Calendarpublic abstract class Calendar extends Object implements Serializable, Comparable, CloneableThe Calendar class is an abstract class that provides methods
for converting between a specific instant in time and a set of {@link
#fields calendar fields} such as YEAR , MONTH ,
DAY_OF_MONTH , HOUR , and so on, and for
manipulating the calendar fields, such as getting the date of the next
week. An instant in time can be represented by a millisecond value that is
an offset from the Epoch, January 1, 1970
00:00:00.000 GMT (Gregorian).
The class also provides additional fields and methods for
implementing a concrete calendar system outside the package. Those
fields and methods are defined as protected .
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 object whose
calendar fields have been initialized with the current date and time:
Calendar rightNow = Calendar.getInstance();
A Calendar object can produce all the calendar 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 calendar fields, as well as their meaning. For example,
the first month of the calendar system has value MONTH ==
JANUARY for all calendars. Other values are defined by the
concrete subclass, such as ERA . See individual field
documentation and subclass documentation for details.
Getting and Setting Calendar Field Values
The calendar field values can be set by calling the set
methods. Any field values set in a Calendar will not be
interpreted until it needs to calculate its time value (milliseconds from
the Epoch) or values of the calendar fields. Calling the
get , getTimeInMillis , getTime ,
add and roll involves such calculation.
Leniency
Calendar has two modes for interpreting the calendar
fields, lenient and non-lenient. When a
Calendar is in lenient mode, it accepts a wider range of
calendar field values than it produces. When a Calendar
recomputes calendar field values for return by get() , all of
the calendar fields are normalized. For example, a lenient
GregorianCalendar interprets MONTH == JANUARY ,
DAY_OF_MONTH == 32 as February 1.
When a Calendar is in non-lenient mode, it throws an
exception if there is any inconsistency in its calendar fields. For
example, a GregorianCalendar always produces
DAY_OF_MONTH values between 1 and the length of the month. A
non-lenient GregorianCalendar throws an exception upon
calculating its time or calendar field values if any out-of-range field
value has been set.
First Week
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 methods for setting their values.
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.
Calendar Fields Resolution
When computing a date and time from the calendar fields, there
may be insufficient information for the computation (such as only
year and month with no day of month), or there may be inconsistent
information (such as Tuesday, July 15, 1996 (Gregorian) -- July 15,
1996 is actually a Monday). Calendar will resolve
calendar field values to determine the date and time in the
following way.
If there is any conflict in calendar field values,
Calendar gives priorities to calendar fields that have been set
more recently. The following are the default combinations of the
calendar fields. The most recent combination, as determined by the
most recently set single field, will be used.
For the date fields:
YEAR + MONTH + DAY_OF_MONTH
YEAR + MONTH + WEEK_OF_MONTH + DAY_OF_WEEK
YEAR + MONTH + DAY_OF_WEEK_IN_MONTH + DAY_OF_WEEK
YEAR + DAY_OF_YEAR
YEAR + DAY_OF_WEEK + WEEK_OF_YEAR
For the time of day fields:
HOUR_OF_DAY
AM_PM + HOUR
If there are any calendar fields whose values haven't been set in the selected
field combination, Calendar uses their default values. The default
value of each field may vary by concrete calendar systems. For example, in
GregorianCalendar , the default of a field is the same as that
of the start of the Epoch: i.e., YEAR = 1970 , MONTH =
JANUARY , DAY_OF_MONTH = 1 , etc.
Note: There are certain possible ambiguities in
interpretation of certain singular times, which are resolved in the
following ways:
- 23:59 is the last minute of the day and 00:00 is the first
minute of the next day. Thus, 23:59 on Dec 31, 1999 < 00:00 on
Jan 1, 2000 < 00:01 on Jan 1, 2000.
- 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 {@link DateFormat}
to format dates.
Field Manipulation
The calendar fields can be changed using three methods:
set() , add() , and roll() .
set(f, value) changes calendar field
f to value . In addition, it sets an
internal member variable to indicate that calendar field f has
been changed. Although calendar field f is changed immediately,
the calendar's time value in milliseconds is not recomputed until the next call to
get() , getTime() , getTimeInMillis() ,
add() , or roll() is made. Thus, multiple calls to
set() do not trigger multiple, unnecessary
computations. As a result of changing a calendar field using
set() , other calendar fields may also change, depending on the
calendar field, the calendar field value, and the calendar system. In addition,
get(f) will not necessarily return value set by
the call to the set method
after the calendar 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 date 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 date 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 or other constraints, such as time zone
offset changes, 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: See {@link java.util.GregorianCalendar#roll(int, int)}.
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. |
Fields Summary |
---|
public static final int | ERAField 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. | public static final int | YEARField number for get and set indicating the
year. This is a calendar-specific value; see subclass documentation. | public static final int | MONTHField number for get and set indicating the
month. This is a calendar-specific value. The first month of the year is
JANUARY which is 0; the last depends on the number of months in a year. | public static final int | WEEK_OF_YEARField 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. | public static final int | WEEK_OF_MONTHField 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. | public static final int | DATEField 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. | public static final int | DAY_OF_MONTHField 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. | public static final int | DAY_OF_YEARField number for get and set indicating the day
number within the current year. The first day of the year has value 1. | public static final int | DAY_OF_WEEKField number for get and set indicating the day
of the week. This field takes values SUNDAY ,
MONDAY , TUESDAY , WEDNESDAY ,
THURSDAY , FRIDAY , and SATURDAY . | public static final int | DAY_OF_WEEK_IN_MONTHField 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 14 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 . | public static final int | AM_PMField 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 . | public static final int | HOURField number for get and set indicating the
hour of the morning or afternoon. HOUR is used for the
12-hour clock (0 - 11). Noon and midnight are represented by 0, not by 12.
E.g., at 10:04:15.250 PM the HOUR is 10. | public static final int | HOUR_OF_DAYField 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. | public static final int | MINUTEField number for get and set indicating the
minute within the hour.
E.g., at 10:04:15.250 PM the MINUTE is 4. | public static final int | SECONDField number for get and set indicating the
second within the minute.
E.g., at 10:04:15.250 PM the SECOND is 15. | public static final int | MILLISECONDField number for get and set indicating the
millisecond within the second.
E.g., at 10:04:15.250 PM the MILLISECOND is 250. | public static final int | ZONE_OFFSETField number for get and set
indicating the raw offset from GMT in milliseconds.
This field reflects the correct GMT offset value of the time
zone of this Calendar if the
TimeZone implementation subclass supports
historical GMT offset changes. | public static final int | DST_OFFSETField number for get and set indicating the
daylight savings offset in milliseconds.
This field reflects the correct daylight saving offset value of
the time zone of this Calendar if the
TimeZone implementation subclass supports
historical Daylight Saving Time schedule changes. | public static final int | FIELD_COUNTThe number of distinct fields recognized by get and set .
Field numbers range from 0..FIELD_COUNT-1 . | public static final int | SUNDAYValue of the {@link #DAY_OF_WEEK} field indicating
Sunday. | public static final int | MONDAYValue of the {@link #DAY_OF_WEEK} field indicating
Monday. | public static final int | TUESDAYValue of the {@link #DAY_OF_WEEK} field indicating
Tuesday. | public static final int | WEDNESDAYValue of the {@link #DAY_OF_WEEK} field indicating
Wednesday. | public static final int | THURSDAYValue of the {@link #DAY_OF_WEEK} field indicating
Thursday. | public static final int | FRIDAYValue of the {@link #DAY_OF_WEEK} field indicating
Friday. | public static final int | SATURDAYValue of the {@link #DAY_OF_WEEK} field indicating
Saturday. | public static final int | JANUARYValue of the {@link #MONTH} field indicating the
first month of the year. | public static final int | FEBRUARYValue of the {@link #MONTH} field indicating the
second month of the year. | public static final int | MARCHValue of the {@link #MONTH} field indicating the
third month of the year. | public static final int | APRILValue of the {@link #MONTH} field indicating the
fourth month of the year. | public static final int | MAYValue of the {@link #MONTH} field indicating the
fifth month of the year. | public static final int | JUNEValue of the {@link #MONTH} field indicating the
sixth month of the year. | public static final int | JULYValue of the {@link #MONTH} field indicating the
seventh month of the year. | public static final int | AUGUSTValue of the {@link #MONTH} field indicating the
eighth month of the year. | public static final int | SEPTEMBERValue of the {@link #MONTH} field indicating the
ninth month of the year. | public static final int | OCTOBERValue of the {@link #MONTH} field indicating the
tenth month of the year. | public static final int | NOVEMBERValue of the {@link #MONTH} field indicating the
eleventh month of the year. | public static final int | DECEMBERValue of the {@link #MONTH} field indicating the
twelfth month of the year. | public static final int | UNDECIMBERValue of the {@link #MONTH} field indicating the
thirteenth month of the year. Although GregorianCalendar
does not use this value, lunar calendars do. | public static final int | AMValue of the {@link #AM_PM} field indicating the
period of the day from midnight to just before noon. | public static final int | PMValue of the {@link #AM_PM} field indicating the
period of the day from noon to just before midnight. | protected int[] | fieldsThe calendar field values for the currently set time for this calendar.
This is an array of FIELD_COUNT integers, with index values
ERA through DST_OFFSET . | protected boolean[] | isSetThe flags which tell if a specified calendar field for the calendar is set.
A new object has no fields set. After the first call to a method
which generates the fields, they all remain set after that.
This is an array of FIELD_COUNT booleans, with index values
ERA through DST_OFFSET . | private transient int[] | stampPseudo-time-stamps which specify when each field was set. There
are two special values, UNSET and COMPUTED. Values from
MINIMUM_USER_SET to Integer.MAX_VALUE are legal user set values. | protected long | timeThe currently set time for this calendar, expressed in milliseconds after
January 1, 1970, 0:00:00 GMT. | protected boolean | isTimeSetTrue if then the value of time is valid.
The time is made invalid by a change to an item of field[] . | protected boolean | areFieldsSetTrue if fields[] are in sync with the currently set time.
If false, then the next attempt to get the value of a field will
force a recomputation of all fields from the current value of
time . | transient boolean | areAllFieldsSetTrue if all fields have been set. | private boolean | lenientTrue if this calendar allows out-of-range field values during computation
of time from fields[] . | private TimeZone | zoneThe TimeZone used by this calendar. Calendar
uses the time zone data to translate between locale and GMT time. | private transient boolean | sharedZoneTrue if zone references to a shared TimeZone object. | private int | firstDayOfWeekThe first day of the week, with possible values SUNDAY ,
MONDAY , etc. This is a locale-dependent value. | private int | minimalDaysInFirstWeekThe number of days required for the first week in a month or year,
with possible values from 1 to 7. This is a locale-dependent value. | private static Hashtable | cachedLocaleDataCache to hold the firstDayOfWeek and minimalDaysInFirstWeek
of a Locale. | private static final int | UNSETThe corresponding fields[] has no value. | private static final int | COMPUTEDThe value of the corresponding fields[] has been calculated internally. | private static final int | MINIMUM_USER_STAMPThe value of the corresponding fields[] has been set externally. Stamp
values which are greater than 1 represents the (pseudo) time when the
corresponding fields[] value was set. | static final int | ALL_FIELDSThe mask value that represents all of the fields. | private int | nextStampThe next available value for stamp[] , an internal array.
This actually should not be written out to the stream, and will probably
be removed from the stream in the near future. In the meantime,
a value of MINIMUM_USER_STAMP should be used. | static final int | currentSerialVersion | private int | serialVersionOnStreamThe version of the serialized data on the stream. Possible values:
- 0 or not present on stream
-
JDK 1.1.5 or earlier.
- 1
-
JDK 1.1.6 or later. Writes a correct 'time' value
as well as compatible values for other fields. This is a
transitional format.
When streaming out this class, the most recent format
and the highest allowable serialVersionOnStream
is written. | static final long | serialVersionUID | static final int | ERA_MASK | static final int | YEAR_MASK | static final int | MONTH_MASK | static final int | WEEK_OF_YEAR_MASK | static final int | WEEK_OF_MONTH_MASK | static final int | DAY_OF_MONTH_MASK | static final int | DATE_MASK | static final int | DAY_OF_YEAR_MASK | static final int | DAY_OF_WEEK_MASK | static final int | DAY_OF_WEEK_IN_MONTH_MASK | static final int | AM_PM_MASK | static final int | HOUR_MASK | static final int | HOUR_OF_DAY_MASK | static final int | MINUTE_MASK | static final int | SECOND_MASK | static final int | MILLISECOND_MASK | static final int | ZONE_OFFSET_MASK | static final int | DST_OFFSET_MASK | private static final String[] | FIELD_NAME |
Constructors Summary |
---|
protected Calendar()Constructs a Calendar with the default time zone
and locale.
this(TimeZone.getDefaultRef(), Locale.getDefault());
sharedZone = true;
| protected Calendar(TimeZone zone, Locale aLocale)Constructs a calendar with the specified time zone and locale.
fields = new int[FIELD_COUNT];
isSet = new boolean[FIELD_COUNT];
stamp = new int[FIELD_COUNT];
this.zone = zone;
setWeekCountData(aLocale);
|
Methods Summary |
---|
public abstract void | add(int field, int amount)Adds or subtracts the specified amount of time to the given calendar field,
based on the calendar's rules. For example, to subtract 5 days from
the current time of the calendar, you can achieve it by calling:
add(Calendar.DAY_OF_MONTH, -5) .
| private final void | adjustStamp()Adjusts the stamp[] values before nextStamp overflow. nextStamp
is set to the next stamp value upon the return.
int max = MINIMUM_USER_STAMP;
int newStamp = MINIMUM_USER_STAMP;
for (;;) {
int min = Integer.MAX_VALUE;
for (int i = 0; i < stamp.length; i++) {
int v = stamp[i];
if (v >= newStamp && min > v) {
min = v;
}
if (max < v) {
max = v;
}
}
if (max != min && min == Integer.MAX_VALUE) {
break;
}
for (int i = 0; i < stamp.length; i++) {
if (stamp[i] == min) {
stamp[i] = newStamp;
}
}
newStamp++;
if (min == max) {
break;
}
}
nextStamp = newStamp;
| public boolean | after(java.lang.Object when)Returns whether this Calendar represents a time
after the time represented by the specified
Object . This method is equivalent to:
compareTo(when) > 0
if and only if when is a Calendar
instance. Otherwise, the method returns false .
return when instanceof Calendar
&& compareTo((Calendar)when) > 0;
| private static final int | aggregateStamp(int stamp_a, int stamp_b)Returns the pseudo-time-stamp for two fields, given their
individual pseudo-time-stamps. If either of the fields
is unset, then the aggregate is unset. Otherwise, the
aggregate is the later of the two stamps.
if (stamp_a == UNSET || stamp_b == UNSET) {
return UNSET;
}
return (stamp_a > stamp_b) ? stamp_a : stamp_b;
| private static final void | appendValue(java.lang.StringBuilder sb, java.lang.String item, boolean valid, long value)
sb.append(item).append('=");
if (valid) {
sb.append(value);
} else {
sb.append('?");
}
| public boolean | before(java.lang.Object when)Returns whether this Calendar represents a time
before the time represented by the specified
Object . This method is equivalent to:
compareTo(when) < 0
if and only if when is a Calendar
instance. Otherwise, the method returns false .
return when instanceof Calendar
&& compareTo((Calendar)when) < 0;
| public final void | clear()Sets all the calendar field values and the time value
(millisecond offset from the Epoch) of
this Calendar undefined. This means that {@link
#isSet(int) isSet()} will return false for all the
calendar fields, and the date and time calculations will treat
the fields as if they had never been set. A
Calendar implementation class may use its specific
default field values for date/time calculations. For example,
GregorianCalendar uses 1970 if the
YEAR field value is undefined.
for (int i = 0; i < fields.length; ) {
stamp[i] = fields[i] = 0; // UNSET == 0
isSet[i++] = false;
}
areAllFieldsSet = areFieldsSet = false;
isTimeSet = false;
| public final void | clear(int field)Sets the given calendar field value and the time value
(millisecond offset from the Epoch) of
this Calendar undefined. This means that {@link
#isSet(int) isSet(field)} will return false , and
the date and time calculations will treat the field as if it
had never been set. A Calendar implementation
class may use the field's specific default value for date and
time calculations.
The {@link #HOUR_OF_DAY}, {@link #HOUR} and {@link #AM_PM}
fields are handled independently and the the resolution rule for the time of
day is applied. Clearing one of the fields doesn't reset
the hour of day value of this Calendar . Use {@link
#set(int,int) set(Calendar.HOUR_OF_DAY, 0)} to reset the hour
value.
fields[field] = 0;
stamp[field] = UNSET;
isSet[field] = false;
areAllFieldsSet = areFieldsSet = false;
isTimeSet = false;
| public java.lang.Object | clone()Creates and returns a copy of this object.
try {
Calendar other = (Calendar) super.clone();
other.fields = new int[FIELD_COUNT];
other.isSet = new boolean[FIELD_COUNT];
other.stamp = new int[FIELD_COUNT];
for (int i = 0; i < FIELD_COUNT; i++) {
other.fields[i] = fields[i];
other.stamp[i] = stamp[i];
other.isSet[i] = isSet[i];
}
other.zone = (TimeZone) zone.clone();
return other;
}
catch (CloneNotSupportedException e) {
// this shouldn't happen, since we are Cloneable
throw new InternalError();
}
| public int | compareTo(java.util.Calendar anotherCalendar)Compares the time values (millisecond offsets from the Epoch) represented by two
Calendar objects.
return compareTo(getMillisOf(anotherCalendar));
| private int | compareTo(long t)
long thisTime = getMillisOf(this);
return (thisTime > t) ? 1 : (thisTime == t) ? 0 : -1;
| protected void | complete()Fills in any unset fields in the calendar fields. First, the {@link
#computeTime()} method is called if the time value (millisecond offset
from the Epoch) has not been calculated from
calendar field values. Then, the {@link #computeFields()} method is
called to calculate all calendar field values.
if (!isTimeSet)
updateTime();
if (!areFieldsSet || !areAllFieldsSet) {
computeFields(); // fills in unset fields
areAllFieldsSet = areFieldsSet = true;
} else {
// When a computeTime() call happens to calculate all the
// fields, stamp[] are not modified to preserve what the
// application has set. We need to normalize all stamp
// elements to COMPUTED here. (5078053)
setFieldsComputed(ALL_FIELDS);
}
| protected abstract void | computeFields()Converts the current millisecond time value {@link #time}
to calendar field values in {@link #fields fields[]}.
This allows you to sync up the calendar 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
{@link #complete()} method.
| protected abstract void | computeTime()Converts the current calendar field values in {@link #fields fields[]}
to the millisecond time value
{@link #time}.
| private static java.util.Calendar | createCalendar(java.util.TimeZone zone, java.util.Locale aLocale)
// If the specified locale is a Thai locale, returns a BuddhistCalendar
// instance.
if ("th".equals(aLocale.getLanguage())
&& ("TH".equals(aLocale.getCountry()))) {
return new sun.util.BuddhistCalendar(zone, aLocale);
}
// else create the default calendar
return new GregorianCalendar(zone, aLocale);
| public boolean | equals(java.lang.Object obj)Compares this Calendar to the specified
Object . The result is true if and only if
the argument is a Calendar object of the same calendar
system that represents the same time value (millisecond offset from the
Epoch) under the same
Calendar parameters as this object.
The Calendar parameters are the values represented
by the isLenient , getFirstDayOfWeek ,
getMinimalDaysInFirstWeek and getTimeZone
methods. If there is any difference in those parameters
between the two Calendar s, this method returns
false .
Use the {@link #compareTo(Calendar) compareTo} method to
compare only the time values.
if (this == obj)
return true;
try {
Calendar that = (Calendar)obj;
return compareTo(getMillisOf(that)) == 0 &&
lenient == that.lenient &&
firstDayOfWeek == that.firstDayOfWeek &&
minimalDaysInFirstWeek == that.minimalDaysInFirstWeek &&
zone.equals(that.zone);
} catch (Exception e) {
// Note: GregorianCalendar.computeTime throws
// IllegalArgumentException if the ERA value is invalid
// even it's in lenient mode.
}
return false;
| public int | get(int field)Returns the value of the given calendar field. In lenient mode,
all calendar fields are normalized. In non-lenient mode, all
calendar fields are validated and this method throws an
exception if any calendar fields have out-of-range values. The
normalization and validation are handled by the
{@link #complete()} method, which process is calendar
system dependent.
complete();
return internalGet(field);
| public int | getActualMaximum(int field)Returns the maximum value that the specified calendar field
could have, given the time value of this
Calendar . For example, the actual maximum value of
the MONTH field is 12 in some years, and 13 in
other years in the Hebrew calendar system.
The default implementation of this method uses an iterative
algorithm to determine the actual maximum value for the
calendar field. Subclasses should, if possible, override this
with a more efficient implementation.
int fieldValue = getLeastMaximum(field);
int endValue = getMaximum(field);
// if we know that the maximum value is always the same, just return it.
if (fieldValue == endValue) {
return fieldValue;
}
// clone the calendar so we don't mess with the real one, and set it to
// accept anything for the field values.
Calendar work = (Calendar)this.clone();
work.setLenient(true);
// if we're counting weeks, set the day of the week to Sunday. We know the
// last week of a month or year will contain the first day of the week.
if (field == WEEK_OF_YEAR || field == WEEK_OF_MONTH)
work.set(DAY_OF_WEEK, firstDayOfWeek);
// now try each value from getLeastMaximum() to getMaximum() one by one until
// we get a value that normalizes to another value. The last value that
// normalizes to itself is the actual maximum for the current date
int result = fieldValue;
do {
work.set(field, fieldValue);
if (work.get(field) != fieldValue) {
break;
} else {
result = fieldValue;
fieldValue++;
}
} while (fieldValue <= endValue);
return result;
| public int | getActualMinimum(int field)Returns the minimum value that the specified calendar field
could have, given the time value of this Calendar .
The default implementation of this method uses an iterative
algorithm to determine the actual minimum value for the
calendar field. Subclasses should, if possible, override this
with a more efficient implementation - in many cases, they can
simply return getMinimum() .
int fieldValue = getGreatestMinimum(field);
int endValue = getMinimum(field);
// if we know that the minimum value is always the same, just return it
if (fieldValue == endValue) {
return fieldValue;
}
// clone the calendar so we don't mess with the real one, and set it to
// accept anything for the field values
Calendar work = (Calendar)this.clone();
work.setLenient(true);
// now try each value from getLeastMaximum() to getMaximum() one by one until
// we get a value that normalizes to another value. The last value that
// normalizes to itself is the actual minimum for the current date
int result = fieldValue;
do {
work.set(field, fieldValue);
if (work.get(field) != fieldValue) {
break;
} else {
result = fieldValue;
fieldValue--;
}
} while (fieldValue >= endValue);
return result;
| public static synchronized java.util.Locale[] | getAvailableLocales()Returns an array of all locales for which the getInstance
methods of this class can return localized instances.
The array returned must contain at least a Locale
instance equal to {@link java.util.Locale#US Locale.US}.
return DateFormat.getAvailableLocales();
| static final java.lang.String | getFieldName(int field)Returns the name of the specified calendar field.
return FIELD_NAME[field];
| public int | getFirstDayOfWeek()Gets what the first day of the week is; e.g., SUNDAY in the U.S.,
MONDAY in France.
return firstDayOfWeek;
| public abstract int | getGreatestMinimum(int field)Returns the highest minimum value for the given calendar field
of this Calendar instance. The highest minimum
value is defined as the largest value returned by {@link
#getActualMinimum(int)} for any possible time value. The
greatest minimum value depends on calendar system specific
parameters of the instance.
| public static java.util.Calendar | getInstance()Gets a calendar using the default time zone and locale. The
Calendar returned is based on the current time
in the default time zone with the default locale.
Calendar cal = createCalendar(TimeZone.getDefaultRef(), Locale.getDefault());
cal.sharedZone = true;
return cal;
| public static java.util.Calendar | getInstance(java.util.TimeZone zone)Gets a calendar using the specified time zone and default locale.
The Calendar returned is based on the current time
in the given time zone with the default locale.
return createCalendar(zone, Locale.getDefault());
| public static java.util.Calendar | getInstance(java.util.Locale aLocale)Gets a calendar using the default time zone and specified locale.
The Calendar returned is based on the current time
in the default time zone with the given locale.
Calendar cal = createCalendar(TimeZone.getDefaultRef(), aLocale);
cal.sharedZone = true;
return cal;
| public static java.util.Calendar | getInstance(java.util.TimeZone zone, java.util.Locale aLocale)Gets a calendar with the specified time zone and locale.
The Calendar returned is based on the current time
in the given time zone with the given locale.
return createCalendar(zone, aLocale);
| public abstract int | getLeastMaximum(int field)Returns the lowest maximum value for the given calendar field
of this Calendar instance. The lowest maximum
value is defined as the smallest value returned by {@link
#getActualMaximum(int)} for any possible time value. The least
maximum value depends on calendar system specific parameters of
the instance. For example, a Calendar for the
Gregorian calendar system returns 28 for the
DAY_OF_MONTH field, because the 28th is the last
day of the shortest month of this calendar, February in a
common year.
| public abstract int | getMaximum(int field)Returns the maximum value for the given calendar field of this
Calendar instance. The maximum value is defined as
the largest value returned by the {@link #get(int) get} method
for any possible time value. The maximum value depends on
calendar system specific parameters of the instance.
| private static final long | getMillisOf(java.util.Calendar calendar)
if (calendar.isTimeSet) {
return calendar.time;
}
Calendar cal = (Calendar) calendar.clone();
cal.setLenient(true);
return cal.getTimeInMillis();
| public int | getMinimalDaysInFirstWeek()Gets what the minimal days required in the first week of the year are;
e.g., if the first week is defined as one that contains the first day
of the first month of a year, this method returns 1. If
the minimal days required must be a full week, this method
returns 7.
return minimalDaysInFirstWeek;
| public abstract int | getMinimum(int field)Returns the minimum value for the given calendar field of this
Calendar instance. The minimum value is defined as
the smallest value returned by the {@link #get(int) get} method
for any possible time value. The minimum value depends on
calendar system specific parameters of the instance.
| final int | getSetStateFields()Returns a field mask (bit mask) indicating all calendar fields that
have the state of externally or internally set.
int mask = 0;
for (int i = 0; i < fields.length; i++) {
if (stamp[i] != UNSET) {
mask |= 1 << i;
}
}
return mask;
| public final java.util.Date | getTime()Returns a Date object representing this
Calendar 's time value (millisecond offset from the Epoch").
return new Date(getTimeInMillis());
| public long | getTimeInMillis()Returns this Calendar's time value in milliseconds.
if (!isTimeSet) {
updateTime();
}
return time;
| public java.util.TimeZone | getTimeZone()Gets the time zone.
// If the TimeZone object is shared by other Calendar instances, then
// create a clone.
if (sharedZone) {
zone = (TimeZone) zone.clone();
sharedZone = false;
}
return zone;
| java.util.TimeZone | getZone()Returns the time zone (without cloning).
return zone;
| public int | hashCode()Returns a hash code for this calendar.
// 'otheritems' represents the hash code for the previous versions.
int otheritems = (lenient ? 1 : 0)
| (firstDayOfWeek << 1)
| (minimalDaysInFirstWeek << 4)
| (zone.hashCode() << 7);
long t = getMillisOf(this);
return (int) t ^ (int)(t >> 32) ^ otheritems;
| protected final int | internalGet(int field)Returns the value of the given calendar field. This method does
not involve normalization or validation of the field value.
return fields[field];
| final void | internalSet(int field, int value)Sets the value of the given calendar field. This method does
not affect any setting state of the field in this
Calendar instance.
fields[field] = value;
| private void | invalidateWeekFields()Sets the WEEK_OF_MONTH and WEEK_OF_YEAR fields to new values with the
new parameter value if they have been calculated internally.
if (stamp[WEEK_OF_MONTH] != COMPUTED &&
stamp[WEEK_OF_YEAR] != COMPUTED) {
return;
}
// We have to check the new values of these fields after changing
// firstDayOfWeek and/or minimalDaysInFirstWeek. If the field values
// have been changed, then set the new values. (4822110)
Calendar cal = (Calendar) clone();
cal.setLenient(true);
cal.clear(WEEK_OF_MONTH);
cal.clear(WEEK_OF_YEAR);
if (stamp[WEEK_OF_MONTH] == COMPUTED) {
int weekOfMonth = cal.get(WEEK_OF_MONTH);
if (fields[WEEK_OF_MONTH] != weekOfMonth) {
fields[WEEK_OF_MONTH] = weekOfMonth;
}
}
if (stamp[WEEK_OF_YEAR] == COMPUTED) {
int weekOfYear = cal.get(WEEK_OF_YEAR);
if (fields[WEEK_OF_YEAR] != weekOfYear) {
fields[WEEK_OF_YEAR] = weekOfYear;
}
}
| final boolean | isExternallySet(int field)Returns whether the value of the specified calendar field has been set
externally by calling one of the setter methods rather than by the
internal time calculation.
return stamp[field] >= MINIMUM_USER_STAMP;
| static final boolean | isFieldSet(int fieldMask, int field)Returns whether the specified field is on in the
fieldMask .
return (fieldMask & (1 << field)) != 0;
| final boolean | isFullyNormalized()Returns whether the calendar fields are fully in sync with the time
value.
return areFieldsSet && areAllFieldsSet;
| public boolean | isLenient()Tells whether date/time interpretation is to be lenient.
return lenient;
| final boolean | isPartiallyNormalized()Returns whether the calendar fields are partially in sync with the time
value.
return areFieldsSet && !areAllFieldsSet;
| public final boolean | isSet(int field)Determines if the given calendar field has a value set,
including cases that the value has been set by internal fields
calculations triggered by a get method call.
return stamp[field] != UNSET;
| private void | readObject(java.io.ObjectInputStream stream)Reconstitutes this object from a stream (i.e., deserialize it).
final ObjectInputStream input = stream;
input.defaultReadObject();
stamp = new int[FIELD_COUNT];
// Starting with version 2 (not implemented yet), we expect that
// fields[], isSet[], isTimeSet, and areFieldsSet may not be
// streamed out anymore. We expect 'time' to be correct.
if (serialVersionOnStream >= 2)
{
isTimeSet = true;
if (fields == null) fields = new int[FIELD_COUNT];
if (isSet == null) isSet = new boolean[FIELD_COUNT];
}
else if (serialVersionOnStream >= 0)
{
for (int i=0; i<FIELD_COUNT; ++i)
stamp[i] = isSet[i] ? COMPUTED : UNSET;
}
serialVersionOnStream = currentSerialVersion;
// If there's a ZoneInfo object, use it for zone.
try {
ZoneInfo zi = (ZoneInfo) AccessController.doPrivileged(
new PrivilegedExceptionAction() {
public Object run() throws Exception {
return input.readObject();
}
});
if (zi != null) {
zone = zi;
}
} catch (Exception e) {
}
// If the deserialized object has a SimpleTimeZone, try to
// replace it with a ZoneInfo equivalent (as of 1.4) in order
// to be compatible with the SimpleTimeZone-based
// implementation as much as possible.
if (zone instanceof SimpleTimeZone) {
String id = zone.getID();
TimeZone zi = TimeZone.getTimeZone(id);
if (zi != null && zi.hasSameRules(zone) && zi.getID().equals(id)) {
zone = zi;
}
}
| public abstract void | roll(int field, boolean up)Adds or subtracts (up/down) a single unit of time on the given time
field without changing larger fields. For example, to roll the current
date up by one day, you can achieve it by calling:
roll(Calendar.DATE, true).
When rolling on the year or Calendar.YEAR field, it will roll the year
value in the range between 1 and the value returned by calling
getMaximum(Calendar.YEAR) .
When rolling on the month or Calendar.MONTH field, other fields like
date might conflict and, need to be changed. For instance,
rolling the month on the date 01/31/96 will result in 02/29/96.
When rolling on the hour-in-day or Calendar.HOUR_OF_DAY field, it will
roll the hour value in the range between 0 and 23, which is zero-based.
| public void | roll(int field, int amount)Adds the specified (signed) amount to the specified calendar field
without changing larger fields. A negative amount means to roll
down.
NOTE: This default implementation on Calendar just repeatedly calls the
version of {@link #roll(int,boolean) roll()} that rolls by one unit. This may not
always do the right thing. For example, if the DAY_OF_MONTH field is 31,
rolling through February will leave it set to 28. The GregorianCalendar
version of this function takes care of this problem. Other subclasses
should also provide overrides of this function that do the right thing.
while (amount > 0) {
roll(field, true);
amount--;
}
while (amount < 0) {
roll(field, false);
amount++;
}
| final int | selectFields()Returns a field mask indicating which calendar field values
to be used to calculate the time value. The calendar fields are
returned as a bit mask, each bit of which corresponds to a field, i.e.,
the mask value of field is (1 <<
field) . For example, 0x26 represents the YEAR ,
MONTH , and DAY_OF_MONTH fields (i.e., 0x26 is
equal to
(1<<YEAR)|(1<<MONTH)|(1<<DAY_OF_MONTH)) .
This method supports the calendar fields resolution as described in
the class description. If the bit mask for a given field is on and its
field has not been set (i.e., isSet(field) is
false ), then the default value of the field has to be
used, which case means that the field has been selected because the
selected combination involves the field.
// This implementation has been taken from the GregorianCalendar class.
// The YEAR field must always be used regardless of its SET
// state because YEAR is a mandatory field to determine the date
// and the default value (EPOCH_YEAR) may change through the
// normalization process.
int fieldMask = YEAR_MASK;
if (stamp[ERA] != UNSET) {
fieldMask |= ERA_MASK;
}
// Find the most recent group of fields specifying the day within
// the year. These may be any of the following combinations:
// MONTH + DAY_OF_MONTH
// MONTH + WEEK_OF_MONTH + DAY_OF_WEEK
// MONTH + DAY_OF_WEEK_IN_MONTH + DAY_OF_WEEK
// DAY_OF_YEAR
// WEEK_OF_YEAR + DAY_OF_WEEK
// We look for the most recent of the fields in each group to determine
// the age of the group. For groups involving a week-related field such
// as WEEK_OF_MONTH, DAY_OF_WEEK_IN_MONTH, or WEEK_OF_YEAR, both the
// week-related field and the DAY_OF_WEEK must be set for the group as a
// whole to be considered. (See bug 4153860 - liu 7/24/98.)
int dowStamp = stamp[DAY_OF_WEEK];
int monthStamp = stamp[MONTH];
int domStamp = stamp[DAY_OF_MONTH];
int womStamp = aggregateStamp(stamp[WEEK_OF_MONTH], dowStamp);
int dowimStamp = aggregateStamp(stamp[DAY_OF_WEEK_IN_MONTH], dowStamp);
int doyStamp = stamp[DAY_OF_YEAR];
int woyStamp = aggregateStamp(stamp[WEEK_OF_YEAR], dowStamp);
int bestStamp = domStamp;
if (womStamp > bestStamp) {
bestStamp = womStamp;
}
if (dowimStamp > bestStamp) {
bestStamp = dowimStamp;
}
if (doyStamp > bestStamp) {
bestStamp = doyStamp;
}
if (woyStamp > bestStamp) {
bestStamp = woyStamp;
}
/* No complete combination exists. Look for WEEK_OF_MONTH,
* DAY_OF_WEEK_IN_MONTH, or WEEK_OF_YEAR alone. Treat DAY_OF_WEEK alone
* as DAY_OF_WEEK_IN_MONTH.
*/
if (bestStamp == UNSET) {
womStamp = stamp[WEEK_OF_MONTH];
dowimStamp = Math.max(stamp[DAY_OF_WEEK_IN_MONTH], dowStamp);
woyStamp = stamp[WEEK_OF_YEAR];
bestStamp = Math.max(Math.max(womStamp, dowimStamp), woyStamp);
/* Treat MONTH alone or no fields at all as DAY_OF_MONTH. This may
* result in bestStamp = domStamp = UNSET if no fields are set,
* which indicates DAY_OF_MONTH.
*/
if (bestStamp == UNSET) {
bestStamp = domStamp = monthStamp;
}
}
if (bestStamp == domStamp ||
(bestStamp == womStamp && stamp[WEEK_OF_MONTH] >= stamp[WEEK_OF_YEAR]) ||
(bestStamp == dowimStamp && stamp[DAY_OF_WEEK_IN_MONTH] >= stamp[WEEK_OF_YEAR])) {
fieldMask |= MONTH_MASK;
if (bestStamp == domStamp) {
fieldMask |= DAY_OF_MONTH_MASK;
} else {
assert (bestStamp == womStamp || bestStamp == dowimStamp);
if (dowStamp != UNSET) {
fieldMask |= DAY_OF_WEEK_MASK;
}
if (bestStamp == womStamp) {
fieldMask |= WEEK_OF_MONTH_MASK;
} else {
assert (bestStamp == dowimStamp);
if (stamp[DAY_OF_WEEK_IN_MONTH] != UNSET) {
fieldMask |= DAY_OF_WEEK_IN_MONTH_MASK;
}
}
}
} else {
assert (bestStamp == doyStamp || bestStamp == woyStamp ||
bestStamp == UNSET);
if (bestStamp == doyStamp) {
fieldMask |= DAY_OF_YEAR_MASK;
} else {
assert (bestStamp == woyStamp);
if (dowStamp != UNSET) {
fieldMask |= DAY_OF_WEEK_MASK;
}
fieldMask |= WEEK_OF_YEAR_MASK;
}
}
// Find the best set of fields specifying the time of day. There
// are only two possibilities here; the HOUR_OF_DAY or the
// AM_PM and the HOUR.
int hourOfDayStamp = stamp[HOUR_OF_DAY];
int hourStamp = aggregateStamp(stamp[HOUR], stamp[AM_PM]);
bestStamp = (hourStamp > hourOfDayStamp) ? hourStamp : hourOfDayStamp;
// if bestStamp is still UNSET, then take HOUR or AM_PM. (See 4846659)
if (bestStamp == UNSET) {
bestStamp = Math.max(stamp[HOUR], stamp[AM_PM]);
}
// Hours
if (bestStamp != UNSET) {
if (bestStamp == hourOfDayStamp) {
fieldMask |= HOUR_OF_DAY_MASK;
} else {
fieldMask |= HOUR_MASK;
if (stamp[AM_PM] != UNSET) {
fieldMask |= AM_PM_MASK;
}
}
}
if (stamp[MINUTE] != UNSET) {
fieldMask |= MINUTE_MASK;
}
if (stamp[SECOND] != UNSET) {
fieldMask |= SECOND_MASK;
}
if (stamp[MILLISECOND] != UNSET) {
fieldMask |= MILLISECOND_MASK;
}
if (stamp[ZONE_OFFSET] >= MINIMUM_USER_STAMP) {
fieldMask |= ZONE_OFFSET_MASK;
}
if (stamp[DST_OFFSET] >= MINIMUM_USER_STAMP) {
fieldMask |= DST_OFFSET_MASK;
}
return fieldMask;
| public void | set(int field, int value)Sets the given calendar field to the given value. The value is not
interpreted by this method regardless of the leniency mode.
if (isLenient() && areFieldsSet && !areAllFieldsSet) {
computeFields();
}
internalSet(field, value);
isTimeSet = false;
areFieldsSet = false;
isSet[field] = true;
stamp[field] = nextStamp++;
if (nextStamp == Integer.MAX_VALUE) {
adjustStamp();
}
| public final void | set(int year, int month, int date)Sets the values for the calendar fields YEAR ,
MONTH , and DAY_OF_MONTH .
Previous values of other calendar fields are retained. If this is not desired,
call {@link #clear()} first.
set(YEAR, year);
set(MONTH, month);
set(DATE, date);
| public final void | set(int year, int month, int date, int hourOfDay, int minute)Sets the values for the calendar fields YEAR ,
MONTH , DAY_OF_MONTH ,
HOUR_OF_DAY , and MINUTE .
Previous values of other fields are retained. If this is not desired,
call {@link #clear()} first.
set(YEAR, year);
set(MONTH, month);
set(DATE, date);
set(HOUR_OF_DAY, hourOfDay);
set(MINUTE, minute);
| public final void | set(int year, int month, int date, int hourOfDay, int minute, int second)Sets the values for the fields YEAR , MONTH ,
DAY_OF_MONTH , HOUR , MINUTE , and
SECOND .
Previous values of other fields are retained. If this is not desired,
call {@link #clear()} first.
set(YEAR, year);
set(MONTH, month);
set(DATE, date);
set(HOUR_OF_DAY, hourOfDay);
set(MINUTE, minute);
set(SECOND, second);
| final void | setFieldsComputed(int fieldMask)Sets the state of the specified calendar fields to
computed. This state means that the specified calendar fields
have valid values that have been set by internal time calculation
rather than by calling one of the setter methods.
if (fieldMask == ALL_FIELDS) {
for (int i = 0; i < fields.length; i++) {
stamp[i] = COMPUTED;
isSet[i] = true;
}
areFieldsSet = areAllFieldsSet = true;
} else {
for (int i = 0; i < fields.length; i++) {
if ((fieldMask & 1) == 1) {
stamp[i] = COMPUTED;
isSet[i] = true;
} else {
if (areAllFieldsSet && !isSet[i]) {
areAllFieldsSet = false;
}
}
fieldMask >>>= 1;
}
}
| final void | setFieldsNormalized(int fieldMask)Sets the state of the calendar fields that are not specified
by fieldMask to unset. If fieldMask
specifies all the calendar fields, then the state of this
Calendar becomes that all the calendar fields are in sync
with the time value (millisecond offset from the Epoch).
if (fieldMask == ALL_FIELDS) {
// all calendar fields are in sync with the time value
areFieldsSet = areAllFieldsSet = true;
return;
}
for (int i = 0; i < fields.length; i++) {
if ((fieldMask & 1) == 0) {
stamp[i] = fields[i] = 0; // UNSET == 0
isSet[i] = false;
}
fieldMask >>= 1;
}
// Some fields are in sync with the milliseconds, but not all
// fields have been calculated.
areFieldsSet = true;
areAllFieldsSet = false;
| public void | setFirstDayOfWeek(int value)Sets what the first day of the week is; e.g., SUNDAY in the U.S.,
MONDAY in France.
if (firstDayOfWeek == value) {
return;
}
firstDayOfWeek = value;
invalidateWeekFields();
| public void | setLenient(boolean lenient)Specifies 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 (non-lenient) interpretation, such dates will cause an exception to be
thrown. The default is lenient.
this.lenient = lenient;
| public void | setMinimalDaysInFirstWeek(int value)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 this method with value 1. If it
must be a full week, use value 7.
if (minimalDaysInFirstWeek == value) {
return;
}
minimalDaysInFirstWeek = value;
invalidateWeekFields();
| public final void | setTime(java.util.Date date)Sets this Calendar's 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() .
setTimeInMillis(date.getTime());
| public void | setTimeInMillis(long millis)Sets this Calendar's current time from the given long value.
// If we don't need to recalculate the calendar field values,
// do nothing.
if (time == millis && isTimeSet && areFieldsSet && areAllFieldsSet
&& (zone instanceof ZoneInfo) && !((ZoneInfo)zone).isDirty()) {
return;
}
time = millis;
isTimeSet = true;
areFieldsSet = false;
computeFields();
areAllFieldsSet = areFieldsSet = true;
| public void | setTimeZone(java.util.TimeZone value)Sets the time zone with the given time zone value.
zone = value;
sharedZone = false;
/* Recompute the fields from the time using the new zone. This also
* works if isTimeSet is false (after a call to set()). In that case
* the time will be computed from the fields using the new zone, then
* the fields will get recomputed from that. Consider the sequence of
* calls: cal.setTimeZone(EST); cal.set(HOUR, 1); cal.setTimeZone(PST).
* Is cal set to 1 o'clock EST or 1 o'clock PST? Answer: PST. More
* generally, a call to setTimeZone() affects calls to set() BEFORE AND
* AFTER it up to the next call to complete().
*/
areAllFieldsSet = areFieldsSet = false;
| final void | setUnnormalized()Marks this Calendar as not sync'd.
areFieldsSet = areAllFieldsSet = false;
| private void | setWeekCountData(java.util.Locale desiredLocale)Both firstDayOfWeek and minimalDaysInFirstWeek are locale-dependent.
They are used to figure out the week count for a specific date for
a given locale. These must be set when a Calendar is constructed.
/* try to get the Locale data from the cache */
int[] data = cachedLocaleData.get(desiredLocale);
if (data == null) { /* cache miss */
ResourceBundle resource = LocaleData.getLocaleElements(desiredLocale);
String[] dateTimePatterns =
resource.getStringArray("DateTimeElements");
data = new int[2];
data[0] = Integer.parseInt(dateTimePatterns[0]);
data[1] = Integer.parseInt(dateTimePatterns[1]);
cachedLocaleData.put(desiredLocale, data);
}
firstDayOfWeek = data[0];
minimalDaysInFirstWeek = data[1];
| void | setZoneShared(boolean shared)Sets the sharedZone flag to shared .
sharedZone = shared;
| public java.lang.String | toString()Return 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 .
// NOTE: BuddhistCalendar.toString() interprets the string
// produced by this method so that the Gregorian year number
// is substituted by its B.E. year value. It relies on
// "...,YEAR=<year>,..." or "...,YEAR=?,...".
StringBuilder buffer = new StringBuilder(800);
buffer.append(getClass().getName()).append('[");
appendValue(buffer, "time", isTimeSet, time);
buffer.append(",areFieldsSet=").append(areFieldsSet);
buffer.append(",areAllFieldsSet=").append(areAllFieldsSet);
buffer.append(",lenient=").append(lenient);
buffer.append(",zone=").append(zone);
appendValue(buffer, ",firstDayOfWeek", true, (long) firstDayOfWeek);
appendValue(buffer, ",minimalDaysInFirstWeek", true, (long) minimalDaysInFirstWeek);
for (int i = 0; i < FIELD_COUNT; ++i) {
buffer.append(',");
appendValue(buffer, FIELD_NAME[i], isSet(i), (long) fields[i]);
}
buffer.append(']");
return buffer.toString();
| private void | updateTime()Recomputes the time and updates the status fields isTimeSet
and areFieldsSet. Callers should check isTimeSet and only
call this method if isTimeSet is false.
computeTime();
// The areFieldsSet and areAllFieldsSet values are no longer
// controlled here (as of 1.5).
isTimeSet = true;
| private void | writeObject(java.io.ObjectOutputStream stream)Save the state of this object to a stream (i.e., serialize it).
Ideally, Calendar would only write out its state data and
the current time, and not write any field data out, such as
fields[] , isTimeSet , areFieldsSet ,
and isSet[] . nextStamp also should not be part
of the persistent state. Unfortunately, this didn't happen before JDK 1.1
shipped. To be compatible with JDK 1.1, we will always have to write out
the field values and state flags. However, nextStamp can be
removed from the serialization stream; this will probably happen in the
near future.
// Try to compute the time correctly, for the future (stream
// version 2) in which we don't write out fields[] or isSet[].
if (!isTimeSet) {
try {
updateTime();
}
catch (IllegalArgumentException e) {}
}
// If this Calendar has a ZoneInfo, save it and set a
// SimpleTimeZone equivalent (as a single DST schedule) for
// backward compatibility.
TimeZone savedZone = null;
if (zone instanceof ZoneInfo) {
SimpleTimeZone stz = ((ZoneInfo)zone).getLastRuleInstance();
if (stz == null) {
stz = new SimpleTimeZone(zone.getRawOffset(), zone.getID());
}
savedZone = zone;
zone = stz;
}
// Write out the 1.1 FCS object.
stream.defaultWriteObject();
// Write out the ZoneInfo object
// 4802409: we write out even if it is null, a temporary workaround
// the real fix for bug 4844924 in corba-iiop
stream.writeObject(savedZone);
if (savedZone != null) {
zone = savedZone;
}
|
|