Example 1 with Era
use of sun.util.calendar.Era in project jdk8u_jdk by JetBrains.
the class JapaneseImperialCalendar method getDisplayName.
@Override
public String getDisplayName(int field, int style, Locale locale) {
if (!checkDisplayNameParams(field, style, SHORT, NARROW_FORMAT, locale, ERA_MASK | YEAR_MASK | MONTH_MASK | DAY_OF_WEEK_MASK | AM_PM_MASK)) {
return null;
}
int fieldValue = get(field);
// "GanNen" is supported only in the LONG style.
if (field == YEAR && (getBaseStyle(style) != LONG || fieldValue != 1 || get(ERA) == 0)) {
return null;
}
String name = CalendarDataUtility.retrieveFieldValueName(getCalendarType(), field, fieldValue, style, locale);
// try to get its name or abbreviation from the Era instance.
if (name == null && field == ERA && fieldValue < eras.length) {
Era era = eras[fieldValue];
name = (style == SHORT) ? era.getAbbreviation() : era.getName();
}
return name;
}
Also used :
Era(sun.util.calendar.Era)
Example 2 with Era
use of sun.util.calendar.Era in project jdk8u_jdk by JetBrains.
the class JapaneseImperialCalendar method getFixedDateJan1.
/**
* Returns the fixed date of the first day of the year (usually
* January 1) before the specified date.
*
* @param date the date for which the first day of the year is
* calculated. The date has to be in the cut-over year.
* @param fixedDate the fixed date representation of the date
*/
private long getFixedDateJan1(LocalGregorianCalendar.Date date, long fixedDate) {
Era era = date.getEra();
if (date.getEra() != null && date.getYear() == 1) {
for (int eraIndex = getEraIndex(date); eraIndex > 0; eraIndex--) {
CalendarDate d = eras[eraIndex].getSinceDate();
long fd = gcal.getFixedDate(d);
// There might be multiple era transitions in a year.
if (fd > fixedDate) {
continue;
}
return fd;
}
}
CalendarDate d = gcal.newCalendarDate(TimeZone.NO_TIMEZONE);
d.setDate(date.getNormalizedYear(), Gregorian.JANUARY, 1);
return gcal.getFixedDate(d);
}
Also used :
CalendarDate(sun.util.calendar.CalendarDate)
Era(sun.util.calendar.Era)
Example 3 with Era
use of sun.util.calendar.Era in project jdk8u_jdk by JetBrains.
the class GregorianCalendar method computeFields.
/**
* This computeFields implements the conversion from UTC
* (millisecond offset from the Epoch) to calendar
* field values. fieldMask specifies which fields to change the
* setting state to COMPUTED, although all fields are set to
* the correct values. This is required to fix 4685354.
*
* @param fieldMask a bit mask to specify which fields to change
* the setting state.
* @param tzMask a bit mask to specify which time zone offset
* fields to be used for time calculations
* @return a new field mask that indicates what field values have
* actually been set.
*/
private int computeFields(int fieldMask, int tzMask) {
int zoneOffset = 0;
TimeZone tz = getZone();
if (zoneOffsets == null) {
zoneOffsets = new int[2];
}
if (tzMask != (ZONE_OFFSET_MASK | DST_OFFSET_MASK)) {
if (tz instanceof ZoneInfo) {
zoneOffset = ((ZoneInfo) tz).getOffsets(time, zoneOffsets);
} else {
zoneOffset = tz.getOffset(time);
zoneOffsets[0] = tz.getRawOffset();
zoneOffsets[1] = zoneOffset - zoneOffsets[0];
}
}
if (tzMask != 0) {
if (isFieldSet(tzMask, ZONE_OFFSET)) {
zoneOffsets[0] = internalGet(ZONE_OFFSET);
}
if (isFieldSet(tzMask, DST_OFFSET)) {
zoneOffsets[1] = internalGet(DST_OFFSET);
}
zoneOffset = zoneOffsets[0] + zoneOffsets[1];
}
// By computing time and zoneOffset separately, we can take
// the wider range of time+zoneOffset than the previous
// implementation.
long fixedDate = zoneOffset / ONE_DAY;
int timeOfDay = zoneOffset % (int) ONE_DAY;
fixedDate += time / ONE_DAY;
timeOfDay += (int) (time % ONE_DAY);
if (timeOfDay >= ONE_DAY) {
timeOfDay -= ONE_DAY;
++fixedDate;
} else {
while (timeOfDay < 0) {
timeOfDay += ONE_DAY;
--fixedDate;
}
}
fixedDate += EPOCH_OFFSET;
int era = CE;
int year;
if (fixedDate >= gregorianCutoverDate) {
// Handle Gregorian dates.
assert cachedFixedDate == Long.MIN_VALUE || gdate.isNormalized() : "cache control: not normalized";
assert cachedFixedDate == Long.MIN_VALUE || gcal.getFixedDate(gdate.getNormalizedYear(), gdate.getMonth(), gdate.getDayOfMonth(), gdate) == cachedFixedDate : "cache control: inconsictency" + ", cachedFixedDate=" + cachedFixedDate + ", computed=" + gcal.getFixedDate(gdate.getNormalizedYear(), gdate.getMonth(), gdate.getDayOfMonth(), gdate) + ", date=" + gdate;
// See if we can use gdate to avoid date calculation.
if (fixedDate != cachedFixedDate) {
gcal.getCalendarDateFromFixedDate(gdate, fixedDate);
cachedFixedDate = fixedDate;
}
year = gdate.getYear();
if (year <= 0) {
year = 1 - year;
era = BCE;
}
calsys = gcal;
cdate = gdate;
assert cdate.getDayOfWeek() > 0 : "dow=" + cdate.getDayOfWeek() + ", date=" + cdate;
} else {
// Handle Julian calendar dates.
calsys = getJulianCalendarSystem();
cdate = (BaseCalendar.Date) jcal.newCalendarDate(getZone());
jcal.getCalendarDateFromFixedDate(cdate, fixedDate);
Era e = cdate.getEra();
if (e == jeras[0]) {
era = BCE;
}
year = cdate.getYear();
}
// Always set the ERA and YEAR values.
internalSet(ERA, era);
internalSet(YEAR, year);
int mask = fieldMask | (ERA_MASK | YEAR_MASK);
// 0-based
int month = cdate.getMonth() - 1;
int dayOfMonth = cdate.getDayOfMonth();
// Set the basic date fields.
if ((fieldMask & (MONTH_MASK | DAY_OF_MONTH_MASK | DAY_OF_WEEK_MASK)) != 0) {
internalSet(MONTH, month);
internalSet(DAY_OF_MONTH, dayOfMonth);
internalSet(DAY_OF_WEEK, cdate.getDayOfWeek());
mask |= MONTH_MASK | DAY_OF_MONTH_MASK | DAY_OF_WEEK_MASK;
}
if ((fieldMask & (HOUR_OF_DAY_MASK | AM_PM_MASK | HOUR_MASK | MINUTE_MASK | SECOND_MASK | MILLISECOND_MASK)) != 0) {
if (timeOfDay != 0) {
int hours = timeOfDay / ONE_HOUR;
internalSet(HOUR_OF_DAY, hours);
// Assume AM == 0
internalSet(AM_PM, hours / 12);
internalSet(HOUR, hours % 12);
int r = timeOfDay % ONE_HOUR;
internalSet(MINUTE, r / ONE_MINUTE);
r %= ONE_MINUTE;
internalSet(SECOND, r / ONE_SECOND);
internalSet(MILLISECOND, r % ONE_SECOND);
} else {
internalSet(HOUR_OF_DAY, 0);
internalSet(AM_PM, AM);
internalSet(HOUR, 0);
internalSet(MINUTE, 0);
internalSet(SECOND, 0);
internalSet(MILLISECOND, 0);
}
mask |= (HOUR_OF_DAY_MASK | AM_PM_MASK | HOUR_MASK | MINUTE_MASK | SECOND_MASK | MILLISECOND_MASK);
}
if ((fieldMask & (ZONE_OFFSET_MASK | DST_OFFSET_MASK)) != 0) {
internalSet(ZONE_OFFSET, zoneOffsets[0]);
internalSet(DST_OFFSET, zoneOffsets[1]);
mask |= (ZONE_OFFSET_MASK | DST_OFFSET_MASK);
}
if ((fieldMask & (DAY_OF_YEAR_MASK | WEEK_OF_YEAR_MASK | WEEK_OF_MONTH_MASK | DAY_OF_WEEK_IN_MONTH_MASK)) != 0) {
int normalizedYear = cdate.getNormalizedYear();
long fixedDateJan1 = calsys.getFixedDate(normalizedYear, 1, 1, cdate);
int dayOfYear = (int) (fixedDate - fixedDateJan1) + 1;
long fixedDateMonth1 = fixedDate - dayOfMonth + 1;
int cutoverGap = 0;
int cutoverYear = (calsys == gcal) ? gregorianCutoverYear : gregorianCutoverYearJulian;
int relativeDayOfMonth = dayOfMonth - 1;
// If we are in the cutover year, we need some special handling.
if (normalizedYear == cutoverYear) {
// Need to take care of the "missing" days.
if (gregorianCutoverYearJulian <= gregorianCutoverYear) {
// We need to find out where we are. The cutover
// gap could even be more than one year. (One
// year difference in ~48667 years.)
fixedDateJan1 = getFixedDateJan1(cdate, fixedDate);
if (fixedDate >= gregorianCutoverDate) {
fixedDateMonth1 = getFixedDateMonth1(cdate, fixedDate);
}
}
int realDayOfYear = (int) (fixedDate - fixedDateJan1) + 1;
cutoverGap = dayOfYear - realDayOfYear;
dayOfYear = realDayOfYear;
relativeDayOfMonth = (int) (fixedDate - fixedDateMonth1);
}
internalSet(DAY_OF_YEAR, dayOfYear);
internalSet(DAY_OF_WEEK_IN_MONTH, relativeDayOfMonth / 7 + 1);
int weekOfYear = getWeekNumber(fixedDateJan1, fixedDate);
// ISO8601-style. This creates problems, though.
if (weekOfYear == 0) {
// If the date belongs to the last week of the
// previous year, use the week number of "12/31" of
// the "previous" year. Again, if the previous year is
// the Gregorian cutover year, we need to take care of
// it. Usually the previous day of January 1 is
// December 31, which is not always true in
// GregorianCalendar.
long fixedDec31 = fixedDateJan1 - 1;
long prevJan1 = fixedDateJan1 - 365;
if (normalizedYear > (cutoverYear + 1)) {
if (CalendarUtils.isGregorianLeapYear(normalizedYear - 1)) {
--prevJan1;
}
} else if (normalizedYear <= gregorianCutoverYearJulian) {
if (CalendarUtils.isJulianLeapYear(normalizedYear - 1)) {
--prevJan1;
}
} else {
BaseCalendar calForJan1 = calsys;
//int prevYear = normalizedYear - 1;
int prevYear = getCalendarDate(fixedDec31).getNormalizedYear();
if (prevYear == gregorianCutoverYear) {
calForJan1 = getCutoverCalendarSystem();
if (calForJan1 == jcal) {
prevJan1 = calForJan1.getFixedDate(prevYear, BaseCalendar.JANUARY, 1, null);
} else {
prevJan1 = gregorianCutoverDate;
calForJan1 = gcal;
}
} else if (prevYear <= gregorianCutoverYearJulian) {
calForJan1 = getJulianCalendarSystem();
prevJan1 = calForJan1.getFixedDate(prevYear, BaseCalendar.JANUARY, 1, null);
}
}
weekOfYear = getWeekNumber(prevJan1, fixedDec31);
} else {
if (normalizedYear > gregorianCutoverYear || normalizedYear < (gregorianCutoverYearJulian - 1)) {
// Regular years
if (weekOfYear >= 52) {
long nextJan1 = fixedDateJan1 + 365;
if (cdate.isLeapYear()) {
nextJan1++;
}
long nextJan1st = BaseCalendar.getDayOfWeekDateOnOrBefore(nextJan1 + 6, getFirstDayOfWeek());
int ndays = (int) (nextJan1st - nextJan1);
if (ndays >= getMinimalDaysInFirstWeek() && fixedDate >= (nextJan1st - 7)) {
// The first days forms a week in which the date is included.
weekOfYear = 1;
}
}
} else {
BaseCalendar calForJan1 = calsys;
int nextYear = normalizedYear + 1;
if (nextYear == (gregorianCutoverYearJulian + 1) && nextYear < gregorianCutoverYear) {
// In case the gap is more than one year.
nextYear = gregorianCutoverYear;
}
if (nextYear == gregorianCutoverYear) {
calForJan1 = getCutoverCalendarSystem();
}
long nextJan1;
if (nextYear > gregorianCutoverYear || gregorianCutoverYearJulian == gregorianCutoverYear || nextYear == gregorianCutoverYearJulian) {
nextJan1 = calForJan1.getFixedDate(nextYear, BaseCalendar.JANUARY, 1, null);
} else {
nextJan1 = gregorianCutoverDate;
calForJan1 = gcal;
}
long nextJan1st = BaseCalendar.getDayOfWeekDateOnOrBefore(nextJan1 + 6, getFirstDayOfWeek());
int ndays = (int) (nextJan1st - nextJan1);
if (ndays >= getMinimalDaysInFirstWeek() && fixedDate >= (nextJan1st - 7)) {
// The first days forms a week in which the date is included.
weekOfYear = 1;
}
}
}
internalSet(WEEK_OF_YEAR, weekOfYear);
internalSet(WEEK_OF_MONTH, getWeekNumber(fixedDateMonth1, fixedDate));
mask |= (DAY_OF_YEAR_MASK | WEEK_OF_YEAR_MASK | WEEK_OF_MONTH_MASK | DAY_OF_WEEK_IN_MONTH_MASK);
}
return mask;
}
Also used :
BaseCalendar(sun.util.calendar.BaseCalendar)
Era(sun.util.calendar.Era)
ZoneInfo(sun.util.calendar.ZoneInfo)
Example 4 with Era
use of sun.util.calendar.Era in project checker-framework by typetools.
the class GregorianCalendar method computeFields.
/**
* This computeFields implements the conversion from UTC
* (millisecond offset from the Epoch) to calendar
* field values. fieldMask specifies which fields to change the
* setting state to COMPUTED, although all fields are set to
* the correct values. This is required to fix 4685354.
*
* @param fieldMask a bit mask to specify which fields to change
* the setting state.
* @param tzMask a bit mask to specify which time zone offset
* fields to be used for time calculations
* @return a new field mask that indicates what field values have
* actually been set.
*/
private int computeFields(int fieldMask, int tzMask) {
int zoneOffset = 0;
TimeZone tz = getZone();
if (zoneOffsets == null) {
zoneOffsets = new int[2];
}
if (tzMask != (ZONE_OFFSET_MASK | DST_OFFSET_MASK)) {
if (tz instanceof ZoneInfo) {
zoneOffset = ((ZoneInfo) tz).getOffsets(time, zoneOffsets);
} else {
zoneOffset = tz.getOffset(time);
zoneOffsets[0] = tz.getRawOffset();
zoneOffsets[1] = zoneOffset - zoneOffsets[0];
}
}
if (tzMask != 0) {
if (isFieldSet(tzMask, ZONE_OFFSET)) {
zoneOffsets[0] = internalGet(ZONE_OFFSET);
}
if (isFieldSet(tzMask, DST_OFFSET)) {
zoneOffsets[1] = internalGet(DST_OFFSET);
}
zoneOffset = zoneOffsets[0] + zoneOffsets[1];
}
// By computing time and zoneOffset separately, we can take
// the wider range of time+zoneOffset than the previous
// implementation.
long fixedDate = zoneOffset / ONE_DAY;
int timeOfDay = zoneOffset % (int) ONE_DAY;
fixedDate += time / ONE_DAY;
timeOfDay += (int) (time % ONE_DAY);
if (timeOfDay >= ONE_DAY) {
timeOfDay -= ONE_DAY;
++fixedDate;
} else {
while (timeOfDay < 0) {
timeOfDay += ONE_DAY;
--fixedDate;
}
}
fixedDate += EPOCH_OFFSET;
int era = CE;
int year;
if (fixedDate >= gregorianCutoverDate) {
// Handle Gregorian dates.
assert cachedFixedDate == Long.MIN_VALUE || gdate.isNormalized() : "cache control: not normalized";
assert cachedFixedDate == Long.MIN_VALUE || gcal.getFixedDate(gdate.getNormalizedYear(), gdate.getMonth(), gdate.getDayOfMonth(), gdate) == cachedFixedDate : "cache control: inconsictency" + ", cachedFixedDate=" + cachedFixedDate + ", computed=" + gcal.getFixedDate(gdate.getNormalizedYear(), gdate.getMonth(), gdate.getDayOfMonth(), gdate) + ", date=" + gdate;
// See if we can use gdate to avoid date calculation.
if (fixedDate != cachedFixedDate) {
gcal.getCalendarDateFromFixedDate(gdate, fixedDate);
cachedFixedDate = fixedDate;
}
year = gdate.getYear();
if (year <= 0) {
year = 1 - year;
era = BCE;
}
calsys = gcal;
cdate = gdate;
assert cdate.getDayOfWeek() > 0 : "dow=" + cdate.getDayOfWeek() + ", date=" + cdate;
} else {
// Handle Julian calendar dates.
calsys = getJulianCalendarSystem();
cdate = (BaseCalendar.Date) jcal.newCalendarDate(getZone());
jcal.getCalendarDateFromFixedDate(cdate, fixedDate);
Era e = cdate.getEra();
if (e == jeras[0]) {
era = BCE;
}
year = cdate.getYear();
}
// Always set the ERA and YEAR values.
internalSet(ERA, era);
internalSet(YEAR, year);
int mask = fieldMask | (ERA_MASK | YEAR_MASK);
// 0-based
int month = cdate.getMonth() - 1;
int dayOfMonth = cdate.getDayOfMonth();
// Set the basic date fields.
if ((fieldMask & (MONTH_MASK | DAY_OF_MONTH_MASK | DAY_OF_WEEK_MASK)) != 0) {
internalSet(MONTH, month);
internalSet(DAY_OF_MONTH, dayOfMonth);
internalSet(DAY_OF_WEEK, cdate.getDayOfWeek());
mask |= MONTH_MASK | DAY_OF_MONTH_MASK | DAY_OF_WEEK_MASK;
}
if ((fieldMask & (HOUR_OF_DAY_MASK | AM_PM_MASK | HOUR_MASK | MINUTE_MASK | SECOND_MASK | MILLISECOND_MASK)) != 0) {
if (timeOfDay != 0) {
int hours = timeOfDay / ONE_HOUR;
internalSet(HOUR_OF_DAY, hours);
// Assume AM == 0
internalSet(AM_PM, hours / 12);
internalSet(HOUR, hours % 12);
int r = timeOfDay % ONE_HOUR;
internalSet(MINUTE, r / ONE_MINUTE);
r %= ONE_MINUTE;
internalSet(SECOND, r / ONE_SECOND);
internalSet(MILLISECOND, r % ONE_SECOND);
} else {
internalSet(HOUR_OF_DAY, 0);
internalSet(AM_PM, AM);
internalSet(HOUR, 0);
internalSet(MINUTE, 0);
internalSet(SECOND, 0);
internalSet(MILLISECOND, 0);
}
mask |= (HOUR_OF_DAY_MASK | AM_PM_MASK | HOUR_MASK | MINUTE_MASK | SECOND_MASK | MILLISECOND_MASK);
}
if ((fieldMask & (ZONE_OFFSET_MASK | DST_OFFSET_MASK)) != 0) {
internalSet(ZONE_OFFSET, zoneOffsets[0]);
internalSet(DST_OFFSET, zoneOffsets[1]);
mask |= (ZONE_OFFSET_MASK | DST_OFFSET_MASK);
}
if ((fieldMask & (DAY_OF_YEAR_MASK | WEEK_OF_YEAR_MASK | WEEK_OF_MONTH_MASK | DAY_OF_WEEK_IN_MONTH_MASK)) != 0) {
int normalizedYear = cdate.getNormalizedYear();
long fixedDateJan1 = calsys.getFixedDate(normalizedYear, 1, 1, cdate);
int dayOfYear = (int) (fixedDate - fixedDateJan1) + 1;
long fixedDateMonth1 = fixedDate - dayOfMonth + 1;
int cutoverGap = 0;
int cutoverYear = (calsys == gcal) ? gregorianCutoverYear : gregorianCutoverYearJulian;
int relativeDayOfMonth = dayOfMonth - 1;
// If we are in the cutover year, we need some special handling.
if (normalizedYear == cutoverYear) {
// Need to take care of the "missing" days.
if (gregorianCutoverYearJulian <= gregorianCutoverYear) {
// We need to find out where we are. The cutover
// gap could even be more than one year. (One
// year difference in ~48667 years.)
fixedDateJan1 = getFixedDateJan1(cdate, fixedDate);
if (fixedDate >= gregorianCutoverDate) {
fixedDateMonth1 = getFixedDateMonth1(cdate, fixedDate);
}
}
int realDayOfYear = (int) (fixedDate - fixedDateJan1) + 1;
cutoverGap = dayOfYear - realDayOfYear;
dayOfYear = realDayOfYear;
relativeDayOfMonth = (int) (fixedDate - fixedDateMonth1);
}
internalSet(DAY_OF_YEAR, dayOfYear);
internalSet(DAY_OF_WEEK_IN_MONTH, relativeDayOfMonth / 7 + 1);
int weekOfYear = getWeekNumber(fixedDateJan1, fixedDate);
// ISO8601-style. This creates problems, though.
if (weekOfYear == 0) {
// If the date belongs to the last week of the
// previous year, use the week number of "12/31" of
// the "previous" year. Again, if the previous year is
// the Gregorian cutover year, we need to take care of
// it. Usually the previous day of January 1 is
// December 31, which is not always true in
// GregorianCalendar.
long fixedDec31 = fixedDateJan1 - 1;
long prevJan1 = fixedDateJan1 - 365;
if (normalizedYear > (cutoverYear + 1)) {
if (CalendarUtils.isGregorianLeapYear(normalizedYear - 1)) {
--prevJan1;
}
} else if (normalizedYear <= gregorianCutoverYearJulian) {
if (CalendarUtils.isJulianLeapYear(normalizedYear - 1)) {
--prevJan1;
}
} else {
BaseCalendar calForJan1 = calsys;
// int prevYear = normalizedYear - 1;
int prevYear = getCalendarDate(fixedDec31).getNormalizedYear();
if (prevYear == gregorianCutoverYear) {
calForJan1 = getCutoverCalendarSystem();
if (calForJan1 == jcal) {
prevJan1 = calForJan1.getFixedDate(prevYear, BaseCalendar.JANUARY, 1, null);
} else {
prevJan1 = gregorianCutoverDate;
calForJan1 = gcal;
}
} else if (prevYear <= gregorianCutoverYearJulian) {
calForJan1 = getJulianCalendarSystem();
prevJan1 = calForJan1.getFixedDate(prevYear, BaseCalendar.JANUARY, 1, null);
}
}
weekOfYear = getWeekNumber(prevJan1, fixedDec31);
} else {
if (normalizedYear > gregorianCutoverYear || normalizedYear < (gregorianCutoverYearJulian - 1)) {
// Regular years
if (weekOfYear >= 52) {
long nextJan1 = fixedDateJan1 + 365;
if (cdate.isLeapYear()) {
nextJan1++;
}
long nextJan1st = calsys.getDayOfWeekDateOnOrBefore(nextJan1 + 6, getFirstDayOfWeek());
int ndays = (int) (nextJan1st - nextJan1);
if (ndays >= getMinimalDaysInFirstWeek() && fixedDate >= (nextJan1st - 7)) {
// The first days forms a week in which the date is included.
weekOfYear = 1;
}
}
} else {
BaseCalendar calForJan1 = calsys;
int nextYear = normalizedYear + 1;
if (nextYear == (gregorianCutoverYearJulian + 1) && nextYear < gregorianCutoverYear) {
// In case the gap is more than one year.
nextYear = gregorianCutoverYear;
}
if (nextYear == gregorianCutoverYear) {
calForJan1 = getCutoverCalendarSystem();
}
long nextJan1;
if (nextYear > gregorianCutoverYear || gregorianCutoverYearJulian == gregorianCutoverYear || nextYear == gregorianCutoverYearJulian) {
nextJan1 = calForJan1.getFixedDate(nextYear, BaseCalendar.JANUARY, 1, null);
} else {
nextJan1 = gregorianCutoverDate;
calForJan1 = gcal;
}
long nextJan1st = calForJan1.getDayOfWeekDateOnOrBefore(nextJan1 + 6, getFirstDayOfWeek());
int ndays = (int) (nextJan1st - nextJan1);
if (ndays >= getMinimalDaysInFirstWeek() && fixedDate >= (nextJan1st - 7)) {
// The first days forms a week in which the date is included.
weekOfYear = 1;
}
}
}
internalSet(WEEK_OF_YEAR, weekOfYear);
internalSet(WEEK_OF_MONTH, getWeekNumber(fixedDateMonth1, fixedDate));
mask |= (DAY_OF_YEAR_MASK | WEEK_OF_YEAR_MASK | WEEK_OF_MONTH_MASK | DAY_OF_WEEK_IN_MONTH_MASK);
}
return mask;
}
Also used :
BaseCalendar(sun.util.calendar.BaseCalendar)
Era(sun.util.calendar.Era)
ZoneInfo(sun.util.calendar.ZoneInfo)
Example 5 with Era
use of sun.util.calendar.Era in project Bytecoder by mirkosertic.
the class JapaneseImperialCalendar method getDisplayNames.
@Override
public Map<String, Integer> getDisplayNames(int field, int style, Locale locale) {
if (!checkDisplayNameParams(field, style, ALL_STYLES, NARROW_FORMAT, locale, ERA_MASK | YEAR_MASK | MONTH_MASK | DAY_OF_WEEK_MASK | AM_PM_MASK)) {
return null;
}
Map<String, Integer> names;
names = CalendarDataUtility.retrieveFieldValueNames(getCalendarType(), field, style, locale);
// If strings[] has fewer than eras[], get more names from eras[].
if (names != null) {
if (field == ERA) {
int size = names.size();
if (style == ALL_STYLES) {
Set<Integer> values = new HashSet<>();
// count unique era values
for (String key : names.keySet()) {
values.add(names.get(key));
}
size = values.size();
}
if (size < eras.length) {
int baseStyle = getBaseStyle(style);
for (int i = 0; i < eras.length; i++) {
if (!names.values().contains(i)) {
Era era = eras[i];
if (baseStyle == ALL_STYLES || baseStyle == SHORT || baseStyle == NARROW_FORMAT) {
names.put(era.getAbbreviation(), i);
}
if (baseStyle == ALL_STYLES || baseStyle == LONG) {
names.put(era.getName(), i);
}
}
}
}
}
}
return names;
}
Also used :
Era(sun.util.calendar.Era)
Aggregations
Era (sun.util.calendar.Era)10
BaseCalendar (sun.util.calendar.BaseCalendar)4
ZoneInfo (sun.util.calendar.ZoneInfo)3
CalendarDate (sun.util.calendar.CalendarDate)2
NativeTimeZone (com.google.j2objc.util.NativeTimeZone)1
