Skip to content
This repository
branch: 1.3-branch
Fetching contributors…

Cannot retrieve contributors at this time

file 1060 lines (781 sloc) 35.478 kb

Internationalization and Localization

:term:`Internationalization` (i18n) is the act of creating software with a user interface that can potentially be displayed in more than one language or cultural context. :term:`Localization` (l10n) is the process of displaying the user interface of an internationalized application in a particular language or cultural context.

:app:`Pyramid` offers internationalization and localization subsystems that can be used to translate the text of buttons, error messages and other software- and template-defined values into the native language of a user of your application.

Creating a Translation String

While you write your software, you can insert specialized markup into your Python code that makes it possible for the system to translate text values into the languages used by your application's users. This markup creates a :term:`translation string`. A translation string is an object that behaves mostly like a normal Unicode object, except that it also carries around extra information related to its job as part of the :app:`Pyramid` translation machinery.

Using The TranslationString Class

The most primitive way to create a translation string is to use the :class:`pyramid.i18n.TranslationString` callable:

This creates a Unicode-like object that is a TranslationString.

Note

For people more familiar with :term:`Zope` i18n, a TranslationString is a lot like a zope.i18nmessageid.Message object. It is not a subclass, however. For people more familiar with :term:`Pylons` or :term:`Django` i18n, using a TranslationString is a lot like using "lazy" versions of related gettext APIs.

The first argument to :class:`~pyramid.i18n.TranslationString` is the msgid; it is required. It represents the key into the translation mappings provided by a particular localization. The msgid argument must be a Unicode object or an ASCII string. The msgid may optionally contain replacement markers. For instance:

Within the string above, ${number} is a replacement marker. It will be replaced by whatever is in the mapping for a translation string. The mapping may be supplied at the same time as the replacement marker itself:

Any number of replacement markers can be present in the msgid value, any number of times. Only markers which can be replaced by the values in the mapping will be replaced at translation time. The others will not be interpolated and will be output literally.

A translation string should also usually carry a domain. The domain represents a translation category to disambiguate it from other translations of the same msgid, in case they conflict.

The above translation string named a domain of form. A :term:`translator` function will often use the domain to locate the right translator file on the filesystem which contains translations for a given domain. In this case, if it were trying to translate our msgid to German, it might try to find a translation from a :term:`gettext` file within a :term:`translation directory` like this one:

locale/de/LC_MESSAGES/form.mo

In other words, it would want to take translations from the form.mo translation file in the German language.

Finally, the TranslationString constructor accepts a default argument. If a default argument is supplied, it replaces usages of the msgid as the default value for the translation string. When default is None, the msgid value passed to a TranslationString is used as an implicit message identifier. Message identifiers are matched with translations in translation files, so it is often useful to create translation strings with "opaque" message identifiers unrelated to their default text:

When default text is used, Default text objects may contain replacement values.

Using the TranslationStringFactory Class

Another way to generate a translation string is to use the :attr:`~pyramid.i18n.TranslationStringFactory` object. This object is a translation string factory. Basically a translation string factory presets the domain value of any :term:`translation string` generated by using it. For example:

Note

We assigned the translation string factory to the name _. This is a convention which will be supported by translation file generation tools.

After assigning _ to the result of a :func:`~pyramid.i18n.TranslationStringFactory`, the subsequent result of calling _ will be a :class:`~pyramid.i18n.TranslationString` instance. Even though a domain value was not passed to _ (as would have been necessary if the :class:`~pyramid.i18n.TranslationString` constructor were used instead of a translation string factory), the domain attribute of the resulting translation string will be pyramid. As a result, the previous code example is completely equivalent (except for spelling) to:

You can set up your own translation string factory much like the one provided above by using the :class:`~pyramid.i18n.TranslationStringFactory` class. For example, if you'd like to create a translation string factory which presets the domain value of generated translation strings to form, you'd do something like this:

Creating a unique domain for your application via a translation string factory is best practice. Using your own unique translation domain allows another person to reuse your application without needing to merge your translation files with his own. Instead, he can just include your package's :term:`translation directory` via the :meth:`pyramid.config.Configurator.add_translation_dirs` method.

Note

For people familiar with Zope internationalization, a TranslationStringFactory is a lot like a zope.i18nmessageid.MessageFactory object. It is not a subclass, however.

Working With gettext Translation Files

The basis of :app:`Pyramid` translation services is GNU :term:`gettext`. Once your application source code files and templates are marked up with translation markers, you can work on translations by creating various kinds of gettext files.

Note

The steps a developer must take to work with :term:`gettext` :term:`message catalog` files within a :app:`Pyramid` application are very similar to the steps a :term:`Pylons` developer must take to do the same. See the Pylons internationalization documentation for more information.

GNU gettext uses three types of files in the translation framework, .pot files, .po files and .mo files.

.pot (Portable Object Template) files

A .pot file is created by a program which searches through your project's source code and which picks out every :term:`message identifier` passed to one of the _() functions (eg. :term:`translation string` constructions). The list of all message identifiers is placed into a .pot file, which serves as a template for creating .po files.

.po (Portable Object) files

The list of messages in a .pot file are translated by a human to a particular language; the result is saved as a .po file.

.mo (Machine Object) files

A .po file is turned into a machine-readable binary file, which is the .mo file. Compiling the translations to machine code makes the localized program run faster.

The tools for working with :term:`gettext` translation files related to a :app:`Pyramid` application is :term:`Babel` and :term:`Lingua`. Lingua is a Babel extension that provides support for scraping i18n references out of Python and Chameleon files.

Installing Babel and Lingua

In order for the commands related to working with gettext translation files to work properly, you will need to have :term:`Babel` and :term:`Lingua` installed into the same environment in which :app:`Pyramid` is installed.

Installation on UNIX

If the :term:`virtualenv` into which you've installed your :app:`Pyramid` application lives in /my/virtualenv, you can install Babel and Lingua like so:

$ cd /my/virtualenv
$ bin/easy_install Babel lingua

Installation on Windows

If the :term:`virtualenv` into which you've installed your :app:`Pyramid` application lives in C:\my\virtualenv, you can install Babel and Lingua like so:

C> cd \my\virtualenv
C> Scripts\easy_install Babel lingua

Changing the setup.py

You need to add a few boilerplate lines to your application's setup.py file in order to properly generate :term:`gettext` files from your application.

Note

See :ref:`project_narr` to learn about about the composition of an application's setup.py file.

In particular, add the Babel and lingua distributions to the install_requires list and insert a set of references to :term:`Babel` message extractors within the call to :func:`setuptools.setup` inside your application's setup.py file:

The message_extractors stanza placed into the setup.py file causes the :term:`Babel` message catalog extraction machinery to also consider *.pt files when doing message id extraction.

Extracting Messages from Code and Templates

Once Babel and Lingua are installed and your application's setup.py file has the correct message extractor references, you may extract a message catalog template from the code and :term:`Chameleon` templates which reside in your :app:`Pyramid` application. You run a setup.py command to extract the messages:

$ cd /place/where/myapplication/setup.py/lives
$ mkdir -p myapplication/locale
$ $myvenv/bin/python setup.py extract_messages

The message catalog .pot template will end up in:

myapplication/locale/myapplication.pot.

Translation Domains

The name myapplication above in the filename myapplication.pot denotes the :term:`translation domain` of the translations that must be performed to localize your application. By default, the translation domain is the :term:`project` name of your :app:`Pyramid` application.

To change the translation domain of the extracted messages in your project, edit the setup.cfg file of your application, The default setup.cfg file of a pcreate -generated :app:`Pyramid` application has stanzas in it that look something like the following:

In the above example, the project name is MyProject. To indicate that you'd like the domain of your translations to be mydomain instead, change the setup.cfg file stanzas to look like so:

Initializing a Message Catalog File

Once you've extracted messages into a .pot file (see :ref:`extracting_messages`), to begin localizing the messages present in the .pot file, you need to generate at least one .po file. A .po file represents translations of a particular set of messages to a particular locale. Initialize a .po file for a specific locale from a pre-generated .pot template by using the setup.py init_catalog command:

$ cd /place/where/myapplication/setup.py/lives
$ $myvenv/bin/python setup.py init_catalog -l es

By default, the message catalog .po file will end up in:

myapplication/locale/es/LC_MESSAGES/myapplication.po.

Once the file is there, it can be worked on by a human translator. One tool which may help with this is Poedit.

Note that :app:`Pyramid` itself ignores the existence of all .po files. For a running application to have translations available, a .mo file must exist. See :ref:`compiling_message_catalog`.

Updating a Catalog File

If more translation strings are added to your application, or translation strings change, you will need to update existing .po files based on changes to the .pot file, so that the new and changed messages can also be translated or re-translated.

First, regenerate the .pot file as per :ref:`extracting_messages`. Then use the setup.py update_catalog command.

$ cd /place/where/myapplication/setup.py/lives
$ $myvenv/bin/python setup.py update_catalog

Compiling a Message Catalog File

Finally, to prepare an application for performing actual runtime translations, compile .po files to .mo files:

$ cd /place/where/myapplication/setup.py/lives
$ $myvenv/bin/python setup.py compile_catalog

This will create a .mo file for each .po file in your application. As long as the :term:`translation directory` in which the .mo file ends up in is configured into your application, these translations will be available to :app:`Pyramid`.

Using a Localizer

A :term:`localizer` is an object that allows you to perform translation or pluralization "by hand" in an application. You may use the :func:`pyramid.i18n.get_localizer` function to obtain a :term:`localizer`. This function will return either the localizer object implied by the active :term:`locale negotiator` or a default localizer object if no explicit locale negotiator is registered.

Note

If you need to create a localizer for a locale use the :func:`pyramid.i18n.make_localizer` function.

Performing a Translation

A :term:`localizer` has a translate method which accepts either a :term:`translation string` or a Unicode string and which returns a Unicode object representing the translation. So, generating a translation in a view component of an application might look like so:

The :func:`~pyramid.i18n.get_localizer` function will return a :class:`pyramid.i18n.Localizer` object bound to the locale name represented by the request. The translation returned from its :meth:`pyramid.i18n.Localizer.translate` method will depend on the domain attribute of the provided translation string as well as the locale of the localizer.

Note

If you're using :term:`Chameleon` templates, you don't need to pre-translate translation strings this way. See :ref:`chameleon_translation_strings`.

Performing a Pluralization

A :term:`localizer` has a pluralize method with the following signature:

The singular and plural arguments should each be a Unicode value representing a :term:`message identifier`. n should be an integer. domain should be a :term:`translation domain`, and mapping should be a dictionary that is used for replacement value interpolation of the translated string. If n is plural for the current locale, pluralize will return a Unicode translation for the message id plural, otherwise it will return a Unicode translation for the message id singular.

The arguments provided as singular and/or plural may also be :term:`translation string` objects, but the domain and mapping information attached to those objects is ignored.

Obtaining the Locale Name for a Request

You can obtain the locale name related to a request by using the :func:`pyramid.i18n.get_locale_name` function.

This returns the locale name negotiated by the currently active :term:`locale negotiator` or the :term:`default locale name` if the locale negotiator returns None. You can change the default locale name by changing the pyramid.default_locale_name setting; see :ref:`default_locale_name_setting`.

Once :func:`~pyramid.i18n.get_locale_name` is first run, the locale name is stored on the request object. Subsequent calls to :func:`~pyramid.i18n.get_locale_name` will return the stored locale name without invoking the :term:`locale negotiator`. To avoid this caching, you can use the :func:`pyramid.i18n.negotiate_locale_name` function:

You can also obtain the locale name related to a request using the locale_name attribute of a :term:`localizer`.

Obtaining the locale name as an attribute of a localizer is equivalent to obtaining a locale name by calling the :func:`~pyramid.i18n.get_locale_name` function.

Performing Date Formatting and Currency Formatting

:app:`Pyramid` does not itself perform date and currency formatting for different locales. However, :term:`Babel` can help you do this via the :class:`babel.core.Locale` class. The Babel documentation for this class provides minimal information about how to perform date and currency related locale operations. See :ref:`installing_babel` for information about how to install Babel.

The :class:`babel.core.Locale` class requires a :term:`locale name` as an argument to its constructor. You can use :app:`Pyramid` APIs to obtain the locale name for a request to pass to the :class:`babel.core.Locale` constructor; see :ref:`obtaining_the_locale_name`. For example:

Chameleon Template Support for Translation Strings

When a :term:`translation string` is used as the subject of textual rendering by a :term:`Chameleon` template renderer, it will automatically be translated to the requesting user's language if a suitable translation exists. This is true of both the ZPT and text variants of the Chameleon template renderers.

For example, in a Chameleon ZPT template, the translation string represented by "some_translation_string" in each example below will go through translation before being rendered:

The features represented by attributes of the i18n namespace of Chameleon will also consult the :app:`Pyramid` translations. See http://chameleon.repoze.org/docs/latest/i18n.html#the-i18n-namespace.

Note

Unlike when Chameleon is used outside of :app:`Pyramid`, when it is used within :app:`Pyramid`, it does not support use of the zope.i18n translation framework. Applications which use :app:`Pyramid` should use the features documented in this chapter rather than zope.i18n.

Third party :app:`Pyramid` template renderers might not provide this support out of the box and may need special code to do an equivalent. For those, you can always use the more manual translation facility described in :ref:`performing_a_translation`.

Mako Pyramid I18N Support

There exists a recipe within the :term:`Pyramid Cookbook` named "Mako Internationalization" which explains how to add idiomatic I18N support to :term:`Mako` templates.

Localization-Related Deployment Settings

A :app:`Pyramid` application will have a pyramid.default_locale_name setting. This value represents the :term:`default locale name` used when the :term:`locale negotiator` returns None. Pass it to the :mod:`~pyramid.config.Configurator` constructor at startup time:

You may alternately supply a pyramid.default_locale_name via an application's .ini file:

If this value is not supplied via the Configurator constructor or via a config file, it will default to en.

If this setting is supplied within the :app:`Pyramid` application .ini file, it will be available as a settings key:

"Detecting" Available Languages

Other systems provide an API that returns the set of "available languages" as indicated by the union of all languages in all translation directories on disk at the time of the call to the API.

It is by design that :app:`Pyramid` doesn't supply such an API. Instead, the application itself is responsible for knowing the "available languages". The rationale is this: any particular application deployment must always know which languages it should be translatable to anyway, regardless of which translation files are on disk.

Here's why: it's not a given that because translations exist in a particular language within the registered set of translation directories that this particular deployment wants to allow translation to that language. For example, some translations may exist but they may be incomplete or incorrect. Or there may be translations to a language but not for all translation domains.

Any nontrivial application deployment will always need to be able to selectively choose to allow only some languages even if that set of languages is smaller than all those detected within registered translation directories. The easiest way to allow for this is to make the application entirely responsible for knowing which languages are allowed to be translated to instead of relying on the framework to divine this information from translation directory file info.

You can set up a system to allow a deployer to select available languages based on convention by using the :mod:`pyramid.settings` mechanism:

Allow a deployer to modify your application's .ini file:

Then as a part of the code of a custom :term:`locale negotiator`:

This is only a suggestion. You can create your own "available languages" configuration scheme as necessary.

Activating Translation

By default, a :app:`Pyramid` application performs no translation. To turn translation on, you must:

Adding a Translation Directory

:term:`gettext` is the underlying machinery behind the :app:`Pyramid` translation machinery. A translation directory is a directory organized to be useful to :term:`gettext`. A translation directory usually includes a listing of language directories, each of which itself includes an LC_MESSAGES directory. Each LC_MESSAGES directory should contain one or more .mo files. Each .mo file represents a :term:`message catalog`, which is used to provide translations to your application.

Adding a :term:`translation directory` registers all of its constituent :term:`message catalog` files within your :app:`Pyramid` application to be available to use for translation services. This includes all of the .mo files found within all LC_MESSAGES directories within each locale directory in the translation directory.

You can add a translation directory imperatively by using the :meth:`pyramid.config.Configurator.add_translation_dirs` during application startup. For example:

A message catalog in a translation directory added via :meth:`~pyramid.config.Configurator.add_translation_dirs` will be merged into translations from a message catalog added earlier if both translation directories contain translations for the same locale and :term:`translation domain`.

Setting the Locale

When the default locale negotiator (see :ref:`default_locale_negotiator`) is in use, you can inform :app:`Pyramid` of the current locale name by doing any of these things before any translations need to be performed:

  • Set the _LOCALE_ attribute of the request to a valid locale name (usually directly within view code). E.g. request._LOCALE_ = 'de'.
  • Ensure that a valid locale name value is in the request.params dictionary under the key named _LOCALE_. This is usually the result of passing a _LOCALE_ value in the query string or in the body of a form post associated with a request. For example, visiting http://my.application?_LOCALE_=de.
  • Ensure that a valid locale name value is in the request.cookies dictionary under the key named _LOCALE_. This is usually the result of setting a _LOCALE_ cookie in a prior response, e.g. response.set_cookie('_LOCALE_', 'de').

Note

If this locale negotiation scheme is inappropriate for a particular application, you can configure a custom :term:`locale negotiator` function into that application as required. See :ref:`custom_locale_negotiator`.

Locale Negotiators

A :term:`locale negotiator` informs the operation of a :term:`localizer` by telling it what :term:`locale name` is related to a particular request. A locale negotiator is a bit of code which accepts a request and which returns a :term:`locale name`. It is consulted when :meth:`pyramid.i18n.Localizer.translate` or :meth:`pyramid.i18n.Localizer.pluralize` is invoked. It is also consulted when :func:`~pyramid.i18n.get_locale_name` or :func:`~pyramid.i18n.negotiate_locale_name` is invoked.

The Default Locale Negotiator

Most applications can make use of the default locale negotiator, which requires no additional coding or configuration.

The default locale negotiator implementation named :class:`~pyramid.i18n.default_locale_negotiator` uses the following set of steps to dermine the locale name.

  • First, the negotiator looks for the _LOCALE_ attribute of the request object (possibly set directly by view code or by a listener for an :term:`event`).
  • Then it looks for the request.params['_LOCALE_'] value.
  • Then it looks for the request.cookies['_LOCALE_'] value.
  • If no locale can be found via the request, it falls back to using the :term:`default locale name` (see :ref:`localization_deployment_settings`).
  • Finally, if the default locale name is not explicitly set, it uses the locale name en.

Using a Custom Locale Negotiator

Locale negotiation is sometimes policy-laden and complex. If the (simple) default locale negotiation scheme described in :ref:`activating_translation` is inappropriate for your application, you may create and a special :term:`locale negotiator`. Subsequently you may override the default locale negotiator by adding your newly created locale negotiator to your application's configuration.

A locale negotiator is simply a callable which accepts a request and returns a single :term:`locale name` or None if no locale can be determined.

Here's an implementation of a simple locale negotiator:

If a locale negotiator returns None, it signifies to :app:`Pyramid` that the default application locale name should be used.

You may add your newly created locale negotiator to your application's configuration by passing an object which can act as the negotiator (or a :term:`dotted Python name` referring to the object) as the locale_negotiator argument of the :class:`~pyramid.config.Configurator` instance during application startup. For example:

Alternately, use the :meth:`pyramid.config.Configurator.set_locale_negotiator` method.

For example:

Something went wrong with that request. Please try again.