timestamp .
* The function should return a number , which will be interpreted as an Epoch millisecond count
* @ type { function }
* @ example Settings . now = ( ) => Date . now ( ) + 3000 // pretend it is 3 seconds in the future
* @ example Settings . now = ( ) => 0 // always pretend it's Jan 1, 1970 at midnight in UTC time
* /
static set now ( n ) {
now = n ;
}
/ * *
* Set the default time zone to create DateTimes in . Does not affect existing instances .
* Use the value "system" to reset this value to the system ' s time zone .
* @ type { string }
* /
static set defaultZone ( zone ) {
defaultZone = zone ;
}
/ * *
* Get the default time zone object currently used to create DateTimes . Does not affect existing instances .
* The default value is the system ' s time zone ( the one set on the machine that runs this code ) .
* @ type { Zone }
* /
static get defaultZone ( ) {
return normalizeZone ( defaultZone , SystemZone . instance ) ;
}
/ * *
* Get the default locale to create DateTimes with . Does not affect existing instances .
* @ type { string }
* /
static get defaultLocale ( ) {
return defaultLocale ;
}
/ * *
* Set the default locale to create DateTimes with . Does not affect existing instances .
* @ type { string }
* /
static set defaultLocale ( locale ) {
defaultLocale = locale ;
}
/ * *
* Get the default numbering system to create DateTimes with . Does not affect existing instances .
* @ type { string }
* /
static get defaultNumberingSystem ( ) {
return defaultNumberingSystem ;
}
/ * *
* Set the default numbering system to create DateTimes with . Does not affect existing instances .
* @ type { string }
* /
static set defaultNumberingSystem ( numberingSystem ) {
defaultNumberingSystem = numberingSystem ;
}
/ * *
* Get the default output calendar to create DateTimes with . Does not affect existing instances .
* @ type { string }
* /
static get defaultOutputCalendar ( ) {
return defaultOutputCalendar ;
}
/ * *
* Set the default output calendar to create DateTimes with . Does not affect existing instances .
* @ type { string }
* /
static set defaultOutputCalendar ( outputCalendar ) {
defaultOutputCalendar = outputCalendar ;
}
/ * *
* Get the cutoff year after which a string encoding a year as two digits is interpreted to occur in the current century .
* @ type { number }
* /
static get twoDigitCutoffYear ( ) {
return twoDigitCutoffYear ;
}
/ * *
* Set the cutoff year after which a string encoding a year as two digits is interpreted to occur in the current century .
* @ type { number }
* @ example Settings . twoDigitCutoffYear = 0 // cut-off year is 0, so all 'yy' are interpreted as current century
* @ example Settings . twoDigitCutoffYear = 50 // '49' -> 1949; '50' -> 2050
* @ example Settings . twoDigitCutoffYear = 1950 // interpreted as 50
* @ example Settings . twoDigitCutoffYear = 2050 // ALSO interpreted as 50
* /
static set twoDigitCutoffYear ( cutoffYear ) {
twoDigitCutoffYear = cutoffYear % 100 ;
}
/ * *
* Get whether Luxon will throw when it encounters invalid DateTimes , Durations , or Intervals
* @ type { boolean }
* /
static get throwOnInvalid ( ) {
return throwOnInvalid ;
}
/ * *
* Set whether Luxon will throw when it encounters invalid DateTimes , Durations , or Intervals
* @ type { boolean }
* /
static set throwOnInvalid ( t ) {
throwOnInvalid = t ;
}
/ * *
* Reset Luxon ' s global caches . Should only be necessary in testing scenarios .
* @ return { void }
* /
static resetCaches ( ) {
Locale . resetCache ( ) ;
IANAZone . resetCache ( ) ;
}
}
/ *
This is just a junk drawer , containing anything used across multiple classes .
Because Luxon is small ( ish ) , this should stay small and we won ' t worry about splitting
it up into , say , parsingUtil . js and basicUtil . js and so on . But they are divided up by feature area .
* /
/ * *
* @ private
* /
// TYPES
function isUndefined ( o ) {
return typeof o === "undefined" ;
}
function isNumber ( o ) {
return typeof o === "number" ;
}
function isInteger ( o ) {
return typeof o === "number" && o % 1 === 0 ;
}
function isString ( o ) {
return typeof o === "string" ;
}
function isDate ( o ) {
return Object . prototype . toString . call ( o ) === "[object Date]" ;
}
// CAPABILITIES
function hasRelative ( ) {
try {
return typeof Intl !== "undefined" && ! ! Intl . RelativeTimeFormat ;
} catch ( e ) {
return false ;
}
}
// OBJECTS AND ARRAYS
function maybeArray ( thing ) {
return Array . isArray ( thing ) ? thing : [ thing ] ;
}
function bestBy ( arr , by , compare ) {
if ( arr . length === 0 ) {
return undefined ;
}
return arr . reduce ( ( best , next ) => {
const pair = [ by ( next ) , next ] ;
if ( ! best ) {
return pair ;
} else if ( compare ( best [ 0 ] , pair [ 0 ] ) === best [ 0 ] ) {
return best ;
} else {
return pair ;
}
} , null ) [ 1 ] ;
}
function pick ( obj , keys ) {
return keys . reduce ( ( a , k ) => {
a [ k ] = obj [ k ] ;
return a ;
} , { } ) ;
}
function hasOwnProperty ( obj , prop ) {
return Object . prototype . hasOwnProperty . call ( obj , prop ) ;
}
// NUMBERS AND STRINGS
function integerBetween ( thing , bottom , top ) {
return isInteger ( thing ) && thing >= bottom && thing <= top ;
}
// x % n but takes the sign of n instead of x
function floorMod ( x , n ) {
return x - n * Math . floor ( x / n ) ;
}
function padStart ( input , n = 2 ) {
const isNeg = input < 0 ;
let padded ;
if ( isNeg ) {
padded = "-" + ( "" + - input ) . padStart ( n , "0" ) ;
} else {
padded = ( "" + input ) . padStart ( n , "0" ) ;
}
return padded ;
}
function parseInteger ( string ) {
if ( isUndefined ( string ) || string === null || string === "" ) {
return undefined ;
} else {
return parseInt ( string , 10 ) ;
}
}
function parseFloating ( string ) {
if ( isUndefined ( string ) || string === null || string === "" ) {
return undefined ;
} else {
return parseFloat ( string ) ;
}
}
function parseMillis ( fraction ) {
// Return undefined (instead of 0) in these cases, where fraction is not set
if ( isUndefined ( fraction ) || fraction === null || fraction === "" ) {
return undefined ;
} else {
const f = parseFloat ( "0." + fraction ) * 1000 ;
return Math . floor ( f ) ;
}
}
function roundTo ( number , digits , towardZero = false ) {
const factor = 10 * * digits ,
rounder = towardZero ? Math . trunc : Math . round ;
return rounder ( number * factor ) / factor ;
}
// DATE BASICS
function isLeapYear ( year ) {
return year % 4 === 0 && ( year % 100 !== 0 || year % 400 === 0 ) ;
}
function daysInYear ( year ) {
return isLeapYear ( year ) ? 366 : 365 ;
}
function daysInMonth ( year , month ) {
const modMonth = floorMod ( month - 1 , 12 ) + 1 ,
modYear = year + ( month - modMonth ) / 12 ;
if ( modMonth === 2 ) {
return isLeapYear ( modYear ) ? 29 : 28 ;
} else {
return [ 31 , null , 31 , 30 , 31 , 30 , 31 , 31 , 30 , 31 , 30 , 31 ] [ modMonth - 1 ] ;
}
}
// convert a calendar object to a local timestamp (epoch, but with the offset baked in)
function objToLocalTS ( obj ) {
let d = Date . UTC ( obj . year , obj . month - 1 , obj . day , obj . hour , obj . minute , obj . second , obj . millisecond ) ;
// for legacy reasons, years between 0 and 99 are interpreted as 19XX; revert that
if ( obj . year < 100 && obj . year >= 0 ) {
d = new Date ( d ) ;
// set the month and day again, this is necessary because year 2000 is a leap year, but year 100 is not
// so if obj.year is in 99, but obj.day makes it roll over into year 100,
// the calculations done by Date.UTC are using year 2000 - which is incorrect
d . setUTCFullYear ( obj . year , obj . month - 1 , obj . day ) ;
}
return + d ;
}
function weeksInWeekYear ( weekYear ) {
const p1 = ( weekYear + Math . floor ( weekYear / 4 ) - Math . floor ( weekYear / 100 ) + Math . floor ( weekYear / 400 ) ) % 7 ,
last = weekYear - 1 ,
p2 = ( last + Math . floor ( last / 4 ) - Math . floor ( last / 100 ) + Math . floor ( last / 400 ) ) % 7 ;
return p1 === 4 || p2 === 3 ? 53 : 52 ;
}
function untruncateYear ( year ) {
if ( year > 99 ) {
return year ;
} else return year > Settings . twoDigitCutoffYear ? 1900 + year : 2000 + year ;
}
// PARSING
function parseZoneInfo ( ts , offsetFormat , locale , timeZone = null ) {
const date = new Date ( ts ) ,
intlOpts = {
hourCycle : "h23" ,
year : "numeric" ,
month : "2-digit" ,
day : "2-digit" ,
hour : "2-digit" ,
minute : "2-digit"
} ;
if ( timeZone ) {
intlOpts . timeZone = timeZone ;
}
const modified = {
timeZoneName : offsetFormat ,
... intlOpts
} ;
const parsed = new Intl . DateTimeFormat ( locale , modified ) . formatToParts ( date ) . find ( m => m . type . toLowerCase ( ) === "timezonename" ) ;
return parsed ? parsed . value : null ;
}
// signedOffset('-5', '30') -> -330
function signedOffset ( offHourStr , offMinuteStr ) {
let offHour = parseInt ( offHourStr , 10 ) ;
// don't || this because we want to preserve -0
if ( Number . isNaN ( offHour ) ) {
offHour = 0 ;
}
const offMin = parseInt ( offMinuteStr , 10 ) || 0 ,
offMinSigned = offHour < 0 || Object . is ( offHour , - 0 ) ? - offMin : offMin ;
return offHour * 60 + offMinSigned ;
}
// COERCION
function asNumber ( value ) {
const numericValue = Number ( value ) ;
if ( typeof value === "boolean" || value === "" || Number . isNaN ( numericValue ) ) throw new InvalidArgumentError ( ` Invalid unit value ${ value } ` ) ;
return numericValue ;
}
function normalizeObject ( obj , normalizer ) {
const normalized = { } ;
for ( const u in obj ) {
if ( hasOwnProperty ( obj , u ) ) {
const v = obj [ u ] ;
if ( v === undefined || v === null ) continue ;
normalized [ normalizer ( u ) ] = asNumber ( v ) ;
}
}
return normalized ;
}
function formatOffset ( offset , format ) {
const hours = Math . trunc ( Math . abs ( offset / 60 ) ) ,
minutes = Math . trunc ( Math . abs ( offset % 60 ) ) ,
sign = offset >= 0 ? "+" : "-" ;
switch ( format ) {
case "short" :
return ` ${ sign } ${ padStart ( hours , 2 ) } : ${ padStart ( minutes , 2 ) } ` ;
case "narrow" :
return ` ${ sign } ${ hours } ${ minutes > 0 ? ` : ${ minutes } ` : "" } ` ;
case "techie" :
return ` ${ sign } ${ padStart ( hours , 2 ) } ${ padStart ( minutes , 2 ) } ` ;
default :
throw new RangeError ( ` Value format ${ format } is out of range for property format ` ) ;
}
}
function timeObject ( obj ) {
return pick ( obj , [ "hour" , "minute" , "second" , "millisecond" ] ) ;
}
/ * *
* @ private
* /
const monthsLong = [ "January" , "February" , "March" , "April" , "May" , "June" , "July" , "August" , "September" , "October" , "November" , "December" ] ;
const monthsShort = [ "Jan" , "Feb" , "Mar" , "Apr" , "May" , "Jun" , "Jul" , "Aug" , "Sep" , "Oct" , "Nov" , "Dec" ] ;
const monthsNarrow = [ "J" , "F" , "M" , "A" , "M" , "J" , "J" , "A" , "S" , "O" , "N" , "D" ] ;
function months ( length ) {
switch ( length ) {
case "narrow" :
return [ ... monthsNarrow ] ;
case "short" :
return [ ... monthsShort ] ;
case "long" :
return [ ... monthsLong ] ;
case "numeric" :
return [ "1" , "2" , "3" , "4" , "5" , "6" , "7" , "8" , "9" , "10" , "11" , "12" ] ;
case "2-digit" :
return [ "01" , "02" , "03" , "04" , "05" , "06" , "07" , "08" , "09" , "10" , "11" , "12" ] ;
default :
return null ;
}
}
const weekdaysLong = [ "Monday" , "Tuesday" , "Wednesday" , "Thursday" , "Friday" , "Saturday" , "Sunday" ] ;
const weekdaysShort = [ "Mon" , "Tue" , "Wed" , "Thu" , "Fri" , "Sat" , "Sun" ] ;
const weekdaysNarrow = [ "M" , "T" , "W" , "T" , "F" , "S" , "S" ] ;
function weekdays ( length ) {
switch ( length ) {
case "narrow" :
return [ ... weekdaysNarrow ] ;
case "short" :
return [ ... weekdaysShort ] ;
case "long" :
return [ ... weekdaysLong ] ;
case "numeric" :
return [ "1" , "2" , "3" , "4" , "5" , "6" , "7" ] ;
default :
return null ;
}
}
const meridiems = [ "AM" , "PM" ] ;
const erasLong = [ "Before Christ" , "Anno Domini" ] ;
const erasShort = [ "BC" , "AD" ] ;
const erasNarrow = [ "B" , "A" ] ;
function eras ( length ) {
switch ( length ) {
case "narrow" :
return [ ... erasNarrow ] ;
case "short" :
return [ ... erasShort ] ;
case "long" :
return [ ... erasLong ] ;
default :
return null ;
}
}
function meridiemForDateTime ( dt ) {
return meridiems [ dt . hour < 12 ? 0 : 1 ] ;
}
function weekdayForDateTime ( dt , length ) {
return weekdays ( length ) [ dt . weekday - 1 ] ;
}
function monthForDateTime ( dt , length ) {
return months ( length ) [ dt . month - 1 ] ;
}
function eraForDateTime ( dt , length ) {
return eras ( length ) [ dt . year < 0 ? 0 : 1 ] ;
}
function formatRelativeTime ( unit , count , numeric = "always" , narrow = false ) {
const units = {
years : [ "year" , "yr." ] ,
quarters : [ "quarter" , "qtr." ] ,
months : [ "month" , "mo." ] ,
weeks : [ "week" , "wk." ] ,
days : [ "day" , "day" , "days" ] ,
hours : [ "hour" , "hr." ] ,
minutes : [ "minute" , "min." ] ,
seconds : [ "second" , "sec." ]
} ;
const lastable = [ "hours" , "minutes" , "seconds" ] . indexOf ( unit ) === - 1 ;
if ( numeric === "auto" && lastable ) {
const isDay = unit === "days" ;
switch ( count ) {
case 1 :
return isDay ? "tomorrow" : ` next ${ units [ unit ] [ 0 ] } ` ;
case - 1 :
return isDay ? "yesterday" : ` last ${ units [ unit ] [ 0 ] } ` ;
case 0 :
return isDay ? "today" : ` this ${ units [ unit ] [ 0 ] } ` ;
}
}
const isInPast = Object . is ( count , - 0 ) || count < 0 ,
fmtValue = Math . abs ( count ) ,
singular = fmtValue === 1 ,
lilUnits = units [ unit ] ,
fmtUnit = narrow ? singular ? lilUnits [ 1 ] : lilUnits [ 2 ] || lilUnits [ 1 ] : singular ? units [ unit ] [ 0 ] : unit ;
return isInPast ? ` ${ fmtValue } ${ fmtUnit } ago ` : ` in ${ fmtValue } ${ fmtUnit } ` ;
}
function stringifyTokens ( splits , tokenToString ) {
let s = "" ;
for ( const token of splits ) {
if ( token . literal ) {
s += token . val ;
} else {
s += tokenToString ( token . val ) ;
}
}
return s ;
}
const macroTokenToFormatOpts = {
D : DATE _SHORT ,
DD : DATE _MED ,
DDD : DATE _FULL ,
DDDD : DATE _HUGE ,
t : TIME _SIMPLE ,
tt : TIME _WITH _SECONDS ,
ttt : TIME _WITH _SHORT _OFFSET ,
tttt : TIME _WITH _LONG _OFFSET ,
T : TIME _24 _SIMPLE ,
TT : TIME _24 _WITH _SECONDS ,
TTT : TIME _24 _WITH _SHORT _OFFSET ,
TTTT : TIME _24 _WITH _LONG _OFFSET ,
f : DATETIME _SHORT ,
ff : DATETIME _MED ,
fff : DATETIME _FULL ,
ffff : DATETIME _HUGE ,
F : DATETIME _SHORT _WITH _SECONDS ,
FF : DATETIME _MED _WITH _SECONDS ,
FFF : DATETIME _FULL _WITH _SECONDS ,
FFFF : DATETIME _HUGE _WITH _SECONDS
} ;
/ * *
* @ private
* /
class Formatter {
static create ( locale , opts = { } ) {
return new Formatter ( locale , opts ) ;
}
static parseFormat ( fmt ) {
// white-space is always considered a literal in user-provided formats
// the " " token has a special meaning (see unitForToken)
let current = null ,
currentFull = "" ,
bracketed = false ;
const splits = [ ] ;
for ( let i = 0 ; i < fmt . length ; i ++ ) {
const c = fmt . charAt ( i ) ;
if ( c === "'" ) {
if ( currentFull . length > 0 ) {
splits . push ( {
literal : bracketed || /^\s+$/ . test ( currentFull ) ,
val : currentFull
} ) ;
}
current = null ;
currentFull = "" ;
bracketed = ! bracketed ;
} else if ( bracketed ) {
currentFull += c ;
} else if ( c === current ) {
currentFull += c ;
} else {
if ( currentFull . length > 0 ) {
splits . push ( {
literal : /^\s+$/ . test ( currentFull ) ,
val : currentFull
} ) ;
}
currentFull = c ;
current = c ;
}
}
if ( currentFull . length > 0 ) {
splits . push ( {
literal : bracketed || /^\s+$/ . test ( currentFull ) ,
val : currentFull
} ) ;
}
return splits ;
}
static macroTokenToFormatOpts ( token ) {
return macroTokenToFormatOpts [ token ] ;
}
constructor ( locale , formatOpts ) {
this . opts = formatOpts ;
this . loc = locale ;
this . systemLoc = null ;
}
formatWithSystemDefault ( dt , opts ) {
if ( this . systemLoc === null ) {
this . systemLoc = this . loc . redefaultToSystem ( ) ;
}
const df = this . systemLoc . dtFormatter ( dt , {
... this . opts ,
... opts
} ) ;
return df . format ( ) ;
}
dtFormatter ( dt , opts = { } ) {
return this . loc . dtFormatter ( dt , {
... this . opts ,
... opts
} ) ;
}
formatDateTime ( dt , opts ) {
return this . dtFormatter ( dt , opts ) . format ( ) ;
}
formatDateTimeParts ( dt , opts ) {
return this . dtFormatter ( dt , opts ) . formatToParts ( ) ;
}
formatInterval ( interval , opts ) {
const df = this . dtFormatter ( interval . start , opts ) ;
return df . dtf . formatRange ( interval . start . toJSDate ( ) , interval . end . toJSDate ( ) ) ;
}
resolvedOptions ( dt , opts ) {
return this . dtFormatter ( dt , opts ) . resolvedOptions ( ) ;
}
num ( n , p = 0 ) {
// we get some perf out of doing this here, annoyingly
if ( this . opts . forceSimple ) {
return padStart ( n , p ) ;
}
const opts = {
... this . opts
} ;
if ( p > 0 ) {
opts . padTo = p ;
}
return this . loc . numberFormatter ( opts ) . format ( n ) ;
}
formatDateTimeFromString ( dt , fmt ) {
const knownEnglish = this . loc . listingMode ( ) === "en" ,
useDateTimeFormatter = this . loc . outputCalendar && this . loc . outputCalendar !== "gregory" ,
string = ( opts , extract ) => this . loc . extract ( dt , opts , extract ) ,
formatOffset = opts => {
if ( dt . isOffsetFixed && dt . offset === 0 && opts . allowZ ) {
return "Z" ;
}
return dt . isValid ? dt . zone . formatOffset ( dt . ts , opts . format ) : "" ;
} ,
meridiem = ( ) => knownEnglish ? meridiemForDateTime ( dt ) : string ( {
hour : "numeric" ,
hourCycle : "h12"
} , "dayperiod" ) ,
month = ( length , standalone ) => knownEnglish ? monthForDateTime ( dt , length ) : string ( standalone ? {
month : length
} : {
month : length ,
day : "numeric"
} , "month" ) ,
weekday = ( length , standalone ) => knownEnglish ? weekdayForDateTime ( dt , length ) : string ( standalone ? {
weekday : length
} : {
weekday : length ,
month : "long" ,
day : "numeric"
} , "weekday" ) ,
maybeMacro = token => {
const formatOpts = Formatter . macroTokenToFormatOpts ( token ) ;
if ( formatOpts ) {
return this . formatWithSystemDefault ( dt , formatOpts ) ;
} else {
return token ;
}
} ,
era = length => knownEnglish ? eraForDateTime ( dt , length ) : string ( {
era : length
} , "era" ) ,
tokenToString = token => {
// Where possible: https://cldr.unicode.org/translation/date-time/date-time-symbols
switch ( token ) {
// ms
case "S" :
return this . num ( dt . millisecond ) ;
case "u" :
// falls through
case "SSS" :
return this . num ( dt . millisecond , 3 ) ;
// seconds
case "s" :
return this . num ( dt . second ) ;
case "ss" :
return this . num ( dt . second , 2 ) ;
// fractional seconds
case "uu" :
return this . num ( Math . floor ( dt . millisecond / 10 ) , 2 ) ;
case "uuu" :
return this . num ( Math . floor ( dt . millisecond / 100 ) ) ;
// minutes
case "m" :
return this . num ( dt . minute ) ;
case "mm" :
return this . num ( dt . minute , 2 ) ;
// hours
case "h" :
return this . num ( dt . hour % 12 === 0 ? 12 : dt . hour % 12 ) ;
case "hh" :
return this . num ( dt . hour % 12 === 0 ? 12 : dt . hour % 12 , 2 ) ;
case "H" :
return this . num ( dt . hour ) ;
case "HH" :
return this . num ( dt . hour , 2 ) ;
// offset
case "Z" :
// like +6
return formatOffset ( {
format : "narrow" ,
allowZ : this . opts . allowZ
} ) ;
case "ZZ" :
// like +06:00
return formatOffset ( {
format : "short" ,
allowZ : this . opts . allowZ
} ) ;
case "ZZZ" :
// like +0600
return formatOffset ( {
format : "techie" ,
allowZ : this . opts . allowZ
} ) ;
case "ZZZZ" :
// like EST
return dt . zone . offsetName ( dt . ts , {
format : "short" ,
locale : this . loc . locale
} ) ;
case "ZZZZZ" :
// like Eastern Standard Time
return dt . zone . offsetName ( dt . ts , {
format : "long" ,
locale : this . loc . locale
} ) ;
// zone
case "z" :
// like America/New_York
return dt . zoneName ;
// meridiems
case "a" :
return meridiem ( ) ;
// dates
case "d" :
return useDateTimeFormatter ? string ( {
day : "numeric"
} , "day" ) : this . num ( dt . day ) ;
case "dd" :
return useDateTimeFormatter ? string ( {
day : "2-digit"
} , "day" ) : this . num ( dt . day , 2 ) ;
// weekdays - standalone
case "c" :
// like 1
return this . num ( dt . weekday ) ;
case "ccc" :
// like 'Tues'
return weekday ( "short" , true ) ;
case "cccc" :
// like 'Tuesday'
return weekday ( "long" , true ) ;
case "ccccc" :
// like 'T'
return weekday ( "narrow" , true ) ;
// weekdays - format
case "E" :
// like 1
return this . num ( dt . weekday ) ;
case "EEE" :
// like 'Tues'
return weekday ( "short" , false ) ;
case "EEEE" :
// like 'Tuesday'
return weekday ( "long" , false ) ;
case "EEEEE" :
// like 'T'
return weekday ( "narrow" , false ) ;
// months - standalone
case "L" :
// like 1
return useDateTimeFormatter ? string ( {
month : "numeric" ,
day : "numeric"
} , "month" ) : this . num ( dt . month ) ;
case "LL" :
// like 01, doesn't seem to work
return useDateTimeFormatter ? string ( {
month : "2-digit" ,
day : "numeric"
} , "month" ) : this . num ( dt . month , 2 ) ;
case "LLL" :
// like Jan
return month ( "short" , true ) ;
case "LLLL" :
// like January
return month ( "long" , true ) ;
case "LLLLL" :
// like J
return month ( "narrow" , true ) ;
// months - format
case "M" :
// like 1
return useDateTimeFormatter ? string ( {
month : "numeric"
} , "month" ) : this . num ( dt . month ) ;
case "MM" :
// like 01
return useDateTimeFormatter ? string ( {
month : "2-digit"
} , "month" ) : this . num ( dt . month , 2 ) ;
case "MMM" :
// like Jan
return month ( "short" , false ) ;
case "MMMM" :
// like January
return month ( "long" , false ) ;
case "MMMMM" :
// like J
return month ( "narrow" , false ) ;
// years
case "y" :
// like 2014
return useDateTimeFormatter ? string ( {
year : "numeric"
} , "year" ) : this . num ( dt . year ) ;
case "yy" :
// like 14
return useDateTimeFormatter ? string ( {
year : "2-digit"
} , "year" ) : this . num ( dt . year . toString ( ) . slice ( - 2 ) , 2 ) ;
case "yyyy" :
// like 0012
return useDateTimeFormatter ? string ( {
year : "numeric"
} , "year" ) : this . num ( dt . year , 4 ) ;
case "yyyyyy" :
// like 000012
return useDateTimeFormatter ? string ( {
year : "numeric"
} , "year" ) : this . num ( dt . year , 6 ) ;
// eras
case "G" :
// like AD
return era ( "short" ) ;
case "GG" :
// like Anno Domini
return era ( "long" ) ;
case "GGGGG" :
return era ( "narrow" ) ;
case "kk" :
return this . num ( dt . weekYear . toString ( ) . slice ( - 2 ) , 2 ) ;
case "kkkk" :
return this . num ( dt . weekYear , 4 ) ;
case "W" :
return this . num ( dt . weekNumber ) ;
case "WW" :
return this . num ( dt . weekNumber , 2 ) ;
case "o" :
return this . num ( dt . ordinal ) ;
case "ooo" :
return this . num ( dt . ordinal , 3 ) ;
case "q" :
// like 1
return this . num ( dt . quarter ) ;
case "qq" :
// like 01
return this . num ( dt . quarter , 2 ) ;
case "X" :
return this . num ( Math . floor ( dt . ts / 1000 ) ) ;
case "x" :
return this . num ( dt . ts ) ;
default :
return maybeMacro ( token ) ;
}
} ;
return stringifyTokens ( Formatter . parseFormat ( fmt ) , tokenToString ) ;
}
formatDurationFromString ( dur , fmt ) {
const tokenToField = token => {
switch ( token [ 0 ] ) {
case "S" :
return "millisecond" ;
case "s" :
return "second" ;
case "m" :
return "minute" ;
case "h" :
return "hour" ;
case "d" :
return "day" ;
case "w" :
return "week" ;
case "M" :
return "month" ;
case "y" :
return "year" ;
default :
return null ;
}
} ,
tokenToString = lildur => token => {
const mapped = tokenToField ( token ) ;
if ( mapped ) {
return this . num ( lildur . get ( mapped ) , token . length ) ;
} else {
return token ;
}
} ,
tokens = Formatter . parseFormat ( fmt ) ,
realTokens = tokens . reduce ( ( found , {
literal ,
val
} ) => literal ? found : found . concat ( val ) , [ ] ) ,
collapsed = dur . shiftTo ( ... realTokens . map ( tokenToField ) . filter ( t => t ) ) ;
return stringifyTokens ( tokens , tokenToString ( collapsed ) ) ;
}
}
class Invalid {
constructor ( reason , explanation ) {
this . reason = reason ;
this . explanation = explanation ;
}
toMessage ( ) {
if ( this . explanation ) {
return ` ${ this . reason } : ${ this . explanation } ` ;
} else {
return this . reason ;
}
}
}
/ *
* This file handles parsing for well - specified formats . Here ' s how it works :
* Two things go into parsing : a regex to match with and an extractor to take apart the groups in the match .
* An extractor is just a function that takes a regex match array and returns a { year : ... , month : ... } object
* parse ( ) does the work of executing the regex and applying the extractor . It takes multiple regex / extractor pairs to try in sequence .
* Extractors can take a "cursor" representing the offset in the match to look at . This makes it easy to combine extractors .
* combineExtractors ( ) does the work of combining them , keeping track of the cursor through multiple extractions .
* Some extractions are super dumb and simpleParse and fromStrings help DRY them .
* /
const ianaRegex = /[A-Za-z_+-]{1,256}(?::?\/[A-Za-z0-9_+-]{1,256}(?:\/[A-Za-z0-9_+-]{1,256})?)?/ ;
function combineRegexes ( ... regexes ) {
const full = regexes . reduce ( ( f , r ) => f + r . source , "" ) ;
return RegExp ( ` ^ ${ full } $ ` ) ;
}
function combineExtractors ( ... extractors ) {
return m => extractors . reduce ( ( [ mergedVals , mergedZone , cursor ] , ex ) => {
const [ val , zone , next ] = ex ( m , cursor ) ;
return [ {
... mergedVals ,
... val
} , zone || mergedZone , next ] ;
} , [ { } , null , 1 ] ) . slice ( 0 , 2 ) ;
}
function parse ( s , ... patterns ) {
if ( s == null ) {
return [ null , null ] ;
}
for ( const [ regex , extractor ] of patterns ) {
const m = regex . exec ( s ) ;
if ( m ) {
return extractor ( m ) ;
}
}
return [ null , null ] ;
}
function simpleParse ( ... keys ) {
return ( match , cursor ) => {
const ret = { } ;
let i ;
for ( i = 0 ; i < keys . length ; i ++ ) {
ret [ keys [ i ] ] = parseInteger ( match [ cursor + i ] ) ;
}
return [ ret , null , cursor + i ] ;
} ;
}
// ISO and SQL parsing
const offsetRegex = /(?:(Z)|([+-]\d\d)(?::?(\d\d))?)/ ;
const isoExtendedZone = ` (?: ${ offsetRegex . source } ?(?: \\ [( ${ ianaRegex . source } ) \\ ])?)? ` ;
const isoTimeBaseRegex = /(\d\d)(?::?(\d\d)(?::?(\d\d)(?:[.,](\d{1,30}))?)?)?/ ;
const isoTimeRegex = RegExp ( ` ${ isoTimeBaseRegex . source } ${ isoExtendedZone } ` ) ;
const isoTimeExtensionRegex = RegExp ( ` (?:T ${ isoTimeRegex . source } )? ` ) ;
const isoYmdRegex = /([+-]\d{6}|\d{4})(?:-?(\d\d)(?:-?(\d\d))?)?/ ;
const isoWeekRegex = /(\d{4})-?W(\d\d)(?:-?(\d))?/ ;
const isoOrdinalRegex = /(\d{4})-?(\d{3})/ ;
const extractISOWeekData = simpleParse ( "weekYear" , "weekNumber" , "weekDay" ) ;
const extractISOOrdinalData = simpleParse ( "year" , "ordinal" ) ;
const sqlYmdRegex = /(\d{4})-(\d\d)-(\d\d)/ ; // dumbed-down version of the ISO one
const sqlTimeRegex = RegExp ( ` ${ isoTimeBaseRegex . source } ?(?: ${ offsetRegex . source } |( ${ ianaRegex . source } ))? ` ) ;
const sqlTimeExtensionRegex = RegExp ( ` (?: ${ sqlTimeRegex . source } )? ` ) ;
function int ( match , pos , fallback ) {
const m = match [ pos ] ;
return isUndefined ( m ) ? fallback : parseInteger ( m ) ;
}
function extractISOYmd ( match , cursor ) {
const item = {
year : int ( match , cursor ) ,
month : int ( match , cursor + 1 , 1 ) ,
day : int ( match , cursor + 2 , 1 )
} ;
return [ item , null , cursor + 3 ] ;
}
function extractISOTime ( match , cursor ) {
const item = {
hours : int ( match , cursor , 0 ) ,
minutes : int ( match , cursor + 1 , 0 ) ,
seconds : int ( match , cursor + 2 , 0 ) ,
milliseconds : parseMillis ( match [ cursor + 3 ] )
} ;
return [ item , null , cursor + 4 ] ;
}
function extractISOOffset ( match , cursor ) {
const local = ! match [ cursor ] && ! match [ cursor + 1 ] ,
fullOffset = signedOffset ( match [ cursor + 1 ] , match [ cursor + 2 ] ) ,
zone = local ? null : FixedOffsetZone . instance ( fullOffset ) ;
return [ { } , zone , cursor + 3 ] ;
}
function extractIANAZone ( match , cursor ) {
const zone = match [ cursor ] ? IANAZone . create ( match [ cursor ] ) : null ;
return [ { } , zone , cursor + 1 ] ;
}
// ISO time parsing
const isoTimeOnly = RegExp ( ` ^T? ${ isoTimeBaseRegex . source } $ ` ) ;
// ISO duration parsing
const isoDuration = /^-?P(?:(?:(-?\d{1,20}(?:\.\d{1,20})?)Y)?(?:(-?\d{1,20}(?:\.\d{1,20})?)M)?(?:(-?\d{1,20}(?:\.\d{1,20})?)W)?(?:(-?\d{1,20}(?:\.\d{1,20})?)D)?(?:T(?:(-?\d{1,20}(?:\.\d{1,20})?)H)?(?:(-?\d{1,20}(?:\.\d{1,20})?)M)?(?:(-?\d{1,20})(?:[.,](-?\d{1,20}))?S)?)?)$/ ;
function extractISODuration ( match ) {
const [ s , yearStr , monthStr , weekStr , dayStr , hourStr , minuteStr , secondStr , millisecondsStr ] = match ;
const hasNegativePrefix = s [ 0 ] === "-" ;
const negativeSeconds = secondStr && secondStr [ 0 ] === "-" ;
const maybeNegate = ( num , force = false ) => num !== undefined && ( force || num && hasNegativePrefix ) ? - num : num ;
return [ {
years : maybeNegate ( parseFloating ( yearStr ) ) ,
months : maybeNegate ( parseFloating ( monthStr ) ) ,
weeks : maybeNegate ( parseFloating ( weekStr ) ) ,
days : maybeNegate ( parseFloating ( dayStr ) ) ,
hours : maybeNegate ( parseFloating ( hourStr ) ) ,
minutes : maybeNegate ( parseFloating ( minuteStr ) ) ,
seconds : maybeNegate ( parseFloating ( secondStr ) , secondStr === "-0" ) ,
milliseconds : maybeNegate ( parseMillis ( millisecondsStr ) , negativeSeconds )
} ] ;
}
// These are a little braindead. EDT *should* tell us that we're in, say, America/New_York
// and not just that we're in -240 *right now*. But since I don't think these are used that often
// I'm just going to ignore that
const obsOffsets = {
GMT : 0 ,
EDT : - 4 * 60 ,
EST : - 5 * 60 ,
CDT : - 5 * 60 ,
CST : - 6 * 60 ,
MDT : - 6 * 60 ,
MST : - 7 * 60 ,
PDT : - 7 * 60 ,
PST : - 8 * 60
} ;
function fromStrings ( weekdayStr , yearStr , monthStr , dayStr , hourStr , minuteStr , secondStr ) {
const result = {
year : yearStr . length === 2 ? untruncateYear ( parseInteger ( yearStr ) ) : parseInteger ( yearStr ) ,
month : monthsShort . indexOf ( monthStr ) + 1 ,
day : parseInteger ( dayStr ) ,
hour : parseInteger ( hourStr ) ,
minute : parseInteger ( minuteStr )
} ;
if ( secondStr ) result . second = parseInteger ( secondStr ) ;
if ( weekdayStr ) {
result . weekday = weekdayStr . length > 3 ? weekdaysLong . indexOf ( weekdayStr ) + 1 : weekdaysShort . indexOf ( weekdayStr ) + 1 ;
}
return result ;
}
// RFC 2822/5322
const rfc2822 = /^(?:(Mon|Tue|Wed|Thu|Fri|Sat|Sun),\s)?(\d{1,2})\s(Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec)\s(\d{2,4})\s(\d\d):(\d\d)(?::(\d\d))?\s(?:(UT|GMT|[ECMP][SD]T)|([Zz])|(?:([+-]\d\d)(\d\d)))$/ ;
function extractRFC2822 ( match ) {
const [ , weekdayStr , dayStr , monthStr , yearStr , hourStr , minuteStr , secondStr , obsOffset , milOffset , offHourStr , offMinuteStr ] = match ,
result = fromStrings ( weekdayStr , yearStr , monthStr , dayStr , hourStr , minuteStr , secondStr ) ;
let offset ;
if ( obsOffset ) {
offset = obsOffsets [ obsOffset ] ;
} else if ( milOffset ) {
offset = 0 ;
} else {
offset = signedOffset ( offHourStr , offMinuteStr ) ;
}
return [ result , new FixedOffsetZone ( offset ) ] ;
}
function preprocessRFC2822 ( s ) {
// Remove comments and folding whitespace and replace multiple-spaces with a single space
return s . replace ( /\([^()]*\)|[\n\t]/g , " " ) . replace ( /(\s\s+)/g , " " ) . trim ( ) ;
}
// http date
const rfc1123 = /^(Mon|Tue|Wed|Thu|Fri|Sat|Sun), (\d\d) (Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec) (\d{4}) (\d\d):(\d\d):(\d\d) GMT$/ ,
rfc850 = /^(Monday|Tuesday|Wednesday|Thursday|Friday|Saturday|Sunday), (\d\d)-(Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec)-(\d\d) (\d\d):(\d\d):(\d\d) GMT$/ ,
ascii = /^(Mon|Tue|Wed|Thu|Fri|Sat|Sun) (Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec) ( \d|\d\d) (\d\d):(\d\d):(\d\d) (\d{4})$/ ;
function extractRFC1123Or850 ( match ) {
const [ , weekdayStr , dayStr , monthStr , yearStr , hourStr , minuteStr , secondStr ] = match ,
result = fromStrings ( weekdayStr , yearStr , monthStr , dayStr , hourStr , minuteStr , secondStr ) ;
return [ result , FixedOffsetZone . utcInstance ] ;
}
function extractASCII ( match ) {
const [ , weekdayStr , monthStr , dayStr , hourStr , minuteStr , secondStr , yearStr ] = match ,
result = fromStrings ( weekdayStr , yearStr , monthStr , dayStr , hourStr , minuteStr , secondStr ) ;
return [ result , FixedOffsetZone . utcInstance ] ;
}
const isoYmdWithTimeExtensionRegex = combineRegexes ( isoYmdRegex , isoTimeExtensionRegex ) ;
const isoWeekWithTimeExtensionRegex = combineRegexes ( isoWeekRegex , isoTimeExtensionRegex ) ;
const isoOrdinalWithTimeExtensionRegex = combineRegexes ( isoOrdinalRegex , isoTimeExtensionRegex ) ;
const isoTimeCombinedRegex = combineRegexes ( isoTimeRegex ) ;
const extractISOYmdTimeAndOffset = combineExtractors ( extractISOYmd , extractISOTime , extractISOOffset , extractIANAZone ) ;
const extractISOWeekTimeAndOffset = combineExtractors ( extractISOWeekData , extractISOTime , extractISOOffset , extractIANAZone ) ;
const extractISOOrdinalDateAndTime = combineExtractors ( extractISOOrdinalData , extractISOTime , extractISOOffset , extractIANAZone ) ;
const extractISOTimeAndOffset = combineExtractors ( extractISOTime , extractISOOffset , extractIANAZone ) ;
/ *
* @ private
* /
function parseISODate ( s ) {
return parse ( s , [ isoYmdWithTimeExtensionRegex , extractISOYmdTimeAndOffset ] , [ isoWeekWithTimeExtensionRegex , extractISOWeekTimeAndOffset ] , [ isoOrdinalWithTimeExtensionRegex , extractISOOrdinalDateAndTime ] , [ isoTimeCombinedRegex , extractISOTimeAndOffset ] ) ;
}
function parseRFC2822Date ( s ) {
return parse ( preprocessRFC2822 ( s ) , [ rfc2822 , extractRFC2822 ] ) ;
}
function parseHTTPDate ( s ) {
return parse ( s , [ rfc1123 , extractRFC1123Or850 ] , [ rfc850 , extractRFC1123Or850 ] , [ ascii , extractASCII ] ) ;
}
function parseISODuration ( s ) {
return parse ( s , [ isoDuration , extractISODuration ] ) ;
}
const extractISOTimeOnly = combineExtractors ( extractISOTime ) ;
function parseISOTimeOnly ( s ) {
return parse ( s , [ isoTimeOnly , extractISOTimeOnly ] ) ;
}
const sqlYmdWithTimeExtensionRegex = combineRegexes ( sqlYmdRegex , sqlTimeExtensionRegex ) ;
const sqlTimeCombinedRegex = combineRegexes ( sqlTimeRegex ) ;
const extractISOTimeOffsetAndIANAZone = combineExtractors ( extractISOTime , extractISOOffset , extractIANAZone ) ;
function parseSQL ( s ) {
return parse ( s , [ sqlYmdWithTimeExtensionRegex , extractISOYmdTimeAndOffset ] , [ sqlTimeCombinedRegex , extractISOTimeOffsetAndIANAZone ] ) ;
}
const INVALID$2 = "Invalid Duration" ;
// unit conversion constants
const lowOrderMatrix = {
weeks : {
days : 7 ,
hours : 7 * 24 ,
minutes : 7 * 24 * 60 ,
seconds : 7 * 24 * 60 * 60 ,
milliseconds : 7 * 24 * 60 * 60 * 1000
} ,
days : {
hours : 24 ,
minutes : 24 * 60 ,
seconds : 24 * 60 * 60 ,
milliseconds : 24 * 60 * 60 * 1000
} ,
hours : {
minutes : 60 ,
seconds : 60 * 60 ,
milliseconds : 60 * 60 * 1000
} ,
minutes : {
seconds : 60 ,
milliseconds : 60 * 1000
} ,
seconds : {
milliseconds : 1000
}
} ,
casualMatrix = {
years : {
quarters : 4 ,
months : 12 ,
weeks : 52 ,
days : 365 ,
hours : 365 * 24 ,
minutes : 365 * 24 * 60 ,
seconds : 365 * 24 * 60 * 60 ,
milliseconds : 365 * 24 * 60 * 60 * 1000
} ,
quarters : {
months : 3 ,
weeks : 13 ,
days : 91 ,
hours : 91 * 24 ,
minutes : 91 * 24 * 60 ,
seconds : 91 * 24 * 60 * 60 ,
milliseconds : 91 * 24 * 60 * 60 * 1000
} ,
months : {
weeks : 4 ,
days : 30 ,
hours : 30 * 24 ,
minutes : 30 * 24 * 60 ,
seconds : 30 * 24 * 60 * 60 ,
milliseconds : 30 * 24 * 60 * 60 * 1000
} ,
... lowOrderMatrix
} ,
daysInYearAccurate = 146097.0 / 400 ,
daysInMonthAccurate = 146097.0 / 4800 ,
accurateMatrix = {
years : {
quarters : 4 ,
months : 12 ,
weeks : daysInYearAccurate / 7 ,
days : daysInYearAccurate ,
hours : daysInYearAccurate * 24 ,
minutes : daysInYearAccurate * 24 * 60 ,
seconds : daysInYearAccurate * 24 * 60 * 60 ,
milliseconds : daysInYearAccurate * 24 * 60 * 60 * 1000
} ,
quarters : {
months : 3 ,
weeks : daysInYearAccurate / 28 ,
days : daysInYearAccurate / 4 ,
hours : daysInYearAccurate * 24 / 4 ,
minutes : daysInYearAccurate * 24 * 60 / 4 ,
seconds : daysInYearAccurate * 24 * 60 * 60 / 4 ,
milliseconds : daysInYearAccurate * 24 * 60 * 60 * 1000 / 4
} ,
months : {
weeks : daysInMonthAccurate / 7 ,
days : daysInMonthAccurate ,
hours : daysInMonthAccurate * 24 ,
minutes : daysInMonthAccurate * 24 * 60 ,
seconds : daysInMonthAccurate * 24 * 60 * 60 ,
milliseconds : daysInMonthAccurate * 24 * 60 * 60 * 1000
} ,
... lowOrderMatrix
} ;
// units ordered by size
const orderedUnits$1 = [ "years" , "quarters" , "months" , "weeks" , "days" , "hours" , "minutes" , "seconds" , "milliseconds" ] ;
const reverseUnits = orderedUnits$1 . slice ( 0 ) . reverse ( ) ;
// clone really means "create another instance just like this one, but with these changes"
function clone$1 ( dur , alts , clear = false ) {
// deep merge for vals
const conf = {
values : clear ? alts . values : {
... dur . values ,
... ( alts . values || { } )
} ,
loc : dur . loc . clone ( alts . loc ) ,
conversionAccuracy : alts . conversionAccuracy || dur . conversionAccuracy ,
matrix : alts . matrix || dur . matrix
} ;
return new Duration ( conf ) ;
}
function durationToMillis ( matrix , vals ) {
var _vals$milliseconds ;
let sum = ( _vals$milliseconds = vals . milliseconds ) != null ? _vals$milliseconds : 0 ;
for ( const unit of reverseUnits . slice ( 1 ) ) {
if ( vals [ unit ] ) {
sum += vals [ unit ] * matrix [ unit ] [ "milliseconds" ] ;
}
}
return sum ;
}
// NB: mutates parameters
function normalizeValues ( matrix , vals ) {
// the logic below assumes the overall value of the duration is positive
// if this is not the case, factor is used to make it so
const factor = durationToMillis ( matrix , vals ) < 0 ? - 1 : 1 ;
orderedUnits$1 . reduceRight ( ( previous , current ) => {
if ( ! isUndefined ( vals [ current ] ) ) {
if ( previous ) {
const previousVal = vals [ previous ] * factor ;
const conv = matrix [ current ] [ previous ] ;
// if (previousVal < 0):
// lower order unit is negative (e.g. { years: 2, days: -2 })
// normalize this by reducing the higher order unit by the appropriate amount
// and increasing the lower order unit
// this can never make the higher order unit negative, because this function only operates
// on positive durations, so the amount of time represented by the lower order unit cannot
// be larger than the higher order unit
// else:
// lower order unit is positive (e.g. { years: 2, days: 450 } or { years: -2, days: 450 })
// in this case we attempt to convert as much as possible from the lower order unit into
// the higher order one
//
// Math.floor takes care of both of these cases, rounding away from 0
// if previousVal < 0 it makes the absolute value larger
// if previousVal >= it makes the absolute value smaller
const rollUp = Math . floor ( previousVal / conv ) ;
vals [ current ] += rollUp * factor ;
vals [ previous ] -= rollUp * conv * factor ;
}
return current ;
} else {
return previous ;
}
} , null ) ;
// try to convert any decimals into smaller units if possible
// for example for { years: 2.5, days: 0, seconds: 0 } we want to get { years: 2, days: 182, hours: 12 }
orderedUnits$1 . reduce ( ( previous , current ) => {
if ( ! isUndefined ( vals [ current ] ) ) {
if ( previous ) {
const fraction = vals [ previous ] % 1 ;
vals [ previous ] -= fraction ;
vals [ current ] += fraction * matrix [ previous ] [ current ] ;
}
return current ;
} else {
return previous ;
}
} , null ) ;
}
// Remove all properties with a value of 0 from an object
function removeZeroes ( vals ) {
const newVals = { } ;
for ( const [ key , value ] of Object . entries ( vals ) ) {
if ( value !== 0 ) {
newVals [ key ] = value ;
}
}
return newVals ;
}
/ * *
* A Duration object represents a period of time , like "2 months" or "1 day, 1 hour" . Conceptually , it ' s just a map of units to their quantities , accompanied by some additional configuration and methods for creating , parsing , interrogating , transforming , and formatting them . They can be used on their own or in conjunction with other Luxon types ; for example , you can use { @ link DateTime # plus } to add a Duration object to a DateTime , producing another DateTime .
*
* Here is a brief overview of commonly used methods and getters in Duration :
*
* * * * Creation * * To create a Duration , use { @ link Duration . fromMillis } , { @ link Duration . fromObject } , or { @ link Duration . fromISO } .
* * * * Unit values * * See the { @ link Duration # years } , { @ link Duration # months } , { @ link Duration # weeks } , { @ link Duration # days } , { @ link Duration # hours } , { @ link Duration # minutes } , { @ link Duration # seconds } , { @ link Duration # milliseconds } accessors .
* * * * Configuration * * See { @ link Duration # locale } and { @ link Duration # numberingSystem } accessors .
* * * * Transformation * * To create new Durations out of old ones use { @ link Duration # plus } , { @ link Duration # minus } , { @ link Duration # normalize } , { @ link Duration # set } , { @ link Duration # reconfigure } , { @ link Duration # shiftTo } , and { @ link Duration # negate } .
* * * * Output * * To convert the Duration into other representations , see { @ link Duration # as } , { @ link Duration # toISO } , { @ link Duration # toFormat } , and { @ link Duration # toJSON }
*
* There ' s are more methods documented below . In addition , for more information on subtler topics like internationalization and validity , see the external documentation .
* /
class Duration {
/ * *
* @ private
* /
constructor ( config ) {
const accurate = config . conversionAccuracy === "longterm" || false ;
let matrix = accurate ? accurateMatrix : casualMatrix ;
if ( config . matrix ) {
matrix = config . matrix ;
}
/ * *
* @ access private
* /
this . values = config . values ;
/ * *
* @ access private
* /
this . loc = config . loc || Locale . create ( ) ;
/ * *
* @ access private
* /
this . conversionAccuracy = accurate ? "longterm" : "casual" ;
/ * *
* @ access private
* /
this . invalid = config . invalid || null ;
/ * *
* @ access private
* /
this . matrix = matrix ;
/ * *
* @ access private
* /
this . isLuxonDuration = true ;
}
/ * *
* Create Duration from a number of milliseconds .
* @ param { number } count of milliseconds
* @ param { Object } opts - options for parsing
* @ param { string } [ opts . locale = 'en-US' ] - the locale to use
* @ param { string } opts . numberingSystem - the numbering system to use
* @ param { string } [ opts . conversionAccuracy = 'casual' ] - the conversion system to use
* @ return { Duration }
* /
static fromMillis ( count , opts ) {
return Duration . fromObject ( {
milliseconds : count
} , opts ) ;
}
/ * *
* Create a Duration from a JavaScript object with keys like 'years' and 'hours' .
* If this object is empty then a zero milliseconds duration is returned .
* @ param { Object } obj - the object to create the DateTime from
* @ param { number } obj . years
* @ param { number } obj . quarters
* @ param { number } obj . months
* @ param { number } obj . weeks
* @ param { number } obj . days
* @ param { number } obj . hours
* @ param { number } obj . minutes
* @ param { number } obj . seconds
* @ param { number } obj . milliseconds
* @ param { Object } [ opts = [ ] ] - options for creating this Duration
* @ param { string } [ opts . locale = 'en-US' ] - the locale to use
* @ param { string } opts . numberingSystem - the numbering system to use
* @ param { string } [ opts . conversionAccuracy = 'casual' ] - the preset conversion system to use
* @ param { string } [ opts . matrix = Object ] - the custom conversion system to use
* @ return { Duration }
* /
static fromObject ( obj , opts = { } ) {
if ( obj == null || typeof obj !== "object" ) {
throw new InvalidArgumentError ( ` Duration.fromObject: argument expected to be an object, got ${ obj === null ? "null" : typeof obj } ` ) ;
}
return new Duration ( {
values : normalizeObject ( obj , Duration . normalizeUnit ) ,
loc : Locale . fromObject ( opts ) ,
conversionAccuracy : opts . conversionAccuracy ,
matrix : opts . matrix
} ) ;
}
/ * *
* Create a Duration from DurationLike .
*
* @ param { Object | number | Duration } durationLike
* One of :
* - object with keys like 'years' and 'hours' .
* - number representing milliseconds
* - Duration instance
* @ return { Duration }
* /
static fromDurationLike ( durationLike ) {
if ( isNumber ( durationLike ) ) {
return Duration . fromMillis ( durationLike ) ;
} else if ( Duration . isDuration ( durationLike ) ) {
return durationLike ;
} else if ( typeof durationLike === "object" ) {
return Duration . fromObject ( durationLike ) ;
} else {
throw new InvalidArgumentError ( ` Unknown duration argument ${ durationLike } of type ${ typeof durationLike } ` ) ;
}
}
/ * *
* Create a Duration from an ISO 8601 duration string .
* @ param { string } text - text to parse
* @ param { Object } opts - options for parsing
* @ param { string } [ opts . locale = 'en-US' ] - the locale to use
* @ param { string } opts . numberingSystem - the numbering system to use
* @ param { string } [ opts . conversionAccuracy = 'casual' ] - the preset conversion system to use
* @ param { string } [ opts . matrix = Object ] - the preset conversion system to use
* @ see https : //en.wikipedia.org/wiki/ISO_8601#Durations
* @ example Duration . fromISO ( 'P3Y6M1W4DT12H30M5S' ) . toObject ( ) //=> { years: 3, months: 6, weeks: 1, days: 4, hours: 12, minutes: 30, seconds: 5 }
* @ example Duration . fromISO ( 'PT23H' ) . toObject ( ) //=> { hours: 23 }
* @ example Duration . fromISO ( 'P5Y3M' ) . toObject ( ) //=> { years: 5, months: 3 }
* @ return { Duration }
* /
static fromISO ( text , opts ) {
const [ parsed ] = parseISODuration ( text ) ;
if ( parsed ) {
return Duration . fromObject ( parsed , opts ) ;
} else {
return Duration . invalid ( "unparsable" , ` the input " ${ text } " can't be parsed as ISO 8601 ` ) ;
}
}
/ * *
* Create a Duration from an ISO 8601 time string .
* @ param { string } text - text to parse
* @ param { Object } opts - options for parsing
* @ param { string } [ opts . locale = 'en-US' ] - the locale to use
* @ param { string } opts . numberingSystem - the numbering system to use
* @ param { string } [ opts . conversionAccuracy = 'casual' ] - the preset conversion system to use
* @ param { string } [ opts . matrix = Object ] - the conversion system to use
* @ see https : //en.wikipedia.org/wiki/ISO_8601#Times
* @ example Duration . fromISOTime ( '11:22:33.444' ) . toObject ( ) //=> { hours: 11, minutes: 22, seconds: 33, milliseconds: 444 }
* @ example Duration . fromISOTime ( '11:00' ) . toObject ( ) //=> { hours: 11, minutes: 0, seconds: 0 }
* @ example Duration . fromISOTime ( 'T11:00' ) . toObject ( ) //=> { hours: 11, minutes: 0, seconds: 0 }
* @ example Duration . fromISOTime ( '1100' ) . toObject ( ) //=> { hours: 11, minutes: 0, seconds: 0 }
* @ example Duration . fromISOTime ( 'T1100' ) . toObject ( ) //=> { hours: 11, minutes: 0, seconds: 0 }
* @ return { Duration }
* /
static fromISOTime ( text , opts ) {
const [ parsed ] = parseISOTimeOnly ( text ) ;
if ( parsed ) {
return Duration . fromObject ( parsed , opts ) ;
} else {
return Duration . invalid ( "unparsable" , ` the input " ${ text } " can't be parsed as ISO 8601 ` ) ;
}
}
/ * *
* Create an invalid Duration .
* @ param { string } reason - simple string of why this datetime is invalid . Should not contain parameters or anything else data - dependent
* @ param { string } [ explanation = null ] - longer explanation , may include parameters and other useful debugging information
* @ return { Duration }
* /
static invalid ( reason , explanation = null ) {
if ( ! reason ) {
throw new InvalidArgumentError ( "need to specify a reason the Duration is invalid" ) ;
}
const invalid = reason instanceof Invalid ? reason : new Invalid ( reason , explanation ) ;
if ( Settings . throwOnInvalid ) {
throw new InvalidDurationError ( invalid ) ;
} else {
return new Duration ( {
invalid
} ) ;
}
}
/ * *
* @ private
* /
static normalizeUnit ( unit ) {
const normalized = {
year : "years" ,
years : "years" ,
quarter : "quarters" ,
quarters : "quarters" ,
month : "months" ,
months : "months" ,
week : "weeks" ,
weeks : "weeks" ,
day : "days" ,
days : "days" ,
hour : "hours" ,
hours : "hours" ,
minute : "minutes" ,
minutes : "minutes" ,
second : "seconds" ,
seconds : "seconds" ,
millisecond : "milliseconds" ,
milliseconds : "milliseconds"
} [ unit ? unit . toLowerCase ( ) : unit ] ;
if ( ! normalized ) throw new InvalidUnitError ( unit ) ;
return normalized ;
}
/ * *
* Check if an object is a Duration . Works across context boundaries
* @ param { object } o
* @ return { boolean }
* /
static isDuration ( o ) {
return o && o . isLuxonDuration || false ;
}
/ * *
* Get the locale of a Duration , such 'en-GB'
* @ type { string }
* /
get locale ( ) {
return this . isValid ? this . loc . locale : null ;
}
/ * *
* Get the numbering system of a Duration , such 'beng' . The numbering system is used when formatting the Duration
*
* @ type { string }
* /
get numberingSystem ( ) {
return this . isValid ? this . loc . numberingSystem : null ;
}
/ * *
* Returns a string representation of this Duration formatted according to the specified format string . You may use these tokens :
* * ` S ` for milliseconds
* * ` s ` for seconds
* * ` m ` for minutes
* * ` h ` for hours
* * ` d ` for days
* * ` w ` for weeks
* * ` M ` for months
* * ` y ` for years
* Notes :
* * Add padding by repeating the token , e . g . "yy" pads the years to two digits , "hhhh" pads the hours out to four digits
* * Tokens can be escaped by wrapping with single quotes .
* * The duration will be converted to the set of units in the format string using { @ link Duration # shiftTo } and the Durations ' s conversion accuracy setting .
* @ param { string } fmt - the format string
* @ param { Object } opts - options
* @ param { boolean } [ opts . floor = true ] - floor numerical values
* @ example Duration . fromObject ( { years : 1 , days : 6 , seconds : 2 } ) . toFormat ( "y d s" ) //=> "1 6 2"
* @ example Duration . fromObject ( { years : 1 , days : 6 , seconds : 2 } ) . toFormat ( "yy dd sss" ) //=> "01 06 002"
* @ example Duration . fromObject ( { years : 1 , days : 6 , seconds : 2 } ) . toFormat ( "M S" ) //=> "12 518402000"
* @ return { string }
* /
toFormat ( fmt , opts = { } ) {
// reverse-compat since 1.2; we always round down now, never up, and we do it by default
const fmtOpts = {
... opts ,
floor : opts . round !== false && opts . floor !== false
} ;
return this . isValid ? Formatter . create ( this . loc , fmtOpts ) . formatDurationFromString ( this , fmt ) : INVALID$2 ;
}
/ * *
* Returns a string representation of a Duration with all units included .
* To modify its behavior use the ` listStyle ` and any Intl . NumberFormat option , though ` unitDisplay ` is especially relevant .
* @ see https : //developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Intl/NumberFormat
* @ param opts - On option object to override the formatting . Accepts the same keys as the options parameter of the native ` Int.NumberFormat ` constructor , as well as ` listStyle ` .
* @ example
* ` ` ` js
* var dur = Duration . fromObject ( { days : 1 , hours : 5 , minutes : 6 } )
* dur . toHuman ( ) //=> '1 day, 5 hours, 6 minutes'
* dur . toHuman ( { listStyle : "long" } ) //=> '1 day, 5 hours, and 6 minutes'
* dur . toHuman ( { unitDisplay : "short" } ) //=> '1 day, 5 hr, 6 min'
* ` ` `
* /
toHuman ( opts = { } ) {
if ( ! this . isValid ) return INVALID$2 ;
const l = orderedUnits$1 . map ( unit => {
const val = this . values [ unit ] ;
if ( isUndefined ( val ) ) {
return null ;
}
return this . loc . numberFormatter ( {
style : "unit" ,
unitDisplay : "long" ,
... opts ,
unit : unit . slice ( 0 , - 1 )
} ) . format ( val ) ;
} ) . filter ( n => n ) ;
return this . loc . listFormatter ( {
type : "conjunction" ,
style : opts . listStyle || "narrow" ,
... opts
} ) . format ( l ) ;
}
/ * *
* Returns a JavaScript object with this Duration ' s values .
* @ example Duration . fromObject ( { years : 1 , days : 6 , seconds : 2 } ) . toObject ( ) //=> { years: 1, days: 6, seconds: 2 }
* @ return { Object }
* /
toObject ( ) {
if ( ! this . isValid ) return { } ;
return {
... this . values
} ;
}
/ * *
* Returns an ISO 8601 - compliant string representation of this Duration .
* @ see https : //en.wikipedia.org/wiki/ISO_8601#Durations
* @ example Duration . fromObject ( { years : 3 , seconds : 45 } ) . toISO ( ) //=> 'P3YT45S'
* @ example Duration . fromObject ( { months : 4 , seconds : 45 } ) . toISO ( ) //=> 'P4MT45S'
* @ example Duration . fromObject ( { months : 5 } ) . toISO ( ) //=> 'P5M'
* @ example Duration . fromObject ( { minutes : 5 } ) . toISO ( ) //=> 'PT5M'
* @ example Duration . fromObject ( { milliseconds : 6 } ) . toISO ( ) //=> 'PT0.006S'
* @ return { string }
* /
toISO ( ) {
// we could use the formatter, but this is an easier way to get the minimum string
if ( ! this . isValid ) return null ;
let s = "P" ;
if ( this . years !== 0 ) s += this . years + "Y" ;
if ( this . months !== 0 || this . quarters !== 0 ) s += this . months + this . quarters * 3 + "M" ;
if ( this . weeks !== 0 ) s += this . weeks + "W" ;
if ( this . days !== 0 ) s += this . days + "D" ;
if ( this . hours !== 0 || this . minutes !== 0 || this . seconds !== 0 || this . milliseconds !== 0 ) s += "T" ;
if ( this . hours !== 0 ) s += this . hours + "H" ;
if ( this . minutes !== 0 ) s += this . minutes + "M" ;
if ( this . seconds !== 0 || this . milliseconds !== 0 )
// this will handle "floating point madness" by removing extra decimal places
// https://stackoverflow.com/questions/588004/is-floating-point-math-broken
s += roundTo ( this . seconds + this . milliseconds / 1000 , 3 ) + "S" ;
if ( s === "P" ) s += "T0S" ;
return s ;
}
/ * *
* Returns an ISO 8601 - compliant string representation of this Duration , formatted as a time of day .
* Note that this will return null if the duration is invalid , negative , or equal to or greater than 24 hours .
* @ see https : //en.wikipedia.org/wiki/ISO_8601#Times
* @ param { Object } opts - options
* @ param { boolean } [ opts . suppressMilliseconds = false ] - exclude milliseconds from the format if they ' re 0
* @ param { boolean } [ opts . suppressSeconds = false ] - exclude seconds from the format if they ' re 0
* @ param { boolean } [ opts . includePrefix = false ] - include the ` T ` prefix
* @ param { string } [ opts . format = 'extended' ] - choose between the basic and extended format
* @ example Duration . fromObject ( { hours : 11 } ) . toISOTime ( ) //=> '11:00:00.000'
* @ example Duration . fromObject ( { hours : 11 } ) . toISOTime ( { suppressMilliseconds : true } ) //=> '11:00:00'
* @ example Duration . fromObject ( { hours : 11 } ) . toISOTime ( { suppressSeconds : true } ) //=> '11:00'
* @ example Duration . fromObject ( { hours : 11 } ) . toISOTime ( { includePrefix : true } ) //=> 'T11:00:00.000'
* @ example Duration . fromObject ( { hours : 11 } ) . toISOTime ( { format : 'basic' } ) //=> '110000.000'
* @ return { string }
* /
toISOTime ( opts = { } ) {
if ( ! this . isValid ) return null ;
const millis = this . toMillis ( ) ;
if ( millis < 0 || millis >= 86400000 ) return null ;
opts = {
suppressMilliseconds : false ,
suppressSeconds : false ,
includePrefix : false ,
format : "extended" ,
... opts ,
includeOffset : false
} ;
const dateTime = DateTime . fromMillis ( millis , {
zone : "UTC"
} ) ;
return dateTime . toISOTime ( opts ) ;
}
/ * *
* Returns an ISO 8601 representation of this Duration appropriate for use in JSON .
* @ return { string }
* /
toJSON ( ) {
return this . toISO ( ) ;
}
/ * *
* Returns an ISO 8601 representation of this Duration appropriate for use in debugging .
* @ return { string }
* /
toString ( ) {
return this . toISO ( ) ;
}
/ * *
* Returns an milliseconds value of this Duration .
* @ return { number }
* /
toMillis ( ) {
if ( ! this . isValid ) return NaN ;
return durationToMillis ( this . matrix , this . values ) ;
}
/ * *
* Returns an milliseconds value of this Duration . Alias of { @ link toMillis }
* @ return { number }
* /
valueOf ( ) {
return this . toMillis ( ) ;
}
/ * *
* Make this Duration longer by the specified amount . Return a newly - constructed Duration .
* @ param { Duration | Object | number } duration - The amount to add . Either a Luxon Duration , a number of milliseconds , the object argument to Duration . fromObject ( )
* @ return { Duration }
* /
plus ( duration ) {
if ( ! this . isValid ) return this ;
const dur = Duration . fromDurationLike ( duration ) ,
result = { } ;
for ( const k of orderedUnits$1 ) {
if ( hasOwnProperty ( dur . values , k ) || hasOwnProperty ( this . values , k ) ) {
result [ k ] = dur . get ( k ) + this . get ( k ) ;
}
}
return clone$1 ( this , {
values : result
} , true ) ;
}
/ * *
* Make this Duration shorter by the specified amount . Return a newly - constructed Duration .
* @ param { Duration | Object | number } duration - The amount to subtract . Either a Luxon Duration , a number of milliseconds , the object argument to Duration . fromObject ( )
* @ return { Duration }
* /
minus ( duration ) {
if ( ! this . isValid ) return this ;
const dur = Duration . fromDurationLike ( duration ) ;
return this . plus ( dur . negate ( ) ) ;
}
/ * *
* Scale this Duration by the specified amount . Return a newly - constructed Duration .
* @ param { function } fn - The function to apply to each unit . Arity is 1 or 2 : the value of the unit and , optionally , the unit name . Must return a number .
* @ example Duration . fromObject ( { hours : 1 , minutes : 30 } ) . mapUnits ( x => x * 2 ) //=> { hours: 2, minutes: 60 }
* @ example Duration . fromObject ( { hours : 1 , minutes : 30 } ) . mapUnits ( ( x , u ) => u === "hours" ? x * 2 : x ) //=> { hours: 2, minutes: 30 }
* @ return { Duration }
* /
mapUnits ( fn ) {
if ( ! this . isValid ) return this ;
const result = { } ;
for ( const k of Object . keys ( this . values ) ) {
result [ k ] = asNumber ( fn ( this . values [ k ] , k ) ) ;
}
return clone$1 ( this , {
values : result
} , true ) ;
}
/ * *
* Get the value of unit .
* @ param { string } unit - a unit such as 'minute' or 'day'
* @ example Duration . fromObject ( { years : 2 , days : 3 } ) . get ( 'years' ) //=> 2
* @ example Duration . fromObject ( { years : 2 , days : 3 } ) . get ( 'months' ) //=> 0
* @ example Duration . fromObject ( { years : 2 , days : 3 } ) . get ( 'days' ) //=> 3
* @ return { number }
* /
get ( unit ) {
return this [ Duration . normalizeUnit ( unit ) ] ;
}
/ * *
* "Set" the values of specified units . Return a newly - constructed Duration .
* @ param { Object } values - a mapping of units to numbers
* @ example dur . set ( { years : 2017 } )
* @ example dur . set ( { hours : 8 , minutes : 30 } )
* @ return { Duration }
* /
set ( values ) {
if ( ! this . isValid ) return this ;
const mixed = {
... this . values ,
... normalizeObject ( values , Duration . normalizeUnit )
} ;
return clone$1 ( this , {
values : mixed
} ) ;
}
/ * *
* "Set" the locale and / or numberingSystem . Returns a newly - constructed Duration .
* @ example dur . reconfigure ( { locale : 'en-GB' } )
* @ return { Duration }
* /
reconfigure ( {
locale ,
numberingSystem ,
conversionAccuracy ,
matrix
} = { } ) {
const loc = this . loc . clone ( {
locale ,
numberingSystem
} ) ;
const opts = {
loc ,
matrix ,
conversionAccuracy
} ;
return clone$1 ( this , opts ) ;
}
/ * *
* Return the length of the duration in the specified unit .
* @ param { string } unit - a unit such as 'minutes' or 'days'
* @ example Duration . fromObject ( { years : 1 } ) . as ( 'days' ) //=> 365
* @ example Duration . fromObject ( { years : 1 } ) . as ( 'months' ) //=> 12
* @ example Duration . fromObject ( { hours : 60 } ) . as ( 'days' ) //=> 2.5
* @ return { number }
* /
as ( unit ) {
return this . isValid ? this . shiftTo ( unit ) . get ( unit ) : NaN ;
}
/ * *
* Reduce this Duration to its canonical representation in its current units .
* Assuming the overall value of the Duration is positive , this means :
* - excessive values for lower - order units are converted to higher - order units ( if possible , see first and second example )
* - negative lower - order units are converted to higher order units ( there must be such a higher order unit , otherwise
* the overall value would be negative , see second example )
* - fractional values for higher - order units are converted to lower - order units ( if possible , see fourth example )
*
* If the overall value is negative , the result of this method is equivalent to ` this.negate().normalize().negate() ` .
* @ example Duration . fromObject ( { years : 2 , days : 5000 } ) . normalize ( ) . toObject ( ) //=> { years: 15, days: 255 }
* @ example Duration . fromObject ( { days : 5000 } ) . normalize ( ) . toObject ( ) //=> { days: 5000 }
* @ example Duration . fromObject ( { hours : 12 , minutes : - 45 } ) . normalize ( ) . toObject ( ) //=> { hours: 11, minutes: 15 }
* @ example Duration . fromObject ( { years : 2.5 , days : 0 , hours : 0 } ) . normalize ( ) . toObject ( ) //=> { years: 2, days: 182, hours: 12 }
* @ return { Duration }
* /
normalize ( ) {
if ( ! this . isValid ) return this ;
const vals = this . toObject ( ) ;
normalizeValues ( this . matrix , vals ) ;
return clone$1 ( this , {
values : vals
} , true ) ;
}
/ * *
* Rescale units to its largest representation
* @ example Duration . fromObject ( { milliseconds : 90000 } ) . rescale ( ) . toObject ( ) //=> { minutes: 1, seconds: 30 }
* @ return { Duration }
* /
rescale ( ) {
if ( ! this . isValid ) return this ;
const vals = removeZeroes ( this . normalize ( ) . shiftToAll ( ) . toObject ( ) ) ;
return clone$1 ( this , {
values : vals
} , true ) ;
}
/ * *
* Convert this Duration into its representation in a different set of units .
* @ example Duration . fromObject ( { hours : 1 , seconds : 30 } ) . shiftTo ( 'minutes' , 'milliseconds' ) . toObject ( ) //=> { minutes: 60, milliseconds: 30000 }
* @ return { Duration }
* /
shiftTo ( ... units ) {
if ( ! this . isValid ) return this ;
if ( units . length === 0 ) {
return this ;
}
units = units . map ( u => Duration . normalizeUnit ( u ) ) ;
const built = { } ,
accumulated = { } ,
vals = this . toObject ( ) ;
let lastUnit ;
for ( const k of orderedUnits$1 ) {
if ( units . indexOf ( k ) >= 0 ) {
lastUnit = k ;
let own = 0 ;
// anything we haven't boiled down yet should get boiled to this unit
for ( const ak in accumulated ) {
own += this . matrix [ ak ] [ k ] * accumulated [ ak ] ;
accumulated [ ak ] = 0 ;
}
// plus anything that's already in this unit
if ( isNumber ( vals [ k ] ) ) {
own += vals [ k ] ;
}
// only keep the integer part for now in the hopes of putting any decimal part
// into a smaller unit later
const i = Math . trunc ( own ) ;
built [ k ] = i ;
accumulated [ k ] = ( own * 1000 - i * 1000 ) / 1000 ;
// otherwise, keep it in the wings to boil it later
} else if ( isNumber ( vals [ k ] ) ) {
accumulated [ k ] = vals [ k ] ;
}
}
// anything leftover becomes the decimal for the last unit
// lastUnit must be defined since units is not empty
for ( const key in accumulated ) {
if ( accumulated [ key ] !== 0 ) {
built [ lastUnit ] += key === lastUnit ? accumulated [ key ] : accumulated [ key ] / this . matrix [ lastUnit ] [ key ] ;
}
}
normalizeValues ( this . matrix , built ) ;
return clone$1 ( this , {
values : built
} , true ) ;
}
/ * *
* Shift this Duration to all available units .
* Same as shiftTo ( "years" , "months" , "weeks" , "days" , "hours" , "minutes" , "seconds" , "milliseconds" )
* @ return { Duration }
* /
shiftToAll ( ) {
if ( ! this . isValid ) return this ;
return this . shiftTo ( "years" , "months" , "weeks" , "days" , "hours" , "minutes" , "seconds" , "milliseconds" ) ;
}
/ * *
* Return the negative of this Duration .
* @ example Duration . fromObject ( { hours : 1 , seconds : 30 } ) . negate ( ) . toObject ( ) //=> { hours: -1, seconds: -30 }
* @ return { Duration }
* /
negate ( ) {
if ( ! this . isValid ) return this ;
const negated = { } ;
for ( const k of Object . keys ( this . values ) ) {
negated [ k ] = this . values [ k ] === 0 ? 0 : - this . values [ k ] ;
}
return clone$1 ( this , {
values : negated
} , true ) ;
}
/ * *
* Get the years .
* @ type { number }
* /
get years ( ) {
return this . isValid ? this . values . years || 0 : NaN ;
}
/ * *
* Get the quarters .
* @ type { number }
* /
get quarters ( ) {
return this . isValid ? this . values . quarters || 0 : NaN ;
}
/ * *
* Get the months .
* @ type { number }
* /
get months ( ) {
return this . isValid ? this . values . months || 0 : NaN ;
}
/ * *
* Get the weeks
* @ type { number }
* /
get weeks ( ) {
return this . isValid ? this . values . weeks || 0 : NaN ;
}
/ * *
* Get the days .
* @ type { number }
* /
get days ( ) {
return this . isValid ? this . values . days || 0 : NaN ;
}
/ * *
* Get the hours .
* @ type { number }
* /
get hours ( ) {
return this . isValid ? this . values . hours || 0 : NaN ;
}
/ * *
* Get the minutes .
* @ type { number }
* /
get minutes ( ) {
return this . isValid ? this . values . minutes || 0 : NaN ;
}
/ * *
* Get the seconds .
* @ return { number }
* /
get seconds ( ) {
return this . isValid ? this . values . seconds || 0 : NaN ;
}
/ * *
* Get the milliseconds .
* @ return { number }
* /
get milliseconds ( ) {
return this . isValid ? this . values . milliseconds || 0 : NaN ;
}
/ * *
* Returns whether the Duration is invalid . Invalid durations are returned by diff operations
* on invalid DateTimes or Intervals .
* @ return { boolean }
* /
get isValid ( ) {
return this . invalid === null ;
}
/ * *
* Returns an error code if this Duration became invalid , or null if the Duration is valid
* @ return { string }
* /
get invalidReason ( ) {
return this . invalid ? this . invalid . reason : null ;
}
/ * *
* Returns an explanation of why this Duration became invalid , or null if the Duration is valid
* @ type { string }
* /
get invalidExplanation ( ) {
return this . invalid ? this . invalid . explanation : null ;
}
/ * *
* Equality check
* Two Durations are equal iff they have the same units and the same values for each unit .
* @ param { Duration } other
* @ return { boolean }
* /
equals ( other ) {
if ( ! this . isValid || ! other . isValid ) {
return false ;
}
if ( ! this . loc . equals ( other . loc ) ) {
return false ;
}
function eq ( v1 , v2 ) {
// Consider 0 and undefined as equal
if ( v1 === undefined || v1 === 0 ) return v2 === undefined || v2 === 0 ;
return v1 === v2 ;
}
for ( const u of orderedUnits$1 ) {
if ( ! eq ( this . values [ u ] , other . values [ u ] ) ) {
return false ;
}
}
return true ;
}
}
const INVALID$1 = "Invalid Interval" ;
// checks if the start is equal to or before the end
function validateStartEnd ( start , end ) {
if ( ! start || ! start . isValid ) {
return Interval . invalid ( "missing or invalid start" ) ;
} else if ( ! end || ! end . isValid ) {
return Interval . invalid ( "missing or invalid end" ) ;
} else if ( end < start ) {
return Interval . invalid ( "end before start" , ` The end of an interval must be after its start, but you had start= ${ start . toISO ( ) } and end= ${ end . toISO ( ) } ` ) ;
} else {
return null ;
}
}
/ * *
* An Interval object represents a half - open interval of time , where each endpoint is a { @ link DateTime } . Conceptually , it ' s a container for those two endpoints , accompanied by methods for creating , parsing , interrogating , comparing , transforming , and formatting them .
*
* Here is a brief overview of the most commonly used methods and getters in Interval :
*
* * * * Creation * * To create an Interval , use { @ link Interval . fromDateTimes } , { @ link Interval . after } , { @ link Interval . before } , or { @ link Interval . fromISO } .
* * * * Accessors * * Use { @ link Interval # start } and { @ link Interval # end } to get the start and end .
* * * * Interrogation * * To analyze the Interval , use { @ link Interval # count } , { @ link Interval # length } , { @ link Interval # hasSame } , { @ link Interval # contains } , { @ link Interval # isAfter } , or { @ link Interval # isBefore } .
* * * * Transformation * * To create other Intervals out of this one , use { @ link Interval # set } , { @ link Interval # splitAt } , { @ link Interval # splitBy } , { @ link Interval # divideEqually } , { @ link Interval . merge } , { @ link Interval . xor } , { @ link Interval # union } , { @ link Interval # intersection } , or { @ link Interval # difference } .
* * * * Comparison * * To compare this Interval to another one , use { @ link Interval # equals } , { @ link Interval # overlaps } , { @ link Interval # abutsStart } , { @ link Interval # abutsEnd } , { @ link Interval # engulfs }
* * * * Output * * To convert the Interval into other representations , see { @ link Interval # toString } , { @ link Interval # toLocaleString } , { @ link Interval # toISO } , { @ link Interval # toISODate } , { @ link Interval # toISOTime } , { @ link Interval # toFormat } , and { @ link Interval # toDuration } .
* /
class Interval {
/ * *
* @ private
* /
constructor ( config ) {
/ * *
* @ access private
* /
this . s = config . start ;
/ * *
* @ access private
* /
this . e = config . end ;
/ * *
* @ access private
* /
this . invalid = config . invalid || null ;
/ * *
* @ access private
* /
this . isLuxonInterval = true ;
}
/ * *
* Create an invalid Interval .
* @ param { string } reason - simple string of why this Interval is invalid . Should not contain parameters or anything else data - dependent
* @ param { string } [ explanation = null ] - longer explanation , may include parameters and other useful debugging information
* @ return { Interval }
* /
static invalid ( reason , explanation = null ) {
if ( ! reason ) {
throw new InvalidArgumentError ( "need to specify a reason the Interval is invalid" ) ;
}
const invalid = reason instanceof Invalid ? reason : new Invalid ( reason , explanation ) ;
if ( Settings . throwOnInvalid ) {
throw new InvalidIntervalError ( invalid ) ;
} else {
return new Interval ( {
invalid
} ) ;
}
}
/ * *
* Create an Interval from a start DateTime and an end DateTime . Inclusive of the start but not the end .
* @ param { DateTime | Date | Object } start
* @ param { DateTime | Date | Object } end
* @ return { Interval }
* /
static fromDateTimes ( start , end ) {
const builtStart = friendlyDateTime ( start ) ,
builtEnd = friendlyDateTime ( end ) ;
const validateError = validateStartEnd ( builtStart , builtEnd ) ;
if ( validateError == null ) {
return new Interval ( {
start : builtStart ,
end : builtEnd
} ) ;
} else {
return validateError ;
}
}
/ * *
* Create an Interval from a start DateTime and a Duration to extend to .
* @ param { DateTime | Date | Object } start
* @ param { Duration | Object | number } duration - the length of the Interval .
* @ return { Interval }
* /
static after ( start , duration ) {
const dur = Duration . fromDurationLike ( duration ) ,
dt = friendlyDateTime ( start ) ;
return Interval . fromDateTimes ( dt , dt . plus ( dur ) ) ;
}
/ * *
* Create an Interval from an end DateTime and a Duration to extend backwards to .
* @ param { DateTime | Date | Object } end
* @ param { Duration | Object | number } duration - the length of the Interval .
* @ return { Interval }
* /
static before ( end , duration ) {
const dur = Duration . fromDurationLike ( duration ) ,
dt = friendlyDateTime ( end ) ;
return Interval . fromDateTimes ( dt . minus ( dur ) , dt ) ;
}
/ * *
* Create an Interval from an ISO 8601 string .
* Accepts ` <start>/<end> ` , ` <start>/<duration> ` , and ` <duration>/<end> ` formats .
* @ param { string } text - the ISO string to parse
* @ param { Object } [ opts ] - options to pass { @ link DateTime # fromISO } and optionally { @ link Duration # fromISO }
* @ see https : //en.wikipedia.org/wiki/ISO_8601#Time_intervals
* @ return { Interval }
* /
static fromISO ( text , opts ) {
const [ s , e ] = ( text || "" ) . split ( "/" , 2 ) ;
if ( s && e ) {
let start , startIsValid ;
try {
start = DateTime . fromISO ( s , opts ) ;
startIsValid = start . isValid ;
} catch ( e ) {
startIsValid = false ;
}
let end , endIsValid ;
try {
end = DateTime . fromISO ( e , opts ) ;
endIsValid = end . isValid ;
} catch ( e ) {
endIsValid = false ;
}
if ( startIsValid && endIsValid ) {
return Interval . fromDateTimes ( start , end ) ;
}
if ( startIsValid ) {
const dur = Duration . fromISO ( e , opts ) ;
if ( dur . isValid ) {
return Interval . after ( start , dur ) ;
}
} else if ( endIsValid ) {
const dur = Duration . fromISO ( s , opts ) ;
if ( dur . isValid ) {
return Interval . before ( end , dur ) ;
}
}
}
return Interval . invalid ( "unparsable" , ` the input " ${ text } " can't be parsed as ISO 8601 ` ) ;
}
/ * *
* Check if an object is an Interval . Works across context boundaries
* @ param { object } o
* @ return { boolean }
* /
static isInterval ( o ) {
return o && o . isLuxonInterval || false ;
}
/ * *
* Returns the start of the Interval
* @ type { DateTime }
* /
get start ( ) {
return this . isValid ? this . s : null ;
}
/ * *
* Returns the end of the Interval
* @ type { DateTime }
* /
get end ( ) {
return this . isValid ? this . e : null ;
}
/ * *
* Returns whether this Interval 's end is at least its start, meaning that the Interval isn' t 'backwards' .
* @ type { boolean }
* /
get isValid ( ) {
return this . invalidReason === null ;
}
/ * *
* Returns an error code if this Interval is invalid , or null if the Interval is valid
* @ type { string }
* /
get invalidReason ( ) {
return this . invalid ? this . invalid . reason : null ;
}
/ * *
* Returns an explanation of why this Interval became invalid , or null if the Interval is valid
* @ type { string }
* /
get invalidExplanation ( ) {
return this . invalid ? this . invalid . explanation : null ;
}
/ * *
* Returns the length of the Interval in the specified unit .
* @ param { string } unit - the unit ( such as 'hours' or 'days' ) to return the length in .
* @ return { number }
* /
length ( unit = "milliseconds" ) {
return this . isValid ? this . toDuration ( ... [ unit ] ) . get ( unit ) : NaN ;
}
/ * *
* Returns the count of minutes , hours , days , months , or years included in the Interval , even in part .
* Unlike { @ link Interval # length } this counts sections of the calendar , not periods of time , e . g . specifying 'day'
* asks 'what dates are included in this interval?' , not 'how many days long is this interval?'
* @ param { string } [ unit = 'milliseconds' ] - the unit of time to count .
* @ return { number }
* /
count ( unit = "milliseconds" ) {
if ( ! this . isValid ) return NaN ;
const start = this . start . startOf ( unit ) ,
end = this . end . startOf ( unit ) ;
return Math . floor ( end . diff ( start , unit ) . get ( unit ) ) + ( end . valueOf ( ) !== this . end . valueOf ( ) ) ;
}
/ * *
* Returns whether this Interval ' s start and end are both in the same unit of time
* @ param { string } unit - the unit of time to check sameness on
* @ return { boolean }
* /
hasSame ( unit ) {
return this . isValid ? this . isEmpty ( ) || this . e . minus ( 1 ) . hasSame ( this . s , unit ) : false ;
}
/ * *
* Return whether this Interval has the same start and end DateTimes .
* @ return { boolean }
* /
isEmpty ( ) {
return this . s . valueOf ( ) === this . e . valueOf ( ) ;
}
/ * *
* Return whether this Interval ' s start is after the specified DateTime .
* @ param { DateTime } dateTime
* @ return { boolean }
* /
isAfter ( dateTime ) {
if ( ! this . isValid ) return false ;
return this . s > dateTime ;
}
/ * *
* Return whether this Interval ' s end is before the specified DateTime .
* @ param { DateTime } dateTime
* @ return { boolean }
* /
isBefore ( dateTime ) {
if ( ! this . isValid ) return false ;
return this . e <= dateTime ;
}
/ * *
* Return whether this Interval contains the specified DateTime .
* @ param { DateTime } dateTime
* @ return { boolean }
* /
contains ( dateTime ) {
if ( ! this . isValid ) return false ;
return this . s <= dateTime && this . e > dateTime ;
}
/ * *
* "Sets" the start and / or end dates . Returns a newly - constructed Interval .
* @ param { Object } values - the values to set
* @ param { DateTime } values . start - the starting DateTime
* @ param { DateTime } values . end - the ending DateTime
* @ return { Interval }
* /
set ( {
start ,
end
} = { } ) {
if ( ! this . isValid ) return this ;
return Interval . fromDateTimes ( start || this . s , end || this . e ) ;
}
/ * *
* Split this Interval at each of the specified DateTimes
* @ param { ... DateTime } dateTimes - the unit of time to count .
* @ return { Array }
* /
splitAt ( ... dateTimes ) {
if ( ! this . isValid ) return [ ] ;
const sorted = dateTimes . map ( friendlyDateTime ) . filter ( d => this . contains ( d ) ) . sort ( ) ,
results = [ ] ;
let {
s
} = this ,
i = 0 ;
while ( s < this . e ) {
const added = sorted [ i ] || this . e ,
next = + added > + this . e ? this . e : added ;
results . push ( Interval . fromDateTimes ( s , next ) ) ;
s = next ;
i += 1 ;
}
return results ;
}
/ * *
* Split this Interval into smaller Intervals , each of the specified length .
* Left over time is grouped into a smaller interval
* @ param { Duration | Object | number } duration - The length of each resulting interval .
* @ return { Array }
* /
splitBy ( duration ) {
const dur = Duration . fromDurationLike ( duration ) ;
if ( ! this . isValid || ! dur . isValid || dur . as ( "milliseconds" ) === 0 ) {
return [ ] ;
}
let {
s
} = this ,
idx = 1 ,
next ;
const results = [ ] ;
while ( s < this . e ) {
const added = this . start . plus ( dur . mapUnits ( x => x * idx ) ) ;
next = + added > + this . e ? this . e : added ;
results . push ( Interval . fromDateTimes ( s , next ) ) ;
s = next ;
idx += 1 ;
}
return results ;
}
/ * *
* Split this Interval into the specified number of smaller intervals .
* @ param { number } numberOfParts - The number of Intervals to divide the Interval into .
* @ return { Array }
* /
divideEqually ( numberOfParts ) {
if ( ! this . isValid ) return [ ] ;
return this . splitBy ( this . length ( ) / numberOfParts ) . slice ( 0 , numberOfParts ) ;
}
/ * *
* Return whether this Interval overlaps with the specified Interval
* @ param { Interval } other
* @ return { boolean }
* /
overlaps ( other ) {
return this . e > other . s && this . s < other . e ;
}
/ * *
* Return whether this Interval 's end is adjacent to the specified Interval' s start .
* @ param { Interval } other
* @ return { boolean }
* /
abutsStart ( other ) {
if ( ! this . isValid ) return false ;
return + this . e === + other . s ;
}
/ * *
* Return whether this Interval 's start is adjacent to the specified Interval' s end .
* @ param { Interval } other
* @ return { boolean }
* /
abutsEnd ( other ) {
if ( ! this . isValid ) return false ;
return + other . e === + this . s ;
}
/ * *
* Return whether this Interval engulfs the start and end of the specified Interval .
* @ param { Interval } other
* @ return { boolean }
* /
engulfs ( other ) {
if ( ! this . isValid ) return false ;
return this . s <= other . s && this . e >= other . e ;
}
/ * *
* Return whether this Interval has the same start and end as the specified Interval .
* @ param { Interval } other
* @ return { boolean }
* /
equals ( other ) {
if ( ! this . isValid || ! other . isValid ) {
return false ;
}
return this . s . equals ( other . s ) && this . e . equals ( other . e ) ;
}
/ * *
* Return an Interval representing the intersection of this Interval and the specified Interval .
* Specifically , the resulting Interval has the maximum start time and the minimum end time of the two Intervals .
* Returns null if the intersection is empty , meaning , the intervals don ' t intersect .
* @ param { Interval } other
* @ return { Interval }
* /
intersection ( other ) {
if ( ! this . isValid ) return this ;
const s = this . s > other . s ? this . s : other . s ,
e = this . e < other . e ? this . e : other . e ;
if ( s >= e ) {
return null ;
} else {
return Interval . fromDateTimes ( s , e ) ;
}
}
/ * *
* Return an Interval representing the union of this Interval and the specified Interval .
* Specifically , the resulting Interval has the minimum start time and the maximum end time of the two Intervals .
* @ param { Interval } other
* @ return { Interval }
* /
union ( other ) {
if ( ! this . isValid ) return this ;
const s = this . s < other . s ? this . s : other . s ,
e = this . e > other . e ? this . e : other . e ;
return Interval . fromDateTimes ( s , e ) ;
}
/ * *
* Merge an array of Intervals into a equivalent minimal set of Intervals .
* Combines overlapping and adjacent Intervals .
* @ param { Array } intervals
* @ return { Array }
* /
static merge ( intervals ) {
const [ found , final ] = intervals . sort ( ( a , b ) => a . s - b . s ) . reduce ( ( [ sofar , current ] , item ) => {
if ( ! current ) {
return [ sofar , item ] ;
} else if ( current . overlaps ( item ) || current . abutsStart ( item ) ) {
return [ sofar , current . union ( item ) ] ;
} else {
return [ sofar . concat ( [ current ] ) , item ] ;
}
} , [ [ ] , null ] ) ;
if ( final ) {
found . push ( final ) ;
}
return found ;
}
/ * *
* Return an array of Intervals representing the spans of time that only appear in one of the specified Intervals .
* @ param { Array } intervals
* @ return { Array }
* /
static xor ( intervals ) {
let start = null ,
currentCount = 0 ;
const results = [ ] ,
ends = intervals . map ( i => [ {
time : i . s ,
type : "s"
} , {
time : i . e ,
type : "e"
} ] ) ,
flattened = Array . prototype . concat ( ... ends ) ,
arr = flattened . sort ( ( a , b ) => a . time - b . time ) ;
for ( const i of arr ) {
currentCount += i . type === "s" ? 1 : - 1 ;
if ( currentCount === 1 ) {
start = i . time ;
} else {
if ( start && + start !== + i . time ) {
results . push ( Interval . fromDateTimes ( start , i . time ) ) ;
}
start = null ;
}
}
return Interval . merge ( results ) ;
}
/ * *
* Return an Interval representing the span of time in this Interval that doesn ' t overlap with any of the specified Intervals .
* @ param { ... Interval } intervals
* @ return { Array }
* /
difference ( ... intervals ) {
return Interval . xor ( [ this ] . concat ( intervals ) ) . map ( i => this . intersection ( i ) ) . filter ( i => i && ! i . isEmpty ( ) ) ;
}
/ * *
* Returns a string representation of this Interval appropriate for debugging .
* @ return { string }
* /
toString ( ) {
if ( ! this . isValid ) return INVALID$1 ;
return ` [ ${ this . s . toISO ( ) } – ${ this . e . toISO ( ) } ) ` ;
}
/ * *
* Returns a localized string representing this Interval . Accepts the same options as the
* Intl . DateTimeFormat constructor and any presets defined by Luxon , such as
* { @ link DateTime . DATE _FULL } or { @ link DateTime . TIME _SIMPLE } . The exact behavior of this method
* is browser - specific , but in general it will return an appropriate representation of the
* Interval in the assigned locale . Defaults to the system ' s locale if no locale has been
* specified .
* @ see https : //developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/DateTimeFormat
* @ param { Object } [ formatOpts = DateTime . DATE _SHORT ] - Either a DateTime preset or
* Intl . DateTimeFormat constructor options .
* @ param { Object } opts - Options to override the configuration of the start DateTime .
* @ example Interval . fromISO ( '2022-11-07T09:00Z/2022-11-08T09:00Z' ) . toLocaleString ( ) ; //=> 11/7/2022 – 11/8/2022
* @ example Interval . fromISO ( '2022-11-07T09:00Z/2022-11-08T09:00Z' ) . toLocaleString ( DateTime . DATE _FULL ) ; //=> November 7 – 8, 2022
* @ example Interval . fromISO ( '2022-11-07T09:00Z/2022-11-08T09:00Z' ) . toLocaleString ( DateTime . DATE _FULL , { locale : 'fr-FR' } ) ; //=> 7– 8 novembre 2022
* @ example Interval . fromISO ( '2022-11-07T17:00Z/2022-11-07T19:00Z' ) . toLocaleString ( DateTime . TIME _SIMPLE ) ; //=> 6:00 – 8:00 PM
* @ example Interval . fromISO ( '2022-11-07T17:00Z/2022-11-07T19:00Z' ) . toLocaleString ( { weekday : 'short' , month : 'short' , day : '2-digit' , hour : '2-digit' , minute : '2-digit' } ) ; //=> Mon, Nov 07, 6:00 – 8:00 p
* @ return { string }
* /
toLocaleString ( formatOpts = DATE _SHORT , opts = { } ) {
return this . isValid ? Formatter . create ( this . s . loc . clone ( opts ) , formatOpts ) . formatInterval ( this ) : INVALID$1 ;
}
/ * *
* Returns an ISO 8601 - compliant string representation of this Interval .
* @ see https : //en.wikipedia.org/wiki/ISO_8601#Time_intervals
* @ param { Object } opts - The same options as { @ link DateTime # toISO }
* @ return { string }
* /
toISO ( opts ) {
if ( ! this . isValid ) return INVALID$1 ;
return ` ${ this . s . toISO ( opts ) } / ${ this . e . toISO ( opts ) } ` ;
}
/ * *
* Returns an ISO 8601 - compliant string representation of date of this Interval .
* The time components are ignored .
* @ see https : //en.wikipedia.org/wiki/ISO_8601#Time_intervals
* @ return { string }
* /
toISODate ( ) {
if ( ! this . isValid ) return INVALID$1 ;
return ` ${ this . s . toISODate ( ) } / ${ this . e . toISODate ( ) } ` ;
}
/ * *
* Returns an ISO 8601 - compliant string representation of time of this Interval .
* The date components are ignored .
* @ see https : //en.wikipedia.org/wiki/ISO_8601#Time_intervals
* @ param { Object } opts - The same options as { @ link DateTime # toISO }
* @ return { string }
* /
toISOTime ( opts ) {
if ( ! this . isValid ) return INVALID$1 ;
return ` ${ this . s . toISOTime ( opts ) } / ${ this . e . toISOTime ( opts ) } ` ;
}
/ * *
* Returns a string representation of this Interval formatted according to the specified format
* string . * * You may not want this . * * See { @ link Interval # toLocaleString } for a more flexible
* formatting tool .
* @ param { string } dateFormat - The format string . This string formats the start and end time .
* See { @ link DateTime # toFormat } for details .
* @ param { Object } opts - Options .
* @ param { string } [ opts . separator = ' – ' ] - A separator to place between the start and end
* representations .
* @ return { string }
* /
toFormat ( dateFormat , {
separator = " – "
} = { } ) {
if ( ! this . isValid ) return INVALID$1 ;
return ` ${ this . s . toFormat ( dateFormat ) } ${ separator } ${ this . e . toFormat ( dateFormat ) } ` ;
}
/ * *
* Return a Duration representing the time spanned by this interval .
* @ param { string | string [ ] } [ unit = [ 'milliseconds' ] ] - the unit or units ( such as 'hours' or 'days' ) to include in the duration .
* @ param { Object } opts - options that affect the creation of the Duration
* @ param { string } [ opts . conversionAccuracy = 'casual' ] - the conversion system to use
* @ example Interval . fromDateTimes ( dt1 , dt2 ) . toDuration ( ) . toObject ( ) //=> { milliseconds: 88489257 }
* @ example Interval . fromDateTimes ( dt1 , dt2 ) . toDuration ( 'days' ) . toObject ( ) //=> { days: 1.0241812152777778 }
* @ example Interval . fromDateTimes ( dt1 , dt2 ) . toDuration ( [ 'hours' , 'minutes' ] ) . toObject ( ) //=> { hours: 24, minutes: 34.82095 }
* @ example Interval . fromDateTimes ( dt1 , dt2 ) . toDuration ( [ 'hours' , 'minutes' , 'seconds' ] ) . toObject ( ) //=> { hours: 24, minutes: 34, seconds: 49.257 }
* @ example Interval . fromDateTimes ( dt1 , dt2 ) . toDuration ( 'seconds' ) . toObject ( ) //=> { seconds: 88489.257 }
* @ return { Duration }
* /
toDuration ( unit , opts ) {
if ( ! this . isValid ) {
return Duration . invalid ( this . invalidReason ) ;
}
return this . e . diff ( this . s , unit , opts ) ;
}
/ * *
* Run mapFn on the interval start and end , returning a new Interval from the resulting DateTimes
* @ param { function } mapFn
* @ return { Interval }
* @ example Interval . fromDateTimes ( dt1 , dt2 ) . mapEndpoints ( endpoint => endpoint . toUTC ( ) )
* @ example Interval . fromDateTimes ( dt1 , dt2 ) . mapEndpoints ( endpoint => endpoint . plus ( { hours : 2 } ) )
* /
mapEndpoints ( mapFn ) {
return Interval . fromDateTimes ( mapFn ( this . s ) , mapFn ( this . e ) ) ;
}
}
/ * *
* The Info class contains static methods for retrieving general time and date related data . For example , it has methods for finding out if a time zone has a DST , for listing the months in any supported locale , and for discovering which of Luxon features are available in the current environment .
* /
class Info {
/ * *
* Return whether the specified zone contains a DST .
* @ param { string | Zone } [ zone = 'local' ] - Zone to check . Defaults to the environment ' s local zone .
* @ return { boolean }
* /
static hasDST ( zone = Settings . defaultZone ) {
const proto = DateTime . now ( ) . setZone ( zone ) . set ( {
month : 12
} ) ;
return ! zone . isUniversal && proto . offset !== proto . set ( {
month : 6
} ) . offset ;
}
/ * *
* Return whether the specified zone is a valid IANA specifier .
* @ param { string } zone - Zone to check
* @ return { boolean }
* /
static isValidIANAZone ( zone ) {
return IANAZone . isValidZone ( zone ) ;
}
/ * *
* Converts the input into a { @ link Zone } instance .
*
* * If ` input ` is already a Zone instance , it is returned unchanged .
* * If ` input ` is a string containing a valid time zone name , a Zone instance
* with that name is returned .
* * If ` input ` is a string that doesn ' t refer to a known time zone , a Zone
* instance with { @ link Zone # isValid } == false is returned .
* * If ` input is a number, a Zone instance with the specified fixed offset
* in minutes is returned .
* * If ` input ` is ` null ` or ` undefined ` , the default zone is returned .
* @ param { string | Zone | number } [ input ] - the value to be converted
* @ return { Zone }
* /
static normalizeZone ( input ) {
return normalizeZone ( input , Settings . defaultZone ) ;
}
/ * *
* Return an array of standalone month names .
* @ see https : //developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/DateTimeFormat
* @ param { string } [ length = 'long' ] - the length of the month representation , such as "numeric" , "2-digit" , "narrow" , "short" , "long"
* @ param { Object } opts - options
* @ param { string } [ opts . locale ] - the locale code
* @ param { string } [ opts . numberingSystem = null ] - the numbering system
* @ param { string } [ opts . locObj = null ] - an existing locale object to use
* @ param { string } [ opts . outputCalendar = 'gregory' ] - the calendar
* @ example Info . months ( ) [ 0 ] //=> 'January'
* @ example Info . months ( 'short' ) [ 0 ] //=> 'Jan'
* @ example Info . months ( 'numeric' ) [ 0 ] //=> '1'
* @ example Info . months ( 'short' , { locale : 'fr-CA' } ) [ 0 ] //=> 'janv.'
* @ example Info . months ( 'numeric' , { locale : 'ar' } ) [ 0 ] //=> '١ '
* @ example Info . months ( 'long' , { outputCalendar : 'islamic' } ) [ 0 ] //=> 'Rabiʻ I'
* @ return { Array }
* /
static months ( length = "long" , {
locale = null ,
numberingSystem = null ,
locObj = null ,
outputCalendar = "gregory"
} = { } ) {
return ( locObj || Locale . create ( locale , numberingSystem , outputCalendar ) ) . months ( length ) ;
}
/ * *
* Return an array of format month names .
* Format months differ from standalone months in that they ' re meant to appear next to the day of the month . In some languages , that
* changes the string .
* See { @ link Info # months }
* @ param { string } [ length = 'long' ] - the length of the month representation , such as "numeric" , "2-digit" , "narrow" , "short" , "long"
* @ param { Object } opts - options
* @ param { string } [ opts . locale ] - the locale code
* @ param { string } [ opts . numberingSystem = null ] - the numbering system
* @ param { string } [ opts . locObj = null ] - an existing locale object to use
* @ param { string } [ opts . outputCalendar = 'gregory' ] - the calendar
* @ return { Array }
* /
static monthsFormat ( length = "long" , {
locale = null ,
numberingSystem = null ,
locObj = null ,
outputCalendar = "gregory"
} = { } ) {
return ( locObj || Locale . create ( locale , numberingSystem , outputCalendar ) ) . months ( length , true ) ;
}
/ * *
* Return an array of standalone week names .
* @ see https : //developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/DateTimeFormat
* @ param { string } [ length = 'long' ] - the length of the weekday representation , such as "narrow" , "short" , "long" .
* @ param { Object } opts - options
* @ param { string } [ opts . locale ] - the locale code
* @ param { string } [ opts . numberingSystem = null ] - the numbering system
* @ param { string } [ opts . locObj = null ] - an existing locale object to use
* @ example Info . weekdays ( ) [ 0 ] //=> 'Monday'
* @ example Info . weekdays ( 'short' ) [ 0 ] //=> 'Mon'
* @ example Info . weekdays ( 'short' , { locale : 'fr-CA' } ) [ 0 ] //=> 'lun.'
* @ example Info . weekdays ( 'short' , { locale : 'ar' } ) [ 0 ] //=> 'الاثنين'
* @ return { Array }
* /
static weekdays ( length = "long" , {
locale = null ,
numberingSystem = null ,
locObj = null
} = { } ) {
return ( locObj || Locale . create ( locale , numberingSystem , null ) ) . weekdays ( length ) ;
}
/ * *
* Return an array of format week names .
* Format weekdays differ from standalone weekdays in that they ' re meant to appear next to more date information . In some languages , that
* changes the string .
* See { @ link Info # weekdays }
* @ param { string } [ length = 'long' ] - the length of the month representation , such as "narrow" , "short" , "long" .
* @ param { Object } opts - options
* @ param { string } [ opts . locale = null ] - the locale code
* @ param { string } [ opts . numberingSystem = null ] - the numbering system
* @ param { string } [ opts . locObj = null ] - an existing locale object to use
* @ return { Array }
* /
static weekdaysFormat ( length = "long" , {
locale = null ,
numberingSystem = null ,
locObj = null
} = { } ) {
return ( locObj || Locale . create ( locale , numberingSystem , null ) ) . weekdays ( length , true ) ;
}
/ * *
* Return an array of meridiems .
* @ param { Object } opts - options
* @ param { string } [ opts . locale ] - the locale code
* @ example Info . meridiems ( ) //=> [ 'AM', 'PM' ]
* @ example Info . meridiems ( { locale : 'my' } ) //=> [ 'နံနက်', 'ညနေ' ]
* @ return { Array }
* /
static meridiems ( {
locale = null
} = { } ) {
return Locale . create ( locale ) . meridiems ( ) ;
}
/ * *
* Return an array of eras , such as [ 'BC' , 'AD' ] . The locale can be specified , but the calendar system is always Gregorian .
* @ param { string } [ length = 'short' ] - the length of the era representation , such as "short" or "long" .
* @ param { Object } opts - options
* @ param { string } [ opts . locale ] - the locale code
* @ example Info . eras ( ) //=> [ 'BC', 'AD' ]
* @ example Info . eras ( 'long' ) //=> [ 'Before Christ', 'Anno Domini' ]
* @ example Info . eras ( 'long' , { locale : 'fr' } ) //=> [ 'avant Jésus-Christ', 'après Jésus-Christ' ]
* @ return { Array }
* /
static eras ( length = "short" , {
locale = null
} = { } ) {
return Locale . create ( locale , null , "gregory" ) . eras ( length ) ;
}
/ * *
* Return the set of available features in this environment .
* Some features of Luxon are not available in all environments . For example , on older browsers , relative time formatting support is not available . Use this function to figure out if that ' s the case .
* Keys :
* * ` relative ` : whether this environment supports relative time formatting
* @ example Info . features ( ) //=> { relative: false }
* @ return { Object }
* /
static features ( ) {
return {
relative : hasRelative ( )
} ;
}
}
function dayDiff ( earlier , later ) {
const utcDayStart = dt => dt . toUTC ( 0 , {
keepLocalTime : true
} ) . startOf ( "day" ) . valueOf ( ) ,
ms = utcDayStart ( later ) - utcDayStart ( earlier ) ;
return Math . floor ( Duration . fromMillis ( ms ) . as ( "days" ) ) ;
}
function highOrderDiffs ( cursor , later , units ) {
const differs = [ [ "years" , ( a , b ) => b . year - a . year ] , [ "quarters" , ( a , b ) => b . quarter - a . quarter + ( b . year - a . year ) * 4 ] , [ "months" , ( a , b ) => b . month - a . month + ( b . year - a . year ) * 12 ] , [ "weeks" , ( a , b ) => {
const days = dayDiff ( a , b ) ;
return ( days - days % 7 ) / 7 ;
} ] , [ "days" , dayDiff ] ] ;
const results = { } ;
const earlier = cursor ;
let lowestOrder , highWater ;
/ * T h i s l o o p t r i e s t o d i f f u s i n g l a r g e r u n i t s f i r s t .
If we overshoot , we backtrack and try the next smaller unit .
"cursor" starts out at the earlier timestamp and moves closer and closer to "later"
as we use smaller and smaller units .
highWater keeps track of where we would be if we added one more of the smallest unit ,
this is used later to potentially convert any difference smaller than the smallest higher order unit
into a fraction of that smallest higher order unit
* /
for ( const [ unit , differ ] of differs ) {
if ( units . indexOf ( unit ) >= 0 ) {
lowestOrder = unit ;
results [ unit ] = differ ( cursor , later ) ;
highWater = earlier . plus ( results ) ;
if ( highWater > later ) {
// we overshot the end point, backtrack cursor by 1
results [ unit ] -- ;
cursor = earlier . plus ( results ) ;
// if we are still overshooting now, we need to backtrack again
// this happens in certain situations when diffing times in different zones,
// because this calculation ignores time zones
if ( cursor > later ) {
// keep the "overshot by 1" around as highWater
highWater = cursor ;
// backtrack cursor by 1
results [ unit ] -- ;
cursor = earlier . plus ( results ) ;
}
} else {
cursor = highWater ;
}
}
}
return [ cursor , results , highWater , lowestOrder ] ;
}
function diff ( earlier , later , units , opts ) {
let [ cursor , results , highWater , lowestOrder ] = highOrderDiffs ( earlier , later , units ) ;
const remainingMillis = later - cursor ;
const lowerOrderUnits = units . filter ( u => [ "hours" , "minutes" , "seconds" , "milliseconds" ] . indexOf ( u ) >= 0 ) ;
if ( lowerOrderUnits . length === 0 ) {
if ( highWater < later ) {
highWater = cursor . plus ( {
[ lowestOrder ] : 1
} ) ;
}
if ( highWater !== cursor ) {
results [ lowestOrder ] = ( results [ lowestOrder ] || 0 ) + remainingMillis / ( highWater - cursor ) ;
}
}
const duration = Duration . fromObject ( results , opts ) ;
if ( lowerOrderUnits . length > 0 ) {
return Duration . fromMillis ( remainingMillis , opts ) . shiftTo ( ... lowerOrderUnits ) . plus ( duration ) ;
} else {
return duration ;
}
}
const numberingSystems = {
arab : "[\u0660-\u0669]" ,
arabext : "[\u06F0-\u06F9]" ,
bali : "[\u1B50-\u1B59]" ,
beng : "[\u09E6-\u09EF]" ,
deva : "[\u0966-\u096F]" ,
fullwide : "[\uFF10-\uFF19]" ,
gujr : "[\u0AE6-\u0AEF]" ,
hanidec : "[〇 |一|二|三|四|五|六|七|八|九]" ,
khmr : "[\u17E0-\u17E9]" ,
knda : "[\u0CE6-\u0CEF]" ,
laoo : "[\u0ED0-\u0ED9]" ,
limb : "[\u1946-\u194F]" ,
mlym : "[\u0D66-\u0D6F]" ,
mong : "[\u1810-\u1819]" ,
mymr : "[\u1040-\u1049]" ,
orya : "[\u0B66-\u0B6F]" ,
tamldec : "[\u0BE6-\u0BEF]" ,
telu : "[\u0C66-\u0C6F]" ,
thai : "[\u0E50-\u0E59]" ,
tibt : "[\u0F20-\u0F29]" ,
latn : "\\d"
} ;
const numberingSystemsUTF16 = {
arab : [ 1632 , 1641 ] ,
arabext : [ 1776 , 1785 ] ,
bali : [ 6992 , 7001 ] ,
beng : [ 2534 , 2543 ] ,
deva : [ 2406 , 2415 ] ,
fullwide : [ 65296 , 65303 ] ,
gujr : [ 2790 , 2799 ] ,
khmr : [ 6112 , 6121 ] ,
knda : [ 3302 , 3311 ] ,
laoo : [ 3792 , 3801 ] ,
limb : [ 6470 , 6479 ] ,
mlym : [ 3430 , 3439 ] ,
mong : [ 6160 , 6169 ] ,
mymr : [ 4160 , 4169 ] ,
orya : [ 2918 , 2927 ] ,
tamldec : [ 3046 , 3055 ] ,
telu : [ 3174 , 3183 ] ,
thai : [ 3664 , 3673 ] ,
tibt : [ 3872 , 3881 ]
} ;
const hanidecChars = numberingSystems . hanidec . replace ( /[\[|\]]/g , "" ) . split ( "" ) ;
function parseDigits ( str ) {
let value = parseInt ( str , 10 ) ;
if ( isNaN ( value ) ) {
value = "" ;
for ( let i = 0 ; i < str . length ; i ++ ) {
const code = str . charCodeAt ( i ) ;
if ( str [ i ] . search ( numberingSystems . hanidec ) !== - 1 ) {
value += hanidecChars . indexOf ( str [ i ] ) ;
} else {
for ( const key in numberingSystemsUTF16 ) {
const [ min , max ] = numberingSystemsUTF16 [ key ] ;
if ( code >= min && code <= max ) {
value += code - min ;
}
}
}
}
return parseInt ( value , 10 ) ;
} else {
return value ;
}
}
function digitRegex ( {
numberingSystem
} , append = "" ) {
return new RegExp ( ` ${ numberingSystems [ numberingSystem || "latn" ] } ${ append } ` ) ;
}
const MISSING _FTP = "missing Intl.DateTimeFormat.formatToParts support" ;
function intUnit ( regex , post = i => i ) {
return {
regex ,
deser : ( [ s ] ) => post ( parseDigits ( s ) )
} ;
}
const NBSP = String . fromCharCode ( 160 ) ;
const spaceOrNBSP = ` [ ${ NBSP } ] ` ;
const spaceOrNBSPRegExp = new RegExp ( spaceOrNBSP , "g" ) ;
function fixListRegex ( s ) {
// make dots optional and also make them literal
// make space and non breakable space characters interchangeable
return s . replace ( /\./g , "\\.?" ) . replace ( spaceOrNBSPRegExp , spaceOrNBSP ) ;
}
function stripInsensitivities ( s ) {
return s . replace ( /\./g , "" ) // ignore dots that were made optional
. replace ( spaceOrNBSPRegExp , " " ) // interchange space and nbsp
. toLowerCase ( ) ;
}
function oneOf ( strings , startIndex ) {
if ( strings === null ) {
return null ;
} else {
return {
regex : RegExp ( strings . map ( fixListRegex ) . join ( "|" ) ) ,
deser : ( [ s ] ) => strings . findIndex ( i => stripInsensitivities ( s ) === stripInsensitivities ( i ) ) + startIndex
} ;
}
}
function offset ( regex , groups ) {
return {
regex ,
deser : ( [ , h , m ] ) => signedOffset ( h , m ) ,
groups
} ;
}
function simple ( regex ) {
return {
regex ,
deser : ( [ s ] ) => s
} ;
}
function escapeToken ( value ) {
return value . replace ( /[\-\[\]{}()*+?.,\\\^$|#\s]/g , "\\$&" ) ;
}
/ * *
* @ param token
* @ param { Locale } loc
* /
function unitForToken ( token , loc ) {
const one = digitRegex ( loc ) ,
two = digitRegex ( loc , "{2}" ) ,
three = digitRegex ( loc , "{3}" ) ,
four = digitRegex ( loc , "{4}" ) ,
six = digitRegex ( loc , "{6}" ) ,
oneOrTwo = digitRegex ( loc , "{1,2}" ) ,
oneToThree = digitRegex ( loc , "{1,3}" ) ,
oneToSix = digitRegex ( loc , "{1,6}" ) ,
oneToNine = digitRegex ( loc , "{1,9}" ) ,
twoToFour = digitRegex ( loc , "{2,4}" ) ,
fourToSix = digitRegex ( loc , "{4,6}" ) ,
literal = t => ( {
regex : RegExp ( escapeToken ( t . val ) ) ,
deser : ( [ s ] ) => s ,
literal : true
} ) ,
unitate = t => {
if ( token . literal ) {
return literal ( t ) ;
}
switch ( t . val ) {
// era
case "G" :
return oneOf ( loc . eras ( "short" ) , 0 ) ;
case "GG" :
return oneOf ( loc . eras ( "long" ) , 0 ) ;
// years
case "y" :
return intUnit ( oneToSix ) ;
case "yy" :
return intUnit ( twoToFour , untruncateYear ) ;
case "yyyy" :
return intUnit ( four ) ;
case "yyyyy" :
return intUnit ( fourToSix ) ;
case "yyyyyy" :
return intUnit ( six ) ;
// months
case "M" :
return intUnit ( oneOrTwo ) ;
case "MM" :
return intUnit ( two ) ;
case "MMM" :
return oneOf ( loc . months ( "short" , true ) , 1 ) ;
case "MMMM" :
return oneOf ( loc . months ( "long" , true ) , 1 ) ;
case "L" :
return intUnit ( oneOrTwo ) ;
case "LL" :
return intUnit ( two ) ;
case "LLL" :
return oneOf ( loc . months ( "short" , false ) , 1 ) ;
case "LLLL" :
return oneOf ( loc . months ( "long" , false ) , 1 ) ;
// dates
case "d" :
return intUnit ( oneOrTwo ) ;
case "dd" :
return intUnit ( two ) ;
// ordinals
case "o" :
return intUnit ( oneToThree ) ;
case "ooo" :
return intUnit ( three ) ;
// time
case "HH" :
return intUnit ( two ) ;
case "H" :
return intUnit ( oneOrTwo ) ;
case "hh" :
return intUnit ( two ) ;
case "h" :
return intUnit ( oneOrTwo ) ;
case "mm" :
return intUnit ( two ) ;
case "m" :
return intUnit ( oneOrTwo ) ;
case "q" :
return intUnit ( oneOrTwo ) ;
case "qq" :
return intUnit ( two ) ;
case "s" :
return intUnit ( oneOrTwo ) ;
case "ss" :
return intUnit ( two ) ;
case "S" :
return intUnit ( oneToThree ) ;
case "SSS" :
return intUnit ( three ) ;
case "u" :
return simple ( oneToNine ) ;
case "uu" :
return simple ( oneOrTwo ) ;
case "uuu" :
return intUnit ( one ) ;
// meridiem
case "a" :
return oneOf ( loc . meridiems ( ) , 0 ) ;
// weekYear (k)
case "kkkk" :
return intUnit ( four ) ;
case "kk" :
return intUnit ( twoToFour , untruncateYear ) ;
// weekNumber (W)
case "W" :
return intUnit ( oneOrTwo ) ;
case "WW" :
return intUnit ( two ) ;
// weekdays
case "E" :
case "c" :
return intUnit ( one ) ;
case "EEE" :
return oneOf ( loc . weekdays ( "short" , false ) , 1 ) ;
case "EEEE" :
return oneOf ( loc . weekdays ( "long" , false ) , 1 ) ;
case "ccc" :
return oneOf ( loc . weekdays ( "short" , true ) , 1 ) ;
case "cccc" :
return oneOf ( loc . weekdays ( "long" , true ) , 1 ) ;
// offset/zone
case "Z" :
case "ZZ" :
return offset ( new RegExp ( ` ([+-] ${ oneOrTwo . source } )(?::( ${ two . source } ))? ` ) , 2 ) ;
case "ZZZ" :
return offset ( new RegExp ( ` ([+-] ${ oneOrTwo . source } )( ${ two . source } )? ` ) , 2 ) ;
// we don't support ZZZZ (PST) or ZZZZZ (Pacific Standard Time) in parsing
// because we don't have any way to figure out what they are
case "z" :
return simple ( /[a-z_+-/]{1,256}?/i ) ;
// this special-case "token" represents a place where a macro-token expanded into a white-space literal
// in this case we accept any non-newline white-space
case " " :
return simple ( /[^\S\n\r]/ ) ;
default :
return literal ( t ) ;
}
} ;
const unit = unitate ( token ) || {
invalidReason : MISSING _FTP
} ;
unit . token = token ;
return unit ;
}
const partTypeStyleToTokenVal = {
year : {
"2-digit" : "yy" ,
numeric : "yyyyy"
} ,
month : {
numeric : "M" ,
"2-digit" : "MM" ,
short : "MMM" ,
long : "MMMM"
} ,
day : {
numeric : "d" ,
"2-digit" : "dd"
} ,
weekday : {
short : "EEE" ,
long : "EEEE"
} ,
dayperiod : "a" ,
dayPeriod : "a" ,
hour12 : {
numeric : "h" ,
"2-digit" : "hh"
} ,
hour24 : {
numeric : "H" ,
"2-digit" : "HH"
} ,
minute : {
numeric : "m" ,
"2-digit" : "mm"
} ,
second : {
numeric : "s" ,
"2-digit" : "ss"
} ,
timeZoneName : {
long : "ZZZZZ" ,
short : "ZZZ"
}
} ;
function tokenForPart ( part , formatOpts , resolvedOpts ) {
const {
type ,
value
} = part ;
if ( type === "literal" ) {
const isSpace = /^\s+$/ . test ( value ) ;
return {
literal : ! isSpace ,
val : isSpace ? " " : value
} ;
}
const style = formatOpts [ type ] ;
// The user might have explicitly specified hour12 or hourCycle
// if so, respect their decision
// if not, refer back to the resolvedOpts, which are based on the locale
let actualType = type ;
if ( type === "hour" ) {
if ( formatOpts . hour12 != null ) {
actualType = formatOpts . hour12 ? "hour12" : "hour24" ;
} else if ( formatOpts . hourCycle != null ) {
if ( formatOpts . hourCycle === "h11" || formatOpts . hourCycle === "h12" ) {
actualType = "hour12" ;
} else {
actualType = "hour24" ;
}
} else {
// tokens only differentiate between 24 hours or not,
// so we do not need to check hourCycle here, which is less supported anyways
actualType = resolvedOpts . hour12 ? "hour12" : "hour24" ;
}
}
let val = partTypeStyleToTokenVal [ actualType ] ;
if ( typeof val === "object" ) {
val = val [ style ] ;
}
if ( val ) {
return {
literal : false ,
val
} ;
}
return undefined ;
}
function buildRegex ( units ) {
const re = units . map ( u => u . regex ) . reduce ( ( f , r ) => ` ${ f } ( ${ r . source } ) ` , "" ) ;
return [ ` ^ ${ re } $ ` , units ] ;
}
function match ( input , regex , handlers ) {
const matches = input . match ( regex ) ;
if ( matches ) {
const all = { } ;
let matchIndex = 1 ;
for ( const i in handlers ) {
if ( hasOwnProperty ( handlers , i ) ) {
const h = handlers [ i ] ,
groups = h . groups ? h . groups + 1 : 1 ;
if ( ! h . literal && h . token ) {
all [ h . token . val [ 0 ] ] = h . deser ( matches . slice ( matchIndex , matchIndex + groups ) ) ;
}
matchIndex += groups ;
}
}
return [ matches , all ] ;
} else {
return [ matches , { } ] ;
}
}
function dateTimeFromMatches ( matches ) {
const toField = token => {
switch ( token ) {
case "S" :
return "millisecond" ;
case "s" :
return "second" ;
case "m" :
return "minute" ;
case "h" :
case "H" :
return "hour" ;
case "d" :
return "day" ;
case "o" :
return "ordinal" ;
case "L" :
case "M" :
return "month" ;
case "y" :
return "year" ;
case "E" :
case "c" :
return "weekday" ;
case "W" :
return "weekNumber" ;
case "k" :
return "weekYear" ;
case "q" :
return "quarter" ;
default :
return null ;
}
} ;
let zone = null ;
let specificOffset ;
if ( ! isUndefined ( matches . z ) ) {
zone = IANAZone . create ( matches . z ) ;
}
if ( ! isUndefined ( matches . Z ) ) {
if ( ! zone ) {
zone = new FixedOffsetZone ( matches . Z ) ;
}
specificOffset = matches . Z ;
}
if ( ! isUndefined ( matches . q ) ) {
matches . M = ( matches . q - 1 ) * 3 + 1 ;
}
if ( ! isUndefined ( matches . h ) ) {
if ( matches . h < 12 && matches . a === 1 ) {
matches . h += 12 ;
} else if ( matches . h === 12 && matches . a === 0 ) {
matches . h = 0 ;
}
}
if ( matches . G === 0 && matches . y ) {
matches . y = - matches . y ;
}
if ( ! isUndefined ( matches . u ) ) {
matches . S = parseMillis ( matches . u ) ;
}
const vals = Object . keys ( matches ) . reduce ( ( r , k ) => {
const f = toField ( k ) ;
if ( f ) {
r [ f ] = matches [ k ] ;
}
return r ;
} , { } ) ;
return [ vals , zone , specificOffset ] ;
}
let dummyDateTimeCache = null ;
function getDummyDateTime ( ) {
if ( ! dummyDateTimeCache ) {
dummyDateTimeCache = DateTime . fromMillis ( 1555555555555 ) ;
}
return dummyDateTimeCache ;
}
function maybeExpandMacroToken ( token , locale ) {
if ( token . literal ) {
return token ;
}
const formatOpts = Formatter . macroTokenToFormatOpts ( token . val ) ;
const tokens = formatOptsToTokens ( formatOpts , locale ) ;
if ( tokens == null || tokens . includes ( undefined ) ) {
return token ;
}
return tokens ;
}
function expandMacroTokens ( tokens , locale ) {
return Array . prototype . concat ( ... tokens . map ( t => maybeExpandMacroToken ( t , locale ) ) ) ;
}
/ * *
* @ private
* /
function explainFromTokens ( locale , input , format ) {
const tokens = expandMacroTokens ( Formatter . parseFormat ( format ) , locale ) ,
units = tokens . map ( t => unitForToken ( t , locale ) ) ,
disqualifyingUnit = units . find ( t => t . invalidReason ) ;
if ( disqualifyingUnit ) {
return {
input ,
tokens ,
invalidReason : disqualifyingUnit . invalidReason
} ;
} else {
const [ regexString , handlers ] = buildRegex ( units ) ,
regex = RegExp ( regexString , "i" ) ,
[ rawMatches , matches ] = match ( input , regex , handlers ) ,
[ result , zone , specificOffset ] = matches ? dateTimeFromMatches ( matches ) : [ null , null , undefined ] ;
if ( hasOwnProperty ( matches , "a" ) && hasOwnProperty ( matches , "H" ) ) {
throw new ConflictingSpecificationError ( "Can't include meridiem when specifying 24-hour format" ) ;
}
return {
input ,
tokens ,
regex ,
rawMatches ,
matches ,
result ,
zone ,
specificOffset
} ;
}
}
function parseFromTokens ( locale , input , format ) {
const {
result ,
zone ,
specificOffset ,
invalidReason
} = explainFromTokens ( locale , input , format ) ;
return [ result , zone , specificOffset , invalidReason ] ;
}
function formatOptsToTokens ( formatOpts , locale ) {
if ( ! formatOpts ) {
return null ;
}
const formatter = Formatter . create ( locale , formatOpts ) ;
const df = formatter . dtFormatter ( getDummyDateTime ( ) ) ;
const parts = df . formatToParts ( ) ;
const resolvedOpts = df . resolvedOptions ( ) ;
return parts . map ( p => tokenForPart ( p , formatOpts , resolvedOpts ) ) ;
}
const nonLeapLadder = [ 0 , 31 , 59 , 90 , 120 , 151 , 181 , 212 , 243 , 273 , 304 , 334 ] ,
leapLadder = [ 0 , 31 , 60 , 91 , 121 , 152 , 182 , 213 , 244 , 274 , 305 , 335 ] ;
function unitOutOfRange ( unit , value ) {
return new Invalid ( "unit out of range" , ` you specified ${ value } (of type ${ typeof value } ) as a ${ unit } , which is invalid ` ) ;
}
function dayOfWeek ( year , month , day ) {
const d = new Date ( Date . UTC ( year , month - 1 , day ) ) ;
if ( year < 100 && year >= 0 ) {
d . setUTCFullYear ( d . getUTCFullYear ( ) - 1900 ) ;
}
const js = d . getUTCDay ( ) ;
return js === 0 ? 7 : js ;
}
function computeOrdinal ( year , month , day ) {
return day + ( isLeapYear ( year ) ? leapLadder : nonLeapLadder ) [ month - 1 ] ;
}
function uncomputeOrdinal ( year , ordinal ) {
const table = isLeapYear ( year ) ? leapLadder : nonLeapLadder ,
month0 = table . findIndex ( i => i < ordinal ) ,
day = ordinal - table [ month0 ] ;
return {
month : month0 + 1 ,
day
} ;
}
/ * *
* @ private
* /
function gregorianToWeek ( gregObj ) {
const {
year ,
month ,
day
} = gregObj ,
ordinal = computeOrdinal ( year , month , day ) ,
weekday = dayOfWeek ( year , month , day ) ;
let weekNumber = Math . floor ( ( ordinal - weekday + 10 ) / 7 ) ,
weekYear ;
if ( weekNumber < 1 ) {
weekYear = year - 1 ;
weekNumber = weeksInWeekYear ( weekYear ) ;
} else if ( weekNumber > weeksInWeekYear ( year ) ) {
weekYear = year + 1 ;
weekNumber = 1 ;
} else {
weekYear = year ;
}
return {
weekYear ,
weekNumber ,
weekday ,
... timeObject ( gregObj )
} ;
}
function weekToGregorian ( weekData ) {
const {
weekYear ,
weekNumber ,
weekday
} = weekData ,
weekdayOfJan4 = dayOfWeek ( weekYear , 1 , 4 ) ,
yearInDays = daysInYear ( weekYear ) ;
let ordinal = weekNumber * 7 + weekday - weekdayOfJan4 - 3 ,
year ;
if ( ordinal < 1 ) {
year = weekYear - 1 ;
ordinal += daysInYear ( year ) ;
} else if ( ordinal > yearInDays ) {
year = weekYear + 1 ;
ordinal -= daysInYear ( weekYear ) ;
} else {
year = weekYear ;
}
const {
month ,
day
} = uncomputeOrdinal ( year , ordinal ) ;
return {
year ,
month ,
day ,
... timeObject ( weekData )
} ;
}
function gregorianToOrdinal ( gregData ) {
const {
year ,
month ,
day
} = gregData ;
const ordinal = computeOrdinal ( year , month , day ) ;
return {
year ,
ordinal ,
... timeObject ( gregData )
} ;
}
function ordinalToGregorian ( ordinalData ) {
const {
year ,
ordinal
} = ordinalData ;
const {
month ,
day
} = uncomputeOrdinal ( year , ordinal ) ;
return {
year ,
month ,
day ,
... timeObject ( ordinalData )
} ;
}
function hasInvalidWeekData ( obj ) {
const validYear = isInteger ( obj . weekYear ) ,
validWeek = integerBetween ( obj . weekNumber , 1 , weeksInWeekYear ( obj . weekYear ) ) ,
validWeekday = integerBetween ( obj . weekday , 1 , 7 ) ;
if ( ! validYear ) {
return unitOutOfRange ( "weekYear" , obj . weekYear ) ;
} else if ( ! validWeek ) {
return unitOutOfRange ( "week" , obj . week ) ;
} else if ( ! validWeekday ) {
return unitOutOfRange ( "weekday" , obj . weekday ) ;
} else return false ;
}
function hasInvalidOrdinalData ( obj ) {
const validYear = isInteger ( obj . year ) ,
validOrdinal = integerBetween ( obj . ordinal , 1 , daysInYear ( obj . year ) ) ;
if ( ! validYear ) {
return unitOutOfRange ( "year" , obj . year ) ;
} else if ( ! validOrdinal ) {
return unitOutOfRange ( "ordinal" , obj . ordinal ) ;
} else return false ;
}
function hasInvalidGregorianData ( obj ) {
const validYear = isInteger ( obj . year ) ,
validMonth = integerBetween ( obj . month , 1 , 12 ) ,
validDay = integerBetween ( obj . day , 1 , daysInMonth ( obj . year , obj . month ) ) ;
if ( ! validYear ) {
return unitOutOfRange ( "year" , obj . year ) ;
} else if ( ! validMonth ) {
return unitOutOfRange ( "month" , obj . month ) ;
} else if ( ! validDay ) {
return unitOutOfRange ( "day" , obj . day ) ;
} else return false ;
}
function hasInvalidTimeData ( obj ) {
const {
hour ,
minute ,
second ,
millisecond
} = obj ;
const validHour = integerBetween ( hour , 0 , 23 ) || hour === 24 && minute === 0 && second === 0 && millisecond === 0 ,
validMinute = integerBetween ( minute , 0 , 59 ) ,
validSecond = integerBetween ( second , 0 , 59 ) ,
validMillisecond = integerBetween ( millisecond , 0 , 999 ) ;
if ( ! validHour ) {
return unitOutOfRange ( "hour" , hour ) ;
} else if ( ! validMinute ) {
return unitOutOfRange ( "minute" , minute ) ;
} else if ( ! validSecond ) {
return unitOutOfRange ( "second" , second ) ;
} else if ( ! validMillisecond ) {
return unitOutOfRange ( "millisecond" , millisecond ) ;
} else return false ;
}
const INVALID = "Invalid DateTime" ;
const MAX _DATE = 8.64 e15 ;
function unsupportedZone ( zone ) {
return new Invalid ( "unsupported zone" , ` the zone " ${ zone . name } " is not supported ` ) ;
}
// we cache week data on the DT object and this intermediates the cache
function possiblyCachedWeekData ( dt ) {
if ( dt . weekData === null ) {
dt . weekData = gregorianToWeek ( dt . c ) ;
}
return dt . weekData ;
}
// clone really means, "make a new object with these modifications". all "setters" really use this
// to create a new object while only changing some of the properties
function clone ( inst , alts ) {
const current = {
ts : inst . ts ,
zone : inst . zone ,
c : inst . c ,
o : inst . o ,
loc : inst . loc ,
invalid : inst . invalid
} ;
return new DateTime ( {
... current ,
... alts ,
old : current
} ) ;
}
// find the right offset a given local time. The o input is our guess, which determines which
// offset we'll pick in ambiguous cases (e.g. there are two 3 AMs b/c Fallback DST)
function fixOffset ( localTS , o , tz ) {
// Our UTC time is just a guess because our offset is just a guess
let utcGuess = localTS - o * 60 * 1000 ;
// Test whether the zone matches the offset for this ts
const o2 = tz . offset ( utcGuess ) ;
// If so, offset didn't change and we're done
if ( o === o2 ) {
return [ utcGuess , o ] ;
}
// If not, change the ts by the difference in the offset
utcGuess -= ( o2 - o ) * 60 * 1000 ;
// If that gives us the local time we want, we're done
const o3 = tz . offset ( utcGuess ) ;
if ( o2 === o3 ) {
return [ utcGuess , o2 ] ;
}
// If it's different, we're in a hole time. The offset has changed, but the we don't adjust the time
return [ localTS - Math . min ( o2 , o3 ) * 60 * 1000 , Math . max ( o2 , o3 ) ] ;
}
// convert an epoch timestamp into a calendar object with the given offset
function tsToObj ( ts , offset ) {
ts += offset * 60 * 1000 ;
const d = new Date ( ts ) ;
return {
year : d . getUTCFullYear ( ) ,
month : d . getUTCMonth ( ) + 1 ,
day : d . getUTCDate ( ) ,
hour : d . getUTCHours ( ) ,
minute : d . getUTCMinutes ( ) ,
second : d . getUTCSeconds ( ) ,
millisecond : d . getUTCMilliseconds ( )
} ;
}
// convert a calendar object to a epoch timestamp
function objToTS ( obj , offset , zone ) {
return fixOffset ( objToLocalTS ( obj ) , offset , zone ) ;
}
// create a new DT instance by adding a duration, adjusting for DSTs
function adjustTime ( inst , dur ) {
const oPre = inst . o ,
year = inst . c . year + Math . trunc ( dur . years ) ,
month = inst . c . month + Math . trunc ( dur . months ) + Math . trunc ( dur . quarters ) * 3 ,
c = {
... inst . c ,
year ,
month ,
day : Math . min ( inst . c . day , daysInMonth ( year , month ) ) + Math . trunc ( dur . days ) + Math . trunc ( dur . weeks ) * 7
} ,
millisToAdd = Duration . fromObject ( {
years : dur . years - Math . trunc ( dur . years ) ,
quarters : dur . quarters - Math . trunc ( dur . quarters ) ,
months : dur . months - Math . trunc ( dur . months ) ,
weeks : dur . weeks - Math . trunc ( dur . weeks ) ,
days : dur . days - Math . trunc ( dur . days ) ,
hours : dur . hours ,
minutes : dur . minutes ,
seconds : dur . seconds ,
milliseconds : dur . milliseconds
} ) . as ( "milliseconds" ) ,
localTS = objToLocalTS ( c ) ;
let [ ts , o ] = fixOffset ( localTS , oPre , inst . zone ) ;
if ( millisToAdd !== 0 ) {
ts += millisToAdd ;
// that could have changed the offset by going over a DST, but we want to keep the ts the same
o = inst . zone . offset ( ts ) ;
}
return {
ts ,
o
} ;
}
// helper useful in turning the results of parsing into real dates
// by handling the zone options
function parseDataToDateTime ( parsed , parsedZone , opts , format , text , specificOffset ) {
const {
setZone ,
zone
} = opts ;
if ( parsed && Object . keys ( parsed ) . length !== 0 || parsedZone ) {
const interpretationZone = parsedZone || zone ,
inst = DateTime . fromObject ( parsed , {
... opts ,
zone : interpretationZone ,
specificOffset
} ) ;
return setZone ? inst : inst . setZone ( zone ) ;
} else {
return DateTime . invalid ( new Invalid ( "unparsable" , ` the input " ${ text } " can't be parsed as ${ format } ` ) ) ;
}
}
// if you want to output a technical format (e.g. RFC 2822), this helper
// helps handle the details
function toTechFormat ( dt , format , allowZ = true ) {
return dt . isValid ? Formatter . create ( Locale . create ( "en-US" ) , {
allowZ ,
forceSimple : true
} ) . formatDateTimeFromString ( dt , format ) : null ;
}
function toISODate ( o , extended ) {
const longFormat = o . c . year > 9999 || o . c . year < 0 ;
let c = "" ;
if ( longFormat && o . c . year >= 0 ) c += "+" ;
c += padStart ( o . c . year , longFormat ? 6 : 4 ) ;
if ( extended ) {
c += "-" ;
c += padStart ( o . c . month ) ;
c += "-" ;
c += padStart ( o . c . day ) ;
} else {
c += padStart ( o . c . month ) ;
c += padStart ( o . c . day ) ;
}
return c ;
}
function toISOTime ( o , extended , suppressSeconds , suppressMilliseconds , includeOffset , extendedZone ) {
let c = padStart ( o . c . hour ) ;
if ( extended ) {
c += ":" ;
c += padStart ( o . c . minute ) ;
if ( o . c . millisecond !== 0 || o . c . second !== 0 || ! suppressSeconds ) {
c += ":" ;
}
} else {
c += padStart ( o . c . minute ) ;
}
if ( o . c . millisecond !== 0 || o . c . second !== 0 || ! suppressSeconds ) {
c += padStart ( o . c . second ) ;
if ( o . c . millisecond !== 0 || ! suppressMilliseconds ) {
c += "." ;
c += padStart ( o . c . millisecond , 3 ) ;
}
}
if ( includeOffset ) {
if ( o . isOffsetFixed && o . offset === 0 && ! extendedZone ) {
c += "Z" ;
} else if ( o . o < 0 ) {
c += "-" ;
c += padStart ( Math . trunc ( - o . o / 60 ) ) ;
c += ":" ;
c += padStart ( Math . trunc ( - o . o % 60 ) ) ;
} else {
c += "+" ;
c += padStart ( Math . trunc ( o . o / 60 ) ) ;
c += ":" ;
c += padStart ( Math . trunc ( o . o % 60 ) ) ;
}
}
if ( extendedZone ) {
c += "[" + o . zone . ianaName + "]" ;
}
return c ;
}
// defaults for unspecified units in the supported calendars
const defaultUnitValues = {
month : 1 ,
day : 1 ,
hour : 0 ,
minute : 0 ,
second : 0 ,
millisecond : 0
} ,
defaultWeekUnitValues = {
weekNumber : 1 ,
weekday : 1 ,
hour : 0 ,
minute : 0 ,
second : 0 ,
millisecond : 0
} ,
defaultOrdinalUnitValues = {
ordinal : 1 ,
hour : 0 ,
minute : 0 ,
second : 0 ,
millisecond : 0
} ;
// Units in the supported calendars, sorted by bigness
const orderedUnits = [ "year" , "month" , "day" , "hour" , "minute" , "second" , "millisecond" ] ,
orderedWeekUnits = [ "weekYear" , "weekNumber" , "weekday" , "hour" , "minute" , "second" , "millisecond" ] ,
orderedOrdinalUnits = [ "year" , "ordinal" , "hour" , "minute" , "second" , "millisecond" ] ;
// standardize case and plurality in units
function normalizeUnit ( unit ) {
const normalized = {
year : "year" ,
years : "year" ,
month : "month" ,
months : "month" ,
day : "day" ,
days : "day" ,
hour : "hour" ,
hours : "hour" ,
minute : "minute" ,
minutes : "minute" ,
quarter : "quarter" ,
quarters : "quarter" ,
second : "second" ,
seconds : "second" ,
millisecond : "millisecond" ,
milliseconds : "millisecond" ,
weekday : "weekday" ,
weekdays : "weekday" ,
weeknumber : "weekNumber" ,
weeksnumber : "weekNumber" ,
weeknumbers : "weekNumber" ,
weekyear : "weekYear" ,
weekyears : "weekYear" ,
ordinal : "ordinal"
} [ unit . toLowerCase ( ) ] ;
if ( ! normalized ) throw new InvalidUnitError ( unit ) ;
return normalized ;
}
// this is a dumbed down version of fromObject() that runs about 60% faster
// but doesn't do any validation, makes a bunch of assumptions about what units
// are present, and so on.
function quickDT ( obj , opts ) {
const zone = normalizeZone ( opts . zone , Settings . defaultZone ) ,
loc = Locale . fromObject ( opts ) ,
tsNow = Settings . now ( ) ;
let ts , o ;
// assume we have the higher-order units
if ( ! isUndefined ( obj . year ) ) {
for ( const u of orderedUnits ) {
if ( isUndefined ( obj [ u ] ) ) {
obj [ u ] = defaultUnitValues [ u ] ;
}
}
const invalid = hasInvalidGregorianData ( obj ) || hasInvalidTimeData ( obj ) ;
if ( invalid ) {
return DateTime . invalid ( invalid ) ;
}
const offsetProvis = zone . offset ( tsNow ) ;
[ ts , o ] = objToTS ( obj , offsetProvis , zone ) ;
} else {
ts = tsNow ;
}
return new DateTime ( {
ts ,
zone ,
loc ,
o
} ) ;
}
function diffRelative ( start , end , opts ) {
const round = isUndefined ( opts . round ) ? true : opts . round ,
format = ( c , unit ) => {
c = roundTo ( c , round || opts . calendary ? 0 : 2 , true ) ;
const formatter = end . loc . clone ( opts ) . relFormatter ( opts ) ;
return formatter . format ( c , unit ) ;
} ,
differ = unit => {
if ( opts . calendary ) {
if ( ! end . hasSame ( start , unit ) ) {
return end . startOf ( unit ) . diff ( start . startOf ( unit ) , unit ) . get ( unit ) ;
} else return 0 ;
} else {
return end . diff ( start , unit ) . get ( unit ) ;
}
} ;
if ( opts . unit ) {
return format ( differ ( opts . unit ) , opts . unit ) ;
}
for ( const unit of opts . units ) {
const count = differ ( unit ) ;
if ( Math . abs ( count ) >= 1 ) {
return format ( count , unit ) ;
}
}
return format ( start > end ? - 0 : 0 , opts . units [ opts . units . length - 1 ] ) ;
}
function lastOpts ( argList ) {
let opts = { } ,
args ;
if ( argList . length > 0 && typeof argList [ argList . length - 1 ] === "object" ) {
opts = argList [ argList . length - 1 ] ;
args = Array . from ( argList ) . slice ( 0 , argList . length - 1 ) ;
} else {
args = Array . from ( argList ) ;
}
return [ opts , args ] ;
}
/ * *
* A DateTime is an immutable data structure representing a specific date and time and accompanying methods . It contains class and instance methods for creating , parsing , interrogating , transforming , and formatting them .
*
* A DateTime comprises of :
* * A timestamp . Each DateTime instance refers to a specific millisecond of the Unix epoch .
* * A time zone . Each instance is considered in the context of a specific zone ( by default the local system ' s zone ) .
* * Configuration properties that effect how output strings are formatted , such as ` locale ` , ` numberingSystem ` , and ` outputCalendar ` .
*
* Here is a brief overview of the most commonly used functionality it provides :
*
* * * * Creation * * : To create a DateTime from its components , use one of its factory class methods : { @ link DateTime . local } , { @ link DateTime . utc } , and ( most flexibly ) { @ link DateTime . fromObject } . To create one from a standard string format , use { @ link DateTime . fromISO } , { @ link DateTime . fromHTTP } , and { @ link DateTime . fromRFC2822 } . To create one from a custom string format , use { @ link DateTime . fromFormat } . To create one from a native JS date , use { @ link DateTime . fromJSDate } .
* * * * Gregorian calendar and time * * : To examine the Gregorian properties of a DateTime individually ( i . e as opposed to collectively through { @ link DateTime # toObject } ) , use the { @ link DateTime # year } , { @ link DateTime # month } ,
* { @ link DateTime # day } , { @ link DateTime # hour } , { @ link DateTime # minute } , { @ link DateTime # second } , { @ link DateTime # millisecond } accessors .
* * * * Week calendar * * : For ISO week calendar attributes , see the { @ link DateTime # weekYear } , { @ link DateTime # weekNumber } , and { @ link DateTime # weekday } accessors .
* * * * Configuration * * See the { @ link DateTime # locale } and { @ link DateTime # numberingSystem } accessors .
* * * * Transformation * * : To transform the DateTime into other DateTimes , use { @ link DateTime # set } , { @ link DateTime # reconfigure } , { @ link DateTime # setZone } , { @ link DateTime # setLocale } , { @ link DateTime . plus } , { @ link DateTime # minus } , { @ link DateTime # endOf } , { @ link DateTime # startOf } , { @ link DateTime # toUTC } , and { @ link DateTime # toLocal } .
* * * * Output * * : To convert the DateTime to other representations , use the { @ link DateTime # toRelative } , { @ link DateTime # toRelativeCalendar } , { @ link DateTime # toJSON } , { @ link DateTime # toISO } , { @ link DateTime # toHTTP } , { @ link DateTime # toObject } , { @ link DateTime # toRFC2822 } , { @ link DateTime # toString } , { @ link DateTime # toLocaleString } , { @ link DateTime # toFormat } , { @ link DateTime # toMillis } and { @ link DateTime # toJSDate } .
*
* There ' s plenty others documented below . In addition , for more information on subtler topics like internationalization , time zones , alternative calendars , validity , and so on , see the external documentation .
* /
class DateTime {
/ * *
* @ access private
* /
constructor ( config ) {
const zone = config . zone || Settings . defaultZone ;
let invalid = config . invalid || ( Number . isNaN ( config . ts ) ? new Invalid ( "invalid input" ) : null ) || ( ! zone . isValid ? unsupportedZone ( zone ) : null ) ;
/ * *
* @ access private
* /
this . ts = isUndefined ( config . ts ) ? Settings . now ( ) : config . ts ;
let c = null ,
o = null ;
if ( ! invalid ) {
const unchanged = config . old && config . old . ts === this . ts && config . old . zone . equals ( zone ) ;
if ( unchanged ) {
[ c , o ] = [ config . old . c , config . old . o ] ;
} else {
const ot = zone . offset ( this . ts ) ;
c = tsToObj ( this . ts , ot ) ;
invalid = Number . isNaN ( c . year ) ? new Invalid ( "invalid input" ) : null ;
c = invalid ? null : c ;
o = invalid ? null : ot ;
}
}
/ * *
* @ access private
* /
this . _zone = zone ;
/ * *
* @ access private
* /
this . loc = config . loc || Locale . create ( ) ;
/ * *
* @ access private
* /
this . invalid = invalid ;
/ * *
* @ access private
* /
this . weekData = null ;
/ * *
* @ access private
* /
this . c = c ;
/ * *
* @ access private
* /
this . o = o ;
/ * *
* @ access private
* /
this . isLuxonDateTime = true ;
}
// CONSTRUCT
/ * *
* Create a DateTime for the current instant , in the system ' s time zone .
*
* Use Settings to override these default values if needed .
* @ example DateTime . now ( ) . toISO ( ) //~> now in the ISO format
* @ return { DateTime }
* /
static now ( ) {
return new DateTime ( { } ) ;
}
/ * *
* Create a local DateTime
* @ param { number } [ year ] - The calendar year . If omitted ( as in , call ` local() ` with no arguments ) , the current time will be used
* @ param { number } [ month = 1 ] - The month , 1 - indexed
* @ param { number } [ day = 1 ] - The day of the month , 1 - indexed
* @ param { number } [ hour = 0 ] - The hour of the day , in 24 - hour time
* @ param { number } [ minute = 0 ] - The minute of the hour , meaning a number between 0 and 59
* @ param { number } [ second = 0 ] - The second of the minute , meaning a number between 0 and 59
* @ param { number } [ millisecond = 0 ] - The millisecond of the second , meaning a number between 0 and 999
* @ example DateTime . local ( ) //~> now
* @ example DateTime . local ( { zone : "America/New_York" } ) //~> now, in US east coast time
* @ example DateTime . local ( 2017 ) //~> 2017-01-01T00:00:00
* @ example DateTime . local ( 2017 , 3 ) //~> 2017-03-01T00:00:00
* @ example DateTime . local ( 2017 , 3 , 12 , { locale : "fr" } ) //~> 2017-03-12T00:00:00, with a French locale
* @ example DateTime . local ( 2017 , 3 , 12 , 5 ) //~> 2017-03-12T05:00:00
* @ example DateTime . local ( 2017 , 3 , 12 , 5 , { zone : "utc" } ) //~> 2017-03-12T05:00:00, in UTC
* @ example DateTime . local ( 2017 , 3 , 12 , 5 , 45 ) //~> 2017-03-12T05:45:00
* @ example DateTime . local ( 2017 , 3 , 12 , 5 , 45 , 10 ) //~> 2017-03-12T05:45:10
* @ example DateTime . local ( 2017 , 3 , 12 , 5 , 45 , 10 , 765 ) //~> 2017-03-12T05:45:10.765
* @ return { DateTime }
* /
static local ( ) {
const [ opts , args ] = lastOpts ( arguments ) ,
[ year , month , day , hour , minute , second , millisecond ] = args ;
return quickDT ( {
year ,
month ,
day ,
hour ,
minute ,
second ,
millisecond
} , opts ) ;
}
/ * *
* Create a DateTime in UTC
* @ param { number } [ year ] - The calendar year . If omitted ( as in , call ` utc() ` with no arguments ) , the current time will be used
* @ param { number } [ month = 1 ] - The month , 1 - indexed
* @ param { number } [ day = 1 ] - The day of the month
* @ param { number } [ hour = 0 ] - The hour of the day , in 24 - hour time
* @ param { number } [ minute = 0 ] - The minute of the hour , meaning a number between 0 and 59
* @ param { number } [ second = 0 ] - The second of the minute , meaning a number between 0 and 59
* @ param { number } [ millisecond = 0 ] - The millisecond of the second , meaning a number between 0 and 999
* @ param { Object } options - configuration options for the DateTime
* @ param { string } [ options . locale ] - a locale to set on the resulting DateTime instance
* @ param { string } [ options . outputCalendar ] - the output calendar to set on the resulting DateTime instance
* @ param { string } [ options . numberingSystem ] - the numbering system to set on the resulting DateTime instance
* @ example DateTime . utc ( ) //~> now
* @ example DateTime . utc ( 2017 ) //~> 2017-01-01T00:00:00Z
* @ example DateTime . utc ( 2017 , 3 ) //~> 2017-03-01T00:00:00Z
* @ example DateTime . utc ( 2017 , 3 , 12 ) //~> 2017-03-12T00:00:00Z
* @ example DateTime . utc ( 2017 , 3 , 12 , 5 ) //~> 2017-03-12T05:00:00Z
* @ example DateTime . utc ( 2017 , 3 , 12 , 5 , 45 ) //~> 2017-03-12T05:45:00Z
* @ example DateTime . utc ( 2017 , 3 , 12 , 5 , 45 , { locale : "fr" } ) //~> 2017-03-12T05:45:00Z with a French locale
* @ example DateTime . utc ( 2017 , 3 , 12 , 5 , 45 , 10 ) //~> 2017-03-12T05:45:10Z
* @ example DateTime . utc ( 2017 , 3 , 12 , 5 , 45 , 10 , 765 , { locale : "fr" } ) //~> 2017-03-12T05:45:10.765Z with a French locale
* @ return { DateTime }
* /
static utc ( ) {
const [ opts , args ] = lastOpts ( arguments ) ,
[ year , month , day , hour , minute , second , millisecond ] = args ;
opts . zone = FixedOffsetZone . utcInstance ;
return quickDT ( {
year ,
month ,
day ,
hour ,
minute ,
second ,
millisecond
} , opts ) ;
}
/ * *
* Create a DateTime from a JavaScript Date object . Uses the default zone .
* @ param { Date } date - a JavaScript Date object
* @ param { Object } options - configuration options for the DateTime
* @ param { string | Zone } [ options . zone = 'local' ] - the zone to place the DateTime into
* @ return { DateTime }
* /
static fromJSDate ( date , options = { } ) {
const ts = isDate ( date ) ? date . valueOf ( ) : NaN ;
if ( Number . isNaN ( ts ) ) {
return DateTime . invalid ( "invalid input" ) ;
}
const zoneToUse = normalizeZone ( options . zone , Settings . defaultZone ) ;
if ( ! zoneToUse . isValid ) {
return DateTime . invalid ( unsupportedZone ( zoneToUse ) ) ;
}
return new DateTime ( {
ts : ts ,
zone : zoneToUse ,
loc : Locale . fromObject ( options )
} ) ;
}
/ * *
* Create a DateTime from a number of milliseconds since the epoch ( meaning since 1 January 1970 00 : 00 : 00 UTC ) . Uses the default zone .
* @ param { number } milliseconds - a number of milliseconds since 1970 UTC
* @ param { Object } options - configuration options for the DateTime
* @ param { string | Zone } [ options . zone = 'local' ] - the zone to place the DateTime into
* @ param { string } [ options . locale ] - a locale to set on the resulting DateTime instance
* @ param { string } options . outputCalendar - the output calendar to set on the resulting DateTime instance
* @ param { string } options . numberingSystem - the numbering system to set on the resulting DateTime instance
* @ return { DateTime }
* /
static fromMillis ( milliseconds , options = { } ) {
if ( ! isNumber ( milliseconds ) ) {
throw new InvalidArgumentError ( ` fromMillis requires a numerical input, but received a ${ typeof milliseconds } with value ${ milliseconds } ` ) ;
} else if ( milliseconds < - MAX _DATE || milliseconds > MAX _DATE ) {
// this isn't perfect because because we can still end up out of range because of additional shifting, but it's a start
return DateTime . invalid ( "Timestamp out of range" ) ;
} else {
return new DateTime ( {
ts : milliseconds ,
zone : normalizeZone ( options . zone , Settings . defaultZone ) ,
loc : Locale . fromObject ( options )
} ) ;
}
}
/ * *
* Create a DateTime from a number of seconds since the epoch ( meaning since 1 January 1970 00 : 00 : 00 UTC ) . Uses the default zone .
* @ param { number } seconds - a number of seconds since 1970 UTC
* @ param { Object } options - configuration options for the DateTime
* @ param { string | Zone } [ options . zone = 'local' ] - the zone to place the DateTime into
* @ param { string } [ options . locale ] - a locale to set on the resulting DateTime instance
* @ param { string } options . outputCalendar - the output calendar to set on the resulting DateTime instance
* @ param { string } options . numberingSystem - the numbering system to set on the resulting DateTime instance
* @ return { DateTime }
* /
static fromSeconds ( seconds , options = { } ) {
if ( ! isNumber ( seconds ) ) {
throw new InvalidArgumentError ( "fromSeconds requires a numerical input" ) ;
} else {
return new DateTime ( {
ts : seconds * 1000 ,
zone : normalizeZone ( options . zone , Settings . defaultZone ) ,
loc : Locale . fromObject ( options )
} ) ;
}
}
/ * *
* Create a DateTime from a JavaScript object with keys like 'year' and 'hour' with reasonable defaults .
* @ param { Object } obj - the object to create the DateTime from
* @ param { number } obj . year - a year , such as 1987
* @ param { number } obj . month - a month , 1 - 12
* @ param { number } obj . day - a day of the month , 1 - 31 , depending on the month
* @ param { number } obj . ordinal - day of the year , 1 - 365 or 366
* @ param { number } obj . weekYear - an ISO week year
* @ param { number } obj . weekNumber - an ISO week number , between 1 and 52 or 53 , depending on the year
* @ param { number } obj . weekday - an ISO weekday , 1 - 7 , where 1 is Monday and 7 is Sunday
* @ param { number } obj . hour - hour of the day , 0 - 23
* @ param { number } obj . minute - minute of the hour , 0 - 59
* @ param { number } obj . second - second of the minute , 0 - 59
* @ param { number } obj . millisecond - millisecond of the second , 0 - 999
* @ param { Object } opts - options for creating this DateTime
* @ param { string | Zone } [ opts . zone = 'local' ] - interpret the numbers in the context of a particular zone . Can take any value taken as the first argument to setZone ( )
* @ param { string } [ opts . locale = 'system' s locale ' ] - a locale to set on the resulting DateTime instance
* @ param { string } opts . outputCalendar - the output calendar to set on the resulting DateTime instance
* @ param { string } opts . numberingSystem - the numbering system to set on the resulting DateTime instance
* @ example DateTime . fromObject ( { year : 1982 , month : 5 , day : 25 } ) . toISODate ( ) //=> '1982-05-25'
* @ example DateTime . fromObject ( { year : 1982 } ) . toISODate ( ) //=> '1982-01-01'
* @ example DateTime . fromObject ( { hour : 10 , minute : 26 , second : 6 } ) //~> today at 10:26:06
* @ example DateTime . fromObject ( { hour : 10 , minute : 26 , second : 6 } , { zone : 'utc' } ) ,
* @ example DateTime . fromObject ( { hour : 10 , minute : 26 , second : 6 } , { zone : 'local' } )
* @ example DateTime . fromObject ( { hour : 10 , minute : 26 , second : 6 } , { zone : 'America/New_York' } )
* @ example DateTime . fromObject ( { weekYear : 2016 , weekNumber : 2 , weekday : 3 } ) . toISODate ( ) //=> '2016-01-13'
* @ return { DateTime }
* /
static fromObject ( obj , opts = { } ) {
obj = obj || { } ;
const zoneToUse = normalizeZone ( opts . zone , Settings . defaultZone ) ;
if ( ! zoneToUse . isValid ) {
return DateTime . invalid ( unsupportedZone ( zoneToUse ) ) ;
}
const tsNow = Settings . now ( ) ,
offsetProvis = ! isUndefined ( opts . specificOffset ) ? opts . specificOffset : zoneToUse . offset ( tsNow ) ,
normalized = normalizeObject ( obj , normalizeUnit ) ,
containsOrdinal = ! isUndefined ( normalized . ordinal ) ,
containsGregorYear = ! isUndefined ( normalized . year ) ,
containsGregorMD = ! isUndefined ( normalized . month ) || ! isUndefined ( normalized . day ) ,
containsGregor = containsGregorYear || containsGregorMD ,
definiteWeekDef = normalized . weekYear || normalized . weekNumber ,
loc = Locale . fromObject ( opts ) ;
// cases:
// just a weekday -> this week's instance of that weekday, no worries
// (gregorian data or ordinal) + (weekYear or weekNumber) -> error
// (gregorian month or day) + ordinal -> error
// otherwise just use weeks or ordinals or gregorian, depending on what's specified
if ( ( containsGregor || containsOrdinal ) && definiteWeekDef ) {
throw new ConflictingSpecificationError ( "Can't mix weekYear/weekNumber units with year/month/day or ordinals" ) ;
}
if ( containsGregorMD && containsOrdinal ) {
throw new ConflictingSpecificationError ( "Can't mix ordinal dates with month/day" ) ;
}
const useWeekData = definiteWeekDef || normalized . weekday && ! containsGregor ;
// configure ourselves to deal with gregorian dates or week stuff
let units ,
defaultValues ,
objNow = tsToObj ( tsNow , offsetProvis ) ;
if ( useWeekData ) {
units = orderedWeekUnits ;
defaultValues = defaultWeekUnitValues ;
objNow = gregorianToWeek ( objNow ) ;
} else if ( containsOrdinal ) {
units = orderedOrdinalUnits ;
defaultValues = defaultOrdinalUnitValues ;
objNow = gregorianToOrdinal ( objNow ) ;
} else {
units = orderedUnits ;
defaultValues = defaultUnitValues ;
}
// set default values for missing stuff
let foundFirst = false ;
for ( const u of units ) {
const v = normalized [ u ] ;
if ( ! isUndefined ( v ) ) {
foundFirst = true ;
} else if ( foundFirst ) {
normalized [ u ] = defaultValues [ u ] ;
} else {
normalized [ u ] = objNow [ u ] ;
}
}
// make sure the values we have are in range
const higherOrderInvalid = useWeekData ? hasInvalidWeekData ( normalized ) : containsOrdinal ? hasInvalidOrdinalData ( normalized ) : hasInvalidGregorianData ( normalized ) ,
invalid = higherOrderInvalid || hasInvalidTimeData ( normalized ) ;
if ( invalid ) {
return DateTime . invalid ( invalid ) ;
}
// compute the actual time
const gregorian = useWeekData ? weekToGregorian ( normalized ) : containsOrdinal ? ordinalToGregorian ( normalized ) : normalized ,
[ tsFinal , offsetFinal ] = objToTS ( gregorian , offsetProvis , zoneToUse ) ,
inst = new DateTime ( {
ts : tsFinal ,
zone : zoneToUse ,
o : offsetFinal ,
loc
} ) ;
// gregorian data + weekday serves only to validate
if ( normalized . weekday && containsGregor && obj . weekday !== inst . weekday ) {
return DateTime . invalid ( "mismatched weekday" , ` you can't specify both a weekday of ${ normalized . weekday } and a date of ${ inst . toISO ( ) } ` ) ;
}
return inst ;
}
/ * *
* Create a DateTime from an ISO 8601 string
* @ param { string } text - the ISO string
* @ param { Object } opts - options to affect the creation
* @ param { string | Zone } [ opts . zone = 'local' ] - use this zone if no offset is specified in the input string itself . Will also convert the time to this zone
* @ param { boolean } [ opts . setZone = false ] - override the zone with a fixed - offset zone specified in the string itself , if it specifies one
* @ param { string } [ opts . locale = 'system' s locale ' ] - a locale to set on the resulting DateTime instance
* @ param { string } [ opts . outputCalendar ] - the output calendar to set on the resulting DateTime instance
* @ param { string } [ opts . numberingSystem ] - the numbering system to set on the resulting DateTime instance
* @ example DateTime . fromISO ( '2016-05-25T09:08:34.123' )
* @ example DateTime . fromISO ( '2016-05-25T09:08:34.123+06:00' )
* @ example DateTime . fromISO ( '2016-05-25T09:08:34.123+06:00' , { setZone : true } )
* @ example DateTime . fromISO ( '2016-05-25T09:08:34.123' , { zone : 'utc' } )
* @ example DateTime . fromISO ( '2016-W05-4' )
* @ return { DateTime }
* /
static fromISO ( text , opts = { } ) {
const [ vals , parsedZone ] = parseISODate ( text ) ;
return parseDataToDateTime ( vals , parsedZone , opts , "ISO 8601" , text ) ;
}
/ * *
* Create a DateTime from an RFC 2822 string
* @ param { string } text - the RFC 2822 string
* @ param { Object } opts - options to affect the creation
* @ param { string | Zone } [ opts . zone = 'local' ] - convert the time to this zone . Since the offset is always specified in the string itself , this has no effect on the interpretation of string , merely the zone the resulting DateTime is expressed in .
* @ param { boolean } [ opts . setZone = false ] - override the zone with a fixed - offset zone specified in the string itself , if it specifies one
* @ param { string } [ opts . locale = 'system' s locale ' ] - a locale to set on the resulting DateTime instance
* @ param { string } opts . outputCalendar - the output calendar to set on the resulting DateTime instance
* @ param { string } opts . numberingSystem - the numbering system to set on the resulting DateTime instance
* @ example DateTime . fromRFC2822 ( '25 Nov 2016 13:23:12 GMT' )
* @ example DateTime . fromRFC2822 ( 'Fri, 25 Nov 2016 13:23:12 +0600' )
* @ example DateTime . fromRFC2822 ( '25 Nov 2016 13:23 Z' )
* @ return { DateTime }
* /
static fromRFC2822 ( text , opts = { } ) {
const [ vals , parsedZone ] = parseRFC2822Date ( text ) ;
return parseDataToDateTime ( vals , parsedZone , opts , "RFC 2822" , text ) ;
}
/ * *
* Create a DateTime from an HTTP header date
* @ see https : //www.w3.org/Protocols/rfc2616/rfc2616-sec3.html#sec3.3.1
* @ param { string } text - the HTTP header date
* @ param { Object } opts - options to affect the creation
* @ param { string | Zone } [ opts . zone = 'local' ] - convert the time to this zone . Since HTTP dates are always in UTC , this has no effect on the interpretation of string , merely the zone the resulting DateTime is expressed in .
* @ param { boolean } [ opts . setZone = false ] - override the zone with the fixed - offset zone specified in the string . For HTTP dates , this is always UTC , so this option is equivalent to setting the ` zone ` option to 'utc' , but this option is included for consistency with similar methods .
* @ param { string } [ opts . locale = 'system' s locale ' ] - a locale to set on the resulting DateTime instance
* @ param { string } opts . outputCalendar - the output calendar to set on the resulting DateTime instance
* @ param { string } opts . numberingSystem - the numbering system to set on the resulting DateTime instance
* @ example DateTime . fromHTTP ( 'Sun, 06 Nov 1994 08:49:37 GMT' )
* @ example DateTime . fromHTTP ( 'Sunday, 06-Nov-94 08:49:37 GMT' )
* @ example DateTime . fromHTTP ( 'Sun Nov 6 08:49:37 1994' )
* @ return { DateTime }
* /
static fromHTTP ( text , opts = { } ) {
const [ vals , parsedZone ] = parseHTTPDate ( text ) ;
return parseDataToDateTime ( vals , parsedZone , opts , "HTTP" , opts ) ;
}
/ * *
* Create a DateTime from an input string and format string .
* Defaults to en - US if no locale has been specified , regardless of the system ' s locale . For a table of tokens and their interpretations , see [ here ] ( https : //moment.github.io/luxon/#/parsing?id=table-of-tokens).
* @ param { string } text - the string to parse
* @ param { string } fmt - the format the string is expected to be in ( see the link below for the formats )
* @ param { Object } opts - options to affect the creation
* @ param { string | Zone } [ opts . zone = 'local' ] - use this zone if no offset is specified in the input string itself . Will also convert the DateTime to this zone
* @ param { boolean } [ opts . setZone = false ] - override the zone with a zone specified in the string itself , if it specifies one
* @ param { string } [ opts . locale = 'en-US' ] - a locale string to use when parsing . Will also set the DateTime to this locale
* @ param { string } opts . numberingSystem - the numbering system to use when parsing . Will also set the resulting DateTime to this numbering system
* @ param { string } opts . outputCalendar - the output calendar to set on the resulting DateTime instance
* @ return { DateTime }
* /
static fromFormat ( text , fmt , opts = { } ) {
if ( isUndefined ( text ) || isUndefined ( fmt ) ) {
throw new InvalidArgumentError ( "fromFormat requires an input string and a format" ) ;
}
const {
locale = null ,
numberingSystem = null
} = opts ,
localeToUse = Locale . fromOpts ( {
locale ,
numberingSystem ,
defaultToEN : true
} ) ,
[ vals , parsedZone , specificOffset , invalid ] = parseFromTokens ( localeToUse , text , fmt ) ;
if ( invalid ) {
return DateTime . invalid ( invalid ) ;
} else {
return parseDataToDateTime ( vals , parsedZone , opts , ` format ${ fmt } ` , text , specificOffset ) ;
}
}
/ * *
* @ deprecated use fromFormat instead
* /
static fromString ( text , fmt , opts = { } ) {
return DateTime . fromFormat ( text , fmt , opts ) ;
}
/ * *
* Create a DateTime from a SQL date , time , or datetime
* Defaults to en - US if no locale has been specified , regardless of the system ' s locale
* @ param { string } text - the string to parse
* @ param { Object } opts - options to affect the creation
* @ param { string | Zone } [ opts . zone = 'local' ] - use this zone if no offset is specified in the input string itself . Will also convert the DateTime to this zone
* @ param { boolean } [ opts . setZone = false ] - override the zone with a zone specified in the string itself , if it specifies one
* @ param { string } [ opts . locale = 'en-US' ] - a locale string to use when parsing . Will also set the DateTime to this locale
* @ param { string } opts . numberingSystem - the numbering system to use when parsing . Will also set the resulting DateTime to this numbering system
* @ param { string } opts . outputCalendar - the output calendar to set on the resulting DateTime instance
* @ example DateTime . fromSQL ( '2017-05-15' )
* @ example DateTime . fromSQL ( '2017-05-15 09:12:34' )
* @ example DateTime . fromSQL ( '2017-05-15 09:12:34.342' )
* @ example DateTime . fromSQL ( '2017-05-15 09:12:34.342+06:00' )
* @ example DateTime . fromSQL ( '2017-05-15 09:12:34.342 America/Los_Angeles' )
* @ example DateTime . fromSQL ( '2017-05-15 09:12:34.342 America/Los_Angeles' , { setZone : true } )
* @ example DateTime . fromSQL ( '2017-05-15 09:12:34.342' , { zone : 'America/Los_Angeles' } )
* @ example DateTime . fromSQL ( '09:12:34.342' )
* @ return { DateTime }
* /
static fromSQL ( text , opts = { } ) {
const [ vals , parsedZone ] = parseSQL ( text ) ;
return parseDataToDateTime ( vals , parsedZone , opts , "SQL" , text ) ;
}
/ * *
* Create an invalid DateTime .
* @ param { string } reason - simple string of why this DateTime is invalid . Should not contain parameters or anything else data - dependent .
* @ param { string } [ explanation = null ] - longer explanation , may include parameters and other useful debugging information
* @ return { DateTime }
* /
static invalid ( reason , explanation = null ) {
if ( ! reason ) {
throw new InvalidArgumentError ( "need to specify a reason the DateTime is invalid" ) ;
}
const invalid = reason instanceof Invalid ? reason : new Invalid ( reason , explanation ) ;
if ( Settings . throwOnInvalid ) {
throw new InvalidDateTimeError ( invalid ) ;
} else {
return new DateTime ( {
invalid
} ) ;
}
}
/ * *
* Check if an object is an instance of DateTime . Works across context boundaries
* @ param { object } o
* @ return { boolean }
* /
static isDateTime ( o ) {
return o && o . isLuxonDateTime || false ;
}
/ * *
* Produce the format string for a set of options
* @ param formatOpts
* @ param localeOpts
* @ returns { string }
* /
static parseFormatForOpts ( formatOpts , localeOpts = { } ) {
const tokenList = formatOptsToTokens ( formatOpts , Locale . fromObject ( localeOpts ) ) ;
return ! tokenList ? null : tokenList . map ( t => t ? t . val : null ) . join ( "" ) ;
}
/ * *
* Produce the the fully expanded format token for the locale
* Does NOT quote characters , so quoted tokens will not round trip correctly
* @ param fmt
* @ param localeOpts
* @ returns { string }
* /
static expandFormat ( fmt , localeOpts = { } ) {
const expanded = expandMacroTokens ( Formatter . parseFormat ( fmt ) , Locale . fromObject ( localeOpts ) ) ;
return expanded . map ( t => t . val ) . join ( "" ) ;
}
// INFO
/ * *
* Get the value of unit .
* @ param { string } unit - a unit such as 'minute' or 'day'
* @ example DateTime . local ( 2017 , 7 , 4 ) . get ( 'month' ) ; //=> 7
* @ example DateTime . local ( 2017 , 7 , 4 ) . get ( 'day' ) ; //=> 4
* @ return { number }
* /
get ( unit ) {
return this [ unit ] ;
}
/ * *
* Returns whether the DateTime is valid . Invalid DateTimes occur when :
* * The DateTime was created from invalid calendar information , such as the 13 th month or February 30
* * The DateTime was created by an operation on another invalid date
* @ type { boolean }
* /
get isValid ( ) {
return this . invalid === null ;
}
/ * *
* Returns an error code if this DateTime is invalid , or null if the DateTime is valid
* @ type { string }
* /
get invalidReason ( ) {
return this . invalid ? this . invalid . reason : null ;
}
/ * *
* Returns an explanation of why this DateTime became invalid , or null if the DateTime is valid
* @ type { string }
* /
get invalidExplanation ( ) {
return this . invalid ? this . invalid . explanation : null ;
}
/ * *
* Get the locale of a DateTime , such 'en-GB' . The locale is used when formatting the DateTime
*
* @ type { string }
* /
get locale ( ) {
return this . isValid ? this . loc . locale : null ;
}
/ * *
* Get the numbering system of a DateTime , such 'beng' . The numbering system is used when formatting the DateTime
*
* @ type { string }
* /
get numberingSystem ( ) {
return this . isValid ? this . loc . numberingSystem : null ;
}
/ * *
* Get the output calendar of a DateTime , such 'islamic' . The output calendar is used when formatting the DateTime
*
* @ type { string }
* /
get outputCalendar ( ) {
return this . isValid ? this . loc . outputCalendar : null ;
}
/ * *
* Get the time zone associated with this DateTime .
* @ type { Zone }
* /
get zone ( ) {
return this . _zone ;
}
/ * *
* Get the name of the time zone .
* @ type { string }
* /
get zoneName ( ) {
return this . isValid ? this . zone . name : null ;
}
/ * *
* Get the year
* @ example DateTime . local ( 2017 , 5 , 25 ) . year //=> 2017
* @ type { number }
* /
get year ( ) {
return this . isValid ? this . c . year : NaN ;
}
/ * *
* Get the quarter
* @ example DateTime . local ( 2017 , 5 , 25 ) . quarter //=> 2
* @ type { number }
* /
get quarter ( ) {
return this . isValid ? Math . ceil ( this . c . month / 3 ) : NaN ;
}
/ * *
* Get the month ( 1 - 12 ) .
* @ example DateTime . local ( 2017 , 5 , 25 ) . month //=> 5
* @ type { number }
* /
get month ( ) {
return this . isValid ? this . c . month : NaN ;
}
/ * *
* Get the day of the month ( 1 - 30 ish ) .
* @ example DateTime . local ( 2017 , 5 , 25 ) . day //=> 25
* @ type { number }
* /
get day ( ) {
return this . isValid ? this . c . day : NaN ;
}
/ * *
* Get the hour of the day ( 0 - 23 ) .
* @ example DateTime . local ( 2017 , 5 , 25 , 9 ) . hour //=> 9
* @ type { number }
* /
get hour ( ) {
return this . isValid ? this . c . hour : NaN ;
}
/ * *
* Get the minute of the hour ( 0 - 59 ) .
* @ example DateTime . local ( 2017 , 5 , 25 , 9 , 30 ) . minute //=> 30
* @ type { number }
* /
get minute ( ) {
return this . isValid ? this . c . minute : NaN ;
}
/ * *
* Get the second of the minute ( 0 - 59 ) .
* @ example DateTime . local ( 2017 , 5 , 25 , 9 , 30 , 52 ) . second //=> 52
* @ type { number }
* /
get second ( ) {
return this . isValid ? this . c . second : NaN ;
}
/ * *
* Get the millisecond of the second ( 0 - 999 ) .
* @ example DateTime . local ( 2017 , 5 , 25 , 9 , 30 , 52 , 654 ) . millisecond //=> 654
* @ type { number }
* /
get millisecond ( ) {
return this . isValid ? this . c . millisecond : NaN ;
}
/ * *
* Get the week year
* @ see https : //en.wikipedia.org/wiki/ISO_week_date
* @ example DateTime . local ( 2014 , 12 , 31 ) . weekYear //=> 2015
* @ type { number }
* /
get weekYear ( ) {
return this . isValid ? possiblyCachedWeekData ( this ) . weekYear : NaN ;
}
/ * *
* Get the week number of the week year ( 1 - 52 ish ) .
* @ see https : //en.wikipedia.org/wiki/ISO_week_date
* @ example DateTime . local ( 2017 , 5 , 25 ) . weekNumber //=> 21
* @ type { number }
* /
get weekNumber ( ) {
return this . isValid ? possiblyCachedWeekData ( this ) . weekNumber : NaN ;
}
/ * *
* Get the day of the week .
* 1 is Monday and 7 is Sunday
* @ see https : //en.wikipedia.org/wiki/ISO_week_date
* @ example DateTime . local ( 2014 , 11 , 31 ) . weekday //=> 4
* @ type { number }
* /
get weekday ( ) {
return this . isValid ? possiblyCachedWeekData ( this ) . weekday : NaN ;
}
/ * *
* Get the ordinal ( meaning the day of the year )
* @ example DateTime . local ( 2017 , 5 , 25 ) . ordinal //=> 145
* @ type { number | DateTime }
* /
get ordinal ( ) {
return this . isValid ? gregorianToOrdinal ( this . c ) . ordinal : NaN ;
}
/ * *
* Get the human readable short month name , such as 'Oct' .
* Defaults to the system ' s locale if no locale has been specified
* @ example DateTime . local ( 2017 , 10 , 30 ) . monthShort //=> Oct
* @ type { string }
* /
get monthShort ( ) {
return this . isValid ? Info . months ( "short" , {
locObj : this . loc
} ) [ this . month - 1 ] : null ;
}
/ * *
* Get the human readable long month name , such as 'October' .
* Defaults to the system ' s locale if no locale has been specified
* @ example DateTime . local ( 2017 , 10 , 30 ) . monthLong //=> October
* @ type { string }
* /
get monthLong ( ) {
return this . isValid ? Info . months ( "long" , {
locObj : this . loc
} ) [ this . month - 1 ] : null ;
}
/ * *
* Get the human readable short weekday , such as 'Mon' .
* Defaults to the system ' s locale if no locale has been specified
* @ example DateTime . local ( 2017 , 10 , 30 ) . weekdayShort //=> Mon
* @ type { string }
* /
get weekdayShort ( ) {
return this . isValid ? Info . weekdays ( "short" , {
locObj : this . loc
} ) [ this . weekday - 1 ] : null ;
}
/ * *
* Get the human readable long weekday , such as 'Monday' .
* Defaults to the system ' s locale if no locale has been specified
* @ example DateTime . local ( 2017 , 10 , 30 ) . weekdayLong //=> Monday
* @ type { string }
* /
get weekdayLong ( ) {
return this . isValid ? Info . weekdays ( "long" , {
locObj : this . loc
} ) [ this . weekday - 1 ] : null ;
}
/ * *
* Get the UTC offset of this DateTime in minutes
* @ example DateTime . now ( ) . offset //=> -240
* @ example DateTime . utc ( ) . offset //=> 0
* @ type { number }
* /
get offset ( ) {
return this . isValid ? + this . o : NaN ;
}
/ * *
* Get the short human name for the zone ' s current offset , for example "EST" or "EDT" .
* Defaults to the system ' s locale if no locale has been specified
* @ type { string }
* /
get offsetNameShort ( ) {
if ( this . isValid ) {
return this . zone . offsetName ( this . ts , {
format : "short" ,
locale : this . locale
} ) ;
} else {
return null ;
}
}
/ * *
* Get the long human name for the zone ' s current offset , for example "Eastern Standard Time" or "Eastern Daylight Time" .
* Defaults to the system ' s locale if no locale has been specified
* @ type { string }
* /
get offsetNameLong ( ) {
if ( this . isValid ) {
return this . zone . offsetName ( this . ts , {
format : "long" ,
locale : this . locale
} ) ;
} else {
return null ;
}
}
/ * *
* Get whether this zone ' s offset ever changes , as in a DST .
* @ type { boolean }
* /
get isOffsetFixed ( ) {
return this . isValid ? this . zone . isUniversal : null ;
}
/ * *
* Get whether the DateTime is in a DST .
* @ type { boolean }
* /
get isInDST ( ) {
if ( this . isOffsetFixed ) {
return false ;
} else {
return this . offset > this . set ( {
month : 1 ,
day : 1
} ) . offset || this . offset > this . set ( {
month : 5
} ) . offset ;
}
}
/ * *
* Get those DateTimes which have the same local time as this DateTime , but a different offset from UTC
* in this DateTime ' s zone . During DST changes local time can be ambiguous , for example
* ` 2023-10-29T02:30:00 ` in ` Europe/Berlin ` can have offset ` +01:00 ` or ` +02:00 ` .
* This method will return both possible DateTimes if this DateTime ' s local time is ambiguous .
* @ returns { DateTime [ ] }
* /
getPossibleOffsets ( ) {
if ( ! this . isValid || this . isOffsetFixed ) {
return [ this ] ;
}
const dayMs = 86400000 ;
const minuteMs = 60000 ;
const localTS = objToLocalTS ( this . c ) ;
const oEarlier = this . zone . offset ( localTS - dayMs ) ;
const oLater = this . zone . offset ( localTS + dayMs ) ;
const o1 = this . zone . offset ( localTS - oEarlier * minuteMs ) ;
const o2 = this . zone . offset ( localTS - oLater * minuteMs ) ;
if ( o1 === o2 ) {
return [ this ] ;
}
const ts1 = localTS - o1 * minuteMs ;
const ts2 = localTS - o2 * minuteMs ;
const c1 = tsToObj ( ts1 , o1 ) ;
const c2 = tsToObj ( ts2 , o2 ) ;
if ( c1 . hour === c2 . hour && c1 . minute === c2 . minute && c1 . second === c2 . second && c1 . millisecond === c2 . millisecond ) {
return [ clone ( this , {
ts : ts1
} ) , clone ( this , {
ts : ts2
} ) ] ;
}
return [ this ] ;
}
/ * *
* Returns true if this DateTime is in a leap year , false otherwise
* @ example DateTime . local ( 2016 ) . isInLeapYear //=> true
* @ example DateTime . local ( 2013 ) . isInLeapYear //=> false
* @ type { boolean }
* /
get isInLeapYear ( ) {
return isLeapYear ( this . year ) ;
}
/ * *
* Returns the number of days in this DateTime ' s month
* @ example DateTime . local ( 2016 , 2 ) . daysInMonth //=> 29
* @ example DateTime . local ( 2016 , 3 ) . daysInMonth //=> 31
* @ type { number }
* /
get daysInMonth ( ) {
return daysInMonth ( this . year , this . month ) ;
}
/ * *
* Returns the number of days in this DateTime ' s year
* @ example DateTime . local ( 2016 ) . daysInYear //=> 366
* @ example DateTime . local ( 2013 ) . daysInYear //=> 365
* @ type { number }
* /
get daysInYear ( ) {
return this . isValid ? daysInYear ( this . year ) : NaN ;
}
/ * *
* Returns the number of weeks in this DateTime ' s year
* @ see https : //en.wikipedia.org/wiki/ISO_week_date
* @ example DateTime . local ( 2004 ) . weeksInWeekYear //=> 53
* @ example DateTime . local ( 2013 ) . weeksInWeekYear //=> 52
* @ type { number }
* /
get weeksInWeekYear ( ) {
return this . isValid ? weeksInWeekYear ( this . weekYear ) : NaN ;
}
/ * *
* Returns the resolved Intl options for this DateTime .
* This is useful in understanding the behavior of formatting methods
* @ param { Object } opts - the same options as toLocaleString
* @ return { Object }
* /
resolvedLocaleOptions ( opts = { } ) {
const {
locale ,
numberingSystem ,
calendar
} = Formatter . create ( this . loc . clone ( opts ) , opts ) . resolvedOptions ( this ) ;
return {
locale ,
numberingSystem ,
outputCalendar : calendar
} ;
}
// TRANSFORM
/ * *
* "Set" the DateTime ' s zone to UTC . Returns a newly - constructed DateTime .
*
* Equivalent to { @ link DateTime # setZone } ( 'utc' )
* @ param { number } [ offset = 0 ] - optionally , an offset from UTC in minutes
* @ param { Object } [ opts = { } ] - options to pass to ` setZone() `
* @ return { DateTime }
* /
toUTC ( offset = 0 , opts = { } ) {
return this . setZone ( FixedOffsetZone . instance ( offset ) , opts ) ;
}
/ * *
* "Set" the DateTime 's zone to the host' s local zone . Returns a newly - constructed DateTime .
*
* Equivalent to ` setZone('local') `
* @ return { DateTime }
* /
toLocal ( ) {
return this . setZone ( Settings . defaultZone ) ;
}
/ * *
* "Set" the DateTime ' s zone to specified zone . Returns a newly - constructed DateTime .
*
* By default , the setter keeps the underlying time the same ( as in , the same timestamp ) , but the new instance will report different local times and consider DSTs when making computations , as with { @ link DateTime # plus } . You may wish to use { @ link DateTime # toLocal } and { @ link DateTime # toUTC } which provide simple convenience wrappers for commonly used zones .
* @ param { string | Zone } [ zone = 'local' ] - a zone identifier . As a string , that can be any IANA zone supported by the host environment , or a fixed - offset name of the form 'UTC+3' , or the strings 'local' or 'utc' . You may also supply an instance of a { @ link DateTime # Zone } class .
* @ param { Object } opts - options
* @ param { boolean } [ opts . keepLocalTime = false ] - If true , adjust the underlying time so that the local time stays the same , but in the target zone . You should rarely need this .
* @ return { DateTime }
* /
setZone ( zone , {
keepLocalTime = false ,
keepCalendarTime = false
} = { } ) {
zone = normalizeZone ( zone , Settings . defaultZone ) ;
if ( zone . equals ( this . zone ) ) {
return this ;
} else if ( ! zone . isValid ) {
return DateTime . invalid ( unsupportedZone ( zone ) ) ;
} else {
let newTS = this . ts ;
if ( keepLocalTime || keepCalendarTime ) {
const offsetGuess = zone . offset ( this . ts ) ;
const asObj = this . toObject ( ) ;
[ newTS ] = objToTS ( asObj , offsetGuess , zone ) ;
}
return clone ( this , {
ts : newTS ,
zone
} ) ;
}
}
/ * *
* "Set" the locale , numberingSystem , or outputCalendar . Returns a newly - constructed DateTime .
* @ param { Object } properties - the properties to set
* @ example DateTime . local ( 2017 , 5 , 25 ) . reconfigure ( { locale : 'en-GB' } )
* @ return { DateTime }
* /
reconfigure ( {
locale ,
numberingSystem ,
outputCalendar
} = { } ) {
const loc = this . loc . clone ( {
locale ,
numberingSystem ,
outputCalendar
} ) ;
return clone ( this , {
loc
} ) ;
}
/ * *
* "Set" the locale . Returns a newly - constructed DateTime .
* Just a convenient alias for reconfigure ( { locale } )
* @ example DateTime . local ( 2017 , 5 , 25 ) . setLocale ( 'en-GB' )
* @ return { DateTime }
* /
setLocale ( locale ) {
return this . reconfigure ( {
locale
} ) ;
}
/ * *
* "Set" the values of specified units . Returns a newly - constructed DateTime .
* You can only set units with this method ; for "setting" metadata , see { @ link DateTime # reconfigure } and { @ link DateTime # setZone } .
* @ param { Object } values - a mapping of units to numbers
* @ example dt . set ( { year : 2017 } )
* @ example dt . set ( { hour : 8 , minute : 30 } )
* @ example dt . set ( { weekday : 5 } )
* @ example dt . set ( { year : 2005 , ordinal : 234 } )
* @ return { DateTime }
* /
set ( values ) {
if ( ! this . isValid ) return this ;
const normalized = normalizeObject ( values , normalizeUnit ) ,
settingWeekStuff = ! isUndefined ( normalized . weekYear ) || ! isUndefined ( normalized . weekNumber ) || ! isUndefined ( normalized . weekday ) ,
containsOrdinal = ! isUndefined ( normalized . ordinal ) ,
containsGregorYear = ! isUndefined ( normalized . year ) ,
containsGregorMD = ! isUndefined ( normalized . month ) || ! isUndefined ( normalized . day ) ,
containsGregor = containsGregorYear || containsGregorMD ,
definiteWeekDef = normalized . weekYear || normalized . weekNumber ;
if ( ( containsGregor || containsOrdinal ) && definiteWeekDef ) {
throw new ConflictingSpecificationError ( "Can't mix weekYear/weekNumber units with year/month/day or ordinals" ) ;
}
if ( containsGregorMD && containsOrdinal ) {
throw new ConflictingSpecificationError ( "Can't mix ordinal dates with month/day" ) ;
}
let mixed ;
if ( settingWeekStuff ) {
mixed = weekToGregorian ( {
... gregorianToWeek ( this . c ) ,
... normalized
} ) ;
} else if ( ! isUndefined ( normalized . ordinal ) ) {
mixed = ordinalToGregorian ( {
... gregorianToOrdinal ( this . c ) ,
... normalized
} ) ;
} else {
mixed = {
... this . toObject ( ) ,
... normalized
} ;
// if we didn't set the day but we ended up on an overflow date,
// use the last day of the right month
if ( isUndefined ( normalized . day ) ) {
mixed . day = Math . min ( daysInMonth ( mixed . year , mixed . month ) , mixed . day ) ;
}
}
const [ ts , o ] = objToTS ( mixed , this . o , this . zone ) ;
return clone ( this , {
ts ,
o
} ) ;
}
/ * *
* Add a period of time to this DateTime and return the resulting DateTime
*
* Adding hours , minutes , seconds , or milliseconds increases the timestamp by the right number of milliseconds . Adding days , months , or years shifts the calendar , accounting for DSTs and leap years along the way . Thus , ` dt.plus({ hours: 24 }) ` may result in a different time than ` dt.plus({ days: 1 }) ` if there ' s a DST shift in between .
* @ param { Duration | Object | number } duration - The amount to add . Either a Luxon Duration , a number of milliseconds , the object argument to Duration . fromObject ( )
* @ example DateTime . now ( ) . plus ( 123 ) //~> in 123 milliseconds
* @ example DateTime . now ( ) . plus ( { minutes : 15 } ) //~> in 15 minutes
* @ example DateTime . now ( ) . plus ( { days : 1 } ) //~> this time tomorrow
* @ example DateTime . now ( ) . plus ( { days : - 1 } ) //~> this time yesterday
* @ example DateTime . now ( ) . plus ( { hours : 3 , minutes : 13 } ) //~> in 3 hr, 13 min
* @ example DateTime . now ( ) . plus ( Duration . fromObject ( { hours : 3 , minutes : 13 } ) ) //~> in 3 hr, 13 min
* @ return { DateTime }
* /
plus ( duration ) {
if ( ! this . isValid ) return this ;
const dur = Duration . fromDurationLike ( duration ) ;
return clone ( this , adjustTime ( this , dur ) ) ;
}
/ * *
* Subtract a period of time to this DateTime and return the resulting DateTime
* See { @ link DateTime # plus }
* @ param { Duration | Object | number } duration - The amount to subtract . Either a Luxon Duration , a number of milliseconds , the object argument to Duration . fromObject ( )
@ return { DateTime }
* /
minus ( duration ) {
if ( ! this . isValid ) return this ;
const dur = Duration . fromDurationLike ( duration ) . negate ( ) ;
return clone ( this , adjustTime ( this , dur ) ) ;
}
/ * *
* "Set" this DateTime to the beginning of a unit of time .
* @ param { string } unit - The unit to go to the beginning of . Can be 'year' , 'quarter' , 'month' , 'week' , 'day' , 'hour' , 'minute' , 'second' , or 'millisecond' .
* @ example DateTime . local ( 2014 , 3 , 3 ) . startOf ( 'month' ) . toISODate ( ) ; //=> '2014-03-01'
* @ example DateTime . local ( 2014 , 3 , 3 ) . startOf ( 'year' ) . toISODate ( ) ; //=> '2014-01-01'
* @ example DateTime . local ( 2014 , 3 , 3 ) . startOf ( 'week' ) . toISODate ( ) ; //=> '2014-03-03', weeks always start on Mondays
* @ example DateTime . local ( 2014 , 3 , 3 , 5 , 30 ) . startOf ( 'day' ) . toISOTime ( ) ; //=> '00:00.000-05:00'
* @ example DateTime . local ( 2014 , 3 , 3 , 5 , 30 ) . startOf ( 'hour' ) . toISOTime ( ) ; //=> '05:00:00.000-05:00'
* @ return { DateTime }
* /
startOf ( unit ) {
if ( ! this . isValid ) return this ;
const o = { } ,
normalizedUnit = Duration . normalizeUnit ( unit ) ;
switch ( normalizedUnit ) {
case "years" :
o . month = 1 ;
// falls through
case "quarters" :
case "months" :
o . day = 1 ;
// falls through
case "weeks" :
case "days" :
o . hour = 0 ;
// falls through
case "hours" :
o . minute = 0 ;
// falls through
case "minutes" :
o . second = 0 ;
// falls through
case "seconds" :
o . millisecond = 0 ;
break ;
// no default, invalid units throw in normalizeUnit()
}
if ( normalizedUnit === "weeks" ) {
o . weekday = 1 ;
}
if ( normalizedUnit === "quarters" ) {
const q = Math . ceil ( this . month / 3 ) ;
o . month = ( q - 1 ) * 3 + 1 ;
}
return this . set ( o ) ;
}
/ * *
* "Set" this DateTime to the end ( meaning the last millisecond ) of a unit of time
* @ param { string } unit - The unit to go to the end of . Can be 'year' , 'quarter' , 'month' , 'week' , 'day' , 'hour' , 'minute' , 'second' , or 'millisecond' .
* @ example DateTime . local ( 2014 , 3 , 3 ) . endOf ( 'month' ) . toISO ( ) ; //=> '2014-03-31T23:59:59.999-05:00'
* @ example DateTime . local ( 2014 , 3 , 3 ) . endOf ( 'year' ) . toISO ( ) ; //=> '2014-12-31T23:59:59.999-05:00'
* @ example DateTime . local ( 2014 , 3 , 3 ) . endOf ( 'week' ) . toISO ( ) ; // => '2014-03-09T23:59:59.999-05:00', weeks start on Mondays
* @ example DateTime . local ( 2014 , 3 , 3 , 5 , 30 ) . endOf ( 'day' ) . toISO ( ) ; //=> '2014-03-03T23:59:59.999-05:00'
* @ example DateTime . local ( 2014 , 3 , 3 , 5 , 30 ) . endOf ( 'hour' ) . toISO ( ) ; //=> '2014-03-03T05:59:59.999-05:00'
* @ return { DateTime }
* /
endOf ( unit ) {
return this . isValid ? this . plus ( {
[ unit ] : 1
} ) . startOf ( unit ) . minus ( 1 ) : this ;
}
// OUTPUT
/ * *
* Returns a string representation of this DateTime formatted according to the specified format string .
* * * You may not want this . * * See { @ link DateTime # toLocaleString } for a more flexible formatting tool . For a table of tokens and their interpretations , see [ here ] ( https : //moment.github.io/luxon/#/formatting?id=table-of-tokens).
* Defaults to en - US if no locale has been specified , regardless of the system ' s locale .
* @ param { string } fmt - the format string
* @ param { Object } opts - opts to override the configuration options on this DateTime
* @ example DateTime . now ( ) . toFormat ( 'yyyy LLL dd' ) //=> '2017 Apr 22'
* @ example DateTime . now ( ) . setLocale ( 'fr' ) . toFormat ( 'yyyy LLL dd' ) //=> '2017 avr. 22'
* @ example DateTime . now ( ) . toFormat ( 'yyyy LLL dd' , { locale : "fr" } ) //=> '2017 avr. 22'
* @ example DateTime . now ( ) . toFormat ( "HH 'hours and' mm 'minutes'" ) //=> '20 hours and 55 minutes'
* @ return { string }
* /
toFormat ( fmt , opts = { } ) {
return this . isValid ? Formatter . create ( this . loc . redefaultToEN ( opts ) ) . formatDateTimeFromString ( this , fmt ) : INVALID ;
}
/ * *
* Returns a localized string representing this date . Accepts the same options as the Intl . DateTimeFormat constructor and any presets defined by Luxon , such as ` DateTime.DATE_FULL ` or ` DateTime.TIME_SIMPLE ` .
* The exact behavior of this method is browser - specific , but in general it will return an appropriate representation
* of the DateTime in the assigned locale .
* Defaults to the system ' s locale if no locale has been specified
* @ see https : //developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/DateTimeFormat
* @ param formatOpts { Object } - Intl . DateTimeFormat constructor options and configuration options
* @ param { Object } opts - opts to override the configuration options on this DateTime
* @ example DateTime . now ( ) . toLocaleString ( ) ; //=> 4/20/2017
* @ example DateTime . now ( ) . setLocale ( 'en-gb' ) . toLocaleString ( ) ; //=> '20/04/2017'
* @ example DateTime . now ( ) . toLocaleString ( DateTime . DATE _FULL ) ; //=> 'April 20, 2017'
* @ example DateTime . now ( ) . toLocaleString ( DateTime . DATE _FULL , { locale : 'fr' } ) ; //=> '28 août 2022'
* @ example DateTime . now ( ) . toLocaleString ( DateTime . TIME _SIMPLE ) ; //=> '11:32 AM'
* @ example DateTime . now ( ) . toLocaleString ( DateTime . DATETIME _SHORT ) ; //=> '4/20/2017, 11:32 AM'
* @ example DateTime . now ( ) . toLocaleString ( { weekday : 'long' , month : 'long' , day : '2-digit' } ) ; //=> 'Thursday, April 20'
* @ example DateTime . now ( ) . toLocaleString ( { weekday : 'short' , month : 'short' , day : '2-digit' , hour : '2-digit' , minute : '2-digit' } ) ; //=> 'Thu, Apr 20, 11:27 AM'
* @ example DateTime . now ( ) . toLocaleString ( { hour : '2-digit' , minute : '2-digit' , hourCycle : 'h23' } ) ; //=> '11:32'
* @ return { string }
* /
toLocaleString ( formatOpts = DATE _SHORT , opts = { } ) {
return this . isValid ? Formatter . create ( this . loc . clone ( opts ) , formatOpts ) . formatDateTime ( this ) : INVALID ;
}
/ * *
* Returns an array of format "parts" , meaning individual tokens along with metadata . This is allows callers to post - process individual sections of the formatted output .
* Defaults to the system ' s locale if no locale has been specified
* @ see https : //developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/DateTimeFormat/formatToParts
* @ param opts { Object } - Intl . DateTimeFormat constructor options , same as ` toLocaleString ` .
* @ example DateTime . now ( ) . toLocaleParts ( ) ; //=> [
* //=> { type: 'day', value: '25' },
* //=> { type: 'literal', value: '/' },
* //=> { type: 'month', value: '05' },
* //=> { type: 'literal', value: '/' },
* //=> { type: 'year', value: '1982' }
* //=> ]
* /
toLocaleParts ( opts = { } ) {
return this . isValid ? Formatter . create ( this . loc . clone ( opts ) , opts ) . formatDateTimeParts ( this ) : [ ] ;
}
/ * *
* Returns an ISO 8601 - compliant string representation of this DateTime
* @ param { Object } opts - options
* @ param { boolean } [ opts . suppressMilliseconds = false ] - exclude milliseconds from the format if they ' re 0
* @ param { boolean } [ opts . suppressSeconds = false ] - exclude seconds from the format if they ' re 0
* @ param { boolean } [ opts . includeOffset = true ] - include the offset , such as 'Z' or '-04:00'
* @ param { boolean } [ opts . extendedZone = false ] - add the time zone format extension
* @ param { string } [ opts . format = 'extended' ] - choose between the basic and extended format
* @ example DateTime . utc ( 1983 , 5 , 25 ) . toISO ( ) //=> '1982-05-25T00:00:00.000Z'
* @ example DateTime . now ( ) . toISO ( ) //=> '2017-04-22T20:47:05.335-04:00'
* @ example DateTime . now ( ) . toISO ( { includeOffset : false } ) //=> '2017-04-22T20:47:05.335'
* @ example DateTime . now ( ) . toISO ( { format : 'basic' } ) //=> '20170422T204705.335-0400'
* @ return { string }
* /
toISO ( {
format = "extended" ,
suppressSeconds = false ,
suppressMilliseconds = false ,
includeOffset = true ,
extendedZone = false
} = { } ) {
if ( ! this . isValid ) {
return null ;
}
const ext = format === "extended" ;
let c = toISODate ( this , ext ) ;
c += "T" ;
c += toISOTime ( this , ext , suppressSeconds , suppressMilliseconds , includeOffset , extendedZone ) ;
return c ;
}
/ * *
* Returns an ISO 8601 - compliant string representation of this DateTime ' s date component
* @ param { Object } opts - options
* @ param { string } [ opts . format = 'extended' ] - choose between the basic and extended format
* @ example DateTime . utc ( 1982 , 5 , 25 ) . toISODate ( ) //=> '1982-05-25'
* @ example DateTime . utc ( 1982 , 5 , 25 ) . toISODate ( { format : 'basic' } ) //=> '19820525'
* @ return { string }
* /
toISODate ( {
format = "extended"
} = { } ) {
if ( ! this . isValid ) {
return null ;
}
return toISODate ( this , format === "extended" ) ;
}
/ * *
* Returns an ISO 8601 - compliant string representation of this DateTime ' s week date
* @ example DateTime . utc ( 1982 , 5 , 25 ) . toISOWeekDate ( ) //=> '1982-W21-2'
* @ return { string }
* /
toISOWeekDate ( ) {
return toTechFormat ( this , "kkkk-'W'WW-c" ) ;
}
/ * *
* Returns an ISO 8601 - compliant string representation of this DateTime ' s time component
* @ param { Object } opts - options
* @ param { boolean } [ opts . suppressMilliseconds = false ] - exclude milliseconds from the format if they ' re 0
* @ param { boolean } [ opts . suppressSeconds = false ] - exclude seconds from the format if they ' re 0
* @ param { boolean } [ opts . includeOffset = true ] - include the offset , such as 'Z' or '-04:00'
* @ param { boolean } [ opts . extendedZone = true ] - add the time zone format extension
* @ param { boolean } [ opts . includePrefix = false ] - include the ` T ` prefix
* @ param { string } [ opts . format = 'extended' ] - choose between the basic and extended format
* @ example DateTime . utc ( ) . set ( { hour : 7 , minute : 34 } ) . toISOTime ( ) //=> '07:34:19.361Z'
* @ example DateTime . utc ( ) . set ( { hour : 7 , minute : 34 , seconds : 0 , milliseconds : 0 } ) . toISOTime ( { suppressSeconds : true } ) //=> '07:34Z'
* @ example DateTime . utc ( ) . set ( { hour : 7 , minute : 34 } ) . toISOTime ( { format : 'basic' } ) //=> '073419.361Z'
* @ example DateTime . utc ( ) . set ( { hour : 7 , minute : 34 } ) . toISOTime ( { includePrefix : true } ) //=> 'T07:34:19.361Z'
* @ return { string }
* /
toISOTime ( {
suppressMilliseconds = false ,
suppressSeconds = false ,
includeOffset = true ,
includePrefix = false ,
extendedZone = false ,
format = "extended"
} = { } ) {
if ( ! this . isValid ) {
return null ;
}
let c = includePrefix ? "T" : "" ;
return c + toISOTime ( this , format === "extended" , suppressSeconds , suppressMilliseconds , includeOffset , extendedZone ) ;
}
/ * *
* Returns an RFC 2822 - compatible string representation of this DateTime
* @ example DateTime . utc ( 2014 , 7 , 13 ) . toRFC2822 ( ) //=> 'Sun, 13 Jul 2014 00:00:00 +0000'
* @ example DateTime . local ( 2014 , 7 , 13 ) . toRFC2822 ( ) //=> 'Sun, 13 Jul 2014 00:00:00 -0400'
* @ return { string }
* /
toRFC2822 ( ) {
return toTechFormat ( this , "EEE, dd LLL yyyy HH:mm:ss ZZZ" , false ) ;
}
/ * *
* Returns a string representation of this DateTime appropriate for use in HTTP headers . The output is always expressed in GMT .
* Specifically , the string conforms to RFC 1123.
* @ see https : //www.w3.org/Protocols/rfc2616/rfc2616-sec3.html#sec3.3.1
* @ example DateTime . utc ( 2014 , 7 , 13 ) . toHTTP ( ) //=> 'Sun, 13 Jul 2014 00:00:00 GMT'
* @ example DateTime . utc ( 2014 , 7 , 13 , 19 ) . toHTTP ( ) //=> 'Sun, 13 Jul 2014 19:00:00 GMT'
* @ return { string }
* /
toHTTP ( ) {
return toTechFormat ( this . toUTC ( ) , "EEE, dd LLL yyyy HH:mm:ss 'GMT'" ) ;
}
/ * *
* Returns a string representation of this DateTime appropriate for use in SQL Date
* @ example DateTime . utc ( 2014 , 7 , 13 ) . toSQLDate ( ) //=> '2014-07-13'
* @ return { string }
* /
toSQLDate ( ) {
if ( ! this . isValid ) {
return null ;
}
return toISODate ( this , true ) ;
}
/ * *
* Returns a string representation of this DateTime appropriate for use in SQL Time
* @ param { Object } opts - options
* @ param { boolean } [ opts . includeZone = false ] - include the zone , such as 'America/New_York' . Overrides includeOffset .
* @ param { boolean } [ opts . includeOffset = true ] - include the offset , such as 'Z' or '-04:00'
* @ param { boolean } [ opts . includeOffsetSpace = true ] - include the space between the time and the offset , such as '05:15:16.345 -04:00'
* @ example DateTime . utc ( ) . toSQL ( ) //=> '05:15:16.345'
* @ example DateTime . now ( ) . toSQL ( ) //=> '05:15:16.345 -04:00'
* @ example DateTime . now ( ) . toSQL ( { includeOffset : false } ) //=> '05:15:16.345'
* @ example DateTime . now ( ) . toSQL ( { includeZone : false } ) //=> '05:15:16.345 America/New_York'
* @ return { string }
* /
toSQLTime ( {
includeOffset = true ,
includeZone = false ,
includeOffsetSpace = true
} = { } ) {
let fmt = "HH:mm:ss.SSS" ;
if ( includeZone || includeOffset ) {
if ( includeOffsetSpace ) {
fmt += " " ;
}
if ( includeZone ) {
fmt += "z" ;
} else if ( includeOffset ) {
fmt += "ZZ" ;
}
}
return toTechFormat ( this , fmt , true ) ;
}
/ * *
* Returns a string representation of this DateTime appropriate for use in SQL DateTime
* @ param { Object } opts - options
* @ param { boolean } [ opts . includeZone = false ] - include the zone , such as 'America/New_York' . Overrides includeOffset .
* @ param { boolean } [ opts . includeOffset = true ] - include the offset , such as 'Z' or '-04:00'
* @ param { boolean } [ opts . includeOffsetSpace = true ] - include the space between the time and the offset , such as '05:15:16.345 -04:00'
* @ example DateTime . utc ( 2014 , 7 , 13 ) . toSQL ( ) //=> '2014-07-13 00:00:00.000 Z'
* @ example DateTime . local ( 2014 , 7 , 13 ) . toSQL ( ) //=> '2014-07-13 00:00:00.000 -04:00'
* @ example DateTime . local ( 2014 , 7 , 13 ) . toSQL ( { includeOffset : false } ) //=> '2014-07-13 00:00:00.000'
* @ example DateTime . local ( 2014 , 7 , 13 ) . toSQL ( { includeZone : true } ) //=> '2014-07-13 00:00:00.000 America/New_York'
* @ return { string }
* /
toSQL ( opts = { } ) {
if ( ! this . isValid ) {
return null ;
}
return ` ${ this . toSQLDate ( ) } ${ this . toSQLTime ( opts ) } ` ;
}
/ * *
* Returns a string representation of this DateTime appropriate for debugging
* @ return { string }
* /
toString ( ) {
return this . isValid ? this . toISO ( ) : INVALID ;
}
/ * *
* Returns the epoch milliseconds of this DateTime . Alias of { @ link DateTime # toMillis }
* @ return { number }
* /
valueOf ( ) {
return this . toMillis ( ) ;
}
/ * *
* Returns the epoch milliseconds of this DateTime .
* @ return { number }
* /
toMillis ( ) {
return this . isValid ? this . ts : NaN ;
}
/ * *
* Returns the epoch seconds of this DateTime .
* @ return { number }
* /
toSeconds ( ) {
return this . isValid ? this . ts / 1000 : NaN ;
}
/ * *
* Returns the epoch seconds ( as a whole number ) of this DateTime .
* @ return { number }
* /
toUnixInteger ( ) {
return this . isValid ? Math . floor ( this . ts / 1000 ) : NaN ;
}
/ * *
* Returns an ISO 8601 representation of this DateTime appropriate for use in JSON .
* @ return { string }
* /
toJSON ( ) {
return this . toISO ( ) ;
}
/ * *
* Returns a BSON serializable equivalent to this DateTime .
* @ return { Date }
* /
toBSON ( ) {
return this . toJSDate ( ) ;
}
/ * *
* Returns a JavaScript object with this DateTime ' s year , month , day , and so on .
* @ param opts - options for generating the object
* @ param { boolean } [ opts . includeConfig = false ] - include configuration attributes in the output
* @ example DateTime . now ( ) . toObject ( ) //=> { year: 2017, month: 4, day: 22, hour: 20, minute: 49, second: 42, millisecond: 268 }
* @ return { Object }
* /
toObject ( opts = { } ) {
if ( ! this . isValid ) return { } ;
const base = {
... this . c
} ;
if ( opts . includeConfig ) {
base . outputCalendar = this . outputCalendar ;
base . numberingSystem = this . loc . numberingSystem ;
base . locale = this . loc . locale ;
}
return base ;
}
/ * *
* Returns a JavaScript Date equivalent to this DateTime .
* @ return { Date }
* /
toJSDate ( ) {
return new Date ( this . isValid ? this . ts : NaN ) ;
}
// COMPARE
/ * *
* Return the difference between two DateTimes as a Duration .
* @ param { DateTime } otherDateTime - the DateTime to compare this one to
* @ param { string | string [ ] } [ unit = [ 'milliseconds' ] ] - the unit or array of units ( such as 'hours' or 'days' ) to include in the duration .
* @ param { Object } opts - options that affect the creation of the Duration
* @ param { string } [ opts . conversionAccuracy = 'casual' ] - the conversion system to use
* @ example
* var i1 = DateTime . fromISO ( '1982-05-25T09:45' ) ,
* i2 = DateTime . fromISO ( '1983-10-14T10:30' ) ;
* i2 . diff ( i1 ) . toObject ( ) //=> { milliseconds: 43807500000 }
* i2 . diff ( i1 , 'hours' ) . toObject ( ) //=> { hours: 12168.75 }
* i2 . diff ( i1 , [ 'months' , 'days' ] ) . toObject ( ) //=> { months: 16, days: 19.03125 }
* i2 . diff ( i1 , [ 'months' , 'days' , 'hours' ] ) . toObject ( ) //=> { months: 16, days: 19, hours: 0.75 }
* @ return { Duration }
* /
diff ( otherDateTime , unit = "milliseconds" , opts = { } ) {
if ( ! this . isValid || ! otherDateTime . isValid ) {
return Duration . invalid ( "created by diffing an invalid DateTime" ) ;
}
const durOpts = {
locale : this . locale ,
numberingSystem : this . numberingSystem ,
... opts
} ;
const units = maybeArray ( unit ) . map ( Duration . normalizeUnit ) ,
otherIsLater = otherDateTime . valueOf ( ) > this . valueOf ( ) ,
earlier = otherIsLater ? this : otherDateTime ,
later = otherIsLater ? otherDateTime : this ,
diffed = diff ( earlier , later , units , durOpts ) ;
return otherIsLater ? diffed . negate ( ) : diffed ;
}
/ * *
* Return the difference between this DateTime and right now .
* See { @ link DateTime # diff }
* @ param { string | string [ ] } [ unit = [ 'milliseconds' ] ] - the unit or units units ( such as 'hours' or 'days' ) to include in the duration
* @ param { Object } opts - options that affect the creation of the Duration
* @ param { string } [ opts . conversionAccuracy = 'casual' ] - the conversion system to use
* @ return { Duration }
* /
diffNow ( unit = "milliseconds" , opts = { } ) {
return this . diff ( DateTime . now ( ) , unit , opts ) ;
}
/ * *
* Return an Interval spanning between this DateTime and another DateTime
* @ param { DateTime } otherDateTime - the other end point of the Interval
* @ return { Interval }
* /
until ( otherDateTime ) {
return this . isValid ? Interval . fromDateTimes ( this , otherDateTime ) : this ;
}
/ * *
* Return whether this DateTime is in the same unit of time as another DateTime .
* Higher - order units must also be identical for this function to return ` true ` .
* Note that time zones are * * ignored * * in this comparison , which compares the * * local * * calendar time . Use { @ link DateTime # setZone } to convert one of the dates if needed .
* @ param { DateTime } otherDateTime - the other DateTime
* @ param { string } unit - the unit of time to check sameness on
* @ example DateTime . now ( ) . hasSame ( otherDT , 'day' ) ; //~> true if otherDT is in the same current calendar day
* @ return { boolean }
* /
hasSame ( otherDateTime , unit ) {
if ( ! this . isValid ) return false ;
const inputMs = otherDateTime . valueOf ( ) ;
const adjustedToZone = this . setZone ( otherDateTime . zone , {
keepLocalTime : true
} ) ;
return adjustedToZone . startOf ( unit ) <= inputMs && inputMs <= adjustedToZone . endOf ( unit ) ;
}
/ * *
* Equality check
* Two DateTimes are equal if and only if they represent the same millisecond , have the same zone and location , and are both valid .
* To compare just the millisecond values , use ` +dt1 === +dt2 ` .
* @ param { DateTime } other - the other DateTime
* @ return { boolean }
* /
equals ( other ) {
return this . isValid && other . isValid && this . valueOf ( ) === other . valueOf ( ) && this . zone . equals ( other . zone ) && this . loc . equals ( other . loc ) ;
}
/ * *
* Returns a string representation of a this time relative to now , such as "in two days" . Can only internationalize if your
* platform supports Intl . RelativeTimeFormat . Rounds down by default .
* @ param { Object } options - options that affect the output
* @ param { DateTime } [ options . base = DateTime . now ( ) ] - the DateTime to use as the basis to which this time is compared . Defaults to now .
* @ param { string } [ options . style = "long" ] - the style of units , must be "long" , "short" , or "narrow"
* @ param { string | string [ ] } options . unit - use a specific unit or array of units ; if omitted , or an array , the method will pick the best unit . Use an array or one of "years" , "quarters" , "months" , "weeks" , "days" , "hours" , "minutes" , or "seconds"
* @ param { boolean } [ options . round = true ] - whether to round the numbers in the output .
* @ param { number } [ options . padding = 0 ] - padding in milliseconds . This allows you to round up the result if it fits inside the threshold . Don ' t use in combination with { round : false } because the decimal output will include the padding .
* @ param { string } options . locale - override the locale of this DateTime
* @ param { string } options . numberingSystem - override the numberingSystem of this DateTime . The Intl system may choose not to honor this
* @ example DateTime . now ( ) . plus ( { days : 1 } ) . toRelative ( ) //=> "in 1 day"
* @ example DateTime . now ( ) . setLocale ( "es" ) . toRelative ( { days : 1 } ) //=> "dentro de 1 día"
* @ example DateTime . now ( ) . plus ( { days : 1 } ) . toRelative ( { locale : "fr" } ) //=> "dans 23 heures"
* @ example DateTime . now ( ) . minus ( { days : 2 } ) . toRelative ( ) //=> "2 days ago"
* @ example DateTime . now ( ) . minus ( { days : 2 } ) . toRelative ( { unit : "hours" } ) //=> "48 hours ago"
* @ example DateTime . now ( ) . minus ( { hours : 36 } ) . toRelative ( { round : false } ) //=> "1.5 days ago"
* /
toRelative ( options = { } ) {
if ( ! this . isValid ) return null ;
const base = options . base || DateTime . fromObject ( { } , {
zone : this . zone
} ) ,
padding = options . padding ? this < base ? - options . padding : options . padding : 0 ;
let units = [ "years" , "months" , "days" , "hours" , "minutes" , "seconds" ] ;
let unit = options . unit ;
if ( Array . isArray ( options . unit ) ) {
units = options . unit ;
unit = undefined ;
}
return diffRelative ( base , this . plus ( padding ) , {
... options ,
numeric : "always" ,
units ,
unit
} ) ;
}
/ * *
* Returns a string representation of this date relative to today , such as "yesterday" or "next month" .
* Only internationalizes on platforms that supports Intl . RelativeTimeFormat .
* @ param { Object } options - options that affect the output
* @ param { DateTime } [ options . base = DateTime . now ( ) ] - the DateTime to use as the basis to which this time is compared . Defaults to now .
* @ param { string } options . locale - override the locale of this DateTime
* @ param { string } options . unit - use a specific unit ; if omitted , the method will pick the unit . Use one of "years" , "quarters" , "months" , "weeks" , or "days"
* @ param { string } options . numberingSystem - override the numberingSystem of this DateTime . The Intl system may choose not to honor this
* @ example DateTime . now ( ) . plus ( { days : 1 } ) . toRelativeCalendar ( ) //=> "tomorrow"
* @ example DateTime . now ( ) . setLocale ( "es" ) . plus ( { days : 1 } ) . toRelative ( ) //=> ""mañana"
* @ example DateTime . now ( ) . plus ( { days : 1 } ) . toRelativeCalendar ( { locale : "fr" } ) //=> "demain"
* @ example DateTime . now ( ) . minus ( { days : 2 } ) . toRelativeCalendar ( ) //=> "2 days ago"
* /
toRelativeCalendar ( options = { } ) {
if ( ! this . isValid ) return null ;
return diffRelative ( options . base || DateTime . fromObject ( { } , {
zone : this . zone
} ) , this , {
... options ,
numeric : "auto" ,
units : [ "years" , "months" , "days" ] ,
calendary : true
} ) ;
}
/ * *
* Return the min of several date times
* @ param { ... DateTime } dateTimes - the DateTimes from which to choose the minimum
* @ return { DateTime } the min DateTime , or undefined if called with no argument
* /
static min ( ... dateTimes ) {
if ( ! dateTimes . every ( DateTime . isDateTime ) ) {
throw new InvalidArgumentError ( "min requires all arguments be DateTimes" ) ;
}
return bestBy ( dateTimes , i => i . valueOf ( ) , Math . min ) ;
}
/ * *
* Return the max of several date times
* @ param { ... DateTime } dateTimes - the DateTimes from which to choose the maximum
* @ return { DateTime } the max DateTime , or undefined if called with no argument
* /
static max ( ... dateTimes ) {
if ( ! dateTimes . every ( DateTime . isDateTime ) ) {
throw new InvalidArgumentError ( "max requires all arguments be DateTimes" ) ;
}
return bestBy ( dateTimes , i => i . valueOf ( ) , Math . max ) ;
}
// MISC
/ * *
* Explain how a string would be parsed by fromFormat ( )
* @ param { string } text - the string to parse
* @ param { string } fmt - the format the string is expected to be in ( see description )
* @ param { Object } options - options taken by fromFormat ( )
* @ return { Object }
* /
static fromFormatExplain ( text , fmt , options = { } ) {
const {
locale = null ,
numberingSystem = null
} = options ,
localeToUse = Locale . fromOpts ( {
locale ,
numberingSystem ,
defaultToEN : true
} ) ;
return explainFromTokens ( localeToUse , text , fmt ) ;
}
/ * *
* @ deprecated use fromFormatExplain instead
* /
static fromStringExplain ( text , fmt , options = { } ) {
return DateTime . fromFormatExplain ( text , fmt , options ) ;
}
// FORMAT PRESETS
/ * *
* { @ link DateTime # toLocaleString } format like 10 / 14 / 1983
* @ type { Object }
* /
static get DATE _SHORT ( ) {
return DATE _SHORT ;
}
/ * *
* { @ link DateTime # toLocaleString } format like 'Oct 14, 1983'
* @ type { Object }
* /
static get DATE _MED ( ) {
return DATE _MED ;
}
/ * *
* { @ link DateTime # toLocaleString } format like 'Fri, Oct 14, 1983'
* @ type { Object }
* /
static get DATE _MED _WITH _WEEKDAY ( ) {
return DATE _MED _WITH _WEEKDAY ;
}
/ * *
* { @ link DateTime # toLocaleString } format like 'October 14, 1983'
* @ type { Object }
* /
static get DATE _FULL ( ) {
return DATE _FULL ;
}
/ * *
* { @ link DateTime # toLocaleString } format like 'Tuesday, October 14, 1983'
* @ type { Object }
* /
static get DATE _HUGE ( ) {
return DATE _HUGE ;
}
/ * *
* { @ link DateTime # toLocaleString } format like '09:30 AM' . Only 12 - hour if the locale is .
* @ type { Object }
* /
static get TIME _SIMPLE ( ) {
return TIME _SIMPLE ;
}
/ * *
* { @ link DateTime # toLocaleString } format like '09:30:23 AM' . Only 12 - hour if the locale is .
* @ type { Object }
* /
static get TIME _WITH _SECONDS ( ) {
return TIME _WITH _SECONDS ;
}
/ * *
* { @ link DateTime # toLocaleString } format like '09:30:23 AM EDT' . Only 12 - hour if the locale is .
* @ type { Object }
* /
static get TIME _WITH _SHORT _OFFSET ( ) {
return TIME _WITH _SHORT _OFFSET ;
}
/ * *
* { @ link DateTime # toLocaleString } format like '09:30:23 AM Eastern Daylight Time' . Only 12 - hour if the locale is .
* @ type { Object }
* /
static get TIME _WITH _LONG _OFFSET ( ) {
return TIME _WITH _LONG _OFFSET ;
}
/ * *
* { @ link DateTime # toLocaleString } format like '09:30' , always 24 - hour .
* @ type { Object }
* /
static get TIME _24 _SIMPLE ( ) {
return TIME _24 _SIMPLE ;
}
/ * *
* { @ link DateTime # toLocaleString } format like '09:30:23' , always 24 - hour .
* @ type { Object }
* /
static get TIME _24 _WITH _SECONDS ( ) {
return TIME _24 _WITH _SECONDS ;
}
/ * *
* { @ link DateTime # toLocaleString } format like '09:30:23 EDT' , always 24 - hour .
* @ type { Object }
* /
static get TIME _24 _WITH _SHORT _OFFSET ( ) {
return TIME _24 _WITH _SHORT _OFFSET ;
}
/ * *
* { @ link DateTime # toLocaleString } format like '09:30:23 Eastern Daylight Time' , always 24 - hour .
* @ type { Object }
* /
static get TIME _24 _WITH _LONG _OFFSET ( ) {
return TIME _24 _WITH _LONG _OFFSET ;
}
/ * *
* { @ link DateTime # toLocaleString } format like '10/14/1983, 9:30 AM' . Only 12 - hour if the locale is .
* @ type { Object }
* /
static get DATETIME _SHORT ( ) {
return DATETIME _SHORT ;
}
/ * *
* { @ link DateTime # toLocaleString } format like '10/14/1983, 9:30:33 AM' . Only 12 - hour if the locale is .
* @ type { Object }
* /
static get DATETIME _SHORT _WITH _SECONDS ( ) {
return DATETIME _SHORT _WITH _SECONDS ;
}
/ * *
* { @ link DateTime # toLocaleString } format like 'Oct 14, 1983, 9:30 AM' . Only 12 - hour if the locale is .
* @ type { Object }
* /
static get DATETIME _MED ( ) {
return DATETIME _MED ;
}
/ * *
* { @ link DateTime # toLocaleString } format like 'Oct 14, 1983, 9:30:33 AM' . Only 12 - hour if the locale is .
* @ type { Object }
* /
static get DATETIME _MED _WITH _SECONDS ( ) {
return DATETIME _MED _WITH _SECONDS ;
}
/ * *
* { @ link DateTime # toLocaleString } format like 'Fri, 14 Oct 1983, 9:30 AM' . Only 12 - hour if the locale is .
* @ type { Object }
* /
static get DATETIME _MED _WITH _WEEKDAY ( ) {
return DATETIME _MED _WITH _WEEKDAY ;
}
/ * *
* { @ link DateTime # toLocaleString } format like 'October 14, 1983, 9:30 AM EDT' . Only 12 - hour if the locale is .
* @ type { Object }
* /
static get DATETIME _FULL ( ) {
return DATETIME _FULL ;
}
/ * *
* { @ link DateTime # toLocaleString } format like 'October 14, 1983, 9:30:33 AM EDT' . Only 12 - hour if the locale is .
* @ type { Object }
* /
static get DATETIME _FULL _WITH _SECONDS ( ) {
return DATETIME _FULL _WITH _SECONDS ;
}
/ * *
* { @ link DateTime # toLocaleString } format like 'Friday, October 14, 1983, 9:30 AM Eastern Daylight Time' . Only 12 - hour if the locale is .
* @ type { Object }
* /
static get DATETIME _HUGE ( ) {
return DATETIME _HUGE ;
}
/ * *
* { @ link DateTime # toLocaleString } format like 'Friday, October 14, 1983, 9:30:33 AM Eastern Daylight Time' . Only 12 - hour if the locale is .
* @ type { Object }
* /
static get DATETIME _HUGE _WITH _SECONDS ( ) {
return DATETIME _HUGE _WITH _SECONDS ;
}
}
/ * *
* @ private
* /
function friendlyDateTime ( dateTimeish ) {
if ( DateTime . isDateTime ( dateTimeish ) ) {
return dateTimeish ;
} else if ( dateTimeish && dateTimeish . valueOf && isNumber ( dateTimeish . valueOf ( ) ) ) {
return DateTime . fromJSDate ( dateTimeish ) ;
} else if ( dateTimeish && typeof dateTimeish === "object" ) {
return DateTime . fromObject ( dateTimeish ) ;
} else {
throw new InvalidArgumentError ( ` Unknown datetime argument: ${ dateTimeish } , of type ${ typeof dateTimeish } ` ) ;
}
}
const VERSION = "3.4.3" ;
exports . DateTime = DateTime ;
exports . Duration = Duration ;
exports . FixedOffsetZone = FixedOffsetZone ;
exports . IANAZone = IANAZone ;
exports . Info = Info ;
exports . Interval = Interval ;
exports . InvalidZone = InvalidZone ;
exports . Settings = Settings ;
exports . SystemZone = SystemZone ;
exports . VERSION = VERSION ;
exports . Zone = Zone ;
//# sourceMappingURL=luxon.js.map