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# -*- coding: utf-8 -*- """ babel.localedata ~~~~~~~~~~~~~~~~ Low-level locale data access. :note: The `Locale` class, which uses this module under the hood, provides a more convenient interface for accessing the locale data. :copyright: (c) 2013 by the Babel Team. :license: BSD, see LICENSE for more details. """ import os import re import sys import threading from collections import MutableMapping from itertools import chain import sys from babel._compat import pickle, string_types def get_base_dir(): if getattr(sys, 'frozen', False) and getattr(sys, '_MEIPASS', None): # we are running in a |PyInstaller| bundle basedir = sys._MEIPASS else: # we are running in a normal Python environment basedir = os.path.dirname(__file__) return basedir _cache = {} _cache_lock = threading.RLock() _dirname = os.path.join(get_base_dir(), 'locale-data') _windows_reserved_name_re = re.compile("^(con|prn|aux|nul|com[0-9]|lpt[0-9])$", re.I) def normalize_locale(name): """Normalize a locale ID by stripping spaces and apply proper casing. Returns the normalized locale ID string or `None` if the ID is not recognized. """ if not name or not isinstance(name, string_types): return None name = name.strip().lower() for locale_id in chain.from_iterable([_cache, locale_identifiers()]): if name == locale_id.lower(): return locale_id def resolve_locale_filename(name): """ Resolve a locale identifier to a `.dat` path on disk. """ # Clean up any possible relative paths. name = os.path.basename(name) # Ensure we're not left with one of the Windows reserved names. if sys.platform == "win32" and _windows_reserved_name_re.match(os.path.splitext(name)[0]): raise ValueError("Name %s is invalid on Windows" % name) # Build the path. return os.path.join(_dirname, '%s.dat' % name) def exists(name): """Check whether locale data is available for the given locale. Returns `True` if it exists, `False` otherwise. :param name: the locale identifier string """ if not name or not isinstance(name, string_types): return False if name in _cache: return True file_found = os.path.exists(resolve_locale_filename(name)) return True if file_found else bool(normalize_locale(name)) def locale_identifiers(): """Return a list of all locale identifiers for which locale data is available. .. versionadded:: 0.8.1 :return: a list of locale identifiers (strings) """ return [stem for stem, extension in [ os.path.splitext(filename) for filename in os.listdir(_dirname) ] if extension == '.dat' and stem != 'root'] def load(name, merge_inherited=True): """Load the locale data for the given locale. The locale data is a dictionary that contains much of the data defined by the Common Locale Data Repository (CLDR). This data is stored as a collection of pickle files inside the ``babel`` package. >>> d = load('en_US') >>> d['languages']['sv'] u'Swedish' Note that the results are cached, and subsequent requests for the same locale return the same dictionary: >>> d1 = load('en_US') >>> d2 = load('en_US') >>> d1 is d2 True :param name: the locale identifier string (or "root") :param merge_inherited: whether the inherited data should be merged into the data of the requested locale :raise `IOError`: if no locale data file is found for the given locale identifer, or one of the locales it inherits from """ name = os.path.basename(name) _cache_lock.acquire() try: data = _cache.get(name) if not data: # Load inherited data if name == 'root' or not merge_inherited: data = {} else: from babel.core import get_global parent = get_global('parent_exceptions').get(name) if not parent: parts = name.split('_') if len(parts) == 1: parent = 'root' else: parent = '_'.join(parts[:-1]) data = load(parent).copy() filename = resolve_locale_filename(name) with open(filename, 'rb') as fileobj: if name != 'root' and merge_inherited: merge(data, pickle.load(fileobj)) else: data = pickle.load(fileobj) _cache[name] = data return data finally: _cache_lock.release() def merge(dict1, dict2): """Merge the data from `dict2` into the `dict1` dictionary, making copies of nested dictionaries. >>> d = {1: 'foo', 3: 'baz'} >>> merge(d, {1: 'Foo', 2: 'Bar'}) >>> sorted(d.items()) [(1, 'Foo'), (2, 'Bar'), (3, 'baz')] :param dict1: the dictionary to merge into :param dict2: the dictionary containing the data that should be merged """ for key, val2 in dict2.items(): if val2 is not None: val1 = dict1.get(key) if isinstance(val2, dict): if val1 is None: val1 = {} if isinstance(val1, Alias): val1 = (val1, val2) elif isinstance(val1, tuple): alias, others = val1 others = others.copy() merge(others, val2) val1 = (alias, others) else: val1 = val1.copy() merge(val1, val2) else: val1 = val2 dict1[key] = val1 class Alias(object): """Representation of an alias in the locale data. An alias is a value that refers to some other part of the locale data, as specified by the `keys`. """ def __init__(self, keys): self.keys = tuple(keys) def __repr__(self): return '<%s %r>' % (type(self).__name__, self.keys) def resolve(self, data): """Resolve the alias based on the given data. This is done recursively, so if one alias resolves to a second alias, that second alias will also be resolved. :param data: the locale data :type data: `dict` """ base = data for key in self.keys: data = data[key] if isinstance(data, Alias): data = data.resolve(base) elif isinstance(data, tuple): alias, others = data data = alias.resolve(base) return data class LocaleDataDict(MutableMapping): """Dictionary wrapper that automatically resolves aliases to the actual values. """ def __init__(self, data, base=None): self._data = data if base is None: base = data self.base = base def __len__(self): return len(self._data) def __iter__(self): return iter(self._data) def __getitem__(self, key): orig = val = self._data[key] if isinstance(val, Alias): # resolve an alias val = val.resolve(self.base) if isinstance(val, tuple): # Merge a partial dict with an alias alias, others = val val = alias.resolve(self.base).copy() merge(val, others) if type(val) is dict: # Return a nested alias-resolving dict val = LocaleDataDict(val, base=self.base) if val is not orig: self._data[key] = val return val def __setitem__(self, key, value): self._data[key] = value def __delitem__(self, key): del self._data[key] def copy(self): return LocaleDataDict(self._data.copy(), base=self.base)