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Jython is an implementation of the high-level, dynamic, object-oriented language Python written in 100% Pure Java, and seamlessly integrated with the Java platform. It thus allows you to run Python on any Java platform.

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// (c) 2019 Jython Developers
// Licensed to PSF under a contributor agreement

package org.python.modules._locale;

import java.nio.charset.Charset;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashSet;
import java.util.Locale;
import java.util.Set;

import org.python.core.ClassDictInit;
import org.python.core.Py;
import org.python.core.PyDictionary;
import org.python.core.PyException;
import org.python.core.PyInteger;
import org.python.core.PyObject;
import org.python.core.PyString;
import org.python.core.PyStringMap;
import org.python.core.PySystemState;

import static org.python.core.RegistryKey.PYTHON_LOCALE_CONTROL;

/**
 * Java native implementation of underlying locale functions, fitting the interface defined or
 * implied by the Python locale module.
 *
 * Functional documentation can be found in the Python module docstring. This class depends on
 * registry key {@link org.python.core.RegistryKey#PYTHON_LOCALE_CONTROL}. Additional implementation
 * details for users of this class are captured below.
 * 

* Unicode. In general, Java and its locale settings are quite unicode heavy, making rich use of * different symbols for e.g. currencies. This solution allows some of that to leak through by * encoding the Java locale value with the current character encoding. The Python locale module is * quite conservative and tends to keep things as solely strings. Python 2.x usually supports only * string / ascii by default in many cases, and only unicode when asked. This is a little less * conservative while only allowing values consistent with the current encoding. *

* An example of this is some Python implementations using EUR rather than the Euro symbol € * ({@code 'u20ac'}), probably because € is only available in Unicode. In the Java implementation, * if UTF-8 encoding is set, the resulting entry in {@code localeconv()['currency_code']} is * {@code '\xe2\x82\xac'}. This can be used by {@code print()} and related functions directly. * Encoding failures for {@code currency_symbol} fall back to {@code int_curr_symbol} (eg EUR). * Encoding failures for {@code negative_sign}, which are sometimes unicode, fall back to an ANSI * hyphen ('-'). Other encoding failures fallback to the 'C' locale values, where possible. *

* The C emulation locale uses only ANSI characters in non-unicode strings, in keeping with it being * the locale of last resort and maximum compatibility. *

* Positive sign position ({@code p_sign_posn}) is not a distinguished concept in Java and so this * is hardcoded to 3. *

* This class ensures read/write consistency, when changing locales via * {@link #setlocale(PyInteger,PyString)}, by declaring private variable {@code currentLocale} as * volatile, and only assigning it immutable objects. It does not lock to guarantee sequencing of * {@code setLocale()} calls from separate threads. In the rare cases where that would be needed, it * is the responsibility of the calling code. * * @since Jython 2.7.2 */ public class _locale implements ClassDictInit { /** * The {@code locale} module exposes {@code _locale.Error} as {@code locale.Error}. Some Python * functions, including {@code strptime()}, depend on {@code locale.Error}, making it part of * the public API for native locale implementations. */ public static PyObject Error; public static PyException LocaleException(String message) { return new PyException(Error, message); } // @formatter:off public static final PyString __doc__ = new PyString( "The _locale module exposes locale functions in the underlying " + "operating system or platform in a consistent way, for use by " + "the Python locale module. It is a native Java implementation, " + "paralleling libmodule.c in CPython and its dependence on C " + "libraries provided by the OS.\n" + "This module is currently in beta, and is enabled with the " + "registry property ``python.locale.control``. It is " + "disabled by default, resulting in jython 2.7.1 (and previous) " + "locale behaviour.\n" + "\n" + "+-------------------+-----------------------------------------+\n" + "+ Property Value + Behaviour |\n" + "+===================+=========================================+\n" + "| jython2_legacy | Mix of implicit Java locale and |\n" + "| | emulated 'C'. Text and date formatting |\n" + "| | mostly Java locale (eg ``%b``). |\n" + "| | ``asctime()`` matches C emulation |\n" + "| | ``setlocale()`` always errors by design.|\n" + "| | This matches version 2.7.1 and previous |\n" + "| | behaviour. Will be deprecated in future |\n" + "| | versions. |\n" + "+-------------------+-----------------------------------------+\n" + "| settable | Java platform locale services made |\n" + "| | available via locale module. |\n" + "| | ``setlocale()`` works, using Java locale|\n" + "| | identifiers and LC_ALL (only). C locale |\n" + "| | available via ``setlocale()``. Initial |\n" + "| | locale and encoding per Java defaults. |\n" + "+-------------------+-----------------------------------------+\n" + "| '' or unset | As per ``jython2_legacy``. |\n" + "| | In future versions, per ``settable``. |\n" + "+-------------------+-----------------------------------------+\n"); // @formatter:on public static final String LOCALE_CONTROL_SETTABLE = "settable"; public static final String LOCALE_CONTROL_JYTHON2_LEGACY = "jython2_legacy"; // These values are the same as glibc locale/bits/locale.h // Specific integer constants are not mandated by the POSIX locale spec, so an existing // standard seemed as good an arbitrary set of values as any private static final int __LC_CTYPE = 0; private static final int __LC_NUMERIC = 1; private static final int __LC_TIME = 2; private static final int __LC_COLLATE = 3; private static final int __LC_MONETARY = 4; private static final int __LC_MESSAGES = 5; private static final int __LC_ALL = 6; @SuppressWarnings("unused") private static final int __LC_PAPER = 7; @SuppressWarnings("unused") private static final int __LC_NAME = 8; @SuppressWarnings("unused") private static final int __LC_ADDRESS = 9; @SuppressWarnings("unused") private static final int __LC_TELEPHONE = 10; @SuppressWarnings("unused") private static final int __LC_MEASUREMENT = 11; @SuppressWarnings("unused") private static final int __LC_IDENTIFICATION = 12; public static final PyInteger LC_CTYPE = new PyInteger(__LC_CTYPE); public static final PyInteger LC_NUMERIC = new PyInteger(__LC_NUMERIC); public static final PyInteger LC_TIME = new PyInteger(__LC_TIME); public static final PyInteger LC_COLLATE = new PyInteger(__LC_COLLATE); public static final PyInteger LC_MONETARY = new PyInteger(__LC_MONETARY); public static final PyInteger LC_MESSAGES = new PyInteger(__LC_MESSAGES); public static final PyInteger LC_ALL = new PyInteger(__LC_ALL); // Remaining constants not used by locale.py so are not exposed here // 127 chosen as consistent with hardcoded default in locale.py for C locale public static final int CHAR_MAX = 127; public static final PyInteger CHAR_MAX_PY_INT = new PyInteger(127); public static final PyString C_LOCALE_PY_STRING = new PyString("C"); private static final Set AVAILABLE_LOCALES; // Failsafe for date symbols only. Insufficient for full locale module behaviour. private static final DateSymbolLocale DEFAULT_LOCALE = new DateSymbolJyLocale(Locale.getDefault()); // This has a subtle initialization dependency on the codecs module due to the initialization // in JyLocale(). Let the interpreter initialize via classDictInit(). private static volatile PyLocale currentLocale = null; static { final Set set = new HashSet<>(Arrays.asList(Locale.getAvailableLocales())); AVAILABLE_LOCALES = Collections.unmodifiableSet(set); } @SuppressWarnings("serial") public static void initClassExceptions(PyObject exceptions) { PyObject baseException = exceptions.__finditem__("BaseException"); Error = Py.makeClass("locale.Error", baseException, new PyStringMap() { { __setitem__("__module__", Py.newString("locale")); } }); } // This is used when the module is first initialized, or when simulating re-initialization from // tests public static void classDictInit(PyObject dict) { dict.__setitem__("Error", Error); try { changeCurrentLocaleToDefault(); } catch (Throwable t) { throw Py.ImportError( "Jython failed to load default Java locale, falling back. " + t.getMessage()); } final String localeControl = PySystemState.registry.getProperty(PYTHON_LOCALE_CONTROL, ""); if ("".equals(localeControl) || LOCALE_CONTROL_JYTHON2_LEGACY.equals(localeControl)) { throw Py.ImportError( "Jython locale support not enabled with python.locale.control, falling back"); } if (!LOCALE_CONTROL_SETTABLE.equals(localeControl)) { throw Py.ImportError( "Jython locale support python.locale.control unrecognized value, falling back"); } changeCurrentLocaleToC(); } private static void changeCurrentLocaleToDefault() { currentLocale = new JyLocale(Locale.getDefault(), Charset.defaultCharset().name()); } /** * Put {@code key} mapping to {@code value} into {@code result}, converting to {@code PyString}s * as needed */ protected static void putConvEntry(PyDictionary result, String key, String value) { try { result.put(new PyString(key), new PyString(value)); } catch (IllegalArgumentException iae) { throw new IllegalArgumentException(iae.getMessage() + " for key " + key); } } /** * Put {@code key} mapping to {@code value} into {@code result}, converting to {@code PyString}s * as needed */ protected static void putConvEntry(PyDictionary result, String key, char value) { try { result.put(new PyString(key), new PyString(value)); } catch (IllegalArgumentException iae) { throw new IllegalArgumentException(iae.getMessage() + " for key " + key); } } /** * Put {@code key} mapping to {@code value} into {@code result}, converting {@code key} to * {@code PyString}. */ protected static void putConvEntry(PyDictionary result, String key, PyObject value) { try { result.put(new PyString(key), value); } catch (IllegalArgumentException iae) { throw new IllegalArgumentException(iae.getMessage() + " for key " + key); } } public static PyString __doc___localeconv = new PyString("Database of local conventions, mapped from Java.\n" + "Note that Java locale information is relatively unicode-rich, " + "particularly for currency symbols. Where that is not supported " + "by the current encoding, the international currency symbol is "// + "used.\n"// + "C locale emulation matches CPython C locale emulation."); public static PyDictionary localeconv() { return currentLocale.localeconv(); } public static PyString __doc___strcoll = new PyString("Compare Java (unicode) strings using the Java collator for the " + "current locale, and the encoding normalization provided by strxfrm\n." + "In the 'C' locale, this simply calls str.__cmp__() "); public static int strcoll(PyString str1, PyString str2) { return currentLocale.strcoll(str1, str2); } public static PyString __doc___strxfrm = new PyString("Normalize a string to unicode, for common comparison, using the " + "locale encoding.\n" + "In the 'C' locale, this is a no-op, returning the parameter."); public static PyString strxfrm(PyString str1) { return currentLocale.strxfrm(str1); } public static PyString __doc___setlocale = new PyString("Sets the locale given a category and normalized locale string.\n" + "Only category LC_ALL is supported. Other categories such as " + "LC_TIME or LC_NUMERIC result in a locale.Error." + "\n"// + "Normalized format is per RFC 1766, but using underscores instead " + "of dashes, eg zh_CH.UTF-8. Briefly, the format is " + "[language]_[locality].[encoding], where [language] is a two " + "character language identifer, locality is a regional indicator, " + "and encoding is a character encoding. Other examples are " + "en_AU.ISO8859-1 and de_DE.ISO8859-15.\n" + "If this is an empty locale, the same language tag will be tried " + "with dashes instead of underscores, ie [lanuage]-[locality].\n" + "Normalization would usually be done by the enclosing locale module.\n" + "This function treats a missing encoding as using UTF-8.\n"); public static PyString setlocale(PyInteger category) { return currentLocale.getLocaleString(); } /** * Java Locale loading behaviour is quite forgiving, or uninformative, depending on your * perspective. It will return a dummy locale for any language tag that fits the syntax, or make * various attempts to approximate a locale. This solution instead follows the stricter Python * behaviour of requiring a particular locale to be installed. */ public static PyString setlocale(PyInteger category, PyString locale) { Py.writeDebug("_locale", "setlocale(category,locale==" + locale + ")"); if (locale == null || locale.equals(Py.None) || locale.equals(currentLocale.getLocaleString())) { return setlocale(category); } if (!category.equals(LC_ALL)) { // Py.NotImplementedError not used as dependencies exist on // locale.Error throw LocaleException("Only LC_ALL is supported in this version of Jython"); } if (locale.equals(C_LOCALE_PY_STRING)) { changeCurrentLocaleToC(); return C_LOCALE_PY_STRING; } if (locale.equals(new PyString(""))) { changeCurrentLocaleToDefault(); } else { changeLocaleFromLocaleString(locale); } return currentLocale.getLocaleString(); } private static void changeLocaleFromLocaleString(PyString locale) { String localeStr = locale.toString(); String[] localeParts = localeStr.split("\\."); String language; String encoding = "UTF-8"; if (localeParts.length >= 3) { throw LocaleException("Does not conform to [language]_[locality].[encoding] format: " + locale.toString()); } if (localeParts.length == 1) { language = localeStr; } else { // == 2 language = localeParts[0]; encoding = localeParts[1]; } Locale newLocale = loadLocale(language); if (!isAvailableLocale(newLocale)) { String underscoreAlias = language.replace('_', '-'); // Not only are these often switched in Java, Locale.toLanguageTag() uses "-" and // Locale.toString() uses "_" newLocale = loadLocale(underscoreAlias); if (!isAvailableLocale(newLocale)) { throw LocaleException("unsupported locale setting: " + locale.toString()); } } changeCurrentLocale(new JyLocale(newLocale, encoding)); } private static void changeCurrentLocaleToC() { changeCurrentLocale(new CEmulationLocale()); } private static boolean isAvailableLocale(Locale locale) { return locale != null && !locale.toString().isEmpty() && AVAILABLE_LOCALES.contains(locale); } private static Locale loadLocale(String language) { Locale newLocale = Locale.forLanguageTag(language); Py.writeDebug("_locale", "Current: " + currentLocale.getUnderlyingLocale()); Py.writeDebug("_locale", "New: " + newLocale + " loaded with tag: " + language); return newLocale; } private static void changeCurrentLocale(PyLocale pyLocale) { Py.writeDebug("_locale", "Locale changed to: " + pyLocale.getLocaleString()); currentLocale = pyLocale; } /** * Current {@code DateSymbolLocale} used by the Python interpreter. This object will no longer * reflect the current state after subsequent calls to {@code setlocale}. */ public static DateSymbolLocale getDateSymbolLocale() { if (currentLocale == null) { return DEFAULT_LOCALE; } return currentLocale; } }





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