public interface Chronology extends Comparable<Chronology>
The main date and time API is built on the ISO calendar system. The chronology operates behind the scenes to represent the general concept of a calendar system. For example, the Japanese, Minguo, Thai Buddhist and others.
Most other calendar systems also operate on the shared concepts of year, month and day,
linked to the cycles of the Earth around the Sun, and the Moon around the Earth.
These shared concepts are defined by ChronoField
and are available
for use by any Chronology
implementation:
LocalDate isoDate = ... ThaiBuddhistDate thaiDate = ... int isoYear = isoDate.get(ChronoField.YEAR); int thaiYear = thaiDate.get(ChronoField.YEAR);As shown, although the date objects are in different calendar systems, represented by different
Chronology
instances, both can be queried using the same constant on ChronoField
.
For a full discussion of the implications of this, see ChronoLocalDate
.
In general, the advice is to use the known ISO-based LocalDate
, rather than
ChronoLocalDate
.
While a Chronology
object typically uses ChronoField
and is based on
an era, year-of-era, month-of-year, day-of-month model of a date, this is not required.
A Chronology
instance may represent a totally different kind of calendar system,
such as the Mayan.
In practical terms, the Chronology
instance also acts as a factory.
The of(String)
method allows an instance to be looked up by identifier,
while the ofLocale(Locale)
method allows lookup by locale.
The Chronology
instance provides a set of methods to create ChronoLocalDate
instances.
The date classes are used to manipulate specific dates.
dateNow()
dateNow(clock)
dateNow(zone)
date(yearProleptic, month, day)
date(era, yearOfEra, month, day)
dateYearDay(yearProleptic, dayOfYear)
dateYearDay(era, yearOfEra, dayOfYear)
date(TemporalAccessor)
Chronology
, ChronoLocalDate
and Era
.
The majority of the logic specific to the calendar system will be in
ChronoLocalDate
. The Chronology
subclass acts as a factory.
To permit the discovery of additional chronologies, the ServiceLoader
is used. A file must be added to the META-INF/services
directory with the
name 'java.time.chrono.Chronology' listing the implementation classes.
See the ServiceLoader for more details on service loading.
For lookup by id or calendarType, the system provided calendars are found
first followed by application provided calendars.
Each chronology must define a chronology ID that is unique within the system. If the chronology represents a calendar system defined by the CLDR specification then the calendar type is the concatenation of the CLDR type and, if applicable, the CLDR variant,
Modifier and Type | Method and Description |
---|---|
int |
compareTo(Chronology other)
Compares this chronology to another chronology.
|
default ChronoLocalDate |
date(Era era,
int yearOfEra,
int month,
int dayOfMonth)
Obtains a local date in this chronology from the era, year-of-era,
month-of-year and day-of-month fields.
|
ChronoLocalDate |
date(int prolepticYear,
int month,
int dayOfMonth)
Obtains a local date in this chronology from the proleptic-year,
month-of-year and day-of-month fields.
|
ChronoLocalDate |
date(TemporalAccessor temporal)
Obtains a local date in this chronology from another temporal object.
|
ChronoLocalDate |
dateEpochDay(long epochDay)
Obtains a local date in this chronology from the epoch-day.
|
default ChronoLocalDate |
dateNow()
Obtains the current local date in this chronology from the system clock in the default time-zone.
|
default ChronoLocalDate |
dateNow(Clock clock)
Obtains the current local date in this chronology from the specified clock.
|
default ChronoLocalDate |
dateNow(ZoneId zone)
Obtains the current local date in this chronology from the system clock in the specified time-zone.
|
default ChronoLocalDate |
dateYearDay(Era era,
int yearOfEra,
int dayOfYear)
Obtains a local date in this chronology from the era, year-of-era and
day-of-year fields.
|
ChronoLocalDate |
dateYearDay(int prolepticYear,
int dayOfYear)
Obtains a local date in this chronology from the proleptic-year and
day-of-year fields.
|
boolean |
equals(Object obj)
Checks if this chronology is equal to another chronology.
|
Era |
eraOf(int eraValue)
Creates the chronology era object from the numeric value.
|
List<Era> |
eras()
Gets the list of eras for the chronology.
|
static Chronology |
from(TemporalAccessor temporal)
Obtains an instance of
Chronology from a temporal object. |
static Set<Chronology> |
getAvailableChronologies()
Returns the available chronologies.
|
String |
getCalendarType()
Gets the calendar type of the calendar system.
|
default String |
getDisplayName(TextStyle style,
Locale locale)
Gets the textual representation of this chronology.
|
String |
getId()
Gets the ID of the chronology.
|
int |
hashCode()
A hash code for this chronology.
|
boolean |
isLeapYear(long prolepticYear)
Checks if the specified year is a leap year.
|
default ChronoLocalDateTime<? extends ChronoLocalDate> |
localDateTime(TemporalAccessor temporal)
Obtains a local date-time in this chronology from another temporal object.
|
static Chronology |
of(String id)
Obtains an instance of
Chronology from a chronology ID or
calendar system type. |
static Chronology |
ofLocale(Locale locale)
Obtains an instance of
Chronology from a locale. |
default ChronoPeriod |
period(int years,
int months,
int days)
Obtains a period for this chronology based on years, months and days.
|
int |
prolepticYear(Era era,
int yearOfEra)
Calculates the proleptic-year given the era and year-of-era.
|
ValueRange |
range(ChronoField field)
Gets the range of valid values for the specified field.
|
ChronoLocalDate |
resolveDate(Map<TemporalField,Long> fieldValues,
ResolverStyle resolverStyle)
Resolves parsed
ChronoField values into a date during parsing. |
String |
toString()
Outputs this chronology as a
String . |
default ChronoZonedDateTime<? extends ChronoLocalDate> |
zonedDateTime(Instant instant,
ZoneId zone)
Obtains a
ChronoZonedDateTime in this chronology from an Instant . |
default ChronoZonedDateTime<? extends ChronoLocalDate> |
zonedDateTime(TemporalAccessor temporal)
Obtains a
ChronoZonedDateTime in this chronology from another temporal object. |
static Chronology from(TemporalAccessor temporal)
Chronology
from a temporal object.
This obtains a chronology based on the specified temporal.
A TemporalAccessor
represents an arbitrary set of date and time information,
which this factory converts to an instance of Chronology
.
The conversion will obtain the chronology using TemporalQueries.chronology()
.
If the specified temporal object does not have a chronology, IsoChronology
is returned.
This method matches the signature of the functional interface TemporalQuery
allowing it to be used in queries via method reference, Chronology::from
.
temporal
- the temporal to convert, not nullDateTimeException
- if unable to convert to an Chronology
static Chronology ofLocale(Locale locale)
Chronology
from a locale.
This returns a Chronology
based on the specified locale,
typically returning IsoChronology
. Other calendar systems
are only returned if they are explicitly selected within the locale.
The Locale
class provide access to a range of information useful
for localizing an application. This includes the language and region,
such as "en-GB" for English as used in Great Britain.
The Locale
class also supports an extension mechanism that
can be used to identify a calendar system. The mechanism is a form
of key-value pairs, where the calendar system has the key "ca".
For example, the locale "en-JP-u-ca-japanese" represents the English
language as used in Japan with the Japanese calendar system.
This method finds the desired calendar system by in a manner equivalent
to passing "ca" to Locale.getUnicodeLocaleType(String)
.
If the "ca" key is not present, then IsoChronology
is returned.
Note that the behavior of this method differs from the older
Calendar.getInstance(Locale)
method.
If that method receives a locale of "th_TH" it will return BuddhistCalendar
.
By contrast, this method will return IsoChronology
.
Passing the locale "th-TH-u-ca-buddhist" into either method will
result in the Thai Buddhist calendar system and is therefore the
recommended approach going forward for Thai calendar system localization.
A similar, but simpler, situation occurs for the Japanese calendar system.
The locale "jp_JP_JP" has previously been used to access the calendar.
However, unlike the Thai locale, "ja_JP_JP" is automatically converted by
Locale
to the modern and recommended form of "ja-JP-u-ca-japanese".
Thus, there is no difference in behavior between this method and
Calendar#getInstance(Locale)
.
locale
- the locale to use to obtain the calendar system, not nullDateTimeException
- if the locale-specified calendar cannot be foundstatic Chronology of(String id)
Chronology
from a chronology ID or
calendar system type.
This returns a chronology based on either the ID or the type.
The chronology ID
uniquely identifies the chronology.
The calendar system type
is defined by the
CLDR specification.
The chronology may be a system chronology or a chronology provided by the application via ServiceLoader configuration.
Since some calendars can be customized, the ID or type typically refers to the default customization. For example, the Gregorian calendar can have multiple cutover dates from the Julian, but the lookup only provides the default cutover date.
id
- the chronology ID or calendar system type, not nullDateTimeException
- if the chronology cannot be foundstatic Set<Chronology> getAvailableChronologies()
Each returned Chronology
is available for use in the system.
The set of chronologies includes the system chronologies and
any chronologies provided by the application via ServiceLoader
configuration.
String getId()
The ID uniquely identifies the Chronology
.
It can be used to lookup the Chronology
using of(String)
.
getCalendarType()
String getCalendarType()
The calendar type is an identifier defined by the CLDR and
Unicode Locale Data Markup Language (LDML) specifications
to uniquely identification a calendar.
The getCalendarType
is the concatenation of the CLDR calendar type
and the variant, if applicable, is appended separated by "-".
The calendar type is used to lookup the Chronology
using of(String)
.
getId()
default ChronoLocalDate date(Era era, int yearOfEra, int month, int dayOfMonth)
date(int, int, int)
.era
- the era of the correct type for the chronology, not nullyearOfEra
- the chronology year-of-eramonth
- the chronology month-of-yeardayOfMonth
- the chronology day-of-monthDateTimeException
- if unable to create the dateClassCastException
- if the era
is not of the correct type for the chronologyChronoLocalDate date(int prolepticYear, int month, int dayOfMonth)
prolepticYear
- the chronology proleptic-yearmonth
- the chronology month-of-yeardayOfMonth
- the chronology day-of-monthDateTimeException
- if unable to create the datedefault ChronoLocalDate dateYearDay(Era era, int yearOfEra, int dayOfYear)
dateYearDay(int, int)
.era
- the era of the correct type for the chronology, not nullyearOfEra
- the chronology year-of-eradayOfYear
- the chronology day-of-yearDateTimeException
- if unable to create the dateClassCastException
- if the era
is not of the correct type for the chronologyChronoLocalDate dateYearDay(int prolepticYear, int dayOfYear)
prolepticYear
- the chronology proleptic-yeardayOfYear
- the chronology day-of-yearDateTimeException
- if unable to create the dateChronoLocalDate dateEpochDay(long epochDay)
The definition of EPOCH_DAY
is the same
for all calendar systems, thus it can be used for conversion.
epochDay
- the epoch dayDateTimeException
- if unable to create the datedefault ChronoLocalDate dateNow()
This will query the system clock
in the default
time-zone to obtain the current date.
Using this method will prevent the ability to use an alternate clock for testing because the clock is hard-coded.
dateNow(Clock)
.DateTimeException
- if unable to create the datedefault ChronoLocalDate dateNow(ZoneId zone)
This will query the system clock
to obtain the current date.
Specifying the time-zone avoids dependence on the default time-zone.
Using this method will prevent the ability to use an alternate clock for testing because the clock is hard-coded.
dateNow(Clock)
.zone
- the zone ID to use, not nullDateTimeException
- if unable to create the datedefault ChronoLocalDate dateNow(Clock clock)
This will query the specified clock to obtain the current date - today.
Using this method allows the use of an alternate clock for testing.
The alternate clock may be introduced using dependency injection
.
date(TemporalAccessor)
)}.clock
- the clock to use, not nullDateTimeException
- if unable to create the dateChronoLocalDate date(TemporalAccessor temporal)
This obtains a date in this chronology based on the specified temporal.
A TemporalAccessor
represents an arbitrary set of date and time information,
which this factory converts to an instance of ChronoLocalDate
.
The conversion typically uses the EPOCH_DAY
field, which is standardized across calendar systems.
This method matches the signature of the functional interface TemporalQuery
allowing it to be used as a query via method reference, aChronology::date
.
temporal
- the temporal object to convert, not nullDateTimeException
- if unable to create the dateChronoLocalDate.from(TemporalAccessor)
default ChronoLocalDateTime<? extends ChronoLocalDate> localDateTime(TemporalAccessor temporal)
This obtains a date-time in this chronology based on the specified temporal.
A TemporalAccessor
represents an arbitrary set of date and time information,
which this factory converts to an instance of ChronoLocalDateTime
.
The conversion extracts and combines the ChronoLocalDate
and the
LocalTime
from the temporal object.
Implementations are permitted to perform optimizations such as accessing
those fields that are equivalent to the relevant objects.
The result uses this chronology.
This method matches the signature of the functional interface TemporalQuery
allowing it to be used as a query via method reference, aChronology::localDateTime
.
temporal
- the temporal object to convert, not nullDateTimeException
- if unable to create the date-timeChronoLocalDateTime.from(TemporalAccessor)
default ChronoZonedDateTime<? extends ChronoLocalDate> zonedDateTime(TemporalAccessor temporal)
ChronoZonedDateTime
in this chronology from another temporal object.
This obtains a zoned date-time in this chronology based on the specified temporal.
A TemporalAccessor
represents an arbitrary set of date and time information,
which this factory converts to an instance of ChronoZonedDateTime
.
The conversion will first obtain a ZoneId
from the temporal object,
falling back to a ZoneOffset
if necessary. It will then try to obtain
an Instant
, falling back to a ChronoLocalDateTime
if necessary.
The result will be either the combination of ZoneId
or ZoneOffset
with Instant
or ChronoLocalDateTime
.
Implementations are permitted to perform optimizations such as accessing
those fields that are equivalent to the relevant objects.
The result uses this chronology.
This method matches the signature of the functional interface TemporalQuery
allowing it to be used as a query via method reference, aChronology::zonedDateTime
.
temporal
- the temporal object to convert, not nullDateTimeException
- if unable to create the date-timeChronoZonedDateTime.from(TemporalAccessor)
default ChronoZonedDateTime<? extends ChronoLocalDate> zonedDateTime(Instant instant, ZoneId zone)
ChronoZonedDateTime
in this chronology from an Instant
.
This obtains a zoned date-time with the same instant as that specified.
instant
- the instant to create the date-time from, not nullzone
- the time-zone, not nullDateTimeException
- if the result exceeds the supported rangeboolean isLeapYear(long prolepticYear)
A leap-year is a year of a longer length than normal. The exact meaning is determined by the chronology according to the following constraints.
prolepticYear
- the proleptic-year to check, not validated for rangeint prolepticYear(Era era, int yearOfEra)
This combines the era and year-of-era into the single proleptic-year field.
If the chronology makes active use of eras, such as JapaneseChronology
then the year-of-era will be validated against the era.
For other chronologies, validation is optional.
era
- the era of the correct type for the chronology, not nullyearOfEra
- the chronology year-of-eraDateTimeException
- if unable to convert to a proleptic-year,
such as if the year is invalid for the eraClassCastException
- if the era
is not of the correct type for the chronologyEra eraOf(int eraValue)
The era is, conceptually, the largest division of the time-line. Most calendar systems have a single epoch dividing the time-line into two eras. However, some have multiple eras, such as one for the reign of each leader. The exact meaning is determined by the chronology according to the following constraints.
The era in use at 1970-01-01 must have the value 1. Later eras must have sequentially higher values. Earlier eras must have sequentially lower values. Each chronology must refer to an enum or similar singleton to provide the era values.
This method returns the singleton era of the correct type for the specified era value.
eraValue
- the era valueDateTimeException
- if unable to create the eraList<Era> eras()
Most calendar systems have an era, within which the year has meaning. If the calendar system does not support the concept of eras, an empty list must be returned.
ValueRange range(ChronoField field)
All fields can be expressed as a long
integer.
This method returns an object that describes the valid range for that value.
Note that the result only describes the minimum and maximum valid values and it is important not to read too much into them. For example, there could be values within the range that are invalid for the field.
This method will return a result whether or not the chronology supports the field.
field
- the field to get the range for, not nullDateTimeException
- if the range for the field cannot be obtaineddefault String getDisplayName(TextStyle style, Locale locale)
This returns the textual name used to identify the chronology, suitable for presentation to the user. The parameters control the style of the returned text and the locale.
style
- the style of the text required, not nulllocale
- the locale to use, not nullChronoLocalDate resolveDate(Map<TemporalField,Long> fieldValues, ResolverStyle resolverStyle)
ChronoField
values into a date during parsing.
Most TemporalField
implementations are resolved using the
resolve method on the field. By contrast, the ChronoField
class
defines fields that only have meaning relative to the chronology.
As such, ChronoField
date fields are resolved here in the
context of a specific chronology.
The default implementation, which explains typical resolve behaviour,
is provided in AbstractChronology
.
fieldValues
- the map of fields to values, which can be updated, not nullresolverStyle
- the requested type of resolve, not nullDateTimeException
- if the date cannot be resolved, typically
because of a conflict in the input datadefault ChronoPeriod period(int years, int months, int days)
This returns a period tied to this chronology using the specified
years, months and days. All supplied chronologies use periods
based on years, months and days, however the ChronoPeriod
API
allows the period to be represented using other units.
range(ChronoField)
. If the number of
months within a year is fixed, then the calculation approach for
addition, subtraction and normalization is slightly different.
If implementing an unusual calendar system that is not based on
years, months and days, or where you want direct control, then
the ChronoPeriod
interface must be directly implemented.
The returned period is immutable and thread-safe.
years
- the number of years, may be negativemonths
- the number of years, may be negativedays
- the number of years, may be negativeint compareTo(Chronology other)
The comparison order first by the chronology ID string, then by any
additional information specific to the subclass.
It is "consistent with equals", as defined by Comparable
.
compareTo
in interface Comparable<Chronology>
other
- the other chronology to compare to, not nullboolean equals(Object obj)
The comparison is based on the entire state of the object.
equals
in class Object
obj
- the object to check, null returns falseObject.hashCode()
,
HashMap
int hashCode()
The hash code should be based on the entire state of the object.
hashCode
in class Object
Object.equals(java.lang.Object)
,
System.identityHashCode(java.lang.Object)
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