Calendar
abstract class Calendar : Cloneable, Comparable<Calendar!>, Serializable
kotlin.Any | |
↳ | android.icu.util.Calendar |
[icu enhancement] ICU's replacement for java.util.Calendar
. Methods, fields, and other functionality specific to ICU are labeled '[icu]'.
Calendar
is an abstract base class for converting between a Date
object and a set of integer fields such as YEAR
, MONTH
, DAY
, HOUR
, and so on. (A Date
object represents a specific instant in time with millisecond precision. See Date
for information about the Date
class.)
Subclasses of Calendar
interpret a Date
according to the rules of a specific calendar system. ICU4J contains several subclasses implementing different international calendar systems.
Like other locale-sensitive classes, Calendar
provides a class method, getInstance
, for getting a generally useful object of this type. Calendar
's getInstance
method returns a calendar of a type appropriate to the locale, whose time fields have been initialized with the current date and time:
Calendar rightNow = Calendar.getInstance()
When a ULocale
is used by getInstance
, its 'calendar
' tag and value are retrieved if present. If a recognized value is supplied, a calendar is provided and configured as appropriate. Currently recognized tags are "buddhist", "chinese", "coptic", "ethiopic", "gregorian", "hebrew", "islamic", "islamic-civil", "japanese", and "roc". For example:
Calendar cal = Calendar.getInstance(new ULocale("en_US@calendar=japanese"));
A Calendar
object can produce all the time field values needed to implement the date-time formatting for a particular language and calendar style (for example, Japanese-Gregorian, Japanese-Traditional). Calendar
defines the range of values returned by certain fields, as well as their meaning. For example, the first month of the year has value MONTH
== JANUARY
for all calendars. Other values are defined by the concrete subclass, such as ERA
and YEAR
. See individual field documentation and subclass documentation for details.
When a Calendar
is lenient, it accepts a wider range of field values than it produces. For example, a lenient GregorianCalendar
interprets MONTH
== JANUARY
, DAY_OF_MONTH
== 32 as February 1. A non-lenient GregorianCalendar
throws an exception when given out-of-range field settings. When calendars recompute field values for return by get()
, they normalize them. For example, a GregorianCalendar
always produces DAY_OF_MONTH
values between 1 and the length of the month.
Calendar
defines a locale-specific seven day week using two parameters: the first day of the week and the minimal days in first week (from 1 to 7). These numbers are taken from the locale resource data when a Calendar
is constructed. They may also be specified explicitly through the API.
When setting or getting the WEEK_OF_MONTH
or WEEK_OF_YEAR
fields, Calendar
must determine the first week of the month or year as a reference point. The first week of a month or year is defined as the earliest seven day period beginning on getFirstDayOfWeek()
and containing at least getMinimalDaysInFirstWeek()
days of that month or year. Weeks numbered ..., -1, 0 precede the first week; weeks numbered 2, 3,... follow it. Note that the normalized numbering returned by get()
may be different. For example, a specific Calendar
subclass may designate the week before week 1 of a year as week n of the previous year.
When computing a Date
from time fields, some special circumstances may arise: there may be insufficient information to compute the Date
(such as only year and month but no day in the month), there may be inconsistent information (such as "Tuesday, July 15, 1996" -- July 15, 1996 is actually a Monday), or the input time might be ambiguous because of time zone transition.
Insufficient information. The calendar will use default information to specify the missing fields. This may vary by calendar; for the Gregorian calendar, the default for a field is the same as that of the start of the epoch: i.e., YEAR = 1970, MONTH = JANUARY, DATE = 1, etc.
Inconsistent information. If fields conflict, the calendar will give preference to fields set more recently. For example, when determining the day, the calendar will look for one of the following combinations of fields. The most recent combination, as determined by the most recently set single field, will be used.
MONTH + DAY_OF_MONTH MONTH + WEEK_OF_MONTH + DAY_OF_WEEK MONTH + DAY_OF_WEEK_IN_MONTH + DAY_OF_WEEK DAY_OF_YEAR DAY_OF_WEEK + WEEK_OF_YEAR
HOUR_OF_DAY AM_PM + HOUR
Ambiguous Wall Clock Time. When time offset from UTC has changed, it produces an ambiguous time slot around the transition. For example, many US locations observe daylight saving time. On the date switching to daylight saving time in US, wall clock time jumps from 12:59 AM (standard) to 2:00 AM (daylight). Therefore, wall clock time from 1:00 AM to 1:59 AM do not exist on the date. When the input wall time fall into this missing time slot, the ICU Calendar resolves the time using the UTC offset before the transition by default. In this example, 1:30 AM is interpreted as 1:30 AM standard time (non-exist), so the final result will be 2:30 AM daylight time.
On the date switching back to standard time, wall clock time is moved back one hour at 2:00 AM. So wall clock time from 1:00 AM to 1:59 AM occur twice. In this case, the ICU Calendar resolves the time using the UTC offset after the transition by default. For example, 1:30 AM on the date is resolved as 1:30 AM standard time.
Ambiguous wall clock time resolution behaviors can be customized by Calendar APIs setRepeatedWallTimeOption(int)
and setSkippedWallTimeOption(int)
. These methods are available in ICU 49 or later versions.
Note: for some non-Gregorian calendars, different fields may be necessary for complete disambiguation. For example, a full specification of the historial Arabic astronomical calendar requires year, month, day-of-month and day-of-week in some cases.
Note: There are certain possible ambiguities in interpretation of certain singular times, which are resolved in the following ways:
- 24:00:00 "belongs" to the following day. That is, 23:59 on Dec 31, 1969 < 24:00 on Jan 1, 1970 < 24:01:00 on Jan 1, 1970
- Although historically not precise, midnight also belongs to "am", and noon belongs to "pm", so on the same day, 12:00 am (midnight) < 12:01 am, and 12:00 pm (noon) < 12:01 pm
The date or time format strings are not part of the definition of a calendar, as those must be modifiable or overridable by the user at runtime. Use DateFormat
to format dates.
Field manipulation methods
Calendar
fields can be changed using three methods: set()
, add()
, and roll()
.
set(f, value)
changes field f
to value
. In addition, it sets an internal member variable to indicate that field f
has been changed. Although field f
is changed immediately, the calendar's milliseconds is not recomputed until the next call to get()
, getTime()
, or getTimeInMillis()
is made. Thus, multiple calls to set()
do not trigger multiple, unnecessary computations. As a result of changing a field using set()
, other fields may also change, depending on the field, the field value, and the calendar system. In addition, get(f)
will not necessarily return value
after the fields have been recomputed. The specifics are determined by the concrete calendar class.
Example: Consider a GregorianCalendar
originally set to August 31, 1999. Calling set(Calendar.MONTH, Calendar.SEPTEMBER)
sets the calendar to September 31, 1999. This is a temporary internal representation that resolves to October 1, 1999 if getTime()
is then called. However, a call to set(Calendar.DAY_OF_MONTH, 30)
before the call to getTime()
sets the calendar to September 30, 1999, since no recomputation occurs after set()
itself.
add(f, delta)
adds delta
to field f
. This is equivalent to calling set(f, get(f) + delta)
with two adjustments:
Add rule 1. The value of field f
after the call minus the value of field f
before the call is delta
, modulo any overflow that has occurred in field f
. Overflow occurs when a field value exceeds its range and, as a result, the next larger field is incremented or decremented and the field value is adjusted back into its range.
Add rule 2. If a smaller field is expected to be invariant, but it is impossible for it to be equal to its prior value because of changes in its minimum or maximum after field f
is changed, then its value is adjusted to be as close as possible to its expected value. A smaller field represents a smaller unit of time. HOUR
is a smaller field than DAY_OF_MONTH
. No adjustment is made to smaller fields that are not expected to be invariant. The calendar system determines what fields are expected to be invariant.
In addition, unlike set()
, add()
forces an immediate recomputation of the calendar's milliseconds and all fields.
Example: Consider a GregorianCalendar
originally set to August 31, 1999. Calling add(Calendar.MONTH, 13)
sets the calendar to September 30, 2000. Add rule 1 sets the MONTH
field to September, since adding 13 months to August gives September of the next year. Since DAY_OF_MONTH
cannot be 31 in September in a GregorianCalendar
, add rule 2 sets the DAY_OF_MONTH
to 30, the closest possible value. Although it is a smaller field, DAY_OF_WEEK
is not adjusted by rule 2, since it is expected to change when the month changes in a GregorianCalendar
.
roll(f, delta)
adds delta
to field f
without changing larger fields. This is equivalent to calling add(f, delta)
with the following adjustment:
Roll rule. Larger fields are unchanged after the call. A larger field represents a larger unit of time. DAY_OF_MONTH
is a larger field than HOUR
.
Example: Consider a GregorianCalendar
originally set to August 31, 1999. Calling roll(Calendar.MONTH, 8)
sets the calendar to April 30, 1999. Add rule 1 sets the MONTH
field to April. Using a GregorianCalendar
, the DAY_OF_MONTH
cannot be 31 in the month April. Add rule 2 sets it to the closest possible value, 30. Finally, the roll rule maintains the YEAR
field value of 1999.
Example: Consider a GregorianCalendar
originally set to Sunday June 6, 1999. Calling roll(Calendar.WEEK_OF_MONTH, -1)
sets the calendar to Tuesday June 1, 1999, whereas calling add(Calendar.WEEK_OF_MONTH, -1)
sets the calendar to Sunday May 30, 1999. This is because the roll rule imposes an additional constraint: The MONTH
must not change when the WEEK_OF_MONTH
is rolled. Taken together with add rule 1, the resultant date must be between Tuesday June 1 and Saturday June 5. According to add rule 2, the DAY_OF_WEEK
, an invariant when changing the WEEK_OF_MONTH
, is set to Tuesday, the closest possible value to Sunday (where Sunday is the first day of the week).
Usage model. To motivate the behavior of add()
and roll()
, consider a user interface component with increment and decrement buttons for the month, day, and year, and an underlying GregorianCalendar
. If the interface reads January 31, 1999 and the user presses the month increment button, what should it read? If the underlying implementation uses set()
, it might read March 3, 1999. A better result would be February 28, 1999. Furthermore, if the user presses the month increment button again, it should read March 31, 1999, not March 28, 1999. By saving the original date and using either add()
or roll()
, depending on whether larger fields should be affected, the user interface can behave as most users will intuitively expect.
Note: You should always use #roll and add
rather than attempting to perform arithmetic operations directly on the fields of a Calendar. It is quite possible for Calendar subclasses to have fields with non-linear behavior, for example missing months or days during non-leap years. The subclasses' add and roll methods will take this into account, while simple arithmetic manipulations may give invalid results.
Calendar Architecture in ICU4J
Recently the implementation of Calendar
has changed significantly in order to better support subclassing. The original Calendar
class was designed to support subclassing, but it had only one implemented subclass, GregorianCalendar
. With the implementation of several new calendar subclasses, including the BuddhistCalendar
, ChineseCalendar
, HebrewCalendar
, IslamicCalendar
, and JapaneseCalendar
, the subclassing API has been reworked thoroughly. This section details the new subclassing API and other ways in which android.icu.util.Calendar
differs from java.util.Calendar
.
Changes
Overview of changes between the classic Calendar
architecture and the new architecture.
- The
fields[]
array isprivate
now instead ofprotected
. Subclasses must access it using the methodsinternalSet
and #internalGet. Motivation: Subclasses should not directly access data members. - The
time
long word isprivate
now instead ofprotected
. Subclasses may access it using the methodinternalGetTimeInMillis
, which does not provoke an update. Motivation: Subclasses should not directly access data members. - The scope of responsibility of subclasses has been drastically reduced. As much functionality as possible is implemented in the
Calendar
base class. As a result, it is much easier to subclassCalendar
. Motivation: Subclasses should not have to reimplement common code. Certain behaviors are common across calendar systems: The definition and behavior of week-related fields and time fields, the arithmetic (add
androll
) behavior of many fields, and the field validation system. - The subclassing API has been completely redesigned.
- The
Calendar
base class contains some Gregorian calendar algorithmic support that subclasses can use (specifically inhandleComputeFields
). Subclasses can use the methodsgetGregorianXxx()
to obtain precomputed values. Motivation: This is required by allCalendar
subclasses in order to implement consistent time zone behavior, and Gregorian-derived systems can use the already computed data. - The
FIELD_COUNT
constant has been removed. UsegetFieldCount
. In addition, framework API has been added to allow subclasses to define additional fields. Motivation: The number of fields is not constant across calendar systems. - The range of handled dates has been narrowed from +/- ~300,000,000 years to +/- ~5,000,000 years. In practical terms this should not affect clients. However, it does mean that client code cannot be guaranteed well-behaved results with dates such as
Date(Long.MIN_VALUE)
orDate(Long.MAX_VALUE)
. Instead, theCalendar
protected constants should be used. Motivation: With the addition of theJULIAN_DAY
field, Julian day numbers must be restricted to a 32-bitint
. This restricts the overall supported range. Furthermore, restricting the supported range simplifies the computations by removing special case code that was used to accommodate arithmetic overflow at millis nearLong.MIN_VALUE
andLong.MAX_VALUE
. - New fields are implemented:
JULIAN_DAY
defines single-field specification of the date.MILLISECONDS_IN_DAY
defines a single-field specification of the wall time.DOW_LOCAL
andYEAR_WOY
implement localized day-of-week and week-of-year behavior. - Subclasses can access protected millisecond constants defined in
Calendar
. - New API has been added to support calendar-specific subclasses of
DateFormat
. - Several subclasses have been implemented, representing various international calendar systems.
Subclass API
The original Calendar
API was based on the experience of implementing a only a single subclass, GregorianCalendar
. As a result, all of the subclassing kinks had not been worked out. The new subclassing API has been refined based on several implemented subclasses. This includes methods that must be overridden and methods for subclasses to call. Subclasses no longer have direct access to fields
and stamp
. Instead, they have new API to access these. Subclasses are able to allocate the fields
array through a protected framework method; this allows subclasses to specify additional fields.
More functionality has been moved into the base class. The base class now contains much of the computational machinery to support the Gregorian calendar. This is based on two things: (1) Many calendars are based on the Gregorian calendar (such as the Buddhist and Japanese imperial calendars). (2) All calendars require basic Gregorian support in order to handle timezone computations.
Common computations have been moved into Calendar
. Subclasses no longer compute the week related fields and the time related fields. These are commonly handled for all calendars by the base class.
Subclass computation of time => fields
The ERA
, YEAR
, EXTENDED_YEAR
, MONTH
, DAY_OF_MONTH
, and DAY_OF_YEAR
fields are computed by the subclass, based on the Julian day. All other fields are computed by Calendar
.
- Subclasses should implement
handleComputeFields
to compute theERA
,YEAR
,EXTENDED_YEAR
,MONTH
,DAY_OF_MONTH
, andDAY_OF_YEAR
fields, based on the value of theJULIAN_DAY
field. If there are calendar-specific fields not defined byCalendar
, they must also be computed. These are the only fields that the subclass should compute. All other fields are computed by the base class, so time and week fields behave in a consistent way across all calendars. The default version of this method inCalendar
implements a proleptic Gregorian calendar. Within this method, subclasses may callgetGregorianXxx()
to obtain the Gregorian calendar month, day of month, and extended year for the given date.
Subclass computation of fields => time
The interpretation of most field values is handled entirely by Calendar
. Calendar
determines which fields are set, which are not, which are set more recently, and so on. In addition, Calendar
handles the computation of the time from the time fields and handles the week-related fields. The only thing the subclass must do is determine the extended year, based on the year fields, and then, given an extended year and a month, it must return a Julian day number.
- Subclasses should implement
handleGetExtendedYear
to return the extended year for this calendar system, based on theYEAR
,EXTENDED_YEAR
, and any fields that the calendar system uses that are larger than a year, such asERA
. - Subclasses should implement
handleComputeMonthStart
to return the Julian day number associated with a month and extended year. This is the Julian day number of the day before the first day of the month. The month number is zero-based. This computation should not depend on any field values.
Other methods
- Subclasses should implement
handleGetMonthLength
to return the number of days in a given month of a given extended year. The month number, as always, is zero-based. - Subclasses should implement
handleGetYearLength
to return the number of days in the given extended year. This method is used by computeWeekFields to compute theWEEK_OF_YEAR
andYEAR_WOY
fields. - Subclasses should implement
handleGetLimit
to return the protected values of a field, depending on the value oflimitType
. This method only needs to handle the fieldsERA
,YEAR
,MONTH
,WEEK_OF_YEAR
,WEEK_OF_MONTH
,DAY_OF_MONTH
,DAY_OF_YEAR
,DAY_OF_WEEK_IN_MONTH
,YEAR_WOY
, andEXTENDED_YEAR
. Other fields are invariant (with respect to calendar system) and are handled by the base class. - Optionally, subclasses may override #validateField to check any subclass-specific fields. If the field's value is out of range, the method should throw an
IllegalArgumentException
. The method may callsuper.validateField(field)
to handle fields in a generic way, that is, to compare them to the rangegetMinimum(field)
..getMaximum(field)
. - Optionally, subclasses may override
handleCreateFields
to create anint[]
array large enough to hold the calendar's fields. This is only necessary if the calendar defines additional fields beyond those defined byCalendar
. The length of the result must be be between the base and maximum field counts. - Optionally, subclasses may override #handleGetDateFormat to create a
DateFormat
appropriate to this calendar. This is only required if a calendar subclass redefines the use of a field (for example, changes theERA
field from a symbolic field to a numeric one) or defines an additional field. - Optionally, subclasses may override #roll and
add
to handle fields that are discontinuous. For example, in the Hebrew calendar the month "Adar I" only occurs in leap years; in other years the calendar jumps from Shevat (month #4) to Adar (month #6). TheHebrewCalendar.add
and android.icu.util.HebrewCalendar#roll methods take this into account, so that adding 1 month to Shevat gives the proper result (Adar) in a non-leap year. The protected utility methodpinField
is often useful when implementing these two methods.
Normalized behavior
The behavior of certain fields has been made consistent across all calendar systems and implemented in Calendar
.
- Time is normalized. Even though some calendar systems transition between days at sunset or at other times, all ICU4J calendars transition between days at local zone midnight. This allows ICU4J to centralize the time computations in
Calendar
and to maintain basic correspondences between calendar systems. Affected fields:AM_PM
,HOUR
,HOUR_OF_DAY
,MINUTE
,SECOND
,MILLISECOND
,ZONE_OFFSET
, andDST_OFFSET
. - DST behavior is normalized. Daylight savings time behavior is computed the same for all calendar systems, and depends on the value of several
GregorianCalendar
fields: theYEAR
,MONTH
, andDAY_OF_MONTH
. As a result,Calendar
always computes these fields, even for non-Gregorian calendar systems. These fields are available to subclasses. - Weeks are normalized. Although locales define the week differently, in terms of the day on which it starts, and the designation of week number one of a month or year, they all use a common mechanism. Furthermore, the day of the week has a simple and consistent definition throughout history. For example, although the Gregorian calendar introduced a discontinuity when first instituted, the day of week was not disrupted. For this reason, the fields
DAY_OF_WEEK
,WEEK_OF_YEAR, WEEK_OF_MONTH
,DAY_OF_WEEK_IN_MONTH
,DOW_LOCAL
,YEAR_WOY
are all computed in a consistent way in the base class, based on theEXTENDED_YEAR
,DAY_OF_YEAR
,MONTH
, andDAY_OF_MONTH
, which are computed by the subclass.
Supported range
The allowable range of Calendar
has been narrowed. GregorianCalendar
used to attempt to support the range of dates with millisecond values from Long.MIN_VALUE
to Long.MAX_VALUE
. This introduced awkward constructions (hacks) which slowed down performance. It also introduced non-uniform behavior at the boundaries. The new Calendar
protocol specifies the maximum range of supportable dates as those having Julian day numbers of -0x7F000000
to +0x7F000000
. This corresponds to years from ~5,800,000 BCE to ~5,800,000 CE. Programmers should use the protected constants in Calendar
to specify an extremely early or extremely late date.
General notes
- Calendars implementations are proleptic. For example, even though the Gregorian calendar was not instituted until the 16th century, the
GregorianCalendar
class supports dates before the historical onset of the calendar by extending the calendar system backward in time. Similarly, theHebrewCalendar
extends backward before the start of its epoch into zero and negative years. Subclasses do not throw exceptions because a date precedes the historical start of a calendar system. Instead, they implementhandleGetLimit
to return appropriate limits onYEAR
,ERA
, etc. fields. Then, if the calendar is set to not be lenient, out-of-range field values will trigger an exception. - Calendar system subclasses compute a extended year. This differs from the
YEAR
field in that it ranges over all integer values, including zero and negative values, and it encapsulates the information of theYEAR
field and all larger fields. Thus, for the Gregorian calendar, theEXTENDED_YEAR
is computed asERA==AD ? YEAR : 1-YEAR
. Another example is the Mayan long count, which has years (KUN
) and nested cycles of years (KATUN
andBAKTUN
). The MayanEXTENDED_YEAR
is computed asTUN + 20 * (KATUN + 20 * BAKTUN)
. TheCalendar
base class uses theEXTENDED_YEAR
field to compute the week-related fields.
Summary
Nested classes | |
---|---|
Simple, immutable struct-like class for access to the CLDR week data. |
Constants | |
---|---|
static Int |
Value of the |
static Int |
Field number for |
static Int |
Value of the |
static Int |
Value of the |
static Int |
Field number for |
static Int |
Field number for |
static Int |
Field number for |
static Int |
Field number for |
static Int |
Field number for |
static Int |
Value of the |
static Int |
[icu] Field number for |
static Int |
Field number for |
static Int |
The Julian day of the epoch, that is, January 1, 1970 on the Gregorian calendar. |
static Int |
Field number for |
static Int |
[icu] Field number for |
static Int |
Value of the |
static Int |
Value of the |
static Int |
Limit type for |
static Int |
Field number for |
static Int |
Field number for |
static Int |
Value of the time stamp |
static Int |
[icu] Field indicating whether or not the current month is a leap month. |
static Int |
Value of the |
static Int |
The Julian day of the Gregorian epoch, that is, January 1, 1 on the Gregorian calendar. |
static Int |
[icu] Field number for |
static Int |
Value of the |
static Int |
Value of the |
static Int |
Limit type for |
static Int |
Value of the |
static Int |
Limit type for |
static Int |
The maximum number of fields possible. |
static Int |
The maximum supported Julian day. |
static Long |
The maximum supported epoch milliseconds. |
static Int |
Value of the |
static Int |
Field number for |
static Int |
[icu] Field number for |
static Int |
Limit type for |
static Int |
If the time stamp |
static Int |
Field number for |
static Int |
The minimum supported Julian day. |
static Long |
The minimum supported epoch milliseconds. |
static Int |
Value of the |
static Int |
Field number for |
static Int |
Value of the |
static Int |
Value of the |
static Long |
The number of milliseconds in one day. |
static Int |
The number of milliseconds in one hour. |
static Int |
The number of milliseconds in one minute. |
static Int |
The number of milliseconds in one second. |
static Long |
The number of milliseconds in one week. |
static Int |
[icu] Field indicating the month. |
static Int |
Value of the |
static Int |
Value to OR against resolve table field values for remapping. |
static Int |
Value of the |
static Int |
Field number for |
static Int |
Value of the |
static Int |
Value of the |
static Int |
Value of the |
static Int |
Value of the |
static Int |
Value of the |
static Int |
Value of the time stamp |
static Int |
[icu]Option used by |
static Int |
[icu]Option used by |
static Int |
[icu]Option used by |
static Int |
Value of the |
static Int |
Field number for |
static Int |
Field number for |
static Int |
Field number for |
static Int |
[icu] Field number for |
static Int |
Field number for |
Protected constructors | |
---|---|
Calendar() Constructs a Calendar with the default time zone and the default |
|
Constructs a calendar with the specified time zone and locale. |
|
Constructs a calendar with the specified time zone and locale. |
Public methods | |
---|---|
open Unit |
Add a signed amount to a specified field, using this calendar's rules. |
open Boolean |
Compares the time field records. |
open Boolean |
Compares the time field records. |
Unit |
clear() Clears the values of all the time fields. |
Unit |
Clears the value in the given time field. |
open Any |
clone() Overrides Cloneable |
open Int |
Compares the times (in millis) represented by two |
open Boolean |
Compares this calendar to the specified object. |
open Int |
fieldDifference(when: Date!, field: Int) [icu] Returns the difference between the given time and the time this calendar object is set to. |
Int |
Returns the value for a given time field. |
open Int |
getActualMaximum(field: Int) Returns the maximum value that this field could have, given the current date. |
open Int |
getActualMinimum(field: Int) Returns the minimum value that this field could have, given the current date. |
open static Array<Locale!>! |
Returns the list of locales for which Calendars are installed. |
open DateFormat! |
getDateTimeFormat(dateStyle: Int, timeStyle: Int, loc: ULocale!) [icu] Returns a |
open DateFormat! |
getDateTimeFormat(dateStyle: Int, timeStyle: Int, loc: Locale!) [icu] Returns a |
open String! |
getDisplayName(loc: ULocale!) Returns the name of this calendar in the language of the given locale. |
open String! |
getDisplayName(loc: Locale!) Returns the name of this calendar in the language of the given locale. |
Int |
[icu] Returns the number of fields defined by this calendar. |
open Int |
Returns what the first day of the week is, where 1 = |
Int |
getGreatestMinimum(field: Int) Returns the highest minimum value for the given field if varies. |
open static Calendar! |
Returns a calendar using the default time zone and locale. |
open static Calendar! |
getInstance(zone: TimeZone!) Returns a calendar using the specified time zone and default locale. |
open static Calendar! |
getInstance(zone: TimeZone!, locale: ULocale!) Returns a calendar with the specified time zone and locale. |
open static Calendar! |
getInstance(zone: TimeZone!, aLocale: Locale!) Returns a calendar with the specified time zone and locale. |
open static Calendar! |
getInstance(locale: ULocale!) Returns a calendar using the default time zone and specified locale. |
open static Calendar! |
getInstance(aLocale: Locale!) Returns a calendar using the default time zone and specified locale. |
static Array<String!>! |
getKeywordValuesForLocale(key: String!, locale: ULocale!, commonlyUsed: Boolean) [icu] Given a key and a locale, returns an array of string values in a preferred order that would make a difference. |
Int |
getLeastMaximum(field: Int) Returns the lowest maximum value for the given field if varies. |
Int |
getMaximum(field: Int) Returns the maximum value for the given time field. |
open Int |
Returns what the minimal days required in the first week of the year are. |
Int |
getMinimum(field: Int) Returns the minimum value for the given time field. |
open Int |
[icu]Gets the behavior for handling wall time repeating multiple times at negative time zone offset transitions. |
open Int |
[icu]Gets the behavior for handling skipped wall time at positive time zone offset transitions. |
open String! |
Gets The Temporal monthCode value corresponding to the month for the date. |
Date! |
getTime() Returns this Calendar's current time. |
open Long |
Returns this Calendar's current time as a long. |
open TimeZone! |
Returns the time zone. |
open String! |
getType() [icu] Returns the calendar type name string for this Calendar object. |
open Calendar.WeekData! |
[icu] Return simple, immutable struct-like class for access to the week data in this calendar. |
open static Calendar.WeekData! |
getWeekDataForRegion(region: String!) [icu] Return simple, immutable struct-like class for access to the CLDR week data. |
open Int |
hashCode() Returns a hash code for this calendar. |
open Boolean |
[icu] Returns true if the date is in a leap year. |
open Boolean |
isEquivalentTo(other: Calendar!) [icu] Returns true if the given Calendar object is equivalent to this one. |
open Boolean |
Tell whether date/time interpretation is to be lenient. |
Boolean |
Determines if the given time field has a value set. |
open Boolean |
[icu] Returns true if this Calendar's current date and time is in the weekend in this calendar system. |
open Boolean |
[icu] Returns true if the given date and time is in the weekend in this calendar system. |
Unit |
Rolls (up/down) a single unit of time on the given field. |
open Unit |
Rolls (up/down) a specified amount time on the given field. |
Unit |
Sets the time field with the given value. |
Unit |
Sets the values for the fields year, month, and date. |
Unit |
Sets the values for the fields year, month, date, hour, and minute. |
Unit |
Sets the values for the fields year, month, date, hour, minute, and second. |
open Unit |
setFirstDayOfWeek(value: Int) Sets what the first day of the week is, where 1 = |
open Unit |
setLenient(lenient: Boolean) Specify whether or not date/time interpretation is to be lenient. |
open Unit |
setMinimalDaysInFirstWeek(value: Int) Sets what the minimal days required in the first week of the year are. |
open Unit |
setRepeatedWallTimeOption(option: Int) [icu]Sets the behavior for handling wall time repeating multiple times at negative time zone offset transitions. |
open Unit |
setSkippedWallTimeOption(option: Int) [icu]Sets the behavior for handling skipped wall time at positive time zone offset transitions. |
open Unit |
setTemporalMonthCode(temporalMonth: String!) Sets The Temporal monthCode which is a string identifier that starts with the literal grapheme "M" followed by two graphemes representing the zero-padded month number of the current month in a normal (non-leap) year and suffixed by an optional literal grapheme "L" if this is a leap month in a lunisolar calendar. |
Unit |
Sets this Calendar's current time with the given Date. |
open Unit |
setTimeInMillis(millis: Long) Sets this Calendar's current time from the given long value. |
open Unit |
setTimeZone(value: TimeZone!) Sets the time zone with the given time zone value. |
open Calendar! |
setWeekData(wdata: Calendar.WeekData!) [icu] Set data in this calendar based on the WeekData input. |
open String |
toString() Returns a string representation of this calendar. |
Protected methods | |
---|---|
open Unit |
complete() Fills in any unset fields in the time field list. |
open Unit |
Converts the current millisecond time value |
Unit |
computeGregorianFields(julianDay: Int) Compute the Gregorian calendar year, month, and day of month from the Julian day. |
open Int |
computeGregorianMonthStart(year: Int, month: Int) Compute the Julian day of a month of the Gregorian calendar. |
open Int |
Compute the Julian day number as specified by this calendar's fields. |
open Int |
Compute the milliseconds in the day from the fields. |
open Unit |
Converts the current field values in |
open Int |
computeZoneOffset(millis: Long, millisInDay: Int) This method can assume EXTENDED_YEAR has been set. |
open String! |
Returns a string name for a field, for debugging and exceptions. |
static Int |
floorDivide(numerator: Int, denominator: Int) Divide two integers, returning the floor of the quotient. |
static Int |
floorDivide(numerator: Int, denominator: Int, remainder: IntArray!) Divide two integers, returning the floor of the quotient, and the modulus remainder. |
static Int |
floorDivide(numerator: Long, denominator: Int, remainder: IntArray!) Divide two integers, returning the floor of the quotient, and the modulus remainder. |
static Long |
floorDivide(numerator: Long, denominator: Long) Divide two long integers, returning the floor of the quotient. |
open Array<Array<IntArray!>!>! |
Returns the field resolution array for this calendar. |
Int |
Returns the day of month (1-based) on the Gregorian calendar as computed by |
Int |
Returns the day of year (1-based) on the Gregorian calendar as computed by |
Int |
Returns the month (0-based) on the Gregorian calendar as computed by |
Int |
Returns the extended year on the Gregorian calendar as computed by |
open Int |
Returns a limit for a field. |
Int |
Returns the timestamp of a field. |
static Int |
gregorianMonthLength(y: Int, m: Int) Returns the length of a month of the Gregorian calendar. |
static Int |
gregorianPreviousMonthLength(y: Int, m: Int) Returns the length of a previous month of the Gregorian calendar. |
open Unit |
handleComputeFields(julianDay: Int) Subclasses may override this method to compute several fields specific to each calendar system. |
open Int |
handleComputeJulianDay(bestField: Int) Subclasses may override this. |
abstract Int |
handleComputeMonthStart(eyear: Int, month: Int, useMonth: Boolean) Returns the Julian day number of day before the first day of the given month in the given extended year. |
open IntArray! |
Subclasses that use additional fields beyond those defined in |
open DateFormat! |
handleGetDateFormat(pattern: String!, locale: ULocale!) Creates a |
open DateFormat! |
handleGetDateFormat(pattern: String!, override: String!, locale: Locale!) Creates a |
open DateFormat! |
handleGetDateFormat(pattern: String!, locale: Locale!) Creates a |
abstract Int |
Returns the extended year defined by the current fields. |
abstract Int |
handleGetLimit(field: Int, limitType: Int) Subclass API for defining limits of different types. |
open Int |
handleGetMonthLength(extendedYear: Int, month: Int) Returns the number of days in the given month of the given extended year of this calendar system. |
open Int |
handleGetYearLength(eyear: Int) Returns the number of days in the given extended year of this calendar system. |
Int |
internalGet(field: Int) Returns the value for a given time field. |
Int |
internalGet(field: Int, defaultValue: Int) Returns the value for a given time field, or return the given default value if the field is not set. |
Long |
Returns the current milliseconds without recomputing. |
Unit |
internalSet(field: Int, value: Int) Set a field to a value. |
static Boolean |
isGregorianLeapYear(year: Int) Determines if the given year is a leap year. |
static Int |
julianDayToDayOfWeek(julian: Int) Returns the day of week, from SUNDAY to SATURDAY, given a Julian day. |
static Long |
julianDayToMillis(julian: Int) Converts Julian day to time as milliseconds. |
static Int |
millisToJulianDay(millis: Long) Converts time as milliseconds to Julian day. |
open Int |
newerField(defaultField: Int, alternateField: Int) Returns the field that is newer, either defaultField, or alternateField. |
open Int |
newestStamp(first: Int, last: Int, bestStampSoFar: Int) Returns the newest stamp of a given range of fields. |
open Unit |
Adjust the specified field so that it is within the allowable range for the date to which this calendar is set. |
open Unit |
prepareGetActual(field: Int, isMinimum: Boolean) Prepare this calendar for computing the actual minimum or maximum. |
open Int |
resolveFields(precedenceTable: Array<Array<IntArray!>!>!) Given a precedence table, return the newest field combination in the table, or -1 if none is found. |
open Unit |
validateField(field: Int) Validate a single field of this calendar. |
Unit |
validateField(field: Int, min: Int, max: Int) Validate a single field of this calendar given its minimum and maximum allowed value. |
open Unit |
Ensure that each field is within its valid range by calling |
Int |
weekNumber(dayOfPeriod: Int, dayOfWeek: Int) Returns the week number of a day, within a period. |
open Int |
weekNumber(desiredDay: Int, dayOfPeriod: Int, dayOfWeek: Int) Returns the week number of a day, within a period. |
Properties | |
---|---|
static Date! |
The maximum supported |
static Date! |
The minimum supported |
Constants
AM
static val AM: Int
Value of the AM_PM
field indicating the period of the day from midnight to just before noon.
Value: 0
AM_PM
static val AM_PM: Int
Field number for get
and set
indicating whether the HOUR
is before or after noon. E.g., at 10:04:15.250 PM the AM_PM
is PM
.
Value: 9
APRIL
static val APRIL: Int
Value of the MONTH
field indicating the fourth month of the year.
Value: 3
AUGUST
static val AUGUST: Int
Value of the MONTH
field indicating the eighth month of the year.
Value: 7
DATE
static val DATE: Int
Field number for get
and set
indicating the day of the month. This is a synonym for DAY_OF_MONTH
. The first day of the month has value 1.
Value: 5
See Also
DAY_OF_MONTH
static val DAY_OF_MONTH: Int
Field number for get
and set
indicating the day of the month. This is a synonym for DATE
. The first day of the month has value 1.
Value: 5
See Also
DAY_OF_WEEK
static val DAY_OF_WEEK: Int
Field number for get
and set
indicating the day of the week. This field takes values SUNDAY
, MONDAY
, TUESDAY
, WEDNESDAY
, THURSDAY
, FRIDAY
, and SATURDAY
.
Value: 7
DAY_OF_WEEK_IN_MONTH
static val DAY_OF_WEEK_IN_MONTH: Int
Field number for get
and set
indicating the ordinal number of the day of the week within the current month. Together with the DAY_OF_WEEK
field, this uniquely specifies a day within a month. Unlike WEEK_OF_MONTH
and WEEK_OF_YEAR
, this field's value does not depend on getFirstDayOfWeek()
or getMinimalDaysInFirstWeek()
. DAY_OF_MONTH 1
through 7
always correspond to DAY_OF_WEEK_IN_MONTH 1
; 8
through 15
correspond to DAY_OF_WEEK_IN_MONTH 2
, and so on. DAY_OF_WEEK_IN_MONTH 0
indicates the week before DAY_OF_WEEK_IN_MONTH 1
. Negative values count back from the end of the month, so the last Sunday of a month is specified as DAY_OF_WEEK = SUNDAY, DAY_OF_WEEK_IN_MONTH = -1
. Because negative values count backward they will usually be aligned differently within the month than positive values. For example, if a month has 31 days, DAY_OF_WEEK_IN_MONTH -1
will overlap DAY_OF_WEEK_IN_MONTH 5
and the end of 4
.
Value: 8
See Also
DAY_OF_YEAR
static val DAY_OF_YEAR: Int
Field number for get
and set
indicating the day number within the current year. The first day of the year has value 1.
Value: 6
DECEMBER
static val DECEMBER: Int
Value of the MONTH
field indicating the twelfth month of the year.
Value: 11
DOW_LOCAL
static val DOW_LOCAL: Int
[icu] Field number for get()
and set()
indicating the localized day of week. This will be a value from 1 to 7 inclusive, with 1 being the localized first day of the week.
Value: 18
DST_OFFSET
static val DST_OFFSET: Int
Field number for get
and set
indicating the daylight savings offset in milliseconds.
Value: 16
EPOCH_JULIAN_DAY
protected static val EPOCH_JULIAN_DAY: Int
The Julian day of the epoch, that is, January 1, 1970 on the Gregorian calendar.
Value: 2440588
ERA
static val ERA: Int
Field number for get
and set
indicating the era, e.g., AD or BC in the Julian calendar. This is a calendar-specific value; see subclass documentation.
Value: 0
EXTENDED_YEAR
static val EXTENDED_YEAR: Int
[icu] Field number for get()
and set()
indicating the extended year. This is a single number designating the year of this calendar system, encompassing all supra-year fields. For example, for the Julian calendar system, year numbers are positive, with an era of BCE or CE. An extended year value for the Julian calendar system assigns positive values to CE years and negative values to BCE years, with 1 BCE being year 0.
Value: 19
FEBRUARY
static val FEBRUARY: Int
Value of the MONTH
field indicating the second month of the year.
Value: 1
FRIDAY
static val FRIDAY: Int
Value of the DAY_OF_WEEK
field indicating Friday.
Value: 6
GREATEST_MINIMUM
protected static val GREATEST_MINIMUM: Int
Limit type for getLimit()
and handleGetLimit()
indicating the greatest minimum value that a field can take.
Value: 1
See Also
HOUR
static val HOUR: Int
Field number for get
and set
indicating the hour of the morning or afternoon. HOUR
is used for the 12-hour clock. E.g., at 10:04:15.250 PM the HOUR
is 10.
Value: 10
See Also
HOUR_OF_DAY
static val HOUR_OF_DAY: Int
Field number for get
and set
indicating the hour of the day. HOUR_OF_DAY
is used for the 24-hour clock. E.g., at 10:04:15.250 PM the HOUR_OF_DAY
is 22.
Value: 11
See Also
INTERNALLY_SET
protected static val INTERNALLY_SET: Int
Value of the time stamp stamp[]
indicating that a field has been set via computations from the time or from other fields.
Value: 1
See Also
IS_LEAP_MONTH
static val IS_LEAP_MONTH: Int
[icu] Field indicating whether or not the current month is a leap month. Should have a value of 0 for non-leap months, and 1 for leap months.
Value: 22
JANUARY
static val JANUARY: Int
Value of the MONTH
field indicating the first month of the year.
Value: 0
JAN_1_1_JULIAN_DAY
protected static val JAN_1_1_JULIAN_DAY: Int
The Julian day of the Gregorian epoch, that is, January 1, 1 on the Gregorian calendar.
Value: 1721426
JULIAN_DAY
static val JULIAN_DAY: Int
[icu] Field number for get()
and set()
indicating the modified Julian day number. This is different from the conventional Julian day number in two regards. First, it demarcates days at local zone midnight, rather than noon GMT. Second, it is a local number; that is, it depends on the local time zone. It can be thought of as a single number that encompasses all the date-related fields.
Value: 20
JULY
static val JULY: Int
Value of the MONTH
field indicating the seventh month of the year.
Value: 6
JUNE
static val JUNE: Int
Value of the MONTH
field indicating the sixth month of the year.
Value: 5
LEAST_MAXIMUM
protected static val LEAST_MAXIMUM: Int
Limit type for getLimit()
and handleGetLimit()
indicating the least maximum value that a field can take.
Value: 2
See Also
MARCH
static val MARCH: Int
Value of the MONTH
field indicating the third month of the year.
Value: 2
MAXIMUM
protected static val MAXIMUM: Int
Limit type for getLimit()
and handleGetLimit()
indicating the maximum value that a field can take (greatest maximum).
Value: 3
See Also
MAX_FIELD_COUNT
protected static valMAX_FIELD_COUNT: Int
Deprecated: ICU 58 The numeric value may change over time, see ICU ticket #12420.
The maximum number of fields possible. Subclasses must not define more total fields than this number.
Value: 32
MAX_JULIAN
protected static val MAX_JULIAN: Int
The maximum supported Julian day. This value is equivalent to MAX_MILLIS
and MAX_DATE
.
Value: 2130706432
See Also
MAX_MILLIS
protected static val MAX_MILLIS: Long
The maximum supported epoch milliseconds. This value is equivalent to MAX_JULIAN
and MAX_DATE
.
Value: 183882168921600000L
MAY
static val MAY: Int
Value of the MONTH
field indicating the fifth month of the year.
Value: 4
MILLISECOND
static val MILLISECOND: Int
Field number for get
and set
indicating the millisecond within the second. E.g., at 10:04:15.250 PM the MILLISECOND
is 250.
Value: 14
MILLISECONDS_IN_DAY
static val MILLISECONDS_IN_DAY: Int
[icu] Field number for get()
and set()
indicating the milliseconds in the day. This ranges from 0 to 23:59:59.999 (regardless of DST). This field behaves exactly like a composite of all time-related fields, not including the zone fields. As such, it also reflects discontinuities of those fields on DST transition days. On a day of DST onset, it will jump forward. On a day of DST cessation, it will jump backward. This reflects the fact that is must be combined with the DST_OFFSET field to obtain a unique local time value.
Value: 21
MINIMUM
protected static val MINIMUM: Int
Limit type for getLimit()
and handleGetLimit()
indicating the minimum value that a field can take (least minimum).
Value: 0
See Also
MINIMUM_USER_STAMP
protected static val MINIMUM_USER_STAMP: Int
If the time stamp stamp[]
has a value greater than or equal to MINIMUM_USER_SET
then it has been set by the user via a call to set()
.
Value: 2
See Also
MINUTE
static val MINUTE: Int
Field number for get
and set
indicating the minute within the hour. E.g., at 10:04:15.250 PM the MINUTE
is 4.
Value: 12
MIN_JULIAN
protected static val MIN_JULIAN: Int
The minimum supported Julian day. This value is equivalent to MIN_MILLIS
and MIN_DATE
.
Value: -2130706432
See Also
MIN_MILLIS
protected static val MIN_MILLIS: Long
The minimum supported epoch milliseconds. This value is equivalent to MIN_JULIAN
and MIN_DATE
.
Value: -184303902528000000L
MONDAY
static val MONDAY: Int
Value of the DAY_OF_WEEK
field indicating Monday.
Value: 2
MONTH
static val MONTH: Int
Field number for get
and set
indicating the month. This is a calendar-specific value. The first month of the year is JANUARY
; the last depends on the number of months in a year.
Value: 2
NOVEMBER
static val NOVEMBER: Int
Value of the MONTH
field indicating the eleventh month of the year.
Value: 10
OCTOBER
static val OCTOBER: Int
Value of the MONTH
field indicating the tenth month of the year.
Value: 9
ONE_DAY
protected static val ONE_DAY: Long
The number of milliseconds in one day. Although ONE_DAY and ONE_WEEK can fit into ints, they must be longs in order to prevent arithmetic overflow when performing (bug 4173516).
Value: 86400000L
ONE_HOUR
protected static val ONE_HOUR: Int
The number of milliseconds in one hour.
Value: 3600000
ONE_MINUTE
protected static val ONE_MINUTE: Int
The number of milliseconds in one minute.
Value: 60000
ONE_SECOND
protected static val ONE_SECOND: Int
The number of milliseconds in one second.
Value: 1000
ONE_WEEK
protected static val ONE_WEEK: Long
The number of milliseconds in one week. Although ONE_DAY and ONE_WEEK can fit into ints, they must be longs in order to prevent arithmetic overflow when performing (bug 4173516).
Value: 604800000L
ORDINAL_MONTH
static val ORDINAL_MONTH: Int
[icu] Field indicating the month. This is a calendar-specific value. Differ from MONTH, this value is continuous and unique within a year and range from 0 to 11 or 0 to 12 depending on how many months in a year, the calendar system has leap month or not, and in leap year or not. It is the ordinal position of that month in the corresponding year of the calendar. For Chinese, Dangi, and Hebrew calendar, the range is 0 to 11 in non-leap years and 0 to 12 in leap years. For Coptic and Ethiopian calendar, the range is always 0 to 12. For other calendars supported by ICU now, the range is 0 to 11. When the number of months in a year of the identified calendar is variable, a different ORDINAL_MONTH value can be used for dates that are part of the same named month in different years. For example, in the Hebrew calendar, "1 Nisan 5781" is associated with ORDINAL_MONTH value 6 while "1 Nisan 5782" is associated with ORDINAL_MONTH value 7 because 5782 is a leap year and Nisan follows the insertion of Adar I. In Chinese calendar, "Year 4664 Month 6 Day 2" is associated with ORDINAL_MONTH value 5 while "Year 4665 Month 6 Day 2" is associated with ORDINAL_MONTH value 6 because 4665 is a leap year and there is an extra "Leap Month 5" which associated with ORDINAL_MONTH value 5 before "Month 6" of year 4664.
Value: 23
PM
static val PM: Int
Value of the AM_PM
field indicating the period of the day from noon to just before midnight.
Value: 1
RESOLVE_REMAP
protected static val RESOLVE_REMAP: Int
Value to OR against resolve table field values for remapping.
Value: 32
See Also
SATURDAY
static val SATURDAY: Int
Value of the DAY_OF_WEEK
field indicating Saturday.
Value: 7
SECOND
static val SECOND: Int
Field number for get
and set
indicating the second within the minute. E.g., at 10:04:15.250 PM the SECOND
is 15.
Value: 13
SEPTEMBER
static val SEPTEMBER: Int
Value of the MONTH
field indicating the ninth month of the year.
Value: 8
SUNDAY
static val SUNDAY: Int
Value of the DAY_OF_WEEK
field indicating Sunday.
Value: 1
THURSDAY
static val THURSDAY: Int
Value of the DAY_OF_WEEK
field indicating Thursday.
Value: 5
TUESDAY
static val TUESDAY: Int
Value of the DAY_OF_WEEK
field indicating Tuesday.
Value: 3
UNDECIMBER
static val UNDECIMBER: Int
Value of the MONTH
field indicating the thirteenth month of the year. Although GregorianCalendar
does not use this value, lunar calendars do.
Value: 12
UNSET
protected static val UNSET: Int
Value of the time stamp stamp[]
indicating that a field has not been set since the last call to clear()
.
Value: 0
See Also
WALLTIME_FIRST
static val WALLTIME_FIRST: Int
[icu]Option used by setRepeatedWallTimeOption(int)
and setSkippedWallTimeOption(int)
specifying an ambiguous wall time to be interpreted as the earliest.
Value: 1
WALLTIME_LAST
static val WALLTIME_LAST: Int
[icu]Option used by setRepeatedWallTimeOption(int)
and setSkippedWallTimeOption(int)
specifying an ambiguous wall time to be interpreted as the latest.
Value: 0
WALLTIME_NEXT_VALID
static val WALLTIME_NEXT_VALID: Int
[icu]Option used by setSkippedWallTimeOption(int)
specifying an ambiguous wall time to be interpreted as the next valid wall time.
Value: 2
WEDNESDAY
static val WEDNESDAY: Int
Value of the DAY_OF_WEEK
field indicating Wednesday.
Value: 4
WEEK_OF_MONTH
static val WEEK_OF_MONTH: Int
Field number for get
and set
indicating the week number within the current month. The first week of the month, as defined by getFirstDayOfWeek()
and getMinimalDaysInFirstWeek()
, has value 1. Subclasses define the value of WEEK_OF_MONTH
for days before the first week of the month.
Value: 4
WEEK_OF_YEAR
static val WEEK_OF_YEAR: Int
Field number for get
and set
indicating the week number within the current year. The first week of the year, as defined by getFirstDayOfWeek()
and getMinimalDaysInFirstWeek()
, has value 1. Subclasses define the value of WEEK_OF_YEAR
for days before the first week of the year.
Value: 3
YEAR
static val YEAR: Int
Field number for get
and set
indicating the year. This is a calendar-specific value; see subclass documentation.
Value: 1
YEAR_WOY
static val YEAR_WOY: Int
[icu] Field number for get()
and set()
indicating the extended year corresponding to the WEEK_OF_YEAR
field. This may be one greater or less than the value of EXTENDED_YEAR
.
Value: 17
ZONE_OFFSET
static val ZONE_OFFSET: Int
Field number for get
and set
indicating the raw offset from GMT in milliseconds.
Value: 15
Protected constructors
Calendar
protected Calendar()
Constructs a Calendar with the default time zone and the default FORMAT
locale.
Calendar
protected Calendar(
zone: TimeZone!,
locale: ULocale!)
Constructs a calendar with the specified time zone and locale.
Parameters | |
---|---|
zone |
TimeZone!: the time zone to use |
locale |
ULocale!: the ulocale for the week data |
Calendar
protected Calendar(
zone: TimeZone!,
aLocale: Locale!)
Constructs a calendar with the specified time zone and locale.
Parameters | |
---|---|
zone |
TimeZone!: the time zone to use |
aLocale |
Locale!: the locale for the week data |
Public methods
add
open fun add(
field: Int,
amount: Int
): Unit
Add a signed amount to a specified field, using this calendar's rules. For example, to add three days to the current date, you can call add(Calendar.DATE, 3)
.
When adding to certain fields, the values of other fields may conflict and need to be changed. For example, when adding one to the MONTH
field for the Gregorian date 1/31/96, the DAY_OF_MONTH
field must be adjusted so that the result is 2/29/96 rather than the invalid 2/31/96.
Adding a positive value always means moving forward in time, so for the Gregorian calendar, starting with 100 BC and adding +1 to year results in 99 BC (even though this actually reduces the numeric value of the field itself).
[icu] Note: The ICU implementation of this method is able to add to all fields except for ERA
, DST_OFFSET
, and ZONE_OFFSET
. Subclasses may, of course, add support for additional fields in their overrides of add
.
Note: You should always use roll and add rather than attempting to perform arithmetic operations directly on the fields of a Calendar. It is quite possible for Calendar subclasses to have fields with non-linear behavior, for example missing months or days during non-leap years. The subclasses' add and roll methods will take this into account, while simple arithmetic manipulations may give invalid results.
Subclassing:
This implementation of add
assumes that the behavior of the field is continuous between its minimum and maximum, which are found by calling getActualMinimum
and getActualMaximum
. For such fields, simple arithmetic operations are sufficient to perform the add.
Subclasses that have fields for which this assumption of continuity breaks down must override add
to handle those fields specially. For example, in the Hebrew calendar the month "Adar I" only occurs in leap years; in other years the calendar jumps from Shevat (month #4) to Adar (month #6). The HebrewCalendar.add
method takes this into account, so that adding one month to a date in Shevat gives the proper result (Adar) in a non-leap year.
Parameters | |
---|---|
field |
Int: the time field. |
amount |
Int: the amount to add to the field. |
Exceptions | |
---|---|
java.lang.IllegalArgumentException |
if the field is invalid or refers to a field that cannot be handled by this method. |
See Also
after
open fun after(when: Any!): Boolean
Compares the time field records. Equivalent to comparing result of conversion to UTC.
Parameters | |
---|---|
when |
Any!: the Calendar to be compared with this Calendar. |
Return | |
---|---|
Boolean |
true if the current time of this Calendar is after the time of Calendar when; false otherwise. |
before
open fun before(when: Any!): Boolean
Compares the time field records. Equivalent to comparing result of conversion to UTC.
Parameters | |
---|---|
when |
Any!: the Calendar to be compared with this Calendar. |
Return | |
---|---|
Boolean |
true if the current time of this Calendar is before the time of Calendar when; false otherwise. |
clear
fun clear(field: Int): Unit
Clears the value in the given time field.
Parameters | |
---|---|
field |
Int: the time field to be cleared. |
clone
open fun clone(): Any
Overrides Cloneable
Return | |
---|---|
Any |
a clone of this instance. |
Exceptions | |
---|---|
java.lang.CloneNotSupportedException |
if the object's class does not support the Cloneable interface. Subclasses that override the clone method can also throw this exception to indicate that an instance cannot be cloned. |
compareTo
open fun compareTo(other: Calendar!): Int
Compares the times (in millis) represented by two Calendar
objects.
Parameters | |
---|---|
o |
the object to be compared. |
that |
the Calendar to compare to this. |
Return | |
---|---|
Int |
0 if the time represented by this Calendar is equal to the time represented by that Calendar , a value less than 0 if the time represented by this is before the time represented by that, and a value greater than 0 if the time represented by this is after the time represented by that. |
Exceptions | |
---|---|
java.lang.NullPointerException |
if that Calendar is null. |
java.lang.ClassCastException |
if the specified object's type prevents it from being compared to this object. |
java.lang.IllegalArgumentException |
if the time of that Calendar can't be obtained because of invalid calendar values. |
equals
open fun equals(other: Any?): Boolean
Compares this calendar to the specified object. The result is true
if and only if the argument is not null
and is a Calendar
object that represents the same calendar as this object.
Parameters | |
---|---|
obj |
the object to compare with. |
Return | |
---|---|
Boolean |
true if the objects are the same; false otherwise. |
fieldDifference
open fun fieldDifference(
when: Date!,
field: Int
): Int
[icu] Returns the difference between the given time and the time this calendar object is set to. If this calendar is set before the given time, the returned value will be positive. If this calendar is set after the given time, the returned value will be negative. The field
parameter specifies the units of the return value. For example, if fieldDifference(when, Calendar.MONTH)
returns 3, then this calendar is set to 3 months before , and possibly some additional time less than one month.
As a side effect of this call, this calendar is advanced toward when
by the given amount. That is, calling this method has the side effect of calling add(field, n)
, where n
is the return value.
Usage: To use this method, call it first with the largest field of interest, then with progressively smaller fields. For example:
int y = cal.fieldDifference(when, Calendar.YEAR); int m = cal.fieldDifference(when, Calendar.MONTH); int d = cal.fieldDifference(when, Calendar.DATE);
cal
and when
in years, months, and days.
Note: fieldDifference()
is asymmetrical. That is, in the following code:
cal.setTime(date1); int m1 = cal.fieldDifference(date2, Calendar.MONTH); int d1 = cal.fieldDifference(date2, Calendar.DATE); cal.setTime(date2); int m2 = cal.fieldDifference(date1, Calendar.MONTH); int d2 = cal.fieldDifference(date1, Calendar.DATE);
m1 == -m2 && d1 == -d2
. However, this is not generally the case, because of irregularities in the underlying calendar system (e.g., the Gregorian calendar has a varying number of days per month).
Parameters | |
---|---|
when |
Date!: the date to compare this calendar's time to |
field |
Int: the field in which to compute the result |
Return | |
---|---|
Int |
the difference, either positive or negative, between this calendar's time and when , in terms of field . |
get
fun get(field: Int): Int
Returns the value for a given time field.
Parameters | |
---|---|
field |
Int: the given time field. |
Return | |
---|---|
Int |
the value for the given time field. |
getActualMaximum
open fun getActualMaximum(field: Int): Int
Returns the maximum value that this field could have, given the current date. For example, with the Gregorian date February 3, 1997 and the DAY_OF_MONTH
field, the actual maximum is 28; for February 3, 1996 it is 29.
The actual maximum computation ignores smaller fields and the current value of like-sized fields. For example, the actual maximum of the DAY_OF_YEAR or MONTH depends only on the year and supra-year fields. The actual maximum of the DAY_OF_MONTH depends, in addition, on the MONTH field and any other fields at that granularity (such as IS_LEAP_MONTH). The DAY_OF_WEEK_IN_MONTH field does not depend on the current DAY_OF_WEEK; it returns the maximum for any day of week in the current month. Likewise for the WEEK_OF_MONTH and WEEK_OF_YEAR fields.
Parameters | |
---|---|
field |
Int: the field whose maximum is desired |
Return | |
---|---|
Int |
the maximum of the given field for the current date of this calendar |
See Also
getActualMinimum
open fun getActualMinimum(field: Int): Int
Returns the minimum value that this field could have, given the current date. For most fields, this is the same as getMinimum
and getGreatestMinimum
. However, some fields, especially those related to week number, are more complicated.
For example, assume getMinimalDaysInFirstWeek
returns 4 and getFirstDayOfWeek
returns SUNDAY. If the first day of the month is Sunday, Monday, Tuesday, or Wednesday there will be four or more days in the first week, so it will be week number 1, and getActualMinimum(WEEK_OF_MONTH)
will return 1. However, if the first of the month is a Thursday, Friday, or Saturday, there are not four days in that week, so it is week number 0, and getActualMinimum(WEEK_OF_MONTH)
will return 0.
Parameters | |
---|---|
field |
Int: the field whose actual minimum value is desired. |
Return | |
---|---|
Int |
the minimum of the given field for the current date of this calendar |
See Also
getAvailableLocales
open static fun getAvailableLocales(): Array<Locale!>!
Returns the list of locales for which Calendars are installed.
Return | |
---|---|
Array<Locale!>! |
the list of locales for which Calendars are installed. |
getDateTimeFormat
open fun getDateTimeFormat(
dateStyle: Int,
timeStyle: Int,
loc: ULocale!
): DateFormat!
[icu] Returns a DateFormat
appropriate to this calendar. Subclasses wishing to specialize this behavior should override #handleGetDateFormat.
getDateTimeFormat
open fun getDateTimeFormat(
dateStyle: Int,
timeStyle: Int,
loc: Locale!
): DateFormat!
[icu] Returns a DateFormat
appropriate to this calendar. Subclasses wishing to specialize this behavior should override #handleGetDateFormat.
getDisplayName
open fun getDisplayName(loc: ULocale!): String!
Returns the name of this calendar in the language of the given locale.
getDisplayName
open fun getDisplayName(loc: Locale!): String!
Returns the name of this calendar in the language of the given locale.
getFieldCount
fun getFieldCount(): Int
[icu] Returns the number of fields defined by this calendar. Valid field arguments to set()
and get()
are 0..getFieldCount()-1
.
getFirstDayOfWeek
open fun getFirstDayOfWeek(): Int
Returns what the first day of the week is, where 1 = SUNDAY
and 7 = SATURDAY
. e.g., Sunday in US, Monday in France
Return | |
---|---|
Int |
the first day of the week, where 1 = SUNDAY and 7 = SATURDAY . |
getGreatestMinimum
fun getGreatestMinimum(field: Int): Int
Returns the highest minimum value for the given field if varies. Otherwise same as getMinimum(). For Gregorian, no difference.
Parameters | |
---|---|
field |
Int: the given time field. |
Return | |
---|---|
Int |
the highest minimum value for the given time field. |
getInstance
open static fun getInstance(): Calendar!
Returns a calendar using the default time zone and locale.
Return | |
---|---|
Calendar! |
a Calendar. |
getInstance
open static fun getInstance(zone: TimeZone!): Calendar!
Returns a calendar using the specified time zone and default locale.
Parameters | |
---|---|
zone |
TimeZone!: the time zone to use |
Return | |
---|---|
Calendar! |
a Calendar. |
getInstance
open static fun getInstance(
zone: TimeZone!,
locale: ULocale!
): Calendar!
Returns a calendar with the specified time zone and locale.
Parameters | |
---|---|
zone |
TimeZone!: the time zone to use |
locale |
ULocale!: the ulocale for the week data |
Return | |
---|---|
Calendar! |
a Calendar. |
getInstance
open static fun getInstance(
zone: TimeZone!,
aLocale: Locale!
): Calendar!
Returns a calendar with the specified time zone and locale.
Parameters | |
---|---|
zone |
TimeZone!: the time zone to use |
aLocale |
Locale!: the locale for the week data |
Return | |
---|---|
Calendar! |
a Calendar. |
getInstance
open static fun getInstance(locale: ULocale!): Calendar!
Returns a calendar using the default time zone and specified locale.
Parameters | |
---|---|
locale |
ULocale!: the ulocale for the week data |
Return | |
---|---|
Calendar! |
a Calendar. |
getInstance
open static fun getInstance(aLocale: Locale!): Calendar!
Returns a calendar using the default time zone and specified locale.
Parameters | |
---|---|
aLocale |
Locale!: the locale for the week data |
Return | |
---|---|
Calendar! |
a Calendar. |
getKeywordValuesForLocale
static fun getKeywordValuesForLocale(
key: String!,
locale: ULocale!,
commonlyUsed: Boolean
): Array<String!>!
[icu] Given a key and a locale, returns an array of string values in a preferred order that would make a difference. These are all and only those values where the open (creation) of the service with the locale formed from the input locale plus input keyword and that value has different behavior than creation with the input locale alone.
Parameters | |
---|---|
key |
String!: one of the keys supported by this service. For now, only "calendar" is supported. |
locale |
ULocale!: the locale |
commonlyUsed |
Boolean: if set to true it will return only commonly used values with the given locale in preferred order. Otherwise, it will return all the available values for the locale. |
Return | |
---|---|
Array<String!>! |
an array of string values for the given key and the locale. |
getLeastMaximum
fun getLeastMaximum(field: Int): Int
Returns the lowest maximum value for the given field if varies. Otherwise same as getMaximum(). e.g., for Gregorian DAY_OF_MONTH, 28.
Parameters | |
---|---|
field |
Int: the given time field. |
Return | |
---|---|
Int |
the lowest maximum value for the given time field. |
getMaximum
fun getMaximum(field: Int): Int
Returns the maximum value for the given time field. e.g. for Gregorian DAY_OF_MONTH, 31.
Parameters | |
---|---|
field |
Int: the given time field. |
Return | |
---|---|
Int |
the maximum value for the given time field. |
getMinimalDaysInFirstWeek
open fun getMinimalDaysInFirstWeek(): Int
Returns what the minimal days required in the first week of the year are. That is, if the first week is defined as one that contains the first day of the first month of a year, getMinimalDaysInFirstWeek returns 1. If the minimal days required must be a full week, getMinimalDaysInFirstWeek returns 7.
Return | |
---|---|
Int |
the minimal days required in the first week of the year. |
getMinimum
fun getMinimum(field: Int): Int
Returns the minimum value for the given time field. e.g., for Gregorian DAY_OF_MONTH, 1.
Parameters | |
---|---|
field |
Int: the given time field. |
Return | |
---|---|
Int |
the minimum value for the given time field. |
getRepeatedWallTimeOption
open fun getRepeatedWallTimeOption(): Int
[icu]Gets the behavior for handling wall time repeating multiple times at negative time zone offset transitions.
Return | |
---|---|
Int |
the behavior for handling repeating wall time, either WALLTIME_FIRST or WALLTIME_LAST . |
getSkippedWallTimeOption
open fun getSkippedWallTimeOption(): Int
[icu]Gets the behavior for handling skipped wall time at positive time zone offset transitions.
Return | |
---|---|
Int |
the behavior for handling skipped wall time, one of WALLTIME_FIRST , WALLTIME_LAST and WALLTIME_NEXT_VALID . |
getTemporalMonthCode
open fun getTemporalMonthCode(): String!
Gets The Temporal monthCode value corresponding to the month for the date. The value is a string identifier that starts with the literal grapheme "M" followed by two graphemes representing the zero-padded month number of the current month in a normal (non-leap) year and suffixed by an optional literal grapheme "L" if this is a leap month in a lunisolar calendar. The 25 possible values are "M01" .. "M13" and "M01L" .. "M12L". For the Hebrew calendar, the values are "M01" .. "M12" for non-leap year, and "M01" .. "M05", "M05L", "M06" .. "M12" for leap year. For the Chinese calendar, the values are "M01" .. "M12" for non-leap year and in leap year with another monthCode in "M01L" .. "M12L". For Coptic and Ethiopian calendar, the Temporal monthCode values for any years are "M01" to "M13".
Return | |
---|---|
String! |
One of 25 possible strings in {"M01".."M13", "M01L".."M12L"}. |
getTime
fun getTime(): Date!
Returns this Calendar's current time.
Return | |
---|---|
Date! |
the current time. |
getTimeInMillis
open fun getTimeInMillis(): Long
Returns this Calendar's current time as a long.
Return | |
---|---|
Long |
the current time as UTC milliseconds from the epoch. |
getTimeZone
open fun getTimeZone(): TimeZone!
Returns the time zone.
Return | |
---|---|
TimeZone! |
the time zone object associated with this calendar. |
getType
open fun getType(): String!
[icu] Returns the calendar type name string for this Calendar object. The returned string is the legacy ICU calendar attribute value, for example, "gregorian" or "japanese".
See type="old type name" for the calendar attribute of locale IDs at http://www.unicode.org/reports/tr35/#Key_Type_Definitions
Return | |
---|---|
String! |
legacy calendar type name string |
getWeekData
open fun getWeekData(): Calendar.WeekData!
[icu] Return simple, immutable struct-like class for access to the week data in this calendar.
Return | |
---|---|
Calendar.WeekData! |
the WeekData for this calendar. |
getWeekDataForRegion
open static fun getWeekDataForRegion(region: String!): Calendar.WeekData!
[icu] Return simple, immutable struct-like class for access to the CLDR week data.
Parameters | |
---|---|
region |
String!: The input region. The results are undefined if the region code is not valid. |
Return | |
---|---|
Calendar.WeekData! |
the WeekData for the input region. It is never null. |
hashCode
open fun hashCode(): Int
Returns a hash code for this calendar.
Return | |
---|---|
Int |
a hash code value for this object. |
inTemporalLeapYear
open fun inTemporalLeapYear(): Boolean
[icu] Returns true if the date is in a leap year. Recalculate the current time field values if the time value has been changed by a call to * setTime(). This method is semantically const, but may alter the object in memory. A "leap year" is a year that contains more days than other years (for solar or lunar calendars) or more months than other years (for lunisolar calendars like Hebrew or Chinese), as defined in the ECMAScript Temporal proposal.
Return | |
---|---|
Boolean |
true if the date in the fields is in a Temporal proposal defined leap year. False otherwise. |
isEquivalentTo
open fun isEquivalentTo(other: Calendar!): Boolean
[icu] Returns true if the given Calendar object is equivalent to this one. An equivalent Calendar will behave exactly as this one does, but it may be set to a different time. By contrast, for the equals() method to return true, the other Calendar must be set to the same time.
Parameters | |
---|---|
other |
Calendar!: the Calendar to be compared with this Calendar |
isLenient
open fun isLenient(): Boolean
Tell whether date/time interpretation is to be lenient.
isSet
fun isSet(field: Int): Boolean
Determines if the given time field has a value set.
Return | |
---|---|
Boolean |
true if the given time field has a value set; false otherwise. |
isWeekend
open fun isWeekend(): Boolean
[icu] Returns true if this Calendar's current date and time is in the weekend in this calendar system.
Return | |
---|---|
Boolean |
true if the given date and time is part of the weekend |
See Also
isWeekend
open fun isWeekend(date: Date!): Boolean
[icu] Returns true if the given date and time is in the weekend in this calendar system. Equivalent to calling setTime() followed by isWeekend(). Note: This method changes the time this calendar is set to.
Parameters | |
---|---|
date |
Date!: the date and time |
Return | |
---|---|
Boolean |
true if the given date and time is part of the weekend |
See Also
roll
fun roll(
field: Int,
up: Boolean
): Unit
Rolls (up/down) a single unit of time on the given field. If the field is rolled past its maximum allowable value, it will "wrap" back to its minimum and continue rolling. For example, to roll the current date up by one day, you can call:
roll(
DATE
, true)
When rolling on the YEAR
field, it will roll the year value in the range between 1 and the value returned by calling getMaximum
(YEAR
).
When rolling on certain fields, the values of other fields may conflict and need to be changed. For example, when rolling the MONTH
field for the Gregorian date 1/31/96 upward, the DAY_OF_MONTH
field must be adjusted so that the result is 2/29/96 rather than the invalid 2/31/96.
Rolling up always means rolling forward in time (unless the limit of the field is reached, in which case it may pin or wrap), so for the Gregorian calendar, starting with 100 BC and rolling the year up results in 99 BC. When eras have a definite beginning and end (as in the Chinese calendar, or as in most eras in the Japanese calendar) then rolling the year past either limit of the era will cause the year to wrap around. When eras only have a limit at one end, then attempting to roll the year past that limit will result in pinning the year at that limit. Note that for most calendars in which era 0 years move forward in time (such as Buddhist, Hebrew, or Islamic), it is possible for add or roll to result in negative years for era 0 (that is the only way to represent years before the calendar epoch in such calendars).
Note: Calling roll(field, true) N times is not necessarily equivalent to calling roll(field, N). For example, imagine that you start with the date Gregorian date January 31, 1995. If you call roll(Calendar.MONTH, 2), the result will be March 31, 1995. But if you call roll(Calendar.MONTH, true), the result will be February 28, 1995. Calling it one more time will give March 28, 1995, which is usually not the desired result.
Note: You should always use roll and add rather than attempting to perform arithmetic operations directly on the fields of a Calendar. It is quite possible for Calendar subclasses to have fields with non-linear behavior, for example missing months or days during non-leap years. The subclasses' add and roll methods will take this into account, while simple arithmetic manipulations may give invalid results.
Parameters | |
---|---|
field |
Int: the calendar field to roll. |
up |
Boolean: indicates if the value of the specified time field is to be rolled up or rolled down. Use true if rolling up, false otherwise. |
Exceptions | |
---|---|
java.lang.IllegalArgumentException |
if the field is invalid or refers to a field that cannot be handled by this method. |
See Also
roll
open fun roll(
field: Int,
amount: Int
): Unit
Rolls (up/down) a specified amount time on the given field. For example, to roll the current date up by three days, you can call roll(Calendar.DATE, 3)
. If the field is rolled past its maximum allowable value, it will "wrap" back to its minimum and continue rolling. For example, calling roll(Calendar.DATE, 10)
on a Gregorian calendar set to 4/25/96 will result in the date 4/5/96.
When rolling on certain fields, the values of other fields may conflict and need to be changed. For example, when rolling the MONTH
field for the Gregorian date 1/31/96 by +1, the DAY_OF_MONTH
field must be adjusted so that the result is 2/29/96 rather than the invalid 2/31/96.
Rolling by a positive value always means rolling forward in time (unless the limit of the field is reached, in which case it may pin or wrap), so for the Gregorian calendar, starting with 100 BC and rolling the year by + 1 results in 99 BC. When eras have a definite beginning and end (as in the Chinese calendar, or as in most eras in the Japanese calendar) then rolling the year past either limit of the era will cause the year to wrap around. When eras only have a limit at one end, then attempting to roll the year past that limit will result in pinning the year at that limit. Note that for most calendars in which era 0 years move forward in time (such as Buddhist, Hebrew, or Islamic), it is possible for add or roll to result in negative years for era 0 (that is the only way to represent years before the calendar epoch in such calendars).
[icu] Note: the ICU implementation of this method is able to roll all fields except for ERA
, DST_OFFSET
, and ZONE_OFFSET
. Subclasses may, of course, add support for additional fields in their overrides of roll
.
Note: You should always use roll and add rather than attempting to perform arithmetic operations directly on the fields of a Calendar. It is quite possible for Calendar subclasses to have fields with non-linear behavior, for example missing months or days during non-leap years. The subclasses' add and roll methods will take this into account, while simple arithmetic manipulations may give invalid results.
Subclassing:
This implementation of roll
assumes that the behavior of the field is continuous between its minimum and maximum, which are found by calling getActualMinimum
and getActualMaximum
. For most such fields, simple addition, subtraction, and modulus operations are sufficient to perform the roll. For week-related fields, the results of getFirstDayOfWeek
and getMinimalDaysInFirstWeek
are also necessary. Subclasses can override these two methods if their values differ from the defaults.
Subclasses that have fields for which the assumption of continuity breaks down must override roll
to handle those fields specially. For example, in the Hebrew calendar the month "Adar I" only occurs in leap years; in other years the calendar jumps from Shevat (month #4) to Adar (month #6). The android.icu.util.HebrewCalendar#roll method takes this into account, so that rolling the month of Shevat by one gives the proper result (Adar) in a non-leap year.
Parameters | |
---|---|
field |
Int: the calendar field to roll. |
amount |
Int: the amount by which the field should be rolled. |
Exceptions | |
---|---|
java.lang.IllegalArgumentException |
if the field is invalid or refers to a field that cannot be handled by this method. |
See Also
set
fun set(
field: Int,
value: Int
): Unit
Sets the time field with the given value.
Parameters | |
---|---|
field |
Int: the given time field. |
value |
Int: the value to be set for the given time field. |
set
fun set(
year: Int,
month: Int,
date: Int
): Unit
Sets the values for the fields year, month, and date. Previous values of other fields are retained. If this is not desired, call clear()
first.
Parameters | |
---|---|
year |
Int: the value used to set the YEAR time field. |
month |
Int: the value used to set the MONTH time field. Month value is 0-based. e.g., 0 for January. |
date |
Int: the value used to set the DATE time field. |
set
fun set(
year: Int,
month: Int,
date: Int,
hour: Int,
minute: Int
): Unit
Sets the values for the fields year, month, date, hour, and minute. Previous values of other fields are retained. If this is not desired, call clear()
first.
Parameters | |
---|---|
year |
Int: the value used to set the YEAR time field. |
month |
Int: the value used to set the MONTH time field. Month value is 0-based. e.g., 0 for January. |
date |
Int: the value used to set the DATE time field. |
hour |
Int: the value used to set the HOUR_OF_DAY time field. |
minute |
Int: the value used to set the MINUTE time field. |
set
fun set(
year: Int,
month: Int,
date: Int,
hour: Int,
minute: Int,
second: Int
): Unit
Sets the values for the fields year, month, date, hour, minute, and second. Previous values of other fields are retained. If this is not desired, call #clear first.
Parameters | |
---|---|
year |
Int: the value used to set the YEAR time field. |
month |
Int: the value used to set the MONTH time field. Month value is 0-based. e.g., 0 for January. |
date |
Int: the value used to set the DATE time field. |
hour |
Int: the value used to set the HOUR_OF_DAY time field. |
minute |
Int: the value used to set the MINUTE time field. |
second |
Int: the value used to set the SECOND time field. |
setFirstDayOfWeek
open fun setFirstDayOfWeek(value: Int): Unit
Sets what the first day of the week is, where 1 = SUNDAY
and 7 = SATURDAY
.
Parameters | |
---|---|
value |
Int: the given first day of the week, where 1 = SUNDAY and 7 = SATURDAY . |
setLenient
open fun setLenient(lenient: Boolean): Unit
Specify whether or not date/time interpretation is to be lenient. With lenient interpretation, a date such as "February 942, 1996" will be treated as being equivalent to the 941st day after February 1, 1996. With strict interpretation, such dates will cause an exception to be thrown.
setMinimalDaysInFirstWeek
open fun setMinimalDaysInFirstWeek(value: Int): Unit
Sets what the minimal days required in the first week of the year are. For example, if the first week is defined as one that contains the first day of the first month of a year, call the method with value 1. If it must be a full week, use value 7.
Parameters | |
---|---|
value |
Int: the given minimal days required in the first week of the year. |
setRepeatedWallTimeOption
open fun setRepeatedWallTimeOption(option: Int): Unit
[icu]Sets the behavior for handling wall time repeating multiple times at negative time zone offset transitions. For example, 1:30 AM on November 6, 2011 in US Eastern time (America/New_York) occurs twice; 1:30 AM EDT, then 1:30 AM EST one hour later. When WALLTIME_FIRST
is used, the wall time 1:30AM in this example will be interpreted as 1:30 AM EDT (first occurrence). When WALLTIME_LAST
is used, it will be interpreted as 1:30 AM EST (last occurrence). The default value is WALLTIME_LAST
.
Parameters | |
---|---|
option |
Int: the behavior for handling repeating wall time, either WALLTIME_FIRST or WALLTIME_LAST . |
Exceptions | |
---|---|
java.lang.IllegalArgumentException |
when option is neither WALLTIME_FIRST nor WALLTIME_LAST . |
setSkippedWallTimeOption
open fun setSkippedWallTimeOption(option: Int): Unit
[icu]Sets the behavior for handling skipped wall time at positive time zone offset transitions. For example, 2:30 AM on March 13, 2011 in US Eastern time (America/New_York) does not exist because the wall time jump from 1:59 AM EST to 3:00 AM EDT. When WALLTIME_FIRST
is used, 2:30 AM is interpreted as 30 minutes before 3:00 AM EDT, therefore, it will be resolved as 1:30 AM EST. When WALLTIME_LAST
is used, 2:30 AM is interpreted as 31 minutes after 1:59 AM EST, therefore, it will be resolved as 3:30 AM EDT. When WALLTIME_NEXT_VALID
is used, 2:30 AM will be resolved as next valid wall time, that is 3:00 AM EDT. The default value is WALLTIME_LAST
.
Note:This option is effective only when this calendar is lenient
. When the calendar is strict, such non-existing wall time will cause an exception.
Parameters | |
---|---|
option |
Int: the behavior for handling skipped wall time at positive time zone offset transitions, one of WALLTIME_FIRST , WALLTIME_LAST and WALLTIME_NEXT_VALID . |
Exceptions | |
---|---|
java.lang.IllegalArgumentException |
when option is not any of WALLTIME_FIRST , WALLTIME_LAST and WALLTIME_NEXT_VALID . |
setTemporalMonthCode
open fun setTemporalMonthCode(temporalMonth: String!): Unit
Sets The Temporal monthCode which is a string identifier that starts with the literal grapheme "M" followed by two graphemes representing the zero-padded month number of the current month in a normal (non-leap) year and suffixed by an optional literal grapheme "L" if this is a leap month in a lunisolar calendar. The 25 possible values are "M01" .. "M13" and "M01L" .. "M12L". For Hebrew calendar, the values are "M01" .. "M12" for non-leap years, and "M01" .. "M05", "M05L", "M06" .. "M12" for leap year. For the Chinese calendar, the values are "M01" .. "M12" for non-leap year and in leap year with another monthCode in "M01L" .. "M12L". For Coptic and Ethiopian calendar, the Temporal monthCode values for any years are "M01" to "M13".
Parameters | |
---|---|
temporalMonth |
String!: One of 25 possible strings in {"M01".. "M12", "M13", "M01L", "M12L"}. |
setTime
fun setTime(date: Date!): Unit
Sets this Calendar's current time with the given Date.
Note: Calling setTime
with Date(Long.MAX_VALUE)
or Date(Long.MIN_VALUE)
may yield incorrect field values from get(int)
.
Parameters | |
---|---|
date |
Date!: the given Date. |
setTimeInMillis
open fun setTimeInMillis(millis: Long): Unit
Sets this Calendar's current time from the given long value. An IllegalIcuArgumentException is thrown when millis is outside the range permitted by a Calendar object when in strict mode. When in lenient mode the out of range values are pinned to their respective min/max.
Parameters | |
---|---|
millis |
Long: the new time in UTC milliseconds from the epoch. |
setTimeZone
open fun setTimeZone(value: TimeZone!): Unit
Sets the time zone with the given time zone value.
Parameters | |
---|---|
value |
TimeZone!: the given time zone. |
setWeekData
open fun setWeekData(wdata: Calendar.WeekData!): Calendar!
[icu] Set data in this calendar based on the WeekData input.
Parameters | |
---|---|
wdata |
Calendar.WeekData!: The week data to use |
Return | |
---|---|
Calendar! |
this, for chaining |
toString
open fun toString(): String
Returns a string representation of this calendar. This method is intended to be used only for debugging purposes, and the format of the returned string may vary between implementations. The returned string may be empty but may not be null
.
Return | |
---|---|
String |
a string representation of this calendar. |
Protected methods
complete
protected open fun complete(): Unit
Fills in any unset fields in the time field list.
computeFields
protected open fun computeFields(): Unit
Converts the current millisecond time value time
to field values in fields[]
. This synchronizes the time field values with a new time that is set for the calendar. The time is not recomputed first; to recompute the time, then the fields, call the complete
method.
See Also
computeGregorianFields
protected fun computeGregorianFields(julianDay: Int): Unit
Compute the Gregorian calendar year, month, and day of month from the Julian day. These values are not stored in fields, but in member variables gregorianXxx. They are used for time zone computations and by subclasses that are Gregorian derivatives. Subclasses may call this method to perform a Gregorian calendar millis->fields computation. To perform a Gregorian calendar fields->millis computation, call computeGregorianMonthStart().
See Also
computeGregorianMonthStart
protected open fun computeGregorianMonthStart(
year: Int,
month: Int
): Int
Compute the Julian day of a month of the Gregorian calendar. Subclasses may call this method to perform a Gregorian calendar fields->millis computation. To perform a Gregorian calendar millis->fields computation, call computeGregorianFields().
Parameters | |
---|---|
year |
Int: extended Gregorian year |
month |
Int: zero-based Gregorian month |
Return | |
---|---|
Int |
the Julian day number of the day before the first day of the given month in the given extended year |
See Also
computeJulianDay
protected open fun computeJulianDay(): Int
Compute the Julian day number as specified by this calendar's fields.
computeMillisInDay
protected open funcomputeMillisInDay(): Int
Deprecated: ICU 60
Compute the milliseconds in the day from the fields. This is a value from 0 to 23:59:59.999 inclusive, unless fields are out of range, in which case it can be an arbitrary value. This value reflects local zone wall time.
computeTime
protected open fun computeTime(): Unit
Converts the current field values in fields[]
to the millisecond time value time
.
computeZoneOffset
protected open funcomputeZoneOffset(
millis: Long,
millisInDay: Int
): Int
Deprecated: ICU 60
This method can assume EXTENDED_YEAR has been set.
Parameters | |
---|---|
millis |
Long: milliseconds of the date fields (local midnight millis) |
millisInDay |
Int: milliseconds of the time fields; may be out or range. |
Return | |
---|---|
Int |
total zone offset (raw + DST) for the given moment |
fieldName
protected open fun fieldName(field: Int): String!
Returns a string name for a field, for debugging and exceptions.
floorDivide
protected static fun floorDivide(
numerator: Int,
denominator: Int
): Int
Divide two integers, returning the floor of the quotient.
Unlike the built-in division, this is mathematically well-behaved. E.g., -1/4
=> 0 but floorDivide(-1,4)
=> -1.
Parameters | |
---|---|
numerator |
Int: the numerator |
denominator |
Int: a divisor which must be > 0 |
Return | |
---|---|
Int |
the floor of the quotient. |
floorDivide
protected static fun floorDivide(
numerator: Int,
denominator: Int,
remainder: IntArray!
): Int
Divide two integers, returning the floor of the quotient, and the modulus remainder.
Unlike the built-in division, this is mathematically well-behaved. E.g., -1/4
=> 0 and -1%4
=> -1, but floorDivide(-1,4)
=> -1 with remainder[0]
=> 3.
Parameters | |
---|---|
numerator |
Int: the numerator |
denominator |
Int: a divisor which must be > 0 |
remainder |
IntArray!: an array of at least one element in which the value numerator mod denominator is returned. Unlike numerator % denominator , this will always be non-negative. |
Return | |
---|---|
Int |
the floor of the quotient. |
floorDivide
protected static fun floorDivide(
numerator: Long,
denominator: Int,
remainder: IntArray!
): Int
Divide two integers, returning the floor of the quotient, and the modulus remainder.
Unlike the built-in division, this is mathematically well-behaved. E.g., -1/4
=> 0 and -1%4
=> -1, but floorDivide(-1,4)
=> -1 with remainder[0]
=> 3.
Parameters | |
---|---|
numerator |
Long: the numerator |
denominator |
Int: a divisor which must be > 0 |
remainder |
IntArray!: an array of at least one element in which the value numerator mod denominator is returned. Unlike numerator % denominator , this will always be non-negative. |
Return | |
---|---|
Int |
the floor of the quotient. |
floorDivide
protected static fun floorDivide(
numerator: Long,
denominator: Long
): Long
Divide two long integers, returning the floor of the quotient.
Unlike the built-in division, this is mathematically well-behaved. E.g., -1/4
=> 0 but floorDivide(-1,4)
=> -1.
Parameters | |
---|---|
numerator |
Long: the numerator |
denominator |
Long: a divisor which must be > 0 |
Return | |
---|---|
Long |
the floor of the quotient. |
getFieldResolutionTable
protected open fun getFieldResolutionTable(): Array<Array<IntArray!>!>!
Returns the field resolution array for this calendar. Calendars that define additional fields or change the semantics of existing fields should override this method to adjust the field resolution semantics accordingly. Other subclasses should not override this method.
See Also
getGregorianDayOfMonth
protected fun getGregorianDayOfMonth(): Int
Returns the day of month (1-based) on the Gregorian calendar as computed by computeGregorianFields()
.
See Also
getGregorianDayOfYear
protected fun getGregorianDayOfYear(): Int
Returns the day of year (1-based) on the Gregorian calendar as computed by computeGregorianFields()
.
See Also
getGregorianMonth
protected fun getGregorianMonth(): Int
Returns the month (0-based) on the Gregorian calendar as computed by computeGregorianFields()
.
See Also
getGregorianYear
protected fun getGregorianYear(): Int
Returns the extended year on the Gregorian calendar as computed by computeGregorianFields()
.
See Also
getLimit
protected open fun getLimit(
field: Int,
limitType: Int
): Int
Returns a limit for a field.
Parameters | |
---|---|
field |
Int: the field, from 0..getFieldCount()-1 |
limitType |
Int: the type specifier for the limit |
See Also
getStamp
protected fun getStamp(field: Int): Int
Returns the timestamp of a field.
gregorianMonthLength
protected static fun gregorianMonthLength(
y: Int,
m: Int
): Int
Returns the length of a month of the Gregorian calendar.
Parameters | |
---|---|
y |
Int: the extended year |
m |
Int: the 0-based month number |
Return | |
---|---|
Int |
the number of days in the given month |
gregorianPreviousMonthLength
protected static fun gregorianPreviousMonthLength(
y: Int,
m: Int
): Int
Returns the length of a previous month of the Gregorian calendar.
Parameters | |
---|---|
y |
Int: the extended year |
m |
Int: the 0-based month number |
Return | |
---|---|
Int |
the number of days in the month previous to the given month |
handleComputeFields
protected open fun handleComputeFields(julianDay: Int): Unit
Subclasses may override this method to compute several fields specific to each calendar system. These are:
- ERA
- YEAR
- MONTH
- DAY_OF_MONTH
- DAY_OF_YEAR
- EXTENDED_YEAR
In addition, subclasses should compute any subclass-specific fields, that is, fields from BASE_FIELD_COUNT to getFieldCount() - 1.
The default implementation in Calendar
implements a pure proleptic Gregorian calendar.
handleComputeJulianDay
protected open fun handleComputeJulianDay(bestField: Int): Int
Subclasses may override this. This method calls handleGetMonthLength() to obtain the calendar-specific month length.
handleComputeMonthStart
protected abstract fun handleComputeMonthStart(
eyear: Int,
month: Int,
useMonth: Boolean
): Int
Returns the Julian day number of day before the first day of the given month in the given extended year. Subclasses should override this method to implement their calendar system.
Parameters | |
---|---|
eyear |
Int: the extended year |
month |
Int: the zero-based month, or 0 if useMonth is false |
useMonth |
Boolean: if false, compute the day before the first day of the given year, otherwise, compute the day before the first day of the given month |
Return | |
---|---|
Int |
the Julian day number of the day before the first day of the given month and year |
handleCreateFields
protected open fun handleCreateFields(): IntArray!
Subclasses that use additional fields beyond those defined in Calendar
should override this method to return an int[]
array of the appropriate length. The length must be at least BASE_FIELD_COUNT
and no more than MAX_FIELD_COUNT
.
handleGetDateFormat
protected open fun handleGetDateFormat(
pattern: String!,
locale: ULocale!
): DateFormat!
Creates a DateFormat
appropriate to this calendar. This is a framework method for subclasses to override. This method is responsible for creating the calendar-specific DateFormat and DateFormatSymbols objects as needed.
Parameters | |
---|---|
pattern |
String!: the pattern, specific to the DateFormat subclass |
locale |
ULocale!: the locale for which the symbols should be drawn |
Return | |
---|---|
DateFormat! |
a DateFormat appropriate to this calendar |
handleGetDateFormat
protected open fun handleGetDateFormat(
pattern: String!,
override: String!,
locale: Locale!
): DateFormat!
Creates a DateFormat
appropriate to this calendar. This is a framework method for subclasses to override. This method is responsible for creating the calendar-specific DateFormat and DateFormatSymbols objects as needed.
Parameters | |
---|---|
pattern |
String!: the pattern, specific to the DateFormat subclass |
override |
String!: The override string. A numbering system override string can take one of the following forms: 1). If just a numbering system name is specified, it applies to all numeric fields in the date format pattern. 2). To specify an alternate numbering system on a field by field basis, use the field letters from the pattern followed by an = sign, followed by the numbering system name. For example, to specify that just the year be formatted using Hebrew digits, use the override "y=hebr". Multiple overrides can be specified in a single string by separating them with a semi-colon. For example, the override string "m=thai;y=deva" would format using Thai digits for the month and Devanagari digits for the year. |
locale |
Locale!: the locale for which the symbols should be drawn |
Return | |
---|---|
DateFormat! |
a DateFormat appropriate to this calendar |
handleGetDateFormat
protected open fun handleGetDateFormat(
pattern: String!,
locale: Locale!
): DateFormat!
Creates a DateFormat
appropriate to this calendar. This is a framework method for subclasses to override. This method is responsible for creating the calendar-specific DateFormat and DateFormatSymbols objects as needed.
Parameters | |
---|---|
pattern |
String!: the pattern, specific to the DateFormat subclass |
locale |
Locale!: the locale for which the symbols should be drawn |
Return | |
---|---|
DateFormat! |
a DateFormat appropriate to this calendar |
handleGetExtendedYear
protected abstract fun handleGetExtendedYear(): Int
Returns the extended year defined by the current fields. This will use the EXTENDED_YEAR field or the YEAR and supra-year fields (such as ERA) specific to the calendar system, depending on which set of fields is newer.
Return | |
---|---|
Int |
the extended year |
handleGetLimit
protected abstract fun handleGetLimit(
field: Int,
limitType: Int
): Int
Subclass API for defining limits of different types. Subclasses must implement this method to return limits for the following fields:
ERA YEAR MONTH WEEK_OF_YEAR WEEK_OF_MONTH DAY_OF_MONTH DAY_OF_YEAR DAY_OF_WEEK_IN_MONTH YEAR_WOY EXTENDED_YEAR
Parameters | |
---|---|
field |
Int: one of the above field numbers |
limitType |
Int: one of MINIMUM , GREATEST_MINIMUM , LEAST_MAXIMUM , or MAXIMUM |
handleGetMonthLength
protected open fun handleGetMonthLength(
extendedYear: Int,
month: Int
): Int
Returns the number of days in the given month of the given extended year of this calendar system. Subclasses should override this method if they can provide a more correct or more efficient implementation than the default implementation in Calendar.
handleGetYearLength
protected open fun handleGetYearLength(eyear: Int): Int
Returns the number of days in the given extended year of this calendar system. Subclasses should override this method if they can provide a more correct or more efficient implementation than the default implementation in Calendar.
internalGet
protected fun internalGet(field: Int): Int
Returns the value for a given time field. This is an internal method for subclasses that does not trigger any calculations.
Parameters | |
---|---|
field |
Int: the given time field. |
Return | |
---|---|
Int |
the value for the given time field. |
internalGet
protected fun internalGet(
field: Int,
defaultValue: Int
): Int
Returns the value for a given time field, or return the given default value if the field is not set. This is an internal method for subclasses that does not trigger any calculations.
Parameters | |
---|---|
field |
Int: the given time field. |
defaultValue |
Int: value to return if field is not set |
Return | |
---|---|
Int |
the value for the given time field of defaultValue if the field is unset |
internalGetTimeInMillis
protected fun internalGetTimeInMillis(): Long
Returns the current milliseconds without recomputing.
internalSet
protected fun internalSet(
field: Int,
value: Int
): Unit
Set a field to a value. Subclasses should use this method when computing fields. It sets the time stamp in the stamp[]
array to INTERNALLY_SET
. If a field that may not be set by subclasses is passed in, an IllegalArgumentException
is thrown. This prevents subclasses from modifying fields that are intended to be calendar-system invariant.
isGregorianLeapYear
protected static fun isGregorianLeapYear(year: Int): Boolean
Determines if the given year is a leap year. Returns true if the given year is a leap year.
Parameters | |
---|---|
year |
Int: the given year. |
Return | |
---|---|
Boolean |
true if the given year is a leap year; false otherwise. |
julianDayToDayOfWeek
protected static fun julianDayToDayOfWeek(julian: Int): Int
Returns the day of week, from SUNDAY to SATURDAY, given a Julian day.
julianDayToMillis
protected static fun julianDayToMillis(julian: Int): Long
Converts Julian day to time as milliseconds.
Parameters | |
---|---|
julian |
Int: the given Julian day number. |
Return | |
---|---|
Long |
time as milliseconds. |
millisToJulianDay
protected static fun millisToJulianDay(millis: Long): Int
Converts time as milliseconds to Julian day.
Parameters | |
---|---|
millis |
Long: the given milliseconds. |
Return | |
---|---|
Int |
the Julian day number. |
newerField
protected open fun newerField(
defaultField: Int,
alternateField: Int
): Int
Returns the field that is newer, either defaultField, or alternateField. If neither is newer or neither is set, return defaultField.
newestStamp
protected open fun newestStamp(
first: Int,
last: Int,
bestStampSoFar: Int
): Int
Returns the newest stamp of a given range of fields.
pinField
protected open fun pinField(field: Int): Unit
Adjust the specified field so that it is within the allowable range for the date to which this calendar is set. For example, in a Gregorian calendar pinning the DAY_OF_MONTH
field for a calendar set to April 31 would cause it to be set to April 30.
Subclassing:
This utility method is intended for use by subclasses that need to implement their own overrides of #roll and add
.
Note: pinField
is implemented in terms of getActualMinimum
and getActualMaximum
. If either of those methods uses a slow, iterative algorithm for a particular field, it would be unwise to attempt to call pinField
for that field. If you really do need to do so, you should override this method to do something more efficient for that field.
Parameters | |
---|---|
field |
Int: The calendar field whose value should be pinned. |
See Also
prepareGetActual
protected open fun prepareGetActual(
field: Int,
isMinimum: Boolean
): Unit
Prepare this calendar for computing the actual minimum or maximum. This method modifies this calendar's fields; it is called on a temporary calendar.
Rationale: The semantics of getActualXxx() is to return the maximum or minimum value that the given field can take, taking into account other relevant fields. In general these other fields are larger fields. For example, when computing the actual maximum DAY_OF_MONTH, the current value of DAY_OF_MONTH itself is ignored, as is the value of any field smaller.
The time fields all have fixed minima and maxima, so we don't need to worry about them. This also lets us set the MILLISECONDS_IN_DAY to zero to erase any effects the time fields might have when computing date fields.
DAY_OF_WEEK is adjusted specially for the WEEK_OF_MONTH and WEEK_OF_YEAR fields to ensure that they are computed correctly.
resolveFields
protected open fun resolveFields(precedenceTable: Array<Array<IntArray!>!>!): Int
Given a precedence table, return the newest field combination in the table, or -1 if none is found.
The precedence table is a 3-dimensional array of integers. It may be thought of as an array of groups. Each group is an array of lines. Each line is an array of field numbers. Within a line, if all fields are set, then the time stamp of the line is taken to be the stamp of the most recently set field. If any field of a line is unset, then the line fails to match. Within a group, the line with the newest time stamp is selected. The first field of the line is returned to indicate which line matched.
In some cases, it may be desirable to map a line to field that whose stamp is NOT examined. For example, if the best field is DAY_OF_WEEK then the DAY_OF_WEEK_IN_MONTH algorithm may be used. In order to do this, insert the value REMAP_RESOLVE | F
at the start of the line, where F
is the desired return field value. This field will NOT be examined; it only determines the return value if the other fields in the line are the newest.
If all lines of a group contain at least one unset field, then no line will match, and the group as a whole will fail to match. In that case, the next group will be processed. If all groups fail to match, then -1 is returned.
validateField
protected open fun validateField(field: Int): Unit
Validate a single field of this calendar. Subclasses should override this method to validate any calendar-specific fields. Generic fields can be handled by Calendar.validateField()
.
See Also
validateField
protected fun validateField(
field: Int,
min: Int,
max: Int
): Unit
Validate a single field of this calendar given its minimum and maximum allowed value. If the field is out of range, throw a descriptive IllegalArgumentException
. Subclasses may use this method in their implementation of validateField(int)
.
validateFields
protected open fun validateFields(): Unit
Ensure that each field is within its valid range by calling validateField(int)
on each field that has been set. This method should only be called if this calendar is not lenient.
See Also
weekNumber
protected fun weekNumber(
dayOfPeriod: Int,
dayOfWeek: Int
): Int
Returns the week number of a day, within a period. This may be the week number in a year, or the week number in a month. Usually this will be a value >= 1, but if some initial days of the period are excluded from week 1, because getMinimalDaysInFirstWeek
is > 1, then the week number will be zero for those initial days. This method requires the day of week for the given date in order to determine the result.
Subclassing:
This method is intended for use by subclasses in implementing their computeTime
and/or computeFields
methods. It is often useful in getActualMinimum
and getActualMaximum
as well.
Parameters | |
---|---|
dayOfPeriod |
Int: The DAY_OF_YEAR or DAY_OF_MONTH whose week number is desired. Should be 1 for the first day of the period. |
dayOfWeek |
Int: The DAY_OF_WEEK for the day corresponding to the dayOfPeriod parameter. 1-based with 1=Sunday. |
Return | |
---|---|
Int |
The week number (one-based), or zero if the day falls before the first week because getMinimalDaysInFirstWeek is more than one. |
weekNumber
protected open fun weekNumber(
desiredDay: Int,
dayOfPeriod: Int,
dayOfWeek: Int
): Int
Returns the week number of a day, within a period. This may be the week number in a year or the week number in a month. Usually this will be a value >= 1, but if some initial days of the period are excluded from week 1, because getMinimalDaysInFirstWeek
is > 1, then the week number will be zero for those initial days. This method requires the day number and day of week for some known date in the period in order to determine the day of week on the desired day.
Subclassing:
This method is intended for use by subclasses in implementing their computeTime
and/or computeFields
methods. It is often useful in getActualMinimum
and getActualMaximum
as well.
This variant is handy for computing the week number of some other day of a period (often the first or last day of the period) when its day of the week is not known but the day number and day of week for some other day in the period (e.g. the current date) is known.
Parameters | |
---|---|
desiredDay |
Int: The DAY_OF_YEAR or DAY_OF_MONTH whose week number is desired. Should be 1 for the first day of the period. |
dayOfPeriod |
Int: The DAY_OF_YEAR or DAY_OF_MONTH for a day in the period whose DAY_OF_WEEK is specified by the dayOfWeek parameter. Should be 1 for first day of period. |
dayOfWeek |
Int: The DAY_OF_WEEK for the day corresponding to the dayOfPeriod parameter. 1-based with 1=Sunday. |
Return | |
---|---|
Int |
The week number (one-based), or zero if the day falls before the first week because getMinimalDaysInFirstWeek is more than one. |
Properties
MAX_DATE
protected static val MAX_DATE: Date!
The maximum supported Date
. This value is equivalent to MAX_JULIAN
and MAX_MILLIS
.
MIN_DATE
protected static val MIN_DATE: Date!
The minimum supported Date
. This value is equivalent to MIN_JULIAN
and MIN_MILLIS
.