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/*
 *******************************************************************************
 * Copyright (C) 1996-2012, International Business Machines Corporation and
 * others. All Rights Reserved.
 *******************************************************************************
 */
package com.ibm.icu.util;
import java.util.Date;
import java.util.Locale;

import com.ibm.icu.impl.CalendarCache;
import com.ibm.icu.util.ULocale.Category;

/**
 * HebrewCalendar is a subclass of Calendar
 * that that implements the traditional Hebrew calendar.
 * This is the civil calendar in Israel and the liturgical calendar
 * of the Jewish faith worldwide.
 * 

* The Hebrew calendar is lunisolar and thus has a number of interesting * properties that distinguish it from the Gregorian. Months start * on the day of (an arithmetic approximation of) each new moon. Since the * solar year (approximately 365.24 days) is not an even multiple of * the lunar month (approximately 29.53 days) an extra "leap month" is * inserted in 7 out of every 19 years. To make matters even more * interesting, the start of a year can be delayed by up to three days * in order to prevent certain holidays from falling on the Sabbath and * to prevent certain illegal year lengths. Finally, the lengths of certain * months can vary depending on the number of days in the year. *

* The leap month is known as "Adar 1" and is inserted between the * months of Shevat and Adar in leap years. Since the leap month does * not come at the end of the year, calculations involving * month numbers are particularly complex. Users of this class should * make sure to use the {@link #roll roll} and {@link #add add} methods * rather than attempting to perform date arithmetic by manipulating * the fields directly. *

* Note: In the traditional Hebrew calendar, days start at sunset. * However, in order to keep the time fields in this class * synchronized with those of the other calendars and with local clock time, * we treat days and months as beginning at midnight, * roughly 6 hours after the corresponding sunset. *

* If you are interested in more information on the rules behind the Hebrew * calendar, see one of the following references: *

* *

* This class should not be subclassed.

*

* HebrewCalendar usually should be instantiated using * {@link com.ibm.icu.util.Calendar#getInstance(ULocale)} passing in a ULocale * with the tag "@calendar=hebrew".

* * @see com.ibm.icu.util.GregorianCalendar * @see com.ibm.icu.util.Calendar * * @author Laura Werner * @author Alan Liu * @stable ICU 2.8 */ public class HebrewCalendar extends Calendar { // jdk1.4.2 serialver private static final long serialVersionUID = -1952524560588825816L; //------------------------------------------------------------------------- // Tons o' Constants... //------------------------------------------------------------------------- /** * Constant for Tishri, the 1st month of the Hebrew year. * @stable ICU 2.8 */ public static final int TISHRI = 0; /** * Constant for Heshvan, the 2nd month of the Hebrew year. * @stable ICU 2.8 */ public static final int HESHVAN = 1; /** * Constant for Kislev, the 3rd month of the Hebrew year. * @stable ICU 2.8 */ public static final int KISLEV = 2; /** * Constant for Tevet, the 4th month of the Hebrew year. * @stable ICU 2.8 */ public static final int TEVET = 3; /** * Constant for Shevat, the 5th month of the Hebrew year. * @stable ICU 2.8 */ public static final int SHEVAT = 4; /** * Constant for Adar I, the 6th month of the Hebrew year * (present in leap years only). In non-leap years, the calendar * jumps from Shevat (5th month) to Adar (7th month). * @stable ICU 2.8 */ public static final int ADAR_1 = 5; /** * Constant for the Adar, the 7th month of the Hebrew year. * @stable ICU 2.8 */ public static final int ADAR = 6; /** * Constant for Nisan, the 8th month of the Hebrew year. * @stable ICU 2.8 */ public static final int NISAN = 7; /** * Constant for Iyar, the 9th month of the Hebrew year. * @stable ICU 2.8 */ public static final int IYAR = 8; /** * Constant for Sivan, the 10th month of the Hebrew year. * @stable ICU 2.8 */ public static final int SIVAN = 9; /** * Constant for Tammuz, the 11th month of the Hebrew year. * @stable ICU 2.8 */ public static final int TAMUZ = 10; /** * Constant for Av, the 12th month of the Hebrew year. * @stable ICU 2.8 */ public static final int AV = 11; /** * Constant for Elul, the 13th month of the Hebrew year. * @stable ICU 2.8 */ public static final int ELUL = 12; /** * The absolute date, in milliseconds since 1/1/1970 AD, Gregorian, * of the start of the Hebrew calendar. In order to keep this calendar's * time of day in sync with that of the Gregorian calendar, we use * midnight, rather than sunset the day before. */ //private static final long EPOCH_MILLIS = -180799862400000L; // 1/1/1 HY private static final int LIMITS[][] = { // Minimum Greatest Least Maximum // Minimum Maximum { 0, 0, 0, 0 }, // ERA { -5000000, -5000000, 5000000, 5000000 }, // YEAR { 0, 0, 12, 12 }, // MONTH { 1, 1, 51, 56 }, // WEEK_OF_YEAR {/* */}, // WEEK_OF_MONTH { 1, 1, 29, 30 }, // DAY_OF_MONTH { 1, 1, 353, 385 }, // DAY_OF_YEAR {/* */}, // DAY_OF_WEEK { -1, -1, 5, 5 }, // DAY_OF_WEEK_IN_MONTH {/* */}, // AM_PM {/* */}, // HOUR {/* */}, // HOUR_OF_DAY {/* */}, // MINUTE {/* */}, // SECOND {/* */}, // MILLISECOND {/* */}, // ZONE_OFFSET {/* */}, // DST_OFFSET { -5000000, -5000000, 5000000, 5000000 }, // YEAR_WOY {/* */}, // DOW_LOCAL { -5000000, -5000000, 5000000, 5000000 }, // EXTENDED_YEAR {/* */}, // JULIAN_DAY {/* */}, // MILLISECONDS_IN_DAY }; /** * The lengths of the Hebrew months. This is complicated, because there * are three different types of years, or six if you count leap years. * Due to the rules for postponing the start of the year to avoid having * certain holidays fall on the sabbath, the year can end up being three * different lengths, called "deficient", "normal", and "complete". */ private static final int MONTH_LENGTH[][] = { // Deficient Normal Complete { 30, 30, 30 }, //Tishri { 29, 29, 30 }, //Heshvan { 29, 30, 30 }, //Kislev { 29, 29, 29 }, //Tevet { 30, 30, 30 }, //Shevat { 30, 30, 30 }, //Adar I (leap years only) { 29, 29, 29 }, //Adar { 30, 30, 30 }, //Nisan { 29, 29, 29 }, //Iyar { 30, 30, 30 }, //Sivan { 29, 29, 29 }, //Tammuz { 30, 30, 30 }, //Av { 29, 29, 29 }, //Elul }; /** * The cumulative # of days to the end of each month in a non-leap year * Although this can be calculated from the MONTH_LENGTH table, * keeping it around separately makes some calculations a lot faster */ private static final int MONTH_START[][] = { // Deficient Normal Complete { 0, 0, 0 }, // (placeholder) { 30, 30, 30 }, // Tishri { 59, 59, 60 }, // Heshvan { 88, 89, 90 }, // Kislev { 117, 118, 119 }, // Tevet { 147, 148, 149 }, // Shevat { 147, 148, 149 }, // (Adar I placeholder) { 176, 177, 178 }, // Adar { 206, 207, 208 }, // Nisan { 235, 236, 237 }, // Iyar { 265, 266, 267 }, // Sivan { 294, 295, 296 }, // Tammuz { 324, 325, 326 }, // Av { 353, 354, 355 }, // Elul }; /** * The cumulative # of days to the end of each month in a leap year */ private static final int LEAP_MONTH_START[][] = { // Deficient Normal Complete { 0, 0, 0 }, // (placeholder) { 30, 30, 30 }, // Tishri { 59, 59, 60 }, // Heshvan { 88, 89, 90 }, // Kislev { 117, 118, 119 }, // Tevet { 147, 148, 149 }, // Shevat { 177, 178, 179 }, // Adar I { 206, 207, 208 }, // Adar II { 236, 237, 238 }, // Nisan { 265, 266, 267 }, // Iyar { 295, 296, 297 }, // Sivan { 324, 325, 326 }, // Tammuz { 354, 355, 356 }, // Av { 383, 384, 385 }, // Elul }; //------------------------------------------------------------------------- // Data Members... //------------------------------------------------------------------------- private static CalendarCache cache = new CalendarCache(); //------------------------------------------------------------------------- // Constructors... //------------------------------------------------------------------------- /** * Constructs a default HebrewCalendar using the current time * in the default time zone with the default FORMAT locale. * @see Category#FORMAT * @stable ICU 2.8 */ public HebrewCalendar() { this(TimeZone.getDefault(), ULocale.getDefault(Category.FORMAT)); } /** * Constructs a HebrewCalendar based on the current time * in the given time zone with the default FORMAT locale. * * @param zone The time zone for the new calendar. * @see Category#FORMAT * @stable ICU 2.8 */ public HebrewCalendar(TimeZone zone) { this(zone, ULocale.getDefault(Category.FORMAT)); } /** * Constructs a HebrewCalendar based on the current time * in the default time zone with the given locale. * * @param aLocale The locale for the new calendar. * @stable ICU 2.8 */ public HebrewCalendar(Locale aLocale) { this(TimeZone.getDefault(), aLocale); } /** * Constructs a HebrewCalendar based on the current time * in the default time zone with the given locale. * * @param locale The locale for the new calendar. * @stable ICU 3.2 */ public HebrewCalendar(ULocale locale) { this(TimeZone.getDefault(), locale); } /** * Constructs a HebrewCalendar based on the current time * in the given time zone with the given locale. * * @param zone The time zone for the new calendar. * * @param aLocale The locale for the new calendar. * @stable ICU 2.8 */ public HebrewCalendar(TimeZone zone, Locale aLocale) { super(zone, aLocale); setTimeInMillis(System.currentTimeMillis()); } /** * Constructs a HebrewCalendar based on the current time * in the given time zone with the given locale. * * @param zone The time zone for the new calendar. * * @param locale The locale for the new calendar. * @stable ICU 3.2 */ public HebrewCalendar(TimeZone zone, ULocale locale) { super(zone, locale); setTimeInMillis(System.currentTimeMillis()); } /** * Constructs a HebrewCalendar with the given date set * in the default time zone with the default FORMAT locale. * * @param year The value used to set the calendar's {@link #YEAR YEAR} time field. * * @param month The value used to set the calendar's {@link #MONTH MONTH} time field. * The value is 0-based. e.g., 0 for Tishri. * * @param date The value used to set the calendar's {@link #DATE DATE} time field. * @see Category#FORMAT * @stable ICU 2.8 */ public HebrewCalendar(int year, int month, int date) { super(TimeZone.getDefault(), ULocale.getDefault(Category.FORMAT)); this.set(YEAR, year); this.set(MONTH, month); this.set(DATE, date); } /** * Constructs a HebrewCalendar with the given date set * in the default time zone with the default FORMAT locale. * * @param date The date to which the new calendar is set. * @see Category#FORMAT * @stable ICU 2.8 */ public HebrewCalendar(Date date) { super(TimeZone.getDefault(), ULocale.getDefault(Category.FORMAT)); this.setTime(date); } /** * Constructs a HebrewCalendar with the given date * and time set for the default time zone with the default FORMAT locale. * * @param year The value used to set the calendar's {@link #YEAR YEAR} time field. * * @param month The value used to set the calendar's {@link #MONTH MONTH} time field. * The value is 0-based. e.g., 0 for Tishri. * * @param date The value used to set the calendar's {@link #DATE DATE} time field. * * @param hour The value used to set the calendar's {@link #HOUR_OF_DAY HOUR_OF_DAY} time field. * * @param minute The value used to set the calendar's {@link #MINUTE MINUTE} time field. * * @param second The value used to set the calendar's {@link #SECOND SECOND} time field. * @see Category#FORMAT * @stable ICU 2.8 */ public HebrewCalendar(int year, int month, int date, int hour, int minute, int second) { super(TimeZone.getDefault(), ULocale.getDefault(Category.FORMAT)); this.set(YEAR, year); this.set(MONTH, month); this.set(DATE, date); this.set(HOUR_OF_DAY, hour); this.set(MINUTE, minute); this.set(SECOND, second); } //------------------------------------------------------------------------- // Rolling and adding functions overridden from Calendar // // These methods call through to the default implementation in IBMCalendar // for most of the fields and only handle the unusual ones themselves. //------------------------------------------------------------------------- /** * 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 {@link #MONTH MONTH} field * for the date "30 Av 5758", the {@link #DAY_OF_MONTH DAY_OF_MONTH} field * must be adjusted so that the result is "29 Elul 5758" rather than the invalid * "30 Elul 5758". *

* This method is able to add to * all fields except for {@link #ERA ERA}, {@link #DST_OFFSET DST_OFFSET}, * and {@link #ZONE_OFFSET ZONE_OFFSET}. *

* Note: You should always use {@link #roll roll} and add rather * than attempting to perform arithmetic operations directly on the fields * of a HebrewCalendar. Since the {@link #MONTH MONTH} field behaves * discontinuously in non-leap years, simple arithmetic can give invalid results. *

* @param field the time field. * @param amount the amount to add to the field. * * @exception IllegalArgumentException if the field is invalid or refers * to a field that cannot be handled by this method. * @stable ICU 2.8 */ public void add(int field, int amount) { switch (field) { case MONTH: { // We can't just do a set(MONTH, get(MONTH) + amount). The // reason is ADAR_1. Suppose amount is +2 and we land in // ADAR_1 -- then we have to bump to ADAR_2 aka ADAR. But // if amount is -2 and we land in ADAR_1, then we have to // bump the other way -- down to SHEVAT. - Alan 11/00 int month = get(MONTH); int year = get(YEAR); boolean acrossAdar1; if (amount > 0) { acrossAdar1 = (month < ADAR_1); // started before ADAR_1? month += amount; for (;;) { if (acrossAdar1 && month>=ADAR_1 && !isLeapYear(year)) { ++month; } if (month <= ELUL) { break; } month -= ELUL+1; ++year; acrossAdar1 = true; } } else { acrossAdar1 = (month > ADAR_1); // started after ADAR_1? month += amount; for (;;) { if (acrossAdar1 && month<=ADAR_1 && !isLeapYear(year)) { --month; } if (month >= 0) { break; } month += ELUL+1; --year; acrossAdar1 = true; } } set(MONTH, month); set(YEAR, year); pinField(DAY_OF_MONTH); break; } default: super.add(field, amount); break; } } /** * 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 Hebrew calendar set to "25 Av 5758" will result in the date "5 Av 5758". *

* When rolling certain fields, the values of other fields may conflict and * need to be changed. For example, when rolling the {@link #MONTH MONTH} field * upward by one for the date "30 Av 5758", the {@link #DAY_OF_MONTH DAY_OF_MONTH} field * must be adjusted so that the result is "29 Elul 5758" rather than the invalid * "30 Elul". *

* This method is able to roll * all fields except for {@link #ERA ERA}, {@link #DST_OFFSET DST_OFFSET}, * and {@link #ZONE_OFFSET ZONE_OFFSET}. Subclasses may, of course, add support for * additional fields in their overrides of roll. *

* Note: You should always use roll and {@link #add add} rather * than attempting to perform arithmetic operations directly on the fields * of a HebrewCalendar. Since the {@link #MONTH MONTH} field behaves * discontinuously in non-leap years, simple arithmetic can give invalid results. *

* @param field the time field. * @param amount the amount by which the field should be rolled. * * @exception IllegalArgumentException if the field is invalid or refers * to a field that cannot be handled by this method. * @stable ICU 2.8 */ public void roll(int field, int amount) { switch (field) { case MONTH: { int month = get(MONTH); int year = get(YEAR); boolean leapYear = isLeapYear(year); int yearLength = monthsInYear(year); int newMonth = month + (amount % yearLength); // // If it's not a leap year and we're rolling past the missing month // of ADAR_1, we need to roll an extra month to make up for it. // if (!leapYear) { if (amount > 0 && month < ADAR_1 && newMonth >= ADAR_1) { newMonth++; } else if (amount < 0 && month > ADAR_1 && newMonth <= ADAR_1) { newMonth--; } } set(MONTH, (newMonth + 13) % 13); pinField(DAY_OF_MONTH); return; } default: super.roll(field, amount); } } //------------------------------------------------------------------------- // Support methods //------------------------------------------------------------------------- // Hebrew date calculations are performed in terms of days, hours, and // "parts" (or halakim), which are 1/1080 of an hour, or 3 1/3 seconds. private static final long HOUR_PARTS = 1080; private static final long DAY_PARTS = 24*HOUR_PARTS; // An approximate value for the length of a lunar month. // It is used to calculate the approximate year and month of a given // absolute date. static private final int MONTH_DAYS = 29; static private final long MONTH_FRACT = 12*HOUR_PARTS + 793; static private final long MONTH_PARTS = MONTH_DAYS*DAY_PARTS + MONTH_FRACT; // The time of the new moon (in parts) on 1 Tishri, year 1 (the epoch) // counting from noon on the day before. BAHARAD is an abbreviation of // Bet (Monday), Hey (5 hours from sunset), Resh-Daled (204). static private final long BAHARAD = 11*HOUR_PARTS + 204; /** * Finds the day # of the first day in the given Hebrew year. * To do this, we want to calculate the time of the Tishri 1 new moon * in that year. *

* The algorithm here is similar to ones described in a number of * references, including: *

*/ private static long startOfYear(int year) { long day = cache.get(year); if (day == CalendarCache.EMPTY) { int months = (235 * year - 234) / 19; // # of months before year long frac = months * MONTH_FRACT + BAHARAD; // Fractional part of day # day = months * 29 + (frac / DAY_PARTS); // Whole # part of calculation frac = frac % DAY_PARTS; // Time of day int wd = (int)(day % 7); // Day of week (0 == Monday) if (wd == 2 || wd == 4 || wd == 6) { // If the 1st is on Sun, Wed, or Fri, postpone to the next day day += 1; wd = (int)(day % 7); } if (wd == 1 && frac > 15*HOUR_PARTS+204 && !isLeapYear(year) ) { // If the new moon falls after 3:11:20am (15h204p from the previous noon) // on a Tuesday and it is not a leap year, postpone by 2 days. // This prevents 356-day years. day += 2; } else if (wd == 0 && frac > 21*HOUR_PARTS+589 && isLeapYear(year-1) ) { // If the new moon falls after 9:32:43 1/3am (21h589p from yesterday noon) // on a Monday and *last* year was a leap year, postpone by 1 day. // Prevents 382-day years. day += 1; } cache.put(year, day); } return day; } /* * Find the day of the week for a given day * * @param day The # of days since the start of the Hebrew calendar, * 1-based (i.e. 1/1/1 AM is day 1). */ /*private static int absoluteDayToDayOfWeek(long day) { // We know that 1/1/1 AM is a Monday, which makes the math easy... return (int)(day % 7) + 1; }*/ /** * Returns the the type of a given year. * 0 "Deficient" year with 353 or 383 days * 1 "Normal" year with 354 or 384 days * 2 "Complete" year with 355 or 385 days */ private final int yearType(int year) { int yearLength = handleGetYearLength(year); if (yearLength > 380) { yearLength -= 30; // Subtract length of leap month. } int type = 0; switch (yearLength) { case 353: type = 0; break; case 354: type = 1; break; case 355: type = 2; break; default: throw new IllegalArgumentException("Illegal year length " + yearLength + " in year " + year); } return type; } /** * Determine whether a given Hebrew year is a leap year * * The rule here is that if (year % 19) == 0, 3, 6, 8, 11, 14, or 17. * The formula below performs the same test, believe it or not. * @internal * @deprecated This API is ICU internal only. */ public static boolean isLeapYear(int year) { //return (year * 12 + 17) % 19 >= 12; int x = (year*12 + 17) % 19; return x >= ((x < 0) ? -7 : 12); } private static int monthsInYear(int year) { return isLeapYear(year) ? 13 : 12; } //------------------------------------------------------------------------- // Calendar framework //------------------------------------------------------------------------- /** * @stable ICU 2.8 */ protected int handleGetLimit(int field, int limitType) { return LIMITS[field][limitType]; } /** * Returns the length of the given month in the given year * @stable ICU 2.8 */ protected int handleGetMonthLength(int extendedYear, int month) { // Resolve out-of-range months. This is necessary in order to // obtain the correct year. We correct to // a 12- or 13-month year (add/subtract 12 or 13, depending // on the year) but since we _always_ number from 0..12, and // the leap year determines whether or not month 5 (Adar 1) // is present, we allow 0..12 in any given year. while (month < 0) { month += monthsInYear(--extendedYear); } // Careful: allow 0..12 in all years while (month > 12) { month -= monthsInYear(extendedYear++); } switch (month) { case HESHVAN: case KISLEV: // These two month lengths can vary return MONTH_LENGTH[month][yearType(extendedYear)]; default: // The rest are a fixed length return MONTH_LENGTH[month][0]; } } /** * Returns the number of days in the given Hebrew year * @stable ICU 2.8 */ protected int handleGetYearLength(int eyear) { return (int)(startOfYear(eyear+1) - startOfYear(eyear)); } //------------------------------------------------------------------------- // Functions for converting from milliseconds to field values //------------------------------------------------------------------------- /** * 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
* * Subclasses can refer to the DAY_OF_WEEK and DOW_LOCAL fields, * which will be set when this method is called. Subclasses can * also call the getGregorianXxx() methods to obtain Gregorian * calendar equivalents for the given Julian day. * *

In addition, subclasses should compute any subclass-specific * fields, that is, fields from BASE_FIELD_COUNT to * getFieldCount() - 1. * @stable ICU 2.8 */ protected void handleComputeFields(int julianDay) { long d = julianDay - 347997; long m = (d * DAY_PARTS) / MONTH_PARTS; // Months (approx) int year = (int)((19 * m + 234) / 235) + 1; // Years (approx) long ys = startOfYear(year); // 1st day of year int dayOfYear = (int)(d - ys); // Because of the postponement rules, it's possible to guess wrong. Fix it. while (dayOfYear < 1) { year--; ys = startOfYear(year); dayOfYear = (int)(d - ys); } // Now figure out which month we're in, and the date within that month int yearType = yearType(year); int monthStart[][] = isLeapYear(year) ? LEAP_MONTH_START : MONTH_START; int month = 0; while (dayOfYear > monthStart[month][yearType]) { month++; } month--; int dayOfMonth = dayOfYear - monthStart[month][yearType]; internalSet(ERA, 0); internalSet(YEAR, year); internalSet(EXTENDED_YEAR, year); internalSet(MONTH, month); internalSet(DAY_OF_MONTH, dayOfMonth); internalSet(DAY_OF_YEAR, dayOfYear); } //------------------------------------------------------------------------- // Functions for converting from field values to milliseconds //------------------------------------------------------------------------- /** * @stable ICU 2.8 */ protected int handleGetExtendedYear() { int year; if (newerField(EXTENDED_YEAR, YEAR) == EXTENDED_YEAR) { year = internalGet(EXTENDED_YEAR, 1); // Default to year 1 } else { year = internalGet(YEAR, 1); // Default to year 1 } return year; } /** * Return JD of start of given month/year. * @stable ICU 2.8 */ protected int handleComputeMonthStart(int eyear, int month, boolean useMonth) { // Resolve out-of-range months. This is necessary in order to // obtain the correct year. We correct to // a 12- or 13-month year (add/subtract 12 or 13, depending // on the year) but since we _always_ number from 0..12, and // the leap year determines whether or not month 5 (Adar 1) // is present, we allow 0..12 in any given year. while (month < 0) { month += monthsInYear(--eyear); } // Careful: allow 0..12 in all years while (month > 12) { month -= monthsInYear(eyear++); } long day = startOfYear(eyear); if (month != 0) { if (isLeapYear(eyear)) { day += LEAP_MONTH_START[month][yearType(eyear)]; } else { day += MONTH_START[month][yearType(eyear)]; } } return (int) (day + 347997); } /** * {@inheritDoc} * @stable ICU 3.8 */ public String getType() { return "hebrew"; } /* private static CalendarFactory factory; public static CalendarFactory factory() { if (factory == null) { factory = new CalendarFactory() { public Calendar create(TimeZone tz, ULocale loc) { return new HebrewCalendar(tz, loc); } public String factoryName() { return "Hebrew"; } }; } return factory; } */ }





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