sun.util.calendar.CalendarUtils Java Examples

/**
 * Sets the month of this date to the specified value. This
 * <tt>Date</tt> object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by <code>Calendar.set(Calendar.MONTH, int month)</code>.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

/**
 * Sets the month of this date to the specified value. This
 * <tt>Date</tt> object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by <code>Calendar.set(Calendar.MONTH, int month)</code>.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

/**
 * Sets the month of this date to the specified value. This
 * <tt>Date</tt> object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by <code>Calendar.set(Calendar.MONTH, int month)</code>.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

/**
 * Sets the month of this date to the specified value. This
 * <tt>Date</tt> object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by <code>Calendar.set(Calendar.MONTH, int month)</code>.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

String toTimeString() {
    StringBuffer sb = new StringBuffer();
    CalendarUtils.sprintf0d(sb, cal.get(HOUR_OF_DAY), 2).append(':');
    CalendarUtils.sprintf0d(sb, cal.get(MINUTE), 2).append(':');
    CalendarUtils.sprintf0d(sb, cal.get(SECOND),2 ).append('.');
    CalendarUtils.sprintf0d(sb, cal.get(MILLISECOND), 3);
    int zoneOffset = cal.get(ZONE_OFFSET) + cal.get(DST_OFFSET);
    if (zoneOffset == 0) {
        sb.append('Z');
    } else {
        int offset;
        char sign;
        if (zoneOffset > 0) {
            offset = zoneOffset;
            sign = '+';
        } else {
            offset = -zoneOffset;
            sign = '-';
        }
        offset /= 60000;
        sb.append(sign);
        CalendarUtils.sprintf0d(sb, offset / 60, 2);
        CalendarUtils.sprintf0d(sb, offset % 60, 2);
    }
    return sb.toString();
}
 

String toTimeString() {
    StringBuffer sb = new StringBuffer();
    CalendarUtils.sprintf0d(sb, cal.get(HOUR_OF_DAY), 2).append(':');
    CalendarUtils.sprintf0d(sb, cal.get(MINUTE), 2).append(':');
    CalendarUtils.sprintf0d(sb, cal.get(SECOND),2 ).append('.');
    CalendarUtils.sprintf0d(sb, cal.get(MILLISECOND), 3);
    int zoneOffset = cal.get(ZONE_OFFSET) + cal.get(DST_OFFSET);
    if (zoneOffset == 0) {
        sb.append('Z');
    } else {
        int offset;
        char sign;
        if (zoneOffset > 0) {
            offset = zoneOffset;
            sign = '+';
        } else {
            offset = -zoneOffset;
            sign = '-';
        }
        offset /= 60000;
        sb.append(sign);
        CalendarUtils.sprintf0d(sb, offset / 60, 2);
        CalendarUtils.sprintf0d(sb, offset % 60, 2);
    }
    return sb.toString();
}
 

/**
 * Sets the month of this date to the specified value. This
 * <tt>Date</tt> object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by <code>Calendar.set(Calendar.MONTH, int month)</code>.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

/**
 * Sets the month of this date to the specified value. This
 * <tt>Date</tt> object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by <code>Calendar.set(Calendar.MONTH, int month)</code>.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

/**
 * Sets the month of this date to the specified value. This
 * {@code Date} object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by {@code Calendar.set(Calendar.MONTH, int month)}.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

/**
 * Sets the month of this date to the specified value. This
 * <tt>Date</tt> object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by <code>Calendar.set(Calendar.MONTH, int month)</code>.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

/**
 * Sets the month of this date to the specified value. This
 * <tt>Date</tt> object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by <code>Calendar.set(Calendar.MONTH, int month)</code>.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

/**
 * Sets the month of this date to the specified value. This
 * <tt>Date</tt> object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by <code>Calendar.set(Calendar.MONTH, int month)</code>.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

/**
 * Sets the month of this date to the specified value. This
 * <tt>Date</tt> object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by <code>Calendar.set(Calendar.MONTH, int month)</code>.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

/**
 * Sets the month of this date to the specified value. This
 * <tt>Date</tt> object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by <code>Calendar.set(Calendar.MONTH, int month)</code>.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

/**
 * Sets the month of this date to the specified value. This
 * <tt>Date</tt> object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by <code>Calendar.set(Calendar.MONTH, int month)</code>.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

/**
 * Sets the month of this date to the specified value. This
 * <tt>Date</tt> object is modified so that it represents a point
 * in time within the specified month, with the year, date, hour,
 * minute, and second the same as before, as interpreted in the
 * local time zone. If the date was October 31, for example, and
 * the month is set to June, then the new date will be treated as
 * if it were on July 1, because June has only 30 days.
 *
 * @param   month   the month value between 0-11.
 * @see     java.util.Calendar
 * @deprecated As of JDK version 1.1,
 * replaced by <code>Calendar.set(Calendar.MONTH, int month)</code>.
 */
@Deprecated
public void setMonth(int month) {
    int y = 0;
    if (month >= 12) {
        y = month / 12;
        month %= 12;
    } else if (month < 0) {
        y = CalendarUtils.floorDivide(month, 12);
        month = CalendarUtils.mod(month, 12);
    }
    BaseCalendar.Date d = getCalendarDate();
    if (y != 0) {
        d.setNormalizedYear(d.getNormalizedYear() + y);
    }
    d.setMonth(month + 1); // adjust 0-based to 1-based month numbering
}
 

private void setGregorianChange(long cutoverTime) {
    gregorianCutover = cutoverTime;
    gregorianCutoverDate = CalendarUtils.floorDivide(cutoverTime, ONE_DAY)
                            + EPOCH_OFFSET;

    // To provide the "pure" Julian calendar as advertised.
    // Strictly speaking, the last millisecond should be a
    // Gregorian date. However, the API doc specifies that setting
    // the cutover date to Long.MAX_VALUE will make this calendar
    // a pure Julian calendar. (See 4167995)
    if (cutoverTime == Long.MAX_VALUE) {
        gregorianCutoverDate++;
    }

    BaseCalendar.Date d = getGregorianCutoverDate();

    // Set the cutover year (in the Gregorian year numbering)
    gregorianCutoverYear = d.getYear();

    BaseCalendar julianCal = getJulianCalendarSystem();
    d = (BaseCalendar.Date) julianCal.newCalendarDate(TimeZone.NO_TIMEZONE);
    julianCal.getCalendarDateFromFixedDate(d, gregorianCutoverDate - 1);
    gregorianCutoverYearJulian = d.getNormalizedYear();

    if (time < gregorianCutover) {
        // The field values are no longer valid under the new
        // cutover date.
        setUnnormalized();
    }
}
 

String toDateString() {
    StringBuffer sb = new StringBuffer();
    String[] eraNames = null;
    switch (type) {
    case GREGORIAN:
        eraNames = new String[] { "BCE", "" };
        break;

    case BUDDHIST:
        eraNames = new String[] { "Before BE", "BE"};
        break;

    case JAPANESE:
        eraNames = new String[] {
            "BeforeMeiji",
            "Meiji",
            "Taisho",
            "Showa",
            "Heisei",
            "Reiwa"
        };
        break;
    }

    sb.append(eraNames[cal.get(ERA)]);
    if (sb.length() > 0)
        sb.append(' ');
    CalendarUtils.sprintf0d(sb, cal.get(YEAR), 4).append('-');
    CalendarUtils.sprintf0d(sb, cal.get(MONTH)+1, 2).append('-');
    CalendarUtils.sprintf0d(sb, cal.get(DAY_OF_MONTH), 2);
    return sb.toString();
}
 

private void setGregorianChange(long cutoverTime) {
    gregorianCutover = cutoverTime;
    gregorianCutoverDate = CalendarUtils.floorDivide(cutoverTime, ONE_DAY)
                            + EPOCH_OFFSET;

    // To provide the "pure" Julian calendar as advertised.
    // Strictly speaking, the last millisecond should be a
    // Gregorian date. However, the API doc specifies that setting
    // the cutover date to Long.MAX_VALUE will make this calendar
    // a pure Julian calendar. (See 4167995)
    if (cutoverTime == Long.MAX_VALUE) {
        gregorianCutoverDate++;
    }

    BaseCalendar.Date d = getGregorianCutoverDate();

    // Set the cutover year (in the Gregorian year numbering)
    gregorianCutoverYear = d.getYear();

    BaseCalendar julianCal = getJulianCalendarSystem();
    d = (BaseCalendar.Date) julianCal.newCalendarDate(TimeZone.NO_TIMEZONE);
    julianCal.getCalendarDateFromFixedDate(d, gregorianCutoverDate - 1);
    gregorianCutoverYearJulian = d.getNormalizedYear();

    if (time < gregorianCutover) {
        // The field values are no longer valid under the new
        // cutover date.
        setUnnormalized();
    }
}
 

private void setGregorianChange(long cutoverTime) {
    gregorianCutover = cutoverTime;
    gregorianCutoverDate = CalendarUtils.floorDivide(cutoverTime, ONE_DAY)
                            + EPOCH_OFFSET;

    // To provide the "pure" Julian calendar as advertised.
    // Strictly speaking, the last millisecond should be a
    // Gregorian date. However, the API doc specifies that setting
    // the cutover date to Long.MAX_VALUE will make this calendar
    // a pure Julian calendar. (See 4167995)
    if (cutoverTime == Long.MAX_VALUE) {
        gregorianCutoverDate++;
    }

    BaseCalendar.Date d = getGregorianCutoverDate();

    // Set the cutover year (in the Gregorian year numbering)
    gregorianCutoverYear = d.getYear();

    BaseCalendar julianCal = getJulianCalendarSystem();
    d = (BaseCalendar.Date) julianCal.newCalendarDate(TimeZone.NO_TIMEZONE);
    julianCal.getCalendarDateFromFixedDate(d, gregorianCutoverDate - 1);
    gregorianCutoverYearJulian = d.getNormalizedYear();

    if (time < gregorianCutover) {
        // The field values are no longer valid under the new
        // cutover date.
        setUnnormalized();
    }
}
 

private void setGregorianChange(long cutoverTime) {
    gregorianCutover = cutoverTime;
    gregorianCutoverDate = CalendarUtils.floorDivide(cutoverTime, ONE_DAY)
                            + EPOCH_OFFSET;

    // To provide the "pure" Julian calendar as advertised.
    // Strictly speaking, the last millisecond should be a
    // Gregorian date. However, the API doc specifies that setting
    // the cutover date to Long.MAX_VALUE will make this calendar
    // a pure Julian calendar. (See 4167995)
    if (cutoverTime == Long.MAX_VALUE) {
        gregorianCutoverDate++;
    }

    BaseCalendar.Date d = getGregorianCutoverDate();

    // Set the cutover year (in the Gregorian year numbering)
    gregorianCutoverYear = d.getYear();

    BaseCalendar jcal = getJulianCalendarSystem();
    d = (BaseCalendar.Date) jcal.newCalendarDate(TimeZone.NO_TIMEZONE);
    jcal.getCalendarDateFromFixedDate(d, gregorianCutoverDate - 1);
    gregorianCutoverYearJulian = d.getNormalizedYear();

    if (time < gregorianCutover) {
        // The field values are no longer valid under the new
        // cutover date.
        setUnnormalized();
    }
}
 

private void setGregorianChange(long cutoverTime) {
    gregorianCutover = cutoverTime;
    gregorianCutoverDate = CalendarUtils.floorDivide(cutoverTime, ONE_DAY)
                            + EPOCH_OFFSET;

    // To provide the "pure" Julian calendar as advertised.
    // Strictly speaking, the last millisecond should be a
    // Gregorian date. However, the API doc specifies that setting
    // the cutover date to Long.MAX_VALUE will make this calendar
    // a pure Julian calendar. (See 4167995)
    if (cutoverTime == Long.MAX_VALUE) {
        gregorianCutoverDate++;
    }

    BaseCalendar.Date d = getGregorianCutoverDate();

    // Set the cutover year (in the Gregorian year numbering)
    gregorianCutoverYear = d.getYear();

    BaseCalendar julianCal = getJulianCalendarSystem();
    d = (BaseCalendar.Date) julianCal.newCalendarDate(TimeZone.NO_TIMEZONE);
    julianCal.getCalendarDateFromFixedDate(d, gregorianCutoverDate - 1);
    gregorianCutoverYearJulian = d.getNormalizedYear();

    if (time < gregorianCutover) {
        // The field values are no longer valid under the new
        // cutover date.
        setUnnormalized();
    }
}
 

private void setGregorianChange(long cutoverTime) {
    gregorianCutover = cutoverTime;
    gregorianCutoverDate = CalendarUtils.floorDivide(cutoverTime, ONE_DAY)
                            + EPOCH_OFFSET;

    // To provide the "pure" Julian calendar as advertised.
    // Strictly speaking, the last millisecond should be a
    // Gregorian date. However, the API doc specifies that setting
    // the cutover date to Long.MAX_VALUE will make this calendar
    // a pure Julian calendar. (See 4167995)
    if (cutoverTime == Long.MAX_VALUE) {
        gregorianCutoverDate++;
    }

    BaseCalendar.Date d = getGregorianCutoverDate();

    // Set the cutover year (in the Gregorian year numbering)
    gregorianCutoverYear = d.getYear();

    BaseCalendar julianCal = getJulianCalendarSystem();
    d = (BaseCalendar.Date) julianCal.newCalendarDate(TimeZone.NO_TIMEZONE);
    julianCal.getCalendarDateFromFixedDate(d, gregorianCutoverDate - 1);
    gregorianCutoverYearJulian = d.getNormalizedYear();

    if (time < gregorianCutover) {
        // The field values are no longer valid under the new
        // cutover date.
        setUnnormalized();
    }
}
 

private void setGregorianChange(long cutoverTime) {
    gregorianCutover = cutoverTime;
    gregorianCutoverDate = CalendarUtils.floorDivide(cutoverTime, ONE_DAY)
                            + EPOCH_OFFSET;

    // To provide the "pure" Julian calendar as advertised.
    // Strictly speaking, the last millisecond should be a
    // Gregorian date. However, the API doc specifies that setting
    // the cutover date to Long.MAX_VALUE will make this calendar
    // a pure Julian calendar. (See 4167995)
    if (cutoverTime == Long.MAX_VALUE) {
        gregorianCutoverDate++;
    }

    BaseCalendar.Date d = getGregorianCutoverDate();

    // Set the cutover year (in the Gregorian year numbering)
    gregorianCutoverYear = d.getYear();

    BaseCalendar julianCal = getJulianCalendarSystem();
    d = (BaseCalendar.Date) julianCal.newCalendarDate(TimeZone.NO_TIMEZONE);
    julianCal.getCalendarDateFromFixedDate(d, gregorianCutoverDate - 1);
    gregorianCutoverYearJulian = d.getNormalizedYear();

    if (time < gregorianCutover) {
        // The field values are no longer valid under the new
        // cutover date.
        setUnnormalized();
    }
}
 

private void setGregorianChange(long cutoverTime) {
    gregorianCutover = cutoverTime;
    gregorianCutoverDate = CalendarUtils.floorDivide(cutoverTime, ONE_DAY)
                            + EPOCH_OFFSET;

    // To provide the "pure" Julian calendar as advertised.
    // Strictly speaking, the last millisecond should be a
    // Gregorian date. However, the API doc specifies that setting
    // the cutover date to Long.MAX_VALUE will make this calendar
    // a pure Julian calendar. (See 4167995)
    if (cutoverTime == Long.MAX_VALUE) {
        gregorianCutoverDate++;
    }

    BaseCalendar.Date d = getGregorianCutoverDate();

    // Set the cutover year (in the Gregorian year numbering)
    gregorianCutoverYear = d.getYear();

    BaseCalendar julianCal = getJulianCalendarSystem();
    d = (BaseCalendar.Date) julianCal.newCalendarDate(TimeZone.NO_TIMEZONE);
    julianCal.getCalendarDateFromFixedDate(d, gregorianCutoverDate - 1);
    gregorianCutoverYearJulian = d.getNormalizedYear();

    if (time < gregorianCutover) {
        // The field values are no longer valid under the new
        // cutover date.
        setUnnormalized();
    }
}
 

private void setGregorianChange(long cutoverTime) {
    gregorianCutover = cutoverTime;
    gregorianCutoverDate = CalendarUtils.floorDivide(cutoverTime, ONE_DAY)
                            + EPOCH_OFFSET;

    // To provide the "pure" Julian calendar as advertised.
    // Strictly speaking, the last millisecond should be a
    // Gregorian date. However, the API doc specifies that setting
    // the cutover date to Long.MAX_VALUE will make this calendar
    // a pure Julian calendar. (See 4167995)
    if (cutoverTime == Long.MAX_VALUE) {
        gregorianCutoverDate++;
    }

    BaseCalendar.Date d = getGregorianCutoverDate();

    // Set the cutover year (in the Gregorian year numbering)
    gregorianCutoverYear = d.getYear();

    BaseCalendar julianCal = getJulianCalendarSystem();
    d = (BaseCalendar.Date) julianCal.newCalendarDate(TimeZone.NO_TIMEZONE);
    julianCal.getCalendarDateFromFixedDate(d, gregorianCutoverDate - 1);
    gregorianCutoverYearJulian = d.getNormalizedYear();

    if (time < gregorianCutover) {
        // The field values are no longer valid under the new
        // cutover date.
        setUnnormalized();
    }
}
 

private void setGregorianChange(long cutoverTime) {
    gregorianCutover = cutoverTime;
    gregorianCutoverDate = CalendarUtils.floorDivide(cutoverTime, ONE_DAY)
                            + EPOCH_OFFSET;

    // To provide the "pure" Julian calendar as advertised.
    // Strictly speaking, the last millisecond should be a
    // Gregorian date. However, the API doc specifies that setting
    // the cutover date to Long.MAX_VALUE will make this calendar
    // a pure Julian calendar. (See 4167995)
    if (cutoverTime == Long.MAX_VALUE) {
        gregorianCutoverDate++;
    }

    BaseCalendar.Date d = getGregorianCutoverDate();

    // Set the cutover year (in the Gregorian year numbering)
    gregorianCutoverYear = d.getYear();

    BaseCalendar julianCal = getJulianCalendarSystem();
    d = (BaseCalendar.Date) julianCal.newCalendarDate(TimeZone.NO_TIMEZONE);
    julianCal.getCalendarDateFromFixedDate(d, gregorianCutoverDate - 1);
    gregorianCutoverYearJulian = d.getNormalizedYear();

    if (time < gregorianCutover) {
        // The field values are no longer valid under the new
        // cutover date.
        setUnnormalized();
    }
}
 

private void setGregorianChange(long cutoverTime) {
    gregorianCutover = cutoverTime;
    gregorianCutoverDate = CalendarUtils.floorDivide(cutoverTime, ONE_DAY)
                            + EPOCH_OFFSET;

    // To provide the "pure" Julian calendar as advertised.
    // Strictly speaking, the last millisecond should be a
    // Gregorian date. However, the API doc specifies that setting
    // the cutover date to Long.MAX_VALUE will make this calendar
    // a pure Julian calendar. (See 4167995)
    if (cutoverTime == Long.MAX_VALUE) {
        gregorianCutoverDate++;
    }

    BaseCalendar.Date d = getGregorianCutoverDate();

    // Set the cutover year (in the Gregorian year numbering)
    gregorianCutoverYear = d.getYear();

    BaseCalendar julianCal = getJulianCalendarSystem();
    d = (BaseCalendar.Date) julianCal.newCalendarDate(TimeZone.NO_TIMEZONE);
    julianCal.getCalendarDateFromFixedDate(d, gregorianCutoverDate - 1);
    gregorianCutoverYearJulian = d.getNormalizedYear();

    if (time < gregorianCutover) {
        // The field values are no longer valid under the new
        // cutover date.
        setUnnormalized();
    }
}
 

private void setGregorianChange(long cutoverTime) {
    gregorianCutover = cutoverTime;
    gregorianCutoverDate = CalendarUtils.floorDivide(cutoverTime, ONE_DAY)
                            + EPOCH_OFFSET;

    // To provide the "pure" Julian calendar as advertised.
    // Strictly speaking, the last millisecond should be a
    // Gregorian date. However, the API doc specifies that setting
    // the cutover date to Long.MAX_VALUE will make this calendar
    // a pure Julian calendar. (See 4167995)
    if (cutoverTime == Long.MAX_VALUE) {
        gregorianCutoverDate++;
    }

    BaseCalendar.Date d = getGregorianCutoverDate();

    // Set the cutover year (in the Gregorian year numbering)
    gregorianCutoverYear = d.getYear();

    BaseCalendar julianCal = getJulianCalendarSystem();
    d = (BaseCalendar.Date) julianCal.newCalendarDate(TimeZone.NO_TIMEZONE);
    julianCal.getCalendarDateFromFixedDate(d, gregorianCutoverDate - 1);
    gregorianCutoverYearJulian = d.getNormalizedYear();

    if (time < gregorianCutover) {
        // The field values are no longer valid under the new
        // cutover date.
        setUnnormalized();
    }
}
 

private void setGregorianChange(long cutoverTime) {
    gregorianCutover = cutoverTime;
    gregorianCutoverDate = CalendarUtils.floorDivide(cutoverTime, ONE_DAY)
                            + EPOCH_OFFSET;

    // To provide the "pure" Julian calendar as advertised.
    // Strictly speaking, the last millisecond should be a
    // Gregorian date. However, the API doc specifies that setting
    // the cutover date to Long.MAX_VALUE will make this calendar
    // a pure Julian calendar. (See 4167995)
    if (cutoverTime == Long.MAX_VALUE) {
        gregorianCutoverDate++;
    }

    BaseCalendar.Date d = getGregorianCutoverDate();

    // Set the cutover year (in the Gregorian year numbering)
    gregorianCutoverYear = d.getYear();

    BaseCalendar julianCal = getJulianCalendarSystem();
    d = (BaseCalendar.Date) julianCal.newCalendarDate(TimeZone.NO_TIMEZONE);
    julianCal.getCalendarDateFromFixedDate(d, gregorianCutoverDate - 1);
    gregorianCutoverYearJulian = d.getNormalizedYear();

    if (time < gregorianCutover) {
        // The field values are no longer valid under the new
        // cutover date.
        setUnnormalized();
    }
}