"translation helper functions" import os, re, sys import gettext as gettext_module from cStringIO import StringIO from django.utils.functional import lazy try: import threading hasThreads = True except ImportError: hasThreads = False if hasThreads: currentThread = threading.currentThread else: def currentThread(): return 'no threading' # Translations are cached in a dictionary for every language+app tuple. # The active translations are stored by threadid to make them thread local. _translations = {} _active = {} # The default translation is based on the settings file. _default = None # This is a cache for accept-header to translation object mappings to prevent # the accept parser to run multiple times for one user. _accepted = {} def to_locale(language): "Turns a language name (en-us) into a locale name (en_US)." p = language.find('-') if p >= 0: return language[:p].lower()+'_'+language[p+1:].upper() else: return language.lower() def to_language(locale): "Turns a locale name (en_US) into a language name (en-us)." p = locale.find('_') if p >= 0: return locale[:p].lower()+'-'+locale[p+1:].lower() else: return locale.lower() class DjangoTranslation(gettext_module.GNUTranslations): """ This class sets up the GNUTranslations context with regard to output charset. Django uses a defined DEFAULT_CHARSET as the output charset on Python 2.4. With Python 2.3, use DjangoTranslation23. """ def __init__(self, *args, **kw): from django.conf import settings gettext_module.GNUTranslations.__init__(self, *args, **kw) # Starting with Python 2.4, there's a function to define # the output charset. Before 2.4, the output charset is # identical with the translation file charset. try: self.set_output_charset(settings.DEFAULT_CHARSET) except AttributeError: pass self.django_output_charset = settings.DEFAULT_CHARSET self.__language = '??' def merge(self, other): self._catalog.update(other._catalog) def set_language(self, language): self.__language = language def language(self): return self.__language def __repr__(self): return "" % self.__language class DjangoTranslation23(DjangoTranslation): """ Compatibility class that is only used with Python 2.3. Python 2.3 doesn't support set_output_charset on translation objects and needs this wrapper class to make sure input charsets from translation files are correctly translated to output charsets. With a full switch to Python 2.4, this can be removed from the source. """ def gettext(self, msgid): res = self.ugettext(msgid) return res.encode(self.django_output_charset) def ngettext(self, msgid1, msgid2, n): res = self.ungettext(msgid1, msgid2, n) return res.encode(self.django_output_charset) def translation(language): """ Returns a translation object. This translation object will be constructed out of multiple GNUTranslations objects by merging their catalogs. It will construct a object for the requested language and add a fallback to the default language, if it's different from the requested language. """ global _translations t = _translations.get(language, None) if t is not None: return t from django.conf import settings # set up the right translation class klass = DjangoTranslation if sys.version_info < (2, 4): klass = DjangoTranslation23 globalpath = os.path.join(os.path.dirname(sys.modules[settings.__module__].__file__), 'locale') if settings.SETTINGS_MODULE is not None: parts = settings.SETTINGS_MODULE.split('.') project = __import__(parts[0], {}, {}, []) projectpath = os.path.join(os.path.dirname(project.__file__), 'locale') else: projectpath = None def _fetch(lang, fallback=None): global _translations loc = to_locale(lang) res = _translations.get(lang, None) if res is not None: return res def _translation(path): try: t = gettext_module.translation('django', path, [loc], klass) t.set_language(lang) return t except IOError, e: return None res = _translation(globalpath) def _merge(path): t = _translation(path) if t is not None: if res is None: return t else: res.merge(t) return res if hasattr(settings, 'LOCALE_PATHS'): for localepath in settings.LOCALE_PATHS: if os.path.isdir(localepath): res = _merge(localepath) if projectpath and os.path.isdir(projectpath): res = _merge(projectpath) for appname in settings.INSTALLED_APPS: p = appname.rfind('.') if p >= 0: app = getattr(__import__(appname[:p], {}, {}, [appname[p+1:]]), appname[p+1:]) else: app = __import__(appname, {}, {}, []) apppath = os.path.join(os.path.dirname(app.__file__), 'locale') if os.path.isdir(apppath): res = _merge(apppath) if res is None: if fallback is not None: res = fallback else: return gettext_module.NullTranslations() _translations[lang] = res return res default_translation = _fetch(settings.LANGUAGE_CODE) current_translation = _fetch(language, fallback=default_translation) return current_translation def activate(language): """ Fetches the translation object for a given tuple of application name and language and installs it as the current translation object for the current thread. """ _active[currentThread()] = translation(language) def deactivate(): """ Deinstalls the currently active translation object so that further _ calls will resolve against the default translation object, again. """ global _active if _active.has_key(currentThread()): del _active[currentThread()] def get_language(): "Returns the currently selected language." t = _active.get(currentThread(), None) if t is not None: try: return to_language(t.language()) except AttributeError: pass # If we don't have a real translation object, assume it's the default language. from django.conf import settings return settings.LANGUAGE_CODE def get_language_bidi(): """ Returns selected language's BiDi layout. False = left-to-right layout True = right-to-left layout """ from django.conf import settings return get_language() in settings.LANGUAGES_BIDI def catalog(): """ This function returns the current active catalog for further processing. This can be used if you need to modify the catalog or want to access the whole message catalog instead of just translating one string. """ global _default, _active t = _active.get(currentThread(), None) if t is not None: return t if _default is None: from django.conf import settings _default = translation(settings.LANGUAGE_CODE) return _default def gettext(message): """ This function will be patched into the builtins module to provide the _ helper function. It will use the current thread as a discriminator to find the translation object to use. If no current translation is activated, the message will be run through the default translation object. """ global _default, _active t = _active.get(currentThread(), None) if t is not None: return t.gettext(message) if _default is None: from django.conf import settings _default = translation(settings.LANGUAGE_CODE) return _default.gettext(message) def gettext_noop(message): """ Marks strings for translation but doesn't translate them now. This can be used to store strings in global variables that should stay in the base language (because they might be used externally) and will be translated later. """ return message def ngettext(singular, plural, number): """ Returns the translation of either the singular or plural, based on the number. """ global _default, _active t = _active.get(currentThread(), None) if t is not None: return t.ngettext(singular, plural, number) if _default is None: from django.conf import settings _default = translation(settings.LANGUAGE_CODE) return _default.ngettext(singular, plural, number) gettext_lazy = lazy(gettext, str) ngettext_lazy = lazy(ngettext, str) def check_for_language(lang_code): """ Checks whether there is a global language file for the given language code. This is used to decide whether a user-provided language is available. This is only used for language codes from either the cookies or session. """ from django.conf import settings globalpath = os.path.join(os.path.dirname(sys.modules[settings.__module__].__file__), 'locale') if gettext_module.find('django', globalpath, [to_locale(lang_code)]) is not None: return True else: return False def get_language_from_request(request): """ Analyzes the request to find what language the user wants the system to show. Only languages listed in settings.LANGUAGES are taken into account. If the user requests a sublanguage where we have a main language, we send out the main language. """ global _accepted from django.conf import settings globalpath = os.path.join(os.path.dirname(sys.modules[settings.__module__].__file__), 'locale') supported = dict(settings.LANGUAGES) if hasattr(request, 'session'): lang_code = request.session.get('django_language', None) if lang_code in supported and lang_code is not None and check_for_language(lang_code): return lang_code lang_code = request.COOKIES.get('django_language', None) if lang_code in supported and lang_code is not None and check_for_language(lang_code): return lang_code accept = request.META.get('HTTP_ACCEPT_LANGUAGE', None) if accept is not None: t = _accepted.get(accept, None) if t is not None: return t def _parsed(el): p = el.find(';q=') if p >= 0: lang = el[:p].strip() order = int(float(el[p+3:].strip())*100) else: lang = el order = 100 p = lang.find('-') if p >= 0: mainlang = lang[:p] else: mainlang = lang return (lang, mainlang, order) langs = [_parsed(el) for el in accept.split(',')] langs.sort(lambda a,b: -1*cmp(a[2], b[2])) for lang, mainlang, order in langs: if lang in supported or mainlang in supported: langfile = gettext_module.find('django', globalpath, [to_locale(lang)]) if langfile: # reconstruct the actual language from the language # filename, because otherwise we might incorrectly # report de_DE if we only have de available, but # did find de_DE because of language normalization lang = langfile[len(globalpath):].split(os.path.sep)[1] _accepted[accept] = lang return lang return settings.LANGUAGE_CODE def get_date_formats(): """ This function checks whether translation files provide a translation for some technical message ID to store date and time formats. If it doesn't contain one, the formats provided in the settings will be used. """ from django.conf import settings date_format = _('DATE_FORMAT') datetime_format = _('DATETIME_FORMAT') time_format = _('TIME_FORMAT') if date_format == 'DATE_FORMAT': date_format = settings.DATE_FORMAT if datetime_format == 'DATETIME_FORMAT': datetime_format = settings.DATETIME_FORMAT if time_format == 'TIME_FORMAT': time_format = settings.TIME_FORMAT return date_format, datetime_format, time_format def get_partial_date_formats(): """ This function checks whether translation files provide a translation for some technical message ID to store partial date formats. If it doesn't contain one, the formats provided in the settings will be used. """ from django.conf import settings year_month_format = _('YEAR_MONTH_FORMAT') month_day_format = _('MONTH_DAY_FORMAT') if year_month_format == 'YEAR_MONTH_FORMAT': year_month_format = settings.YEAR_MONTH_FORMAT if month_day_format == 'MONTH_DAY_FORMAT': month_day_format = settings.MONTH_DAY_FORMAT return year_month_format, month_day_format def install(): """ Installs the gettext function as the default translation function under the name _. """ __builtins__['_'] = gettext dot_re = re.compile(r'\S') def blankout(src, char): """ Changes every non-whitespace character to the given char. Used in the templatize function. """ return dot_re.sub(char, src) inline_re = re.compile(r"""^\s*trans\s+((?:".*?")|(?:'.*?'))\s*""") block_re = re.compile(r"""^\s*blocktrans(?:\s+|$)""") endblock_re = re.compile(r"""^\s*endblocktrans$""") plural_re = re.compile(r"""^\s*plural$""") constant_re = re.compile(r"""_\(((?:".*?")|(?:'.*?'))\)""") def templatize(src): """ Turns a Django template into something that is understood by xgettext. It does so by translating the Django translation tags into standard gettext function invocations. """ from django.template import Lexer, TOKEN_TEXT, TOKEN_VAR, TOKEN_BLOCK out = StringIO() intrans = False inplural = False singular = [] plural = [] for t in Lexer(src, None).tokenize(): if intrans: if t.token_type == TOKEN_BLOCK: endbmatch = endblock_re.match(t.contents) pluralmatch = plural_re.match(t.contents) if endbmatch: if inplural: out.write(' ngettext(%r,%r,count) ' % (''.join(singular), ''.join(plural))) for part in singular: out.write(blankout(part, 'S')) for part in plural: out.write(blankout(part, 'P')) else: out.write(' gettext(%r) ' % ''.join(singular)) for part in singular: out.write(blankout(part, 'S')) intrans = False inplural = False singular = [] plural = [] elif pluralmatch: inplural = True else: raise SyntaxError, "Translation blocks must not include other block tags: %s" % t.contents elif t.token_type == TOKEN_VAR: if inplural: plural.append('%%(%s)s' % t.contents) else: singular.append('%%(%s)s' % t.contents) elif t.token_type == TOKEN_TEXT: if inplural: plural.append(t.contents) else: singular.append(t.contents) else: if t.token_type == TOKEN_BLOCK: imatch = inline_re.match(t.contents) bmatch = block_re.match(t.contents) cmatches = constant_re.findall(t.contents) if imatch: g = imatch.group(1) if g[0] == '"': g = g.strip('"') elif g[0] == "'": g = g.strip("'") out.write(' gettext(%r) ' % g) elif bmatch: intrans = True inplural = False singular = [] plural = [] elif cmatches: for cmatch in cmatches: out.write(' _(%s) ' % cmatch) else: out.write(blankout(t.contents, 'B')) elif t.token_type == TOKEN_VAR: parts = t.contents.split('|') cmatch = constant_re.match(parts[0]) if cmatch: out.write(' _(%s) ' % cmatch.group(1)) for p in parts[1:]: if p.find(':_(') >= 0: out.write(' %s ' % p.split(':',1)[1]) else: out.write(blankout(p, 'F')) else: out.write(blankout(t.contents, 'X')) return out.getvalue() def string_concat(*strings): """" lazy variant of string concatenation, needed for translations that are constructed from multiple parts. Handles lazy strings and non-strings by first turning all arguments to strings, before joining them. """ return ''.join([str(el) for el in strings]) string_concat = lazy(string_concat, str)