/*
 * Copyright (c) 1996, 2018, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
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 * particular file as subject to the "Classpath" exception as provided
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 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
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/*
 * (C) Copyright Taligent, Inc. 1996 - All Rights Reserved
 * (C) Copyright IBM Corp. 1996 - All Rights Reserved
 *
 *   The original version of this source code and documentation is copyrighted
 * and owned by Taligent, Inc., a wholly-owned subsidiary of IBM. These
 * materials are provided under terms of a License Agreement between Taligent
 * and Sun. This technology is protected by multiple US and International
 * patents. This notice and attribution to Taligent may not be removed.
 *   Taligent is a registered trademark of Taligent, Inc.
 *
 */

package java.text;

import java.io.IOException;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.lang.ref.SoftReference;
import java.text.spi.DateFormatSymbolsProvider;
import java.util.Arrays;
import java.util.Locale;
import java.util.Objects;
import java.util.ResourceBundle;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import sun.util.locale.provider.CalendarDataUtility;
import sun.util.locale.provider.LocaleProviderAdapter;
import sun.util.locale.provider.LocaleServiceProviderPool;
import sun.util.locale.provider.ResourceBundleBasedAdapter;
import sun.util.locale.provider.TimeZoneNameUtility;

DateFormatSymbols is a public class for encapsulating
localizable date-time formatting data, such as the names of the
months, the names of the days of the week, and the time zone data.
SimpleDateFormat uses
DateFormatSymbols to encapsulate this information.

Typically you shouldn't use DateFormatSymbols directly.
Rather, you are encouraged to create a date-time formatter with the
DateFormat class's factory methods: getTimeInstance,
getDateInstance, or getDateTimeInstance.
These methods automatically create a DateFormatSymbols for
the formatter so that you don't have to. After the
formatter is created, you may modify its format pattern using the
setPattern method. For more information about
creating formatters using DateFormat's factory methods, see DateFormat. 

If you decide to create a date-time formatter with a specific
format pattern for a specific locale, you can do so with:

new SimpleDateFormat(aPattern, DateFormatSymbols.getInstance(aLocale)).


If the locale contains "rg" (region override)
Unicode extension,
the symbols are overridden for the designated region.

DateFormatSymbols objects are cloneable. When you obtain
a DateFormatSymbols object, feel free to modify the
date-time formatting data. For instance, you can replace the localized
date-time format pattern characters with the ones that you feel easy
to remember. Or you can change the representative cities
to your favorite ones.

New DateFormatSymbols subclasses may be added to support
SimpleDateFormat for date-time formatting for additional locales.
Author:
      Chen-Lieh Huang
See Also:
DateFormat
SimpleDateFormat
SimpleTimeZone
Since:
1.1/**
 * <code>DateFormatSymbols</code> is a public class for encapsulating
 * localizable date-time formatting data, such as the names of the
 * months, the names of the days of the week, and the time zone data.
 * <code>SimpleDateFormat</code> uses
 * <code>DateFormatSymbols</code> to encapsulate this information.
 *
 * <p>
 * Typically you shouldn't use <code>DateFormatSymbols</code> directly.
 * Rather, you are encouraged to create a date-time formatter with the
 * <code>DateFormat</code> class's factory methods: <code>getTimeInstance</code>,
 * <code>getDateInstance</code>, or <code>getDateTimeInstance</code>.
 * These methods automatically create a <code>DateFormatSymbols</code> for
 * the formatter so that you don't have to. After the
 * formatter is created, you may modify its format pattern using the
 * <code>setPattern</code> method. For more information about
 * creating formatters using <code>DateFormat</code>'s factory methods,
 * see {@link DateFormat}.
 *
 * <p>
 * If you decide to create a date-time formatter with a specific
 * format pattern for a specific locale, you can do so with:
 * <blockquote>
 * <pre>
 * new SimpleDateFormat(aPattern, DateFormatSymbols.getInstance(aLocale)).
 * </pre>
 * </blockquote>
 *
 * <p>If the locale contains "rg" (region override)
 * <a href="../util/Locale.html#def_locale_extension">Unicode extension</a>,
 * the symbols are overridden for the designated region.
 *
 * <p>
 * <code>DateFormatSymbols</code> objects are cloneable. When you obtain
 * a <code>DateFormatSymbols</code> object, feel free to modify the
 * date-time formatting data. For instance, you can replace the localized
 * date-time format pattern characters with the ones that you feel easy
 * to remember. Or you can change the representative cities
 * to your favorite ones.
 *
 * <p>
 * New <code>DateFormatSymbols</code> subclasses may be added to support
 * <code>SimpleDateFormat</code> for date-time formatting for additional locales.

 * @see          DateFormat
 * @see          SimpleDateFormat
 * @see          java.util.SimpleTimeZone
 * @author       Chen-Lieh Huang
 * @since 1.1
 */
public class DateFormatSymbols implements Serializable, Cloneable {

    
Construct a DateFormatSymbols object by loading format data from resources for the default FORMAT locale. This constructor can only construct instances for the locales supported by the Java runtime environment, not for those supported by installed DateFormatSymbolsProvider implementations. For full locale coverage, use the getInstance method. 
This is equivalent to calling 
    DateFormatSymbols(Locale.getDefault(Locale.Category.FORMAT)). 
Throws:
MissingResourceException – 
            if the resources for the default locale cannot be
            found or cannot be loaded.
See Also:
getInstance()
Locale.getDefault(Category)
Category.FORMAT/**
     * Construct a DateFormatSymbols object by loading format data from
     * resources for the default {@link java.util.Locale.Category#FORMAT FORMAT}
     * locale. This constructor can only
     * construct instances for the locales supported by the Java
     * runtime environment, not for those supported by installed
     * {@link java.text.spi.DateFormatSymbolsProvider DateFormatSymbolsProvider}
     * implementations. For full locale coverage, use the
     * {@link #getInstance(Locale) getInstance} method.
     * <p>This is equivalent to calling
     * {@link #DateFormatSymbols(Locale)
     *     DateFormatSymbols(Locale.getDefault(Locale.Category.FORMAT))}.
     * @see #getInstance()
     * @see java.util.Locale#getDefault(java.util.Locale.Category)
     * @see java.util.Locale.Category#FORMAT
     * @exception  java.util.MissingResourceException
     *             if the resources for the default locale cannot be
     *             found or cannot be loaded.
     */
    public DateFormatSymbols()
    {
        initializeData(Locale.getDefault(Locale.Category.FORMAT));
    }

    
Construct a DateFormatSymbols object by loading format data from resources for the given locale. This constructor can only construct instances for the locales supported by the Java runtime environment, not for those supported by installed DateFormatSymbolsProvider implementations. For full locale coverage, use the getInstance method. 
Params:
locale – the desired locale
Throws:
MissingResourceException – 
            if the resources for the specified locale cannot be
            found or cannot be loaded.
See Also:
getInstance(Locale)/**
     * Construct a DateFormatSymbols object by loading format data from
     * resources for the given locale. This constructor can only
     * construct instances for the locales supported by the Java
     * runtime environment, not for those supported by installed
     * {@link java.text.spi.DateFormatSymbolsProvider DateFormatSymbolsProvider}
     * implementations. For full locale coverage, use the
     * {@link #getInstance(Locale) getInstance} method.
     *
     * @param locale the desired locale
     * @see #getInstance(Locale)
     * @exception  java.util.MissingResourceException
     *             if the resources for the specified locale cannot be
     *             found or cannot be loaded.
     */
    public DateFormatSymbols(Locale locale)
    {
        initializeData(locale);
    }

    
Constructs an uninitialized DateFormatSymbols.
/**
     * Constructs an uninitialized DateFormatSymbols.
     */
    private DateFormatSymbols(boolean flag) {
    }

    
Era strings. For example: "AD" and "BC".  An array of 2 strings,
indexed by Calendar.BC and Calendar.AD.
@serial
/**
     * Era strings. For example: "AD" and "BC".  An array of 2 strings,
     * indexed by <code>Calendar.BC</code> and <code>Calendar.AD</code>.
     * @serial
     */
    String eras[] = null;

    
Month strings. For example: "January", "February", etc.  An array
of 13 strings (some calendars have 13 months), indexed by
Calendar.JANUARY, Calendar.FEBRUARY, etc.
@serial
/**
     * Month strings. For example: "January", "February", etc.  An array
     * of 13 strings (some calendars have 13 months), indexed by
     * <code>Calendar.JANUARY</code>, <code>Calendar.FEBRUARY</code>, etc.
     * @serial
     */
    String months[] = null;

    
Short month strings. For example: "Jan", "Feb", etc.  An array of
13 strings (some calendars have 13 months), indexed by
Calendar.JANUARY, Calendar.FEBRUARY, etc.
@serial
/**
     * Short month strings. For example: "Jan", "Feb", etc.  An array of
     * 13 strings (some calendars have 13 months), indexed by
     * <code>Calendar.JANUARY</code>, <code>Calendar.FEBRUARY</code>, etc.

     * @serial
     */
    String shortMonths[] = null;

    
Weekday strings. For example: "Sunday", "Monday", etc.  An array
of 8 strings, indexed by Calendar.SUNDAY,
Calendar.MONDAY, etc.
The element weekdays[0] is ignored.
@serial
/**
     * Weekday strings. For example: "Sunday", "Monday", etc.  An array
     * of 8 strings, indexed by <code>Calendar.SUNDAY</code>,
     * <code>Calendar.MONDAY</code>, etc.
     * The element <code>weekdays[0]</code> is ignored.
     * @serial
     */
    String weekdays[] = null;

    
Short weekday strings. For example: "Sun", "Mon", etc.  An array
of 8 strings, indexed by Calendar.SUNDAY,
Calendar.MONDAY, etc.
The element shortWeekdays[0] is ignored.
@serial
/**
     * Short weekday strings. For example: "Sun", "Mon", etc.  An array
     * of 8 strings, indexed by <code>Calendar.SUNDAY</code>,
     * <code>Calendar.MONDAY</code>, etc.
     * The element <code>shortWeekdays[0]</code> is ignored.
     * @serial
     */
    String shortWeekdays[] = null;

    
AM and PM strings. For example: "AM" and "PM".  An array of
2 strings, indexed by Calendar.AM and
Calendar.PM.
@serial
/**
     * AM and PM strings. For example: "AM" and "PM".  An array of
     * 2 strings, indexed by <code>Calendar.AM</code> and
     * <code>Calendar.PM</code>.
     * @serial
     */
    String ampms[] = null;

    
Localized names of time zones in this locale.  This is a
two-dimensional array of strings of size n by m,
where m is at least 5.  Each of the n rows is an
entry containing the localized names for a single TimeZone.
Each such row contains (with i ranging from
0..n-1):

zoneStrings[i][0] - time zone ID
zoneStrings[i][1] - long name of zone in standard
time
zoneStrings[i][2] - short name of zone in
standard time
zoneStrings[i][3] - long name of zone in daylight
saving time
zoneStrings[i][4] - short name of zone in daylight
saving time

The zone ID is not localized; it's one of the valid IDs of the TimeZone class that are not custom IDs.
All other entries are localized names.
See Also:
TimeZone
@serial
/**
     * Localized names of time zones in this locale.  This is a
     * two-dimensional array of strings of size <em>n</em> by <em>m</em>,
     * where <em>m</em> is at least 5.  Each of the <em>n</em> rows is an
     * entry containing the localized names for a single <code>TimeZone</code>.
     * Each such row contains (with <code>i</code> ranging from
     * 0..<em>n</em>-1):
     * <ul>
     * <li><code>zoneStrings[i][0]</code> - time zone ID</li>
     * <li><code>zoneStrings[i][1]</code> - long name of zone in standard
     * time</li>
     * <li><code>zoneStrings[i][2]</code> - short name of zone in
     * standard time</li>
     * <li><code>zoneStrings[i][3]</code> - long name of zone in daylight
     * saving time</li>
     * <li><code>zoneStrings[i][4]</code> - short name of zone in daylight
     * saving time</li>
     * </ul>
     * The zone ID is <em>not</em> localized; it's one of the valid IDs of
     * the {@link java.util.TimeZone TimeZone} class that are not
     * <a href="../util/TimeZone.html#CustomID">custom IDs</a>.
     * All other entries are localized names.
     * @see java.util.TimeZone
     * @serial
     */
    String zoneStrings[][] = null;

    
Indicates that zoneStrings is set externally with setZoneStrings() method.
/**
     * Indicates that zoneStrings is set externally with setZoneStrings() method.
     */
    transient boolean isZoneStringsSet = false;

    
Unlocalized date-time pattern characters. For example: 'y', 'd', etc.
All locales use the same these unlocalized pattern characters.
/**
     * Unlocalized date-time pattern characters. For example: 'y', 'd', etc.
     * All locales use the same these unlocalized pattern characters.
     */
    static final String  patternChars = "GyMdkHmsSEDFwWahKzZYuXL";

    static final int PATTERN_ERA                  =  0; // G
    static final int PATTERN_YEAR                 =  1; // y
    static final int PATTERN_MONTH                =  2; // M
    static final int PATTERN_DAY_OF_MONTH         =  3; // d
    static final int PATTERN_HOUR_OF_DAY1         =  4; // k
    static final int PATTERN_HOUR_OF_DAY0         =  5; // H
    static final int PATTERN_MINUTE               =  6; // m
    static final int PATTERN_SECOND               =  7; // s
    static final int PATTERN_MILLISECOND          =  8; // S
    static final int PATTERN_DAY_OF_WEEK          =  9; // E
    static final int PATTERN_DAY_OF_YEAR          = 10; // D
    static final int PATTERN_DAY_OF_WEEK_IN_MONTH = 11; // F
    static final int PATTERN_WEEK_OF_YEAR         = 12; // w
    static final int PATTERN_WEEK_OF_MONTH        = 13; // W
    static final int PATTERN_AM_PM                = 14; // a
    static final int PATTERN_HOUR1                = 15; // h
    static final int PATTERN_HOUR0                = 16; // K
    static final int PATTERN_ZONE_NAME            = 17; // z
    static final int PATTERN_ZONE_VALUE           = 18; // Z
    static final int PATTERN_WEEK_YEAR            = 19; // Y
    static final int PATTERN_ISO_DAY_OF_WEEK      = 20; // u
    static final int PATTERN_ISO_ZONE             = 21; // X
    static final int PATTERN_MONTH_STANDALONE     = 22; // L

    
Localized date-time pattern characters. For example, a locale may
wish to use 'u' rather than 'y' to represent years in its date format
pattern strings.
This string must be exactly 18 characters long, with the index of
the characters described by DateFormat.ERA_FIELD,
DateFormat.YEAR_FIELD, etc.  Thus, if the string were
"Xz...", then localized patterns would use 'X' for era and 'z' for year.
@serial
/**
     * Localized date-time pattern characters. For example, a locale may
     * wish to use 'u' rather than 'y' to represent years in its date format
     * pattern strings.
     * This string must be exactly 18 characters long, with the index of
     * the characters described by <code>DateFormat.ERA_FIELD</code>,
     * <code>DateFormat.YEAR_FIELD</code>, etc.  Thus, if the string were
     * "Xz...", then localized patterns would use 'X' for era and 'z' for year.
     * @serial
     */
    String  localPatternChars = null;

    
The locale which is used for initializing this DateFormatSymbols object.
Since:
1.6
@serial
/**
     * The locale which is used for initializing this DateFormatSymbols object.
     *
     * @since 1.6
     * @serial
     */
    Locale locale = null;

    /* use serialVersionUID from JDK 1.1.4 for interoperability */
    static final long serialVersionUID = -5987973545549424702L;

    
Returns an array of all locales for which the
getInstance methods of this class can return localized instances. The returned array represents the union of locales supported by the Java runtime and by installed DateFormatSymbolsProvider implementations. It must contain at least a Locale instance equal to Locale.US. 
Returns:
An array of locales for which localized
        DateFormatSymbols instances are available.
Since:
1.6/**
     * Returns an array of all locales for which the
     * <code>getInstance</code> methods of this class can return
     * localized instances.
     * The returned array represents the union of locales supported by the
     * Java runtime and by installed
     * {@link java.text.spi.DateFormatSymbolsProvider DateFormatSymbolsProvider}
     * implementations.  It must contain at least a <code>Locale</code>
     * instance equal to {@link java.util.Locale#US Locale.US}.
     *
     * @return An array of locales for which localized
     *         <code>DateFormatSymbols</code> instances are available.
     * @since 1.6
     */
    public static Locale[] getAvailableLocales() {
        LocaleServiceProviderPool pool=
            LocaleServiceProviderPool.getPool(DateFormatSymbolsProvider.class);
        return pool.getAvailableLocales();
    }

    
Gets the DateFormatSymbols instance for the default
locale.  This method provides access to DateFormatSymbols instances for locales supported by the Java runtime itself as well as for those supported by installed DateFormatSymbolsProvider implementations. 
This is equivalent to calling 
    getInstance(Locale.getDefault(Locale.Category.FORMAT)). 
See Also:
Locale.getDefault(Category)
Category.FORMAT
Returns:
a DateFormatSymbols instance.
Since:
1.6/**
     * Gets the <code>DateFormatSymbols</code> instance for the default
     * locale.  This method provides access to <code>DateFormatSymbols</code>
     * instances for locales supported by the Java runtime itself as well
     * as for those supported by installed
     * {@link java.text.spi.DateFormatSymbolsProvider DateFormatSymbolsProvider}
     * implementations.
     * <p>This is equivalent to calling {@link #getInstance(Locale)
     *     getInstance(Locale.getDefault(Locale.Category.FORMAT))}.
     * @see java.util.Locale#getDefault(java.util.Locale.Category)
     * @see java.util.Locale.Category#FORMAT
     * @return a <code>DateFormatSymbols</code> instance.
     * @since 1.6
     */
    public static final DateFormatSymbols getInstance() {
        return getInstance(Locale.getDefault(Locale.Category.FORMAT));
    }

    
Gets the DateFormatSymbols instance for the specified
locale.  This method provides access to DateFormatSymbols instances for locales supported by the Java runtime itself as well as for those supported by installed DateFormatSymbolsProvider implementations. 
Params:
locale – the given locale.
Throws:
NullPointerException – if locale is null
Returns:
a DateFormatSymbols instance.
Since:
1.6/**
     * Gets the <code>DateFormatSymbols</code> instance for the specified
     * locale.  This method provides access to <code>DateFormatSymbols</code>
     * instances for locales supported by the Java runtime itself as well
     * as for those supported by installed
     * {@link java.text.spi.DateFormatSymbolsProvider DateFormatSymbolsProvider}
     * implementations.
     * @param locale the given locale.
     * @return a <code>DateFormatSymbols</code> instance.
     * @exception NullPointerException if <code>locale</code> is null
     * @since 1.6
     */
    public static final DateFormatSymbols getInstance(Locale locale) {
        DateFormatSymbols dfs = getProviderInstance(locale);
        if (dfs != null) {
            return dfs;
        }
        throw new RuntimeException("DateFormatSymbols instance creation failed.");
    }

    
Returns a DateFormatSymbols provided by a provider or found in
the cache. Note that this method returns a cached instance,
not its clone. Therefore, the instance should never be given to
an application.
/**
     * Returns a DateFormatSymbols provided by a provider or found in
     * the cache. Note that this method returns a cached instance,
     * not its clone. Therefore, the instance should never be given to
     * an application.
     */
    static final DateFormatSymbols getInstanceRef(Locale locale) {
        DateFormatSymbols dfs = getProviderInstance(locale);
        if (dfs != null) {
            return dfs;
        }
        throw new RuntimeException("DateFormatSymbols instance creation failed.");
    }

    private static DateFormatSymbols getProviderInstance(Locale locale) {
        LocaleProviderAdapter adapter = LocaleProviderAdapter.getAdapter(DateFormatSymbolsProvider.class, locale);
        DateFormatSymbolsProvider provider = adapter.getDateFormatSymbolsProvider();
        DateFormatSymbols dfsyms = provider.getInstance(locale);
        if (dfsyms == null) {
            provider = LocaleProviderAdapter.forJRE().getDateFormatSymbolsProvider();
            dfsyms = provider.getInstance(locale);
        }
        return dfsyms;
    }

    
Gets era strings. For example: "AD" and "BC".
Returns:
the era strings./**
     * Gets era strings. For example: "AD" and "BC".
     * @return the era strings.
     */
    public String[] getEras() {
        return Arrays.copyOf(eras, eras.length);
    }

    
Sets era strings. For example: "AD" and "BC".
Params:
newEras – the new era strings./**
     * Sets era strings. For example: "AD" and "BC".
     * @param newEras the new era strings.
     */
    public void setEras(String[] newEras) {
        eras = Arrays.copyOf(newEras, newEras.length);
        cachedHashCode = 0;
    }

    
Gets month strings. For example: "January", "February", etc. An array with either 12 or 13 elements will be returned depending on whether or not Calendar.UNDECIMBER is supported. Use Calendar.JANUARY, Calendar.FEBRUARY, etc. to index the result array. 
If the language requires different forms for formatting and
stand-alone usages, this method returns month names in the
formatting form. For example, the preferred month name for
January in the Czech language is ledna in the
formatting form, while it is leden in the stand-alone form. This method returns "ledna" in this case. Refer to the 
Calendar Elements in the Unicode Locale Data Markup Language
(LDML) specification for more details.
Implementation Requirements:
This method returns 13 elements since Calendar.UNDECIMBER is supported.
Returns:
the month strings./**
     * Gets month strings. For example: "January", "February", etc.
     * An array with either 12 or 13 elements will be returned depending
     * on whether or not {@link java.util.Calendar#UNDECIMBER Calendar.UNDECIMBER}
     * is supported. Use
     * {@link java.util.Calendar#JANUARY Calendar.JANUARY},
     * {@link java.util.Calendar#FEBRUARY Calendar.FEBRUARY},
     * etc. to index the result array.
     *
     * <p>If the language requires different forms for formatting and
     * stand-alone usages, this method returns month names in the
     * formatting form. For example, the preferred month name for
     * January in the Czech language is <em>ledna</em> in the
     * formatting form, while it is <em>leden</em> in the stand-alone
     * form. This method returns {@code "ledna"} in this case. Refer
     * to the <a href="http://unicode.org/reports/tr35/#Calendar_Elements">
     * Calendar Elements in the Unicode Locale Data Markup Language
     * (LDML) specification</a> for more details.
     *
     * @implSpec This method returns 13 elements since
     * {@link java.util.Calendar#UNDECIMBER Calendar.UNDECIMBER} is supported.
     * @return the month strings.
     */
    public String[] getMonths() {
        return Arrays.copyOf(months, months.length);
    }

    
Sets month strings. For example: "January", "February", etc.
Params:
newMonths – the new month strings. The array should be indexed by Calendar.JANUARY, Calendar.FEBRUARY, etc./**
     * Sets month strings. For example: "January", "February", etc.
     * @param newMonths the new month strings. The array should
     * be indexed by {@link java.util.Calendar#JANUARY Calendar.JANUARY},
     * {@link java.util.Calendar#FEBRUARY Calendar.FEBRUARY}, etc.
     */
    public void setMonths(String[] newMonths) {
        months = Arrays.copyOf(newMonths, newMonths.length);
        cachedHashCode = 0;
    }

    
Gets short month strings. For example: "Jan", "Feb", etc. An array with either 12 or 13 elements will be returned depending on whether or not Calendar.UNDECIMBER is supported. Use Calendar.JANUARY, Calendar.FEBRUARY, etc. to index the result array. 
If the language requires different forms for formatting and
stand-alone usages, this method returns short month names in
the formatting form. For example, the preferred abbreviation
for January in the Catalan language is de gen. in the
formatting form, while it is gen. in the stand-alone form. This method returns "de gen." in this case. Refer to the 
Calendar Elements in the Unicode Locale Data Markup Language
(LDML) specification for more details.
Implementation Requirements:
This method returns 13 elements since Calendar.UNDECIMBER is supported.
Returns:
the short month strings./**
     * Gets short month strings. For example: "Jan", "Feb", etc.
     * An array with either 12 or 13 elements will be returned depending
     * on whether or not {@link java.util.Calendar#UNDECIMBER Calendar.UNDECIMBER}
     * is supported. Use
     * {@link java.util.Calendar#JANUARY Calendar.JANUARY},
     * {@link java.util.Calendar#FEBRUARY Calendar.FEBRUARY},
     * etc. to index the result array.
     *
     * <p>If the language requires different forms for formatting and
     * stand-alone usages, this method returns short month names in
     * the formatting form. For example, the preferred abbreviation
     * for January in the Catalan language is <em>de gen.</em> in the
     * formatting form, while it is <em>gen.</em> in the stand-alone
     * form. This method returns {@code "de gen."} in this case. Refer
     * to the <a href="http://unicode.org/reports/tr35/#Calendar_Elements">
     * Calendar Elements in the Unicode Locale Data Markup Language
     * (LDML) specification</a> for more details.
     *
     * @implSpec This method returns 13 elements since
     * {@link java.util.Calendar#UNDECIMBER Calendar.UNDECIMBER} is supported.
     * @return the short month strings.
     */
    public String[] getShortMonths() {
        return Arrays.copyOf(shortMonths, shortMonths.length);
    }

    
Sets short month strings. For example: "Jan", "Feb", etc.
Params:
newShortMonths – the new short month strings. The array should be indexed by Calendar.JANUARY, Calendar.FEBRUARY, etc./**
     * Sets short month strings. For example: "Jan", "Feb", etc.
     * @param newShortMonths the new short month strings. The array should
     * be indexed by {@link java.util.Calendar#JANUARY Calendar.JANUARY},
     * {@link java.util.Calendar#FEBRUARY Calendar.FEBRUARY}, etc.
     */
    public void setShortMonths(String[] newShortMonths) {
        shortMonths = Arrays.copyOf(newShortMonths, newShortMonths.length);
        cachedHashCode = 0;
    }

    
Gets weekday strings. For example: "Sunday", "Monday", etc.
Returns:
the weekday strings. Use Calendar.SUNDAY, Calendar.MONDAY, etc. to index the result array./**
     * Gets weekday strings. For example: "Sunday", "Monday", etc.
     * @return the weekday strings. Use
     * {@link java.util.Calendar#SUNDAY Calendar.SUNDAY},
     * {@link java.util.Calendar#MONDAY Calendar.MONDAY}, etc. to index
     * the result array.
     */
    public String[] getWeekdays() {
        return Arrays.copyOf(weekdays, weekdays.length);
    }

    
Sets weekday strings. For example: "Sunday", "Monday", etc.
Params:
newWeekdays – the new weekday strings. The array should be indexed by Calendar.SUNDAY, Calendar.MONDAY, etc./**
     * Sets weekday strings. For example: "Sunday", "Monday", etc.
     * @param newWeekdays the new weekday strings. The array should
     * be indexed by {@link java.util.Calendar#SUNDAY Calendar.SUNDAY},
     * {@link java.util.Calendar#MONDAY Calendar.MONDAY}, etc.
     */
    public void setWeekdays(String[] newWeekdays) {
        weekdays = Arrays.copyOf(newWeekdays, newWeekdays.length);
        cachedHashCode = 0;
    }

    
Gets short weekday strings. For example: "Sun", "Mon", etc.
Returns:
the short weekday strings. Use Calendar.SUNDAY, Calendar.MONDAY, etc. to index the result array./**
     * Gets short weekday strings. For example: "Sun", "Mon", etc.
     * @return the short weekday strings. Use
     * {@link java.util.Calendar#SUNDAY Calendar.SUNDAY},
     * {@link java.util.Calendar#MONDAY Calendar.MONDAY}, etc. to index
     * the result array.
     */
    public String[] getShortWeekdays() {
        return Arrays.copyOf(shortWeekdays, shortWeekdays.length);
    }

    
Sets short weekday strings. For example: "Sun", "Mon", etc.
Params:
newShortWeekdays – the new short weekday strings. The array should be indexed by Calendar.SUNDAY, Calendar.MONDAY, etc./**
     * Sets short weekday strings. For example: "Sun", "Mon", etc.
     * @param newShortWeekdays the new short weekday strings. The array should
     * be indexed by {@link java.util.Calendar#SUNDAY Calendar.SUNDAY},
     * {@link java.util.Calendar#MONDAY Calendar.MONDAY}, etc.
     */
    public void setShortWeekdays(String[] newShortWeekdays) {
        shortWeekdays = Arrays.copyOf(newShortWeekdays, newShortWeekdays.length);
        cachedHashCode = 0;
    }

    
Gets ampm strings. For example: "AM" and "PM".
Returns:
the ampm strings./**
     * Gets ampm strings. For example: "AM" and "PM".
     * @return the ampm strings.
     */
    public String[] getAmPmStrings() {
        return Arrays.copyOf(ampms, ampms.length);
    }

    
Sets ampm strings. For example: "AM" and "PM".
Params:
newAmpms – the new ampm strings./**
     * Sets ampm strings. For example: "AM" and "PM".
     * @param newAmpms the new ampm strings.
     */
    public void setAmPmStrings(String[] newAmpms) {
        ampms = Arrays.copyOf(newAmpms, newAmpms.length);
        cachedHashCode = 0;
    }

    
Gets time zone strings. Use of this method is discouraged; use TimeZone.getDisplayName() instead. 

The value returned is a
two-dimensional array of strings of size n by m,
where m is at least 5.  Each of the n rows is an
entry containing the localized names for a single TimeZone.
Each such row contains (with i ranging from
0..n-1):

zoneStrings[i][0] - time zone ID
zoneStrings[i][1] - long name of zone in standard
time
zoneStrings[i][2] - short name of zone in
standard time
zoneStrings[i][3] - long name of zone in daylight
saving time
zoneStrings[i][4] - short name of zone in daylight
saving time

The zone ID is not localized; it's one of the valid IDs of the TimeZone class that are not custom IDs.
All other entries are localized names.  If a zone does not implement
daylight saving time, the daylight saving time names should not be used.
 If setZoneStrings has been called on this DateFormatSymbols instance, then the strings provided by that call are returned. Otherwise, the returned array contains names provided by the Java runtime and by installed TimeZoneNameProvider implementations. 
See Also:
setZoneStrings(String[][])
Returns:
the time zone strings./**
     * Gets time zone strings.  Use of this method is discouraged; use
     * {@link java.util.TimeZone#getDisplayName() TimeZone.getDisplayName()}
     * instead.
     * <p>
     * The value returned is a
     * two-dimensional array of strings of size <em>n</em> by <em>m</em>,
     * where <em>m</em> is at least 5.  Each of the <em>n</em> rows is an
     * entry containing the localized names for a single <code>TimeZone</code>.
     * Each such row contains (with <code>i</code> ranging from
     * 0..<em>n</em>-1):
     * <ul>
     * <li><code>zoneStrings[i][0]</code> - time zone ID</li>
     * <li><code>zoneStrings[i][1]</code> - long name of zone in standard
     * time</li>
     * <li><code>zoneStrings[i][2]</code> - short name of zone in
     * standard time</li>
     * <li><code>zoneStrings[i][3]</code> - long name of zone in daylight
     * saving time</li>
     * <li><code>zoneStrings[i][4]</code> - short name of zone in daylight
     * saving time</li>
     * </ul>
     * The zone ID is <em>not</em> localized; it's one of the valid IDs of
     * the {@link java.util.TimeZone TimeZone} class that are not
     * <a href="../util/TimeZone.html#CustomID">custom IDs</a>.
     * All other entries are localized names.  If a zone does not implement
     * daylight saving time, the daylight saving time names should not be used.
     * <p>
     * If {@link #setZoneStrings(String[][]) setZoneStrings} has been called
     * on this <code>DateFormatSymbols</code> instance, then the strings
     * provided by that call are returned. Otherwise, the returned array
     * contains names provided by the Java runtime and by installed
     * {@link java.util.spi.TimeZoneNameProvider TimeZoneNameProvider}
     * implementations.
     *
     * @return the time zone strings.
     * @see #setZoneStrings(String[][])
     */
    public String[][] getZoneStrings() {
        return getZoneStringsImpl(true);
    }

    
Sets time zone strings.  The argument must be a
two-dimensional array of strings of size n by m,
where m is at least 5.  Each of the n rows is an
entry containing the localized names for a single TimeZone.
Each such row contains (with i ranging from
0..n-1):

zoneStrings[i][0] - time zone ID
zoneStrings[i][1] - long name of zone in standard
time
zoneStrings[i][2] - short name of zone in
standard time
zoneStrings[i][3] - long name of zone in daylight
saving time
zoneStrings[i][4] - short name of zone in daylight
saving time

The zone ID is not localized; it's one of the valid IDs of the TimeZone class that are not custom IDs.
All other entries are localized names.
Params:
newZoneStrings – the new time zone strings.
Throws:
IllegalArgumentException – if the length of any row in
   newZoneStrings is less than 5
NullPointerException – if newZoneStrings is null
See Also:
getZoneStrings()/**
     * Sets time zone strings.  The argument must be a
     * two-dimensional array of strings of size <em>n</em> by <em>m</em>,
     * where <em>m</em> is at least 5.  Each of the <em>n</em> rows is an
     * entry containing the localized names for a single <code>TimeZone</code>.
     * Each such row contains (with <code>i</code> ranging from
     * 0..<em>n</em>-1):
     * <ul>
     * <li><code>zoneStrings[i][0]</code> - time zone ID</li>
     * <li><code>zoneStrings[i][1]</code> - long name of zone in standard
     * time</li>
     * <li><code>zoneStrings[i][2]</code> - short name of zone in
     * standard time</li>
     * <li><code>zoneStrings[i][3]</code> - long name of zone in daylight
     * saving time</li>
     * <li><code>zoneStrings[i][4]</code> - short name of zone in daylight
     * saving time</li>
     * </ul>
     * The zone ID is <em>not</em> localized; it's one of the valid IDs of
     * the {@link java.util.TimeZone TimeZone} class that are not
     * <a href="../util/TimeZone.html#CustomID">custom IDs</a>.
     * All other entries are localized names.
     *
     * @param newZoneStrings the new time zone strings.
     * @exception IllegalArgumentException if the length of any row in
     *    <code>newZoneStrings</code> is less than 5
     * @exception NullPointerException if <code>newZoneStrings</code> is null
     * @see #getZoneStrings()
     */
    public void setZoneStrings(String[][] newZoneStrings) {
        String[][] aCopy = new String[newZoneStrings.length][];
        for (int i = 0; i < newZoneStrings.length; ++i) {
            int len = newZoneStrings[i].length;
            if (len < 5) {
                throw new IllegalArgumentException();
            }
            aCopy[i] = Arrays.copyOf(newZoneStrings[i], len);
        }
        zoneStrings = aCopy;
        isZoneStringsSet = true;
        cachedHashCode = 0;
    }

    
Gets localized date-time pattern characters. For example: 'u', 't', etc.
Returns:
the localized date-time pattern characters./**
     * Gets localized date-time pattern characters. For example: 'u', 't', etc.
     * @return the localized date-time pattern characters.
     */
    public String getLocalPatternChars() {
        return localPatternChars;
    }

    
Sets localized date-time pattern characters. For example: 'u', 't', etc.
Params:
newLocalPatternChars – the new localized date-time
pattern characters./**
     * Sets localized date-time pattern characters. For example: 'u', 't', etc.
     * @param newLocalPatternChars the new localized date-time
     * pattern characters.
     */
    public void setLocalPatternChars(String newLocalPatternChars) {
        // Call toString() to throw an NPE in case the argument is null
        localPatternChars = newLocalPatternChars.toString();
        cachedHashCode = 0;
    }

    
Overrides Cloneable
/**
     * Overrides Cloneable
     */
    public Object clone()
    {
        try
        {
            DateFormatSymbols other = (DateFormatSymbols)super.clone();
            copyMembers(this, other);
            return other;
        } catch (CloneNotSupportedException e) {
            throw new InternalError(e);
        }
    }

    
Override hashCode.
Generates a hash code for the DateFormatSymbols object.
/**
     * Override hashCode.
     * Generates a hash code for the DateFormatSymbols object.
     */
    @Override
    public int hashCode() {
        int hashCode = cachedHashCode;
        if (hashCode == 0) {
            hashCode = 5;
            hashCode = 11 * hashCode + Arrays.hashCode(eras);
            hashCode = 11 * hashCode + Arrays.hashCode(months);
            hashCode = 11 * hashCode + Arrays.hashCode(shortMonths);
            hashCode = 11 * hashCode + Arrays.hashCode(weekdays);
            hashCode = 11 * hashCode + Arrays.hashCode(shortWeekdays);
            hashCode = 11 * hashCode + Arrays.hashCode(ampms);
            hashCode = 11 * hashCode + Arrays.deepHashCode(getZoneStringsWrapper());
            hashCode = 11 * hashCode + Objects.hashCode(localPatternChars);
            if (hashCode != 0) {
                cachedHashCode = hashCode;
            }
        }

        return hashCode;
    }

    
Override equals
/**
     * Override equals
     */
    public boolean equals(Object obj)
    {
        if (this == obj) return true;
        if (obj == null || getClass() != obj.getClass()) return false;
        DateFormatSymbols that = (DateFormatSymbols) obj;
        return (Arrays.equals(eras, that.eras)
                && Arrays.equals(months, that.months)
                && Arrays.equals(shortMonths, that.shortMonths)
                && Arrays.equals(weekdays, that.weekdays)
                && Arrays.equals(shortWeekdays, that.shortWeekdays)
                && Arrays.equals(ampms, that.ampms)
                && Arrays.deepEquals(getZoneStringsWrapper(), that.getZoneStringsWrapper())
                && ((localPatternChars != null
                  && localPatternChars.equals(that.localPatternChars))
                 || (localPatternChars == null
                  && that.localPatternChars == null)));
    }

    // =======================privates===============================

    
Useful constant for defining time zone offsets.
/**
     * Useful constant for defining time zone offsets.
     */
    static final int millisPerHour = 60*60*1000;

    
Cache to hold DateFormatSymbols instances per Locale.
/**
     * Cache to hold DateFormatSymbols instances per Locale.
     */
    private static final ConcurrentMap<Locale, SoftReference<DateFormatSymbols>> cachedInstances
        = new ConcurrentHashMap<>(3);

    private transient int lastZoneIndex;

    
Cached hash code
/**
     * Cached hash code
     */
    transient volatile int cachedHashCode;

    
Initializes this DateFormatSymbols with the locale data. This method uses
a cached DateFormatSymbols instance for the given locale if available. If
there's no cached one, this method creates an uninitialized instance and
populates its fields from the resource bundle for the locale, and caches
the instance. Note: zoneStrings isn't initialized in this method.
/**
     * Initializes this DateFormatSymbols with the locale data. This method uses
     * a cached DateFormatSymbols instance for the given locale if available. If
     * there's no cached one, this method creates an uninitialized instance and
     * populates its fields from the resource bundle for the locale, and caches
     * the instance. Note: zoneStrings isn't initialized in this method.
     */
    private void initializeData(Locale locale) {
        SoftReference<DateFormatSymbols> ref = cachedInstances.get(locale);
        DateFormatSymbols dfs;
        if (ref == null || (dfs = ref.get()) == null) {
            if (ref != null) {
                // Remove the empty SoftReference
                cachedInstances.remove(locale, ref);
            }
            dfs = new DateFormatSymbols(false);

            // check for region override
            Locale override = CalendarDataUtility.findRegionOverride(locale);

            // Initialize the fields from the ResourceBundle for locale.
            LocaleProviderAdapter adapter
                = LocaleProviderAdapter.getAdapter(DateFormatSymbolsProvider.class, override);
            // Avoid any potential recursions
            if (!(adapter instanceof ResourceBundleBasedAdapter)) {
                adapter = LocaleProviderAdapter.getResourceBundleBased();
            }
            ResourceBundle resource
                = ((ResourceBundleBasedAdapter)adapter).getLocaleData().getDateFormatData(override);

            dfs.locale = locale;
            // JRE and CLDR use different keys
            // JRE: Eras, short.Eras and narrow.Eras
            // CLDR: long.Eras, Eras and narrow.Eras
            if (resource.containsKey("Eras")) {
                dfs.eras = resource.getStringArray("Eras");
            } else if (resource.containsKey("long.Eras")) {
                dfs.eras = resource.getStringArray("long.Eras");
            } else if (resource.containsKey("short.Eras")) {
                dfs.eras = resource.getStringArray("short.Eras");
            }
            dfs.months = resource.getStringArray("MonthNames");
            dfs.shortMonths = resource.getStringArray("MonthAbbreviations");
            dfs.ampms = resource.getStringArray("AmPmMarkers");
            dfs.localPatternChars = resource.getString("DateTimePatternChars");

            // Day of week names are stored in a 1-based array.
            dfs.weekdays = toOneBasedArray(resource.getStringArray("DayNames"));
            dfs.shortWeekdays = toOneBasedArray(resource.getStringArray("DayAbbreviations"));

            // Put dfs in the cache
            ref = new SoftReference<>(dfs);
            SoftReference<DateFormatSymbols> x = cachedInstances.putIfAbsent(locale, ref);
            if (x != null) {
                DateFormatSymbols y = x.get();
                if (y == null) {
                    // Replace the empty SoftReference with ref.
                    cachedInstances.replace(locale, x, ref);
                } else {
                    ref = x;
                    dfs = y;
                }
            }
        }

        // Copy the field values from dfs to this instance.
        copyMembers(dfs, this);
    }

    private static String[] toOneBasedArray(String[] src) {
        int len = src.length;
        String[] dst = new String[len + 1];
        dst[0] = "";
        for (int i = 0; i < len; i++) {
            dst[i + 1] = src[i];
        }
        return dst;
    }

    
Package private: used by SimpleDateFormat
Gets the index for the given time zone ID to obtain the time zone
strings for formatting. The time zone ID is just for programmatic
lookup. NOT LOCALIZED!!!
Params:
ID – the given time zone ID.
See Also:
SimpleTimeZone
Returns:
the index of the given time zone ID.  Returns -1 if
the given time zone ID can't be located in the DateFormatSymbols object./**
     * Package private: used by SimpleDateFormat
     * Gets the index for the given time zone ID to obtain the time zone
     * strings for formatting. The time zone ID is just for programmatic
     * lookup. NOT LOCALIZED!!!
     * @param ID the given time zone ID.
     * @return the index of the given time zone ID.  Returns -1 if
     * the given time zone ID can't be located in the DateFormatSymbols object.
     * @see java.util.SimpleTimeZone
     */
    final int getZoneIndex(String ID) {
        String[][] zoneStrings = getZoneStringsWrapper();

        /*
         * getZoneIndex has been re-written for performance reasons. instead of
         * traversing the zoneStrings array every time, we cache the last used zone
         * index
         */
        if (lastZoneIndex < zoneStrings.length && ID.equals(zoneStrings[lastZoneIndex][0])) {
            return lastZoneIndex;
        }

        /* slow path, search entire list */
        for (int index = 0; index < zoneStrings.length; index++) {
            if (ID.equals(zoneStrings[index][0])) {
                lastZoneIndex = index;
                return index;
            }
        }

        return -1;
    }

    
Wrapper method to the getZoneStrings(), which is called from inside
the java.text package and not to mutate the returned arrays, so that
it does not need to create a defensive copy.
/**
     * Wrapper method to the getZoneStrings(), which is called from inside
     * the java.text package and not to mutate the returned arrays, so that
     * it does not need to create a defensive copy.
     */
    final String[][] getZoneStringsWrapper() {
        if (isSubclassObject()) {
            return getZoneStrings();
        } else {
            return getZoneStringsImpl(false);
        }
    }

    private String[][] getZoneStringsImpl(boolean needsCopy) {
        if (zoneStrings == null) {
            zoneStrings = TimeZoneNameUtility.getZoneStrings(locale);
        }

        if (!needsCopy) {
            return zoneStrings;
        }

        int len = zoneStrings.length;
        String[][] aCopy = new String[len][];
        for (int i = 0; i < len; i++) {
            aCopy[i] = Arrays.copyOf(zoneStrings[i], zoneStrings[i].length);
        }
        return aCopy;
    }

    private boolean isSubclassObject() {
        return !getClass().getName().equals("java.text.DateFormatSymbols");
    }

    
Clones all the data members from the source DateFormatSymbols to
the target DateFormatSymbols.
Params:
src – the source DateFormatSymbols.
dst – the target DateFormatSymbols./**
     * Clones all the data members from the source DateFormatSymbols to
     * the target DateFormatSymbols.
     *
     * @param src the source DateFormatSymbols.
     * @param dst the target DateFormatSymbols.
     */
    private void copyMembers(DateFormatSymbols src, DateFormatSymbols dst)
    {
        dst.locale = src.locale;
        dst.eras = Arrays.copyOf(src.eras, src.eras.length);
        dst.months = Arrays.copyOf(src.months, src.months.length);
        dst.shortMonths = Arrays.copyOf(src.shortMonths, src.shortMonths.length);
        dst.weekdays = Arrays.copyOf(src.weekdays, src.weekdays.length);
        dst.shortWeekdays = Arrays.copyOf(src.shortWeekdays, src.shortWeekdays.length);
        dst.ampms = Arrays.copyOf(src.ampms, src.ampms.length);
        if (src.zoneStrings != null) {
            dst.zoneStrings = src.getZoneStringsImpl(true);
        } else {
            dst.zoneStrings = null;
        }
        dst.localPatternChars = src.localPatternChars;
        dst.cachedHashCode = 0;
    }

    
Write out the default serializable data, after ensuring the
zoneStrings field is initialized in order to make
sure the backward compatibility.
Since:
1.6/**
     * Write out the default serializable data, after ensuring the
     * <code>zoneStrings</code> field is initialized in order to make
     * sure the backward compatibility.
     *
     * @since 1.6
     */
    private void writeObject(ObjectOutputStream stream) throws IOException {
        if (zoneStrings == null) {
            zoneStrings = TimeZoneNameUtility.getZoneStrings(locale);
        }
        stream.defaultWriteObject();
    }
}