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package java.util;

import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.ObjectStreamField;
import java.io.Serializable;
import libcore.icu.ICU;

/**
 * {@code Locale} represents a language/country/variant combination. Locales are used to
 * alter the presentation of information such as numbers or dates to suit the conventions
 * in the region they describe.
 *
 * 

The language codes are two-letter lowercase ISO language codes (such as "en") as defined by * ISO 639-1. * The country codes are two-letter uppercase ISO country codes (such as "US") as defined by * ISO 3166-1. * The variant codes are unspecified. * *

Note that Java uses several deprecated two-letter codes. The Hebrew ("he") language * code is rewritten as "iw", Indonesian ("id") as "in", and Yiddish ("yi") as "ji". This * rewriting happens even if you construct your own {@code Locale} object, not just for * instances returned by the various lookup methods. * *

Available locales

*

This class' constructors do no error checking. You can create a {@code Locale} for languages * and countries that don't exist, and you can create instances for combinations that don't * exist (such as "de_US" for "German as spoken in the US"). * *

Note that locale data is not necessarily available for any of the locales pre-defined as * constants in this class except for en_US, which is the only locale Java guarantees is always * available. * *

It is also a mistake to assume that all devices have the same locales available. * A device sold in the US will almost certainly support en_US and es_US, but not necessarily * any locales with the same language but different countries (such as en_GB or es_ES), * nor any locales for other languages (such as de_DE). The opposite may well be true for a device * sold in Europe. * *

You can use {@link Locale#getDefault} to get an appropriate locale for the user of the * device you're running on, or {@link Locale#getAvailableLocales} to get a list of all the locales * available on the device you're running on. * *

Locale data

*

Note that locale data comes solely from ICU. User-supplied locale service providers (using * the {@code java.text.spi} or {@code java.util.spi} mechanisms) are not supported. * *

Here are the versions of ICU (and the corresponding CLDR and Unicode versions) used in * various Android releases: *

* * * * * * * * * * * * * * * * * * * * * * * * * * * * *
Android 1.5 (Cupcake)/Android 1.6 (Donut)/Android 2.0 (Eclair)ICU 3.8CLDR 1.5Unicode 5.0
Android 2.2 (Froyo)ICU 4.2CLDR 1.7Unicode 5.1
Android 2.3 (Gingerbread)/Android 3.0 (Honeycomb)ICU 4.4CLDR 1.8Unicode 5.2
Android 4.0 (Ice Cream Sandwich)ICU 4.6CLDR 1.9Unicode 6.0
Android 4.1 (Jelly Bean)ICU 4.8CLDR 2.0Unicode 6.0
Android 4.3 (Jelly Bean MR2)ICU 50CLDR 22.1Unicode 6.2
Android 4.4 (KitKat)ICU 51CLDR 23Unicode 6.2
* *

Be wary of the default locale

*

Note that there are many convenience methods that automatically use the default locale, but * using them may lead to subtle bugs. * *

The default locale is appropriate for tasks that involve presenting data to the user. In * this case, you want to use the user's date/time formats, number * formats, rules for conversion to lowercase, and so on. In this case, it's safe to use the * convenience methods. * *

The default locale is not appropriate for machine-readable output. The best choice * there is usually {@code Locale.US} – this locale is guaranteed to be available on all * devices, and the fact that it has no surprising special cases and is frequently used (especially * for computer-computer communication) means that it tends to be the most efficient choice too. * *

A common mistake is to implicitly use the default locale when producing output meant to be * machine-readable. This tends to work on the developer's test devices (especially because so many * developers use en_US), but fails when run on a device whose user is in a more complex locale. * *

For example, if you're formatting integers some locales will use non-ASCII decimal * digits. As another example, if you're formatting floating-point numbers some locales will use * {@code ','} as the decimal point and {@code '.'} for digit grouping. That's correct for * human-readable output, but likely to cause problems if presented to another * computer ({@link Double#parseDouble} can't parse such a number, for example). * You should also be wary of the {@link String#toLowerCase} and * {@link String#toUpperCase} overloads that don't take a {@code Locale}: in Turkey, for example, * the characters {@code 'i'} and {@code 'I'} won't be converted to {@code 'I'} and {@code 'i'}. * This is the correct behavior for Turkish text (such as user input), but inappropriate for, say, * HTTP headers. */ public final class Locale implements Cloneable, Serializable { private static final long serialVersionUID = 9149081749638150636L; /** * Locale constant for en_CA. */ public static final Locale CANADA = new Locale(true, "en", "CA"); /** * Locale constant for fr_CA. */ public static final Locale CANADA_FRENCH = new Locale(true, "fr", "CA"); /** * Locale constant for zh_CN. */ public static final Locale CHINA = new Locale(true, "zh", "CN"); /** * Locale constant for zh. */ public static final Locale CHINESE = new Locale(true, "zh", ""); /** * Locale constant for en. */ public static final Locale ENGLISH = new Locale(true, "en", ""); /** * Locale constant for fr_FR. */ public static final Locale FRANCE = new Locale(true, "fr", "FR"); /** * Locale constant for fr. */ public static final Locale FRENCH = new Locale(true, "fr", ""); /** * Locale constant for de. */ public static final Locale GERMAN = new Locale(true, "de", ""); /** * Locale constant for de_DE. */ public static final Locale GERMANY = new Locale(true, "de", "DE"); /** * Locale constant for it. */ public static final Locale ITALIAN = new Locale(true, "it", ""); /** * Locale constant for it_IT. */ public static final Locale ITALY = new Locale(true, "it", "IT"); /** * Locale constant for ja_JP. */ public static final Locale JAPAN = new Locale(true, "ja", "JP"); /** * Locale constant for ja. */ public static final Locale JAPANESE = new Locale(true, "ja", ""); /** * Locale constant for ko_KR. */ public static final Locale KOREA = new Locale(true, "ko", "KR"); /** * Locale constant for ko. */ public static final Locale KOREAN = new Locale(true, "ko", ""); /** * Locale constant for zh_CN. */ public static final Locale PRC = new Locale(true, "zh", "CN"); /** * Locale constant for the root locale. The root locale has an empty language, * country, and variant. * * @since 1.6 */ public static final Locale ROOT = new Locale(true, "", ""); /** * Locale constant for zh_CN. */ public static final Locale SIMPLIFIED_CHINESE = new Locale(true, "zh", "CN"); /** * Locale constant for zh_TW. */ public static final Locale TAIWAN = new Locale(true, "zh", "TW"); /** * Locale constant for zh_TW. */ public static final Locale TRADITIONAL_CHINESE = new Locale(true, "zh", "TW"); /** * Locale constant for en_GB. */ public static final Locale UK = new Locale(true, "en", "GB"); /** * Locale constant for en_US. */ public static final Locale US = new Locale(true, "en", "US"); /** * The current default locale. It is temporarily assigned to US because we * need a default locale to lookup the real default locale. */ private static Locale defaultLocale = US; static { String language = System.getProperty("user.language", "en"); String region = System.getProperty("user.region", "US"); String variant = System.getProperty("user.variant", ""); defaultLocale = new Locale(language, region, variant); } private transient String countryCode; private transient String languageCode; private transient String variantCode; private transient String cachedToStringResult; /** * There's a circular dependency between toLowerCase/toUpperCase and * Locale.US. Work around this by avoiding these methods when constructing * the built-in locales. * * @param unused required for this constructor to have a unique signature */ private Locale(boolean unused, String lowerCaseLanguageCode, String upperCaseCountryCode) { this.languageCode = lowerCaseLanguageCode; this.countryCode = upperCaseCountryCode; this.variantCode = ""; } /** * Constructs a new {@code Locale} using the specified language. */ public Locale(String language) { this(language, "", ""); } /** * Constructs a new {@code Locale} using the specified language and country codes. */ public Locale(String language, String country) { this(language, country, ""); } /** * Constructs a new {@code Locale} using the specified language, country, * and variant codes. */ public Locale(String language, String country, String variant) { if (language == null || country == null || variant == null) { throw new NullPointerException("language=" + language + ",country=" + country + ",variant=" + variant); } if (language.isEmpty() && country.isEmpty()) { languageCode = ""; countryCode = ""; variantCode = variant; return; } languageCode = language.toLowerCase(Locale.US); // Map new language codes to the obsolete language // codes so the correct resource bundles will be used. if (languageCode.equals("he")) { languageCode = "iw"; } else if (languageCode.equals("id")) { languageCode = "in"; } else if (languageCode.equals("yi")) { languageCode = "ji"; } countryCode = country.toUpperCase(Locale.US); // Work around for be compatible with RI variantCode = variant; } @Override public Object clone() { try { return super.clone(); } catch (CloneNotSupportedException e) { throw new AssertionError(e); } } /** * Returns true if {@code object} is a locale with the same language, * country and variant. */ @Override public boolean equals(Object object) { if (object == this) { return true; } if (object instanceof Locale) { Locale o = (Locale) object; return languageCode.equals(o.languageCode) && countryCode.equals(o.countryCode) && variantCode.equals(o.variantCode); } return false; } /** * Returns the system's installed locales. This array always includes {@code * Locale.US}, and usually several others. Most locale-sensitive classes * offer their own {@code getAvailableLocales} method, which should be * preferred over this general purpose method. * * @see java.text.BreakIterator#getAvailableLocales() * @see java.text.Collator#getAvailableLocales() * @see java.text.DateFormat#getAvailableLocales() * @see java.text.DateFormatSymbols#getAvailableLocales() * @see java.text.DecimalFormatSymbols#getAvailableLocales() * @see java.text.NumberFormat#getAvailableLocales() * @see java.util.Calendar#getAvailableLocales() */ public static Locale[] getAvailableLocales() { return ICU.getAvailableLocales(); } /** * Returns the country code for this locale, or {@code ""} if this locale * doesn't correspond to a specific country. */ public String getCountry() { return countryCode; } /** * Returns the user's preferred locale. This may have been overridden for * this process with {@link #setDefault}. * *

Since the user's locale changes dynamically, avoid caching this value. * Instead, use this method to look it up for each use. */ public static Locale getDefault() { return defaultLocale; } /** * Equivalent to {@code getDisplayCountry(Locale.getDefault())}. */ public final String getDisplayCountry() { return getDisplayCountry(getDefault()); } /** * Returns the name of this locale's country, localized to {@code locale}. * Returns the empty string if this locale does not correspond to a specific * country. */ public String getDisplayCountry(Locale locale) { if (countryCode.isEmpty()) { return ""; } String result = ICU.getDisplayCountryNative(toString(), locale.toString()); if (result == null) { // TODO: do we need to do this, or does ICU do it for us? result = ICU.getDisplayCountryNative(toString(), Locale.getDefault().toString()); } return result; } /** * Equivalent to {@code getDisplayLanguage(Locale.getDefault())}. */ public final String getDisplayLanguage() { return getDisplayLanguage(getDefault()); } /** * Returns the name of this locale's language, localized to {@code locale}. * If the language name is unknown, the language code is returned. */ public String getDisplayLanguage(Locale locale) { if (languageCode.isEmpty()) { return ""; } // http://b/8049507 --- frameworks/base should use fil_PH instead of tl_PH. // Until then, we're stuck covering their tracks, making it look like they're // using "fil" when they're not. String localeString = toString(); if (languageCode.equals("tl")) { localeString = toNewString("fil", countryCode, variantCode); } String result = ICU.getDisplayLanguageNative(localeString, locale.toString()); if (result == null) { // TODO: do we need to do this, or does ICU do it for us? result = ICU.getDisplayLanguageNative(localeString, Locale.getDefault().toString()); } return result; } /** * Equivalent to {@code getDisplayName(Locale.getDefault())}. */ public final String getDisplayName() { return getDisplayName(getDefault()); } /** * Returns this locale's language name, country name, and variant, localized * to {@code locale}. The exact output form depends on whether this locale * corresponds to a specific language, country and variant. * *

For example: *

    *
  • {@code new Locale("en").getDisplayName(Locale.US)} -> {@code English} *
  • {@code new Locale("en", "US").getDisplayName(Locale.US)} -> {@code English (United States)} *
  • {@code new Locale("en", "US", "POSIX").getDisplayName(Locale.US)} -> {@code English (United States,Computer)} *
  • {@code new Locale("en").getDisplayName(Locale.FRANCE)} -> {@code anglais} *
  • {@code new Locale("en", "US").getDisplayName(Locale.FRANCE)} -> {@code anglais (États-Unis)} *
  • {@code new Locale("en", "US", "POSIX").getDisplayName(Locale.FRANCE)} -> {@code anglais (États-Unis,informatique)}. *
*/ public String getDisplayName(Locale locale) { int count = 0; StringBuilder buffer = new StringBuilder(); if (!languageCode.isEmpty()) { String displayLanguage = getDisplayLanguage(locale); buffer.append(displayLanguage.isEmpty() ? languageCode : displayLanguage); ++count; } if (!countryCode.isEmpty()) { if (count == 1) { buffer.append(" ("); } String displayCountry = getDisplayCountry(locale); buffer.append(displayCountry.isEmpty() ? countryCode : displayCountry); ++count; } if (!variantCode.isEmpty()) { if (count == 1) { buffer.append(" ("); } else if (count == 2) { buffer.append(","); } String displayVariant = getDisplayVariant(locale); buffer.append(displayVariant.isEmpty() ? variantCode : displayVariant); ++count; } if (count > 1) { buffer.append(")"); } return buffer.toString(); } /** * Returns the full variant name in the default {@code Locale} for the variant code of * this {@code Locale}. If there is no matching variant name, the variant code is * returned. */ public final String getDisplayVariant() { return getDisplayVariant(getDefault()); } /** * Returns the full variant name in the specified {@code Locale} for the variant code * of this {@code Locale}. If there is no matching variant name, the variant code is * returned. */ public String getDisplayVariant(Locale locale) { if (variantCode.length() == 0) { return variantCode; } String result = ICU.getDisplayVariantNative(toString(), locale.toString()); if (result == null) { // TODO: do we need to do this, or does ICU do it for us? result = ICU.getDisplayVariantNative(toString(), Locale.getDefault().toString()); } return result; } /** * Returns the three-letter ISO 3166 country code which corresponds to the country * code for this {@code Locale}. * @throws MissingResourceException if there's no 3-letter country code for this locale. */ public String getISO3Country() { String code = ICU.getISO3CountryNative(toString()); if (!countryCode.isEmpty() && code.isEmpty()) { throw new MissingResourceException("No 3-letter country code for locale: " + this, "FormatData_" + this, "ShortCountry"); } return code; } /** * Returns the three-letter ISO 639-2/T language code which corresponds to the language * code for this {@code Locale}. * @throws MissingResourceException if there's no 3-letter language code for this locale. */ public String getISO3Language() { String code = ICU.getISO3LanguageNative(toString()); if (!languageCode.isEmpty() && code.isEmpty()) { throw new MissingResourceException("No 3-letter language code for locale: " + this, "FormatData_" + this, "ShortLanguage"); } return code; } /** * Returns an array of strings containing all the two-letter ISO 3166 country codes that can be * used as the country code when constructing a {@code Locale}. */ public static String[] getISOCountries() { return ICU.getISOCountries(); } /** * Returns an array of strings containing all the two-letter ISO 639-1 language codes that can be * used as the language code when constructing a {@code Locale}. */ public static String[] getISOLanguages() { return ICU.getISOLanguages(); } /** * Returns the language code for this {@code Locale} or the empty string if no language * was set. */ public String getLanguage() { return languageCode; } /** * Returns the variant code for this {@code Locale} or an empty {@code String} if no variant * was set. */ public String getVariant() { return variantCode; } @Override public synchronized int hashCode() { return countryCode.hashCode() + languageCode.hashCode() + variantCode.hashCode(); } /** * Overrides the default locale. This does not affect system configuration, * and attempts to override the system-provided default locale may * themselves be overridden by actual changes to the system configuration. * Code that calls this method is usually incorrect, and should be fixed by * passing the appropriate locale to each locale-sensitive method that's * called. */ public synchronized static void setDefault(Locale locale) { if (locale == null) { throw new NullPointerException("locale == null"); } defaultLocale = locale; } /** * Returns the string representation of this {@code Locale}. It consists of the * language code, country code and variant separated by underscores. * If the language is missing the string begins * with an underscore. If the country is missing there are 2 underscores * between the language and the variant. The variant cannot stand alone * without a language and/or country code: in this case this method would * return the empty string. * *

Examples: "en", "en_US", "_US", "en__POSIX", "en_US_POSIX" */ @Override public final String toString() { String result = cachedToStringResult; if (result == null) { result = cachedToStringResult = toNewString(languageCode, countryCode, variantCode); } return result; } private static String toNewString(String languageCode, String countryCode, String variantCode) { // The string form of a locale that only has a variant is the empty string. if (languageCode.length() == 0 && countryCode.length() == 0) { return ""; } // Otherwise, the output format is "ll_cc_variant", where language and country are always // two letters, but the variant is an arbitrary length. A size of 11 characters has room // for "en_US_POSIX", the largest "common" value. (In practice, the string form is almost // always 5 characters: "ll_cc".) StringBuilder result = new StringBuilder(11); result.append(languageCode); if (countryCode.length() > 0 || variantCode.length() > 0) { result.append('_'); } result.append(countryCode); if (variantCode.length() > 0) { result.append('_'); } result.append(variantCode); return result.toString(); } private static final ObjectStreamField[] serialPersistentFields = { new ObjectStreamField("country", String.class), new ObjectStreamField("hashcode", int.class), new ObjectStreamField("language", String.class), new ObjectStreamField("variant", String.class), }; private void writeObject(ObjectOutputStream stream) throws IOException { ObjectOutputStream.PutField fields = stream.putFields(); fields.put("country", countryCode); fields.put("hashcode", -1); fields.put("language", languageCode); fields.put("variant", variantCode); stream.writeFields(); } private void readObject(ObjectInputStream stream) throws IOException, ClassNotFoundException { ObjectInputStream.GetField fields = stream.readFields(); countryCode = (String) fields.get("country", ""); languageCode = (String) fields.get("language", ""); variantCode = (String) fields.get("variant", ""); } }





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