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package sun.util.calendar;
import java.lang.Cloneable;
import java.util.Locale;
import java.util.TimeZone;
/**
* The <code>CalendarDate</code> class represents a specific instant
* in time by calendar date and time fields that are multiple cycles
* in different time unites. The semantics of each calendar field is
* given by a concrete calendar system rather than this
* <code>CalendarDate</code> class that holds calendar field values
* without interpreting them. Therefore, this class can be used to
* represent an amount of time, such as 2 years and 3 months.
*
* <p>A <code>CalendarDate</code> instance can be created by calling
* the <code>newCalendarDate</code> or <code>getCalendarDate</code>
* methods in <code>CalendarSystem</code>. A
* <code>CalendarSystem</code> instance is obtained by calling one of
* the factory methods in <code>CalendarSystem</code>. Manipulations
* of calendar dates must be handled by the calendar system by which
* <code>CalendarDate</code> instances have been created.
*
* <p>Some calendar fields can be modified through method calls. Any
* modification of a calendar field brings the state of a
* <code>CalendarDate</code> to <I>not normalized</I>. The
* normalization must be performed to make all the calendar fields
* consistent with a calendar system.
*
* <p>The <code>protected</code> methods are intended to be used for
* implementing a concrete calendar system, not for general use as an
* API.
*
* @see CalendarSystem
* @author Masayoshi Okutsu
* @since 1.5
*/
public abstract class CalendarDate implements Cloneable {
public static final int FIELD_UNDEFINED = Integer.MIN_VALUE;
public static final long TIME_UNDEFINED = Long.MIN_VALUE;
private Era era;
private int year;
private int month;
private int dayOfMonth;
private int dayOfWeek = FIELD_UNDEFINED;
private boolean leapYear;
private int hours;
private int minutes;
private int seconds;
private int millis; // fractional part of the second
private long fraction; // time of day value in millisecond
private boolean normalized;
private TimeZone zoneinfo;
private int zoneOffset;
private int daylightSaving;
private boolean forceStandardTime;
private Locale locale;
protected CalendarDate() {
this(TimeZone.getDefault());
}
protected CalendarDate(TimeZone zone) {
zoneinfo = zone;
}
public Era getEra() {
return era;
}
/**
* Sets the era of the date to the specified era. The default
* implementation of this method accepts any Era value, including
* <code>null</code>.
*
* @exception NullPointerException if the calendar system for this
* <code>CalendarDate</code> requires eras and the specified era
* is null.
* @exception IllegalArgumentException if the specified
* <code>era</code> is unknown to the calendar
* system for this <code>CalendarDate</code>.
*/
public CalendarDate setEra(Era era) {
if (this.era == era) {
return this;
}
this.era = era;
normalized = false;
return this;
}
public int getYear() {
return year;
}
public CalendarDate setYear(int year) {
if (this.year != year) {
this.year = year;
normalized = false;
}
return this;
}
public CalendarDate addYear(int n) {
if (n != 0) {
year += n;
normalized = false;
}
return this;
}
/**
* Returns whether the year represented by this
* <code>CalendarDate</code> is a leap year. If leap years are
* not applicable to the calendar system, this method always
* returns <code>false</code>.
*
* <p>If this <code>CalendarDate</code> hasn't been normalized,
* <code>false</code> is returned. The normalization must be
* performed to retrieve the correct leap year information.
*
* @return <code>true</code> if this <code>CalendarDate</code> is
* normalized and the year of this <code>CalendarDate</code> is a
* leap year, or <code>false</code> otherwise.
* @see BaseCalendar#isGregorianLeapYear
*/
public boolean isLeapYear() {
return leapYear;
}
void setLeapYear(boolean leapYear) {
this.leapYear = leapYear;
}
public int getMonth() {
return month;
}
public CalendarDate setMonth(int month) {
if (this.month != month) {
this.month = month;
normalized = false;
}
return this;
}
public CalendarDate addMonth(int n) {
if (n != 0) {
month += n;
normalized = false;
}
return this;
}
public int getDayOfMonth() {
return dayOfMonth;
}
public CalendarDate setDayOfMonth(int date) {
if (dayOfMonth != date) {
dayOfMonth = date;
normalized = false;
}
return this;
}
public CalendarDate addDayOfMonth(int n) {
if (n != 0) {
dayOfMonth += n;
normalized = false;
}
return this;
}
/**
* Returns the day of week value. If this CalendarDate is not
* normalized, {@link #FIELD_UNDEFINED} is returned.
*
* @return day of week or {@link #FIELD_UNDEFINED}
*/
public int getDayOfWeek() {
if (!isNormalized()) {
dayOfWeek = FIELD_UNDEFINED;
}
return dayOfWeek;
}
public int getHours() {
return hours;
}
public CalendarDate setHours(int hours) {
if (this.hours != hours) {
this.hours = hours;
normalized = false;
}
return this;
}
public CalendarDate addHours(int n) {
if (n != 0) {
hours += n;
normalized = false;
}
return this;
}
public int getMinutes() {
return minutes;
}
public CalendarDate setMinutes(int minutes) {
if (this.minutes != minutes) {
this.minutes = minutes;
normalized = false;
}
return this;
}
public CalendarDate addMinutes(int n) {
if (n != 0) {
minutes += n;
normalized = false;
}
return this;
}
public int getSeconds() {
return seconds;
}
public CalendarDate setSeconds(int seconds) {
if (this.seconds != seconds) {
this.seconds = seconds;
normalized = false;
}
return this;
}
public CalendarDate addSeconds(int n) {
if (n != 0) {
seconds += n;
normalized = false;
}
return this;
}
public int getMillis() {
return millis;
}
public CalendarDate setMillis(int millis) {
if (this.millis != millis) {
this.millis = millis;
normalized = false;
}
return this;
}
public CalendarDate addMillis(int n) {
if (n != 0) {
millis += n;
normalized = false;
}
return this;
}
public long getTimeOfDay() {
if (!isNormalized()) {
return fraction = TIME_UNDEFINED;
}
return fraction;
}
public CalendarDate setDate(int year, int month, int dayOfMonth) {
setYear(year);
setMonth(month);
setDayOfMonth(dayOfMonth);
return this;
}
public CalendarDate addDate(int year, int month, int dayOfMonth) {
addYear(year);
addMonth(month);
addDayOfMonth(dayOfMonth);
return this;
}
public CalendarDate setTimeOfDay(int hours, int minutes, int seconds, int millis) {
setHours(hours);
setMinutes(minutes);
setSeconds(seconds);
setMillis(millis);
return this;
}
public CalendarDate addTimeOfDay(int hours, int minutes, int seconds, int millis) {
addHours(hours);
addMinutes(minutes);
addSeconds(seconds);
addMillis(millis);
return this;
}
protected void setTimeOfDay(long fraction) {
this.fraction = fraction;
}
public boolean isNormalized() {
return normalized;
}
public boolean isStandardTime() {
return forceStandardTime;
}
public void setStandardTime(boolean standardTime) {
forceStandardTime = standardTime;
}
public boolean isDaylightTime() {
if (isStandardTime()) {
return false;
}
return daylightSaving != 0;
}
protected void setLocale(Locale loc) {
locale = loc;
}
public TimeZone getZone() {
return zoneinfo;
}
public CalendarDate setZone(TimeZone zoneinfo) {
this.zoneinfo = zoneinfo;
return this;
}
/**
* Returns whether the specified date is the same date of this
* <code>CalendarDate</code>. The time of the day fields are
* ignored for the comparison.
*/
public boolean isSameDate(CalendarDate date) {
return getDayOfWeek() == date.getDayOfWeek()
&& getMonth() == date.getMonth()
&& getYear() == date.getYear()
&& getEra() == date.getEra();
}
public boolean equals(Object obj) {
if (!(obj instanceof CalendarDate)) {
return false;
}
CalendarDate that = (CalendarDate) obj;
if (isNormalized() != that.isNormalized()) {
return false;
}
boolean hasZone = zoneinfo != null;
boolean thatHasZone = that.zoneinfo != null;
if (hasZone != thatHasZone) {
return false;
}
if (hasZone && !zoneinfo.equals(that.zoneinfo)) {
return false;
}
return (getEra() == that.getEra()
&& year == that.year
&& month == that.month
&& dayOfMonth == that.dayOfMonth
&& hours == that.hours
&& minutes == that.minutes
&& seconds == that.seconds
&& millis == that.millis
&& zoneOffset == that.zoneOffset);
}
public int hashCode() {
// a pseudo (local standard) time stamp value in milliseconds
// from the Epoch, assuming Gregorian calendar fields.
long hash = ((((((long)year - 1970) * 12) + (month - 1)) * 30) + dayOfMonth) * 24;
hash = ((((((hash + hours) * 60) + minutes) * 60) + seconds) * 1000) + millis;
hash -= zoneOffset;
int normalized = isNormalized() ? 1 : 0;
int era = 0;
Era e = getEra();
if (e != null) {
era = e.hashCode();
}
int zone = zoneinfo != null ? zoneinfo.hashCode() : 0;
return (int) hash * (int)(hash >> 32) ^ era ^ normalized ^ zone;
}
/**
* Returns a copy of this <code>CalendarDate</code>. The
* <code>TimeZone</code> object, if any, is not cloned.
*
* @return a copy of this <code>CalendarDate</code>
*/
public Object clone() {
try {
return super.clone();
} catch (CloneNotSupportedException e) {
// this shouldn't happen
throw new InternalError(e);
}
}
/**
* Converts calendar date values to a <code>String</code> in the
* following format.
* <pre>
* yyyy-MM-dd'T'HH:mm:ss.SSSz
* </pre>
*
* @see java.text.SimpleDateFormat
*/
public String toString() {
StringBuilder sb = new StringBuilder();
CalendarUtils.sprintf0d(sb, year, 4).append('-');
CalendarUtils.sprintf0d(sb, month, 2).append('-');
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