/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package java.text; import java.io.IOException; import java.io.ObjectInputStream; import java.io.ObjectOutputStream; import java.io.Serializable; import java.util.Arrays; import java.util.Locale; import libcore.icu.ICU; import libcore.icu.LocaleData; import libcore.icu.TimeZones; /** * Encapsulates localized 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 DateFormat} and {@code SimpleDateFormat} both use * {@code DateFormatSymbols} to encapsulate this information. * *
Typically you shouldn't use {@code DateFormatSymbols} directly. Rather, you * are encouraged to create a date/time formatter with the {@code DateFormat} * class's factory methods: {@code getTimeInstance}, {@code getDateInstance}, * or {@code getDateTimeInstance}. These methods automatically create a * {@code DateFormatSymbols} 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} method. For more information about creating formatters * using {@code DateFormat}'s factory methods, see {@link DateFormat}. * *
Direct use of {@code DateFormatSymbols} is likely to be less efficient * because the implementation cannot make assumptions about user-supplied/user-modifiable data * to the same extent that it can with its own built-in data. * * @see DateFormat * @see SimpleDateFormat */ public class DateFormatSymbols implements Serializable, Cloneable { private static final long serialVersionUID = -5987973545549424702L; private String localPatternChars; String[] ampms, eras, months, shortMonths, shortWeekdays, weekdays; // These are used to implement ICU/Android extensions. transient String[] longStandAloneMonths; transient String[] shortStandAloneMonths; transient String[] longStandAloneWeekdays; transient String[] shortStandAloneWeekdays; // Localized display names. String[][] zoneStrings; // Has the user called setZoneStrings? transient boolean customZoneStrings; /** * Locale, necessary to lazily load time zone strings. We force the time * zone names to load upon serialization, so this will never be needed * post deserialization. */ transient final Locale locale; /** * Gets zone strings, initializing them if necessary. Does not create * a defensive copy, so make sure you do so before exposing the returned * arrays to clients. */ synchronized String[][] internalZoneStrings() { if (zoneStrings == null) { zoneStrings = TimeZones.getZoneStrings(locale); } return zoneStrings; } /** * Constructs a new {@code DateFormatSymbols} instance containing the * symbols for the user's default locale. * See "Be wary of the default locale". */ public DateFormatSymbols() { this(Locale.getDefault()); } /** * Constructs a new {@code DateFormatSymbols} instance containing the * symbols for the specified locale. * * @param locale * the locale. */ public DateFormatSymbols(Locale locale) { this.locale = locale; this.localPatternChars = SimpleDateFormat.PATTERN_CHARS; LocaleData localeData = LocaleData.get(locale); this.ampms = localeData.amPm; this.eras = localeData.eras; this.months = localeData.longMonthNames; this.shortMonths = localeData.shortMonthNames; this.weekdays = localeData.longWeekdayNames; this.shortWeekdays = localeData.shortWeekdayNames; // ICU/Android extensions. this.longStandAloneMonths = localeData.longStandAloneMonthNames; this.shortStandAloneMonths = localeData.shortStandAloneMonthNames; this.longStandAloneWeekdays = localeData.longStandAloneWeekdayNames; this.shortStandAloneWeekdays = localeData.shortStandAloneWeekdayNames; } /** * Returns a new {@code DateFormatSymbols} instance for the user's default locale. * See "Be wary of the default locale". * * @return an instance of {@code DateFormatSymbols} * @since 1.6 */ public static final DateFormatSymbols getInstance() { return getInstance(Locale.getDefault()); } /** * Returns a new {@code DateFormatSymbols} for the given locale. * * @param locale the locale * @return an instance of {@code DateFormatSymbols} * @throws NullPointerException if {@code locale == null} * @since 1.6 */ public static final DateFormatSymbols getInstance(Locale locale) { if (locale == null) { throw new NullPointerException(); } return new DateFormatSymbols(locale); } /** * Returns an array of locales for which custom {@code DateFormatSymbols} instances * are available. *
Note that Android does not support user-supplied locale service providers. * @since 1.6 */ public static Locale[] getAvailableLocales() { return ICU.getAvailableDateFormatSymbolsLocales(); } private void readObject(ObjectInputStream ois) throws IOException, ClassNotFoundException { ois.defaultReadObject(); // The RI doesn't have these fields, so we'll have to fall back and do the best we can. longStandAloneMonths = months; shortStandAloneMonths = shortMonths; longStandAloneWeekdays = weekdays; shortStandAloneWeekdays = shortWeekdays; } private void writeObject(ObjectOutputStream oos) throws IOException { internalZoneStrings(); oos.defaultWriteObject(); } @Override public Object clone() { try { return super.clone(); } catch (CloneNotSupportedException e) { throw new AssertionError(); } } /** * Compares this object with the specified object and indicates if they are * equal. * * @param object * the object to compare with this object. * @return {@code true} if {@code object} is an instance of * {@code DateFormatSymbols} and has the same symbols as this * object, {@code false} otherwise. * @see #hashCode */ @Override public boolean equals(Object object) { if (this == object) { return true; } if (!(object instanceof DateFormatSymbols)) { return false; } DateFormatSymbols rhs = (DateFormatSymbols) object; return localPatternChars.equals(rhs.localPatternChars) && Arrays.equals(ampms, rhs.ampms) && Arrays.equals(eras, rhs.eras) && Arrays.equals(months, rhs.months) && Arrays.equals(shortMonths, rhs.shortMonths) && Arrays.equals(shortWeekdays, rhs.shortWeekdays) && Arrays.equals(weekdays, rhs.weekdays) && timeZoneStringsEqual(this, rhs); } private static boolean timeZoneStringsEqual(DateFormatSymbols lhs, DateFormatSymbols rhs) { // Quick check that may keep us from having to load the zone strings. // Note that different locales may have the same strings, so the opposite check isn't valid. if (lhs.zoneStrings == null && rhs.zoneStrings == null && lhs.locale.equals(rhs.locale)) { return true; } // Make sure zone strings are loaded, then check. return Arrays.deepEquals(lhs.internalZoneStrings(), rhs.internalZoneStrings()); } @Override public String toString() { // 'locale' isn't part of the externally-visible state. // 'zoneStrings' is so large, we just print a representative value. return getClass().getName() + "[amPmStrings=" + Arrays.toString(ampms) + ",customZoneStrings=" + customZoneStrings + ",eras=" + Arrays.toString(eras) + ",localPatternChars=" + localPatternChars + ",months=" + Arrays.toString(months) + ",shortMonths=" + Arrays.toString(shortMonths) + ",shortWeekdays=" + Arrays.toString(shortWeekdays) + ",weekdays=" + Arrays.toString(weekdays) + ",zoneStrings=[" + Arrays.toString(internalZoneStrings()[0]) + "...]" + "]"; } /** * Returns the array of strings which represent AM and PM. Use the * {@link java.util.Calendar} constants {@code Calendar.AM} and * {@code Calendar.PM} as indices for the array. * * @return an array of strings. */ public String[] getAmPmStrings() { return ampms.clone(); } /** * Returns the array of strings which represent BC and AD. Use the * {@link java.util.Calendar} constants {@code GregorianCalendar.BC} and * {@code GregorianCalendar.AD} as indices for the array. * * @return an array of strings. */ public String[] getEras() { return eras.clone(); } /** * Returns the pattern characters used by {@link SimpleDateFormat} to * specify date and time fields. * * @return a string containing the pattern characters. */ public String getLocalPatternChars() { return localPatternChars; } /** * Returns the array of strings containing the full names of the months. Use * the {@link java.util.Calendar} constants {@code Calendar.JANUARY} etc. as * indices for the array. * * @return an array of strings. */ public String[] getMonths() { return months.clone(); } /** * Returns the array of strings containing the abbreviated names of the * months. Use the {@link java.util.Calendar} constants * {@code Calendar.JANUARY} etc. as indices for the array. * * @return an array of strings. */ public String[] getShortMonths() { return shortMonths.clone(); } /** * Returns the array of strings containing the abbreviated names of the days * of the week. Use the {@link java.util.Calendar} constants * {@code Calendar.SUNDAY} etc. as indices for the array. * * @return an array of strings. */ public String[] getShortWeekdays() { return shortWeekdays.clone(); } /** * Returns the array of strings containing the full names of the days of the * week. Use the {@link java.util.Calendar} constants * {@code Calendar.SUNDAY} etc. as indices for the array. * * @return an array of strings. */ public String[] getWeekdays() { return weekdays.clone(); } /** * Returns the two-dimensional array of strings containing localized names for time zones. * Each row is an array of five strings: *