Django was originally developed right in the middle of the United States quite literally, as Lawrence, Kansas, is less than 40 miles from the geographic center of the continental United States. Like most open source projects, though, Djangos community grew to include people from all over the globe. As Djangos community became increasingly diverse, *internationalization* and *localization* became increasingly important.
Django itself is fully internationalized; all strings are marked for translation, and settings control the display of locale-dependent values like dates and times. Django also ships with more than 50 different localization files. If youre not a native English speaker, theres a good chance that Django is already translated into your primary language.
The same internationalization framework used for these localizations is available for you to use in your own code and templates.
Because many developers have at best a fuzzy understanding of what internationalization and localization actually mean, we will begin with a few definitions.
[TOC=3]
## Definitions
internationalization
Refers to the process of designing programs for the potential use of any locale. This process is usually done by software developers. Internationalization includes marking text (such as UI elements and error messages) for future translation, abstracting the display of dates and times so that different local standards may be observed, providing support for differing time zones, and generally making sure that the code contains no assumptions about the location of its users. Youll often see internationalization abbreviated *I18N*. (The 18 refers to the number of letters omitted between the initial I and the terminal N.)
localization
Refers to the process of actually translating an internationalized program for use in a particular locale. This work is usually done by translators. Youll sometimes see localization abbreviated as *L10N*.
More details can be found in the [W3C Web Internationalization FAQ](http://www.w3.org/International/questions/qa-i18n), the [Wikipedia article](http://en.wikipedia.org/wiki/Internationalization_and_localization) or the [GNU gettext documentation](http://www.gnu.org/software/gettext/manual/gettext.html#Concepts).
Here are some other terms that will help us to handle a common language:
locale name
A locale name, either a language specification of the form `ll` or a combined language and country specification of the form `ll_CC`. Examples: `it`, `de_AT`, `es`, `pt_BR`. The language part is always in lower case and the country part in upper case. The separator is an underscore.
language code
Represents the name of a language. Browsers send the names of the languages they accept in the `Accept-Language` HTTP header using this format. Examples: `it`, `de-at`, `es`, `pt-br`. Language codes are generally represented in lower-case, but the HTTP `Accept-Language` header is case-insensitive. The separator is a dash.
message file
A message file is a plain-text file, representing a single language, that contains all available [translation strings](http://masteringdjango.com/django-internationalization/#term-translation-string) and how they should be represented in the given language. Message files have a `.po` file extension.
translation string
A literal that can be translated.
format file
A format file is a Python module that defines the data formats for a given locale.
## Translation
In order to make a Django project translatable, you have to add a minimal number of hooks to your Python code and templates. These hooks are called [translation strings](http://masteringdjango.com/django-internationalization/#term-translation-string). They tell Django: This text should be translated into the end users language, if a translation for this text is available in that language. Its your responsibility to mark translatable strings; the system can only translate strings it knows about.
Django then provides utilities to extract the translation strings into a [message file](http://masteringdjango.com/django-internationalization/#term-message-file). This file is a convenient way for translators to provide the equivalent of the translation strings in the target language. Once the translators have filled in the message file, it must be compiled. This process relies on the GNU gettext toolset.
Once this is done, Django takes care of translating Web apps on the fly in each available language, according to users language preferences.
Essentially, Django does two things:
* It lets developers and template authors specify which parts of their applications should be translatable.
* It uses that information to translate Web applications for particular users according to their language preferences.
Djangos internationalization hooks are on by default, and that means theres a bit of i18n-related overhead in certain places of the framework. If you dont use internationalization, you should take the two seconds to set `USE_I18N = False <USE_I18N>` in your settings file. Then Django will make some optimizations so as not to load the internationalization machinery.
Note
There is also an independent but related `USE_L10N` setting that controls if Django should implement format localization.
Note
Make sure youve activated translation for your project (the fastest way is to check if `MIDDLEWARE_CLASSES`includes [`django.middleware.locale.LocaleMiddleware`](http://masteringdjango.com/django-internationalization/chapter_19.html#django.middleware.locale.LocaleMiddleware "django.middleware.locale.LocaleMiddleware")). If you havent yet, see how-django-discovers-language-preference.
If You Dont Need Internationalization:
Djangos internationalization hooks are enabled by default, which incurs a small bit of overhead. If you dont use internationalization, you should set `USE_I18N = False` in your settings file. If `USE_I18N` is set to`False`, then Django will make some optimizations so as not to load the internationalization machinery.
## Internationalization: in Python code
### Standard translation
Specify a translation string by using the function `ugettext()`. Its convention to import this as a shorter alias, `_`, to save typing.
Note
Pythons standard library `gettext` module installs `_()` into the global namespace, as an alias for `gettext()`. In Django, we have chosen not to follow this practice, for a couple of reasons:
1. For international character set (Unicode) support, `ugettext()` is more useful than `gettext()`. Sometimes, you should be using `ugettext_lazy()` as the default translation method for a particular file. Without `_()` in the global namespace, the developer has to think about which is the most appropriate translation function.
2. The underscore character (`_`) is used to represent the previous result in Pythons interactive shell and doctest tests. Installing a global `_()` function causes interference. Explicitly importing `ugettext()` as `_()`avoids this problem.
In this example, the text `"Welcome to my site."` is marked as a translation string:
~~~
from django.utils.translation import ugettext as _
from django.http import HttpResponse
def my_view(request):
output = _("Welcome to my site.")
return HttpResponse(output)
~~~
Obviously, you could code this without using the alias. This example is identical to the previous one:
~~~
from django.utils.translation import ugettext
from django.http import HttpResponse
def my_view(request):
output = ugettext("Welcome to my site.")
return HttpResponse(output)
~~~
Translation works on computed values. This example is identical to the previous two:
~~~
def my_view(request):
words = ['Welcome', 'to', 'my', 'site.']
output = _(' '.join(words))
return HttpResponse(output)
~~~
Translation works on variables. Again, heres an identical example:
~~~
def my_view(request):
sentence = 'Welcome to my site.'
output = _(sentence)
return HttpResponse(output)
~~~
(The caveat with using variables or computed values, as in the previous two examples, is that Djangos translation-string-detecting utility, django-admin makemessages , wont be able to find these strings. More on `makemessages` later.)
The strings you pass to `_()` or `ugettext()` can take placeholders, specified with Pythons standard named-string interpolation syntax. Example:
~~~
def my_view(request, m, d):
output = _('Today is %(month)s %(day)s.') % {'month': m, 'day': d}
return HttpResponse(output)
~~~
This technique lets language-specific translations reorder the placeholder text. For example, an English translation may be `"Today is November 26."`, while a Spanish translation may be `"Hoy es 26 de Noviembre."` with the month and the day placeholders swapped.
For this reason, you should use named-string interpolation (e.g., `%(day)s`) instead of positional interpolation (e.g., `%s` or `%d`) whenever you have more than a single parameter. If you used positional interpolation, translations wouldnt be able to reorder placeholder text.
### Comments for translators
If you would like to give translators hints about a translatable string, you can add a comment prefixed with the `Translators` keyword on the line preceding the string, e.g.:
~~~
def my_view(request):
# Translators: This message appears on the home page only
output = ugettext("Welcome to my site.")
~~~
The comment will then appear in the resulting `.po` file associated with the translatable construct located below it and should also be displayed by most translation tools.
Note
Just for completeness, this is the corresponding fragment of the resulting `.po` file:
~~~
#. Translators: This message appears on the home page only
# path/to/python/file.py:123
msgid "Welcome to my site."
msgstr ""
~~~
This also works in templates. See translator-comments-in-templates for more details.
### Marking strings as no-op
Use the function `django.utils.translation.ugettext_noop()` to mark a string as a translation string without translating it. The string is later translated from a variable.
Use this if you have constant strings that should be stored in the source language because they are exchanged over systems or users such as strings in a database but should be translated at the last possible point in time, such as when the string is presented to the user.
### Pluralization
Use the function `django.utils.translation.ungettext()` to specify pluralized messages.
`ungettext` takes three arguments: the singular translation string, the plural translation string and the number of objects.
This function is useful when you need your Django application to be localizable to languages where the number and complexity of [plural forms](http://www.gnu.org/software/gettext/manual/gettext.html#Plural-forms) is greater than the two forms used in English (object for the singular and objects for all the cases where `count` is different from one, irrespective of its value.)
For example:
~~~
from django.utils.translation import ungettext
from django.http import HttpResponse
def hello_world(request, count):
page = ungettext(
'there is %(count)d object',
'there are %(count)d objects',
count) % {
'count': count,
}
return HttpResponse(page)
~~~
In this example the number of objects is passed to the translation languages as the `count` variable.
Note that pluralization is complicated and works differently in each language. Comparing `count` to 1 isnt always the correct rule. This code looks sophisticated, but will produce incorrect results for some languages:
~~~
from django.utils.translation import ungettext
from myapp.models import Report
count = Report.objects.count()
if count == 1:
name = Report._meta.verbose_name
else:
name = Report._meta.verbose_name_plural
text = ungettext(
'There is %(count)d %(name)s available.',
'There are %(count)d %(name)s available.',
count
) % {
'count': count,
'name': name
}
~~~
Dont try to implement your own singular-or-plural logic, it wont be correct. In a case like this, consider something like the following:
~~~
text = ungettext(
'There is %(count)d %(name)s object available.',
'There are %(count)d %(name)s objects available.',
count
) % {
'count': count,
'name': Report._meta.verbose_name,
}
~~~
Note
When using `ungettext()`, make sure you use a single name for every extrapolated variable included in the literal. In the examples above, note how we used the `name` Python variable in both translation strings. This example, besides being incorrect in some languages as noted above, would fail:
~~~
text = ungettext(
'There is %(count)d %(name)s available.',
'There are %(count)d %(plural_name)s available.',
count
) % {
'count': Report.objects.count(),
'name': Report._meta.verbose_name,
'plural_name': Report._meta.verbose_name_plural
}
~~~
You would get an error when running django-admin compilemessages:
~~~
a format specification for argument 'name', as in 'msgstr[0]', doesn't exist in 'msgid'
~~~
### Contextual markers
Sometimes words have several meanings, such as `"May"` in English, which refers to a month name and to a verb. To enable translators to translate these words correctly in different contexts, you can use the`django.utils.translation.pgettext()` function, or the `django.utils.translation.npgettext()` function if the string needs pluralization. Both take a context string as the first variable.
In the resulting `.po` file, the string will then appear as often as there are different contextual markers for the same string (the context will appear on the `msgctxt` line), allowing the translator to give a different translation for each of them.
For example:
~~~
from django.utils.translation import pgettext
month = pgettext("month name", "May")
~~~
or:
~~~
from django.db import models
from django.utils.translation import pgettext_lazy
class MyThing(models.Model):
name = models.CharField(help_text=pgettext_lazy(
'help text for MyThing model', 'This is the help text'))
~~~
will appear in the `.po` file as:
~~~
msgctxt "month name"
msgid "May"
msgstr ""
~~~
Contextual markers are also supported by the `trans` and `blocktrans` template tags.
### Lazy translation
Use the lazy versions of translation functions in `django.utils.translation` (easily recognizable by the `lazy`suffix in their names) to translate strings lazily when the value is accessed rather than when theyre called.
These functions store a lazy reference to the string not the actual translation. The translation itself will be done when the string is used in a string context, such as in template rendering.
This is essential when calls to these functions are located in code paths that are executed at module load time.
This is something that can easily happen when defining models, forms and model forms, because Django implements these such that their fields are actually class-level attributes. For that reason, make sure to use lazy translations in the following cases:
#### MODEL FIELDS AND RELATIONSHIPS `VERBOSE_NAME` AND `HELP_TEXT` OPTION VALUES
For example, to translate the help text of the *name* field in the following model, do the following:
~~~
from django.db import models
from django.utils.translation import ugettext_lazy as _
class MyThing(models.Model):
name = models.CharField(help_text=_('This is the help text'))
~~~
You can mark names of [`ForeignKey`](http://masteringdjango.com/django-internationalization/appendix_A.html#django.db.models.ForeignKey "django.db.models.ForeignKey"), [`ManyToManyField`](http://masteringdjango.com/django-internationalization/appendix_A.html#django.db.models.ManyToManyField "django.db.models.ManyToManyField") or [`OneToOneField`](http://masteringdjango.com/django-internationalization/appendix_A.html#django.db.models.OneToOneField "django.db.models.OneToOneField") relationship as translatable by using their [`verbose_name`](http://masteringdjango.com/django-internationalization/appendix_A.html#django.db.models.Options.verbose_name "django.db.models.Options.verbose_name") options:
~~~
class MyThing(models.Model):
kind = models.ForeignKey(ThingKind, related_name='kinds',
verbose_name=_('kind'))
~~~
Just like you would do in [`verbose_name`](http://masteringdjango.com/django-internationalization/appendix_A.html#django.db.models.Options.verbose_name "django.db.models.Options.verbose_name") you should provide a lowercase verbose name text for the relation as Django will automatically titlecase it when required.
#### MODEL VERBOSE NAMES VALUES
It is recommended to always provide explicit [`verbose_name`](http://masteringdjango.com/django-internationalization/appendix_A.html#django.db.models.Options.verbose_name "django.db.models.Options.verbose_name") and [`verbose_name_plural`](http://masteringdjango.com/django-internationalization/appendix_A.html#django.db.models.Options.verbose_name_plural "django.db.models.Options.verbose_name_plural") options rather than relying on the fallback English-centric and somewhat naïve determination of verbose names Django performs by looking at the models class name:
~~~
from django.db import models
from django.utils.translation import ugettext_lazy as _
class MyThing(models.Model):
name = models.CharField(_('name'), help_text=_('This is the help text'))
class Meta:
verbose_name = _('my thing')
verbose_name_plural = _('my things')
~~~
#### MODEL METHODS `SHORT_DESCRIPTION` ATTRIBUTE VALUES
For model methods, you can provide translations to Django and the admin site with the `short_description`attribute:
~~~
from django.db import models
from django.utils.translation import ugettext_lazy as _
class MyThing(models.Model):
kind = models.ForeignKey(ThingKind, related_name='kinds',
verbose_name=_('kind'))
def is_mouse(self):
return self.kind.type == MOUSE_TYPE
is_mouse.short_description = _('Is it a mouse?')
~~~
### Working with lazy translation objects
The result of a `ugettext_lazy()` call can be used wherever you would use a unicode string (an object with type `unicode`) in Python. If you try to use it where a bytestring (a `str` object) is expected, things will not work as expected, since a `ugettext_lazy()` object doesnt know how to convert itself to a bytestring. You cant use a unicode string inside a bytestring, either, so this is consistent with normal Python behavior. For example:
~~~
# This is fine: putting a unicode proxy into a unicode string.
"Hello %s" % ugettext_lazy("people")
# This will not work, since you cannot insert a unicode object
# into a bytestring (nor can you insert our unicode proxy there)
b"Hello %s" % ugettext_lazy("people")
~~~
If you ever see output that looks like `"hello <django.utils.functional...>"`, you have tried to insert the result of `ugettext_lazy()` into a bytestring. Thats a bug in your code.
If you dont like the long `ugettext_lazy` name, you can just alias it as `_` (underscore), like so:
~~~
from django.db import models
from django.utils.translation import ugettext_lazy as _
class MyThing(models.Model):
name = models.CharField(help_text=_('This is the help text'))
~~~
Using `ugettext_lazy()` and `ungettext_lazy()` to mark strings in models and utility functions is a common operation. When youre working with these objects elsewhere in your code, you should ensure that you dont accidentally convert them to strings, because they should be converted as late as possible (so that the correct locale is in effect). This necessitates the use of the helper function described next.
#### LAZY TRANSLATIONS AND PLURAL
When using lazy translation for a plural string (`[u]n[p]gettext_lazy`), you generally dont know the `number`argument at the time of the string definition. Therefore, you are authorized to pass a key name instead of an integer as the `number` argument. Then `number` will be looked up in the dictionary under that key during string interpolation. Heres example:
~~~
from django import forms
from django.utils.translation import ugettext_lazy
class MyForm(forms.Form):
error_message = ungettext_lazy("You only provided %(num)d argument",
"You only provided %(num)d arguments", 'num')
def clean(self):
# ...
if error:
raise forms.ValidationError(self.error_message % {'num': number})
~~~
If the string contains exactly one unnamed placeholder, you can interpolate directly with the `number`argument:
~~~
class MyForm(forms.Form):
error_message = ungettext_lazy("You provided %d argument",
"You provided %d arguments")
def clean(self):
# ...
if error:
raise forms.ValidationError(self.error_message % number)
~~~
#### JOINING STRINGS: STRING_CONCAT()
Standard Python string joins (`''.join([...])`) will not work on lists containing lazy translation objects. Instead, you can use `django.utils.translation.string_concat()`, which creates a lazy object that concatenates its contents *and* converts them to strings only when the result is included in a string. For example:
~~~
from django.utils.translation import string_concat
from django.utils.translation import ugettext_lazy
...
name = ugettext_lazy('John Lennon')
instrument = ugettext_lazy('guitar')
result = string_concat(name, ': ', instrument)
~~~
In this case, the lazy translations in `result` will only be converted to strings when `result` itself is used in a string (usually at template rendering time).
#### OTHER USES OF LAZY IN DELAYED TRANSLATIONS
For any other case where you would like to delay the translation, but have to pass the translatable string as argument to another function, you can wrap this function inside a lazy call yourself. For example:
~~~
from django.utils import six # Python 3 compatibility
from django.utils.functional import lazy
from django.utils.safestring import mark_safe
from django.utils.translation import ugettext_lazy as _
mark_safe_lazy = lazy(mark_safe, six.text_type)
~~~
And then later:
~~~
lazy_string = mark_safe_lazy(_("<p>My <strong>string!</strong></p>"))
~~~
### Localized names of languages
`get_language_info`()
The `get_language_info()` function provides detailed information about languages:
~~~
>>> from django.utils.translation import get_language_info
>>> li = get_language_info('de')
>>> print(li['name'], li['name_local'], li['bidi'])
German Deutsch False
~~~
The `name` and `name_local` attributes of the dictionary contain the name of the language in English and in the language itself, respectively. The `bidi` attribute is True only for bi-directional languages.
The source of the language information is the `django.conf.locale` module. Similar access to this information is available for template code. See below.
## Internationalization: in template code
Translations in Django templates uses two template tags and a slightly different syntax than in Python code. To give your template access to these tags, put `{% load i18n %}` toward the top of your template. As with all template tags, this tag needs to be loaded in all templates which use translations, even those templates that extend from other templates which have already loaded the `i18n` tag.
### `trans` template tag
The `{% trans %}` template tag translates either a constant string (enclosed in single or double quotes) or variable content:
~~~
<title>{% trans "This is the title." %}</title>
<title>{% trans myvar %}</title>
~~~
If the `noop` option is present, variable lookup still takes place but the translation is skipped. This is useful when stubbing out content that will require translation in the future:
~~~
<title>{% trans "myvar" noop %}</title>
~~~
Internally, inline translations use an `ugettext()` call.
In case a template var (`myvar` above) is passed to the tag, the tag will first resolve such variable to a string at run-time and then look up that string in the message catalogs.
Its not possible to mix a template variable inside a string within `{% trans %}`. If your translations require strings with variables (placeholders), use `{% blocktrans %}<blocktrans>` instead.
If youd like to retrieve a translated string without displaying it, you can use the following syntax:
~~~
{% trans "This is the title" as the_title %}
<title>{{ the_title }}</title>
<meta name="description" content="{{ the_title }}">
~~~
In practice youll use this to get strings that are used in multiple places or should be used as arguments for other template tags or filters:
~~~
{% trans "starting point" as start %}
{% trans "end point" as end %}
{% trans "La Grande Boucle" as race %}
<h1>
<a href="/" title="{% blocktrans %}Back to '{{ race }}' homepage{% endblocktrans %}">{{ race }}</a>
</h1>
<p>
{% for stage in tour_stages %}
{% cycle start end %}: {{ stage }}{% if forloop.counter|divisibleby:2 %}<br />{% else %}, {% endif %}
{% endfor %}
</p>
~~~
`{% trans %}` also supports contextual markers using the `context` keyword:
~~~
{% trans "May" context "month name" %}
~~~
### `blocktrans` template tag
Contrarily to the `trans` tag, the `blocktrans` tag allows you to mark complex sentences consisting of literals and variable content for translation by making use of placeholders:
~~~
{% blocktrans %}This string will have {{ value }} inside.{% endblocktrans %}
~~~
To translate a template expression say, accessing object attributes or using template filters you need to bind the expression to a local variable for use within the translation block. Examples:
~~~
{% blocktrans with amount=article.price %}
That will cost $ {{ amount }}.
{% endblocktrans %}
{% blocktrans with myvar=value|filter %}
This will have {{ myvar }} inside.
{% endblocktrans %}
~~~
You can use multiple expressions inside a single `blocktrans` tag:
~~~
{% blocktrans with book_t=book|title author_t=author|title %}
This is {{ book_t }} by {{ author_t }}
{% endblocktrans %}
~~~
Note
The previous more verbose format is still supported: `{% blocktrans with book|title as book_t andauthor|title as author_t %}`
Other block tags (for example `{% for %}` or `{% if %}`) are not allowed inside a `blocktrans` tag.
If resolving one of the block arguments fails, blocktrans will fall back to the default language by deactivating the currently active language temporarily with the `deactivate_all()` function.
This tag also provides for pluralization. To use it:
* Designate and bind a counter value with the name `count`. This value will be the one used to select the right plural form.
* Specify both the singular and plural forms separating them with the `{% plural %}` tag within the `{%blocktrans %}` and `{% endblocktrans %}` tags.
An example:
~~~
{% blocktrans count counter=list|length %}
There is only one {{ name }} object.
{% plural %}
There are {{ counter }} {{ name }} objects.
{% endblocktrans %}
~~~
A more complex example:
~~~
{% blocktrans with amount=article.price count years=i.length %}
That will cost $ {{ amount }} per year.
{% plural %}
That will cost $ {{ amount }} per {{ years }} years.
{% endblocktrans %}
~~~
When you use both the pluralization feature and bind values to local variables in addition to the counter value, keep in mind that the `blocktrans` construct is internally converted to an `ungettext` call. This means the same notes regarding ungettext variables apply.
Reverse URL lookups cannot be carried out within the `blocktrans` and should be retrieved (and stored) beforehand:
~~~
{% url 'path.to.view' arg arg2 as the_url %}
{% blocktrans %}
This is a URL: {{ the_url }}
{% endblocktrans %}
~~~
`{% blocktrans %}` also supports contextual
using the `context` keyword:
~~~
{% blocktrans with name=user.username context "greeting" %}Hi {{ name }}{% endblocktrans %}
~~~
Another feature `{% blocktrans %}` supports is the `trimmed` option. This option will remove newline characters from the beginning and the end of the content of the `{% blocktrans %}` tag, replace any whitespace at the beginning and end of a line and merge all lines into one using a space character to separate them. This is quite useful for indenting the content of a `{% blocktrans %}` tag without having the indentation characters end up in the corresponding entry in the PO file, which makes the translation process easier.
For instance, the following `{% blocktrans %}` tag:
~~~
{% blocktrans trimmed %}
First sentence.
Second paragraph.
{% endblocktrans %}
~~~
will result in the entry `"First sentence. Second paragraph."` in the PO file, compared to `"\n First sentence.\nSecond sentence.\n"`, if the `trimmed` option had not been specified.
### String literals passed to tags and filters
You can translate string literals passed as arguments to tags and filters by using the familiar `_()` syntax:
~~~
{% some_tag _("Page not found") value|yesno:_("yes,no") %}
~~~
In this case, both the tag and the filter will see the translated string, so they dont need to be aware of translations.
Note
In this example, the translation infrastructure will be passed the string `"yes,no"`, not the individual strings `"yes"` and `"no"`. The translated string will need to contain the comma so that the filter parsing code knows how to split up the arguments. For example, a German translator might translate the string`"yes,no"` as `"ja,nein"` (keeping the comma intact).
### Comments for translators in templates
Just like with Python code , these notes for translators can be specified using comments, either with the`comment` tag:
~~~
{% comment %}Translators: View verb{% endcomment %}
{% trans "View" %}
{% comment %}Translators: Short intro blurb{% endcomment %}
<p>{% blocktrans %}A multiline translatable
literal.{% endblocktrans %}</p>
~~~
or with the `{#` … `#}` one-line comment constructs :
~~~
{# Translators: Label of a button that triggers search #}
<button type="submit">{% trans "Go" %}</button>
{# Translators: This is a text of the base template #}
{% blocktrans %}Ambiguous translatable block of text{% endblocktrans %}
~~~
Note
Just for completeness, these are the corresponding fragments of the resulting `.po` file:
~~~
#. Translators: View verb
# path/to/template/file.html:10
msgid "View"
msgstr ""
#. Translators: Short intro blurb
# path/to/template/file.html:13
msgid ""
"A multiline translatable"
"literal."
msgstr ""
# ...
#. Translators: Label of a button that triggers search
# path/to/template/file.html:100
msgid "Go"
msgstr ""
#. Translators: This is a text of the base template
# path/to/template/file.html:103
msgid "Ambiguous translatable block of text"
msgstr ""
~~~
### Switching language in templates
If you want to select a language within a template, you can use the `language` template tag:
~~~
{% load i18n %}
{% get_current_language as LANGUAGE_CODE %}
<!-- Current language: {{ LANGUAGE_CODE }} -->
<p>{% trans "Welcome to our page" %}</p>
{% language 'en' %}
{% get_current_language as LANGUAGE_CODE %}
<!-- Current language: {{ LANGUAGE_CODE }} -->
<p>{% trans "Welcome to our page" %}</p>
{% endlanguage %}
~~~
While the first occurrence of Welcome to our page uses the current language, the second will always be in English.
### Other tags
These tags also require a `{% load i18n %}`.
* `{% get_available_languages as LANGUAGES %}` returns a list of tuples in which the first element is the[language code](http://masteringdjango.com/django-internationalization/#term-language-code) and the second is the language name (translated into the currently active locale).
* `{% get_current_language as LANGUAGE_CODE %}` returns the current users preferred language, as a string. Example: `en-us`. (See how-django-discovers-language-preference.)
* `{% get_current_language_bidi as LANGUAGE_BIDI %}` returns the current locales direction. If True, its a right-to-left language, e.g.: Hebrew, Arabic. If False its a left-to-right language, e.g.: English, French, German etc.
If you enable the `django.template.context_processors.i18n` context processor then each `RequestContext` will have access to `LANGUAGES`, `LANGUAGE_CODE`, and `LANGUAGE_BIDI` as defined above.
The `i18n` context processor is not enabled by default for new projects.
You can also retrieve information about any of the available languages using provided template tags and filters. To get information about a single language, use the `{% get_language_info %}` tag:
~~~
{% get_language_info for LANGUAGE_CODE as lang %}
{% get_language_info for "pl" as lang %}
~~~
You can then access the information:
~~~
Language code: {{ lang.code }}<br />
Name of language: {{ lang.name_local }}<br />
Name in English: {{ lang.name }}<br />
Bi-directional: {{ lang.bidi }}
~~~
You can also use the `{% get_language_info_list %}` template tag to retrieve information for a list of languages (e.g. active languages as specified in `LANGUAGES`). See the section about the set_language redirect view for an example of how to display a language selector using `{% get_language_info_list %}`.
In addition to `LANGUAGES` style list of tuples, `{% get_language_info_list %}` supports simple lists of language codes. If you do this in your view:
~~~
context = {'available_languages': ['en', 'es', 'fr']}
return render(request, 'mytemplate.html', context)
~~~
you can iterate over those languages in the template:
~~~
{% get_language_info_list for available_languages as langs %}
{% for lang in langs %} ... {% endfor %}
~~~
There are also simple filters available for convenience:
* `{{ LANGUAGE_CODE|language_name }}` (German)
* `{{ LANGUAGE_CODE|language_name_local }}` (Deutsch)
* `{{ LANGUAGE_CODE|language_bidi }}` (False)
## Internationalization: in JavaScript code
Adding translations to JavaScript poses some problems:
* JavaScript code doesnt have access to a `gettext` implementation.
* JavaScript code doesnt have access to `.po` or `.mo` files; they need to be delivered by the server.
* The translation catalogs for JavaScript should be kept as small as possible.
Django provides an integrated solution for these problems: It passes the translations into JavaScript, so you can call `gettext`, etc., from within JavaScript.
### The `javascript_catalog` view
`django.views.i18n.``javascript_catalog`(*request*, *domain=’djangojs’*, *packages=None*)
The main solution to these problems is the [`django.views.i18n.javascript_catalog()`](http://masteringdjango.com/django-internationalization/#django.views.i18n.javascript_catalog "django.views.i18n.javascript_catalog") view, which sends out a JavaScript code library with functions that mimic the `gettext` interface, plus an array of translation strings. Those translation strings are taken from applications or Django core, according to what you specify in either the `info_dict` or the URL. Paths listed in `LOCALE_PATHS` are also included.
You hook it up like this:
~~~
from django.views.i18n import javascript_catalog
js_info_dict = {
'packages': ('your.app.package',),
}
urlpatterns = [
url(r'^jsi18n/$', javascript_catalog, js_info_dict),
]
~~~
Each string in `packages` should be in Python dotted-package syntax (the same format as the strings in`INSTALLED_APPS`) and should refer to a package that contains a `locale` directory. If you specify multiple packages, all those catalogs are merged into one catalog. This is useful if you have JavaScript that uses strings from different applications.
The precedence of translations is such that the packages appearing later in the `packages` argument have higher precedence than the ones appearing at the beginning, this is important in the case of clashing translations for the same literal.
By default, the view uses the `djangojs` gettext domain. This can be changed by altering the `domain`argument.
You can make the view dynamic by putting the packages into the URL pattern:
~~~
urlpatterns = [
url(r'^jsi18n/(?P<packages>\S+?)/$', javascript_catalog),
]
~~~
With this, you specify the packages as a list of package names delimited by + signs in the URL. This is especially useful if your pages use code from different apps and this changes often and you dont want to pull in one big catalog file. As a security measure, these values can only be either `django.conf` or any package from the `INSTALLED_APPS` setting.
The JavaScript translations found in the paths listed in the `LOCALE_PATHS` setting are also always included. To keep consistency with the translations lookup order algorithm used for Python and templates, the directories listed in `LOCALE_PATHS` have the highest precedence with the ones appearing first having higher precedence than the ones appearing later.
### Using the JavaScript translation catalog
To use the catalog, just pull in the dynamically generated script like this:
~~~
<script type="text/javascript" src="{% url 'django.views.i18n.javascript_catalog' %}"></script>
~~~
This uses reverse URL lookup to find the URL of the JavaScript catalog view. When the catalog is loaded, your JavaScript code can use the standard `gettext` interface to access it:
~~~
document.write(gettext('this is to be translated'));
~~~
There is also an `ngettext` interface:
~~~
var object_cnt = 1 // or 0, or 2, or 3, ...
s = ngettext('literal for the singular case',
'literal for the plural case', object_cnt);
~~~
and even a string interpolation function:
~~~
function interpolate(fmt, obj, named);
~~~
The interpolation syntax is borrowed from Python, so the `interpolate` function supports both positional and named interpolation:
* Positional interpolation: `obj` contains a JavaScript Array object whose elements values are then sequentially interpolated in their corresponding `fmt` placeholders in the same order they appear. For example:
~~~
fmts = ngettext('There is %s object. Remaining: %s',
'There are %s objects. Remaining: %s', 11);
s = interpolate(fmts, [11, 20]);
// s is 'There are 11 objects. Remaining: 20'
~~~
* Named interpolation: This mode is selected by passing the optional boolean `named` parameter as true. `obj`contains a JavaScript object or associative array. For example:
~~~
d = {
count: 10,
total: 50
};
fmts = ngettext('Total: %(total)s, there is %(count)s object',
'there are %(count)s of a total of %(total)s objects', d.count);
s = interpolate(fmts, d, true);
~~~
You shouldnt go over the top with string interpolation, though: this is still JavaScript, so the code has to make repeated regular-expression substitutions. This isnt as fast as string interpolation in Python, so keep it to those cases where you really need it (for example, in conjunction with `ngettext` to produce proper pluralizations).
### Note on performance
The [`javascript_catalog()`](http://masteringdjango.com/django-internationalization/#django.views.i18n.javascript_catalog "django.views.i18n.javascript_catalog") view generates the catalog from `.mo` files on every request. Since its output is constant at least for a given version of a site its a good candidate for caching.
Server-side caching will reduce CPU load. Its easily implemented with the [`cache_page()`](http://masteringdjango.com/django-internationalization/chapter_17.html#django.views.decorators.cache.cache_page "django.views.decorators.cache.cache_page") decorator. To trigger cache invalidation when your translations change, provide a version-dependent key prefix, as shown in the example below, or map the view at a version-dependent URL.
~~~
from django.views.decorators.cache import cache_page
from django.views.i18n import javascript_catalog
# The value returned by get_version() must change when translations change.
@cache_page(86400, key_prefix='js18n-%s' % get_version())
def cached_javascript_catalog(request, domain='djangojs', packages=None):
return javascript_catalog(request, domain, packages)
~~~
Client-side caching will save bandwidth and make your site load faster. If youre using ETags (`USE_ETAGS =True <USE_ETAGS>`), youre already covered. Otherwise, you can apply conditional decorators . In the following example, the cache is invalidated whenever you restart your application server.
~~~
from django.utils import timezone
from django.views.decorators.http import last_modified
from django.views.i18n import javascript_catalog
last_modified_date = timezone.now()
@last_modified(lambda req, **kw: last_modified_date)
def cached_javascript_catalog(request, domain='djangojs', packages=None):
return javascript_catalog(request, domain, packages)
~~~
You can even pre-generate the javascript catalog as part of your deployment procedure and serve it as a static file. This radical technique is implemented in [django-statici18n](http://django-statici18n.readthedocs.org/en/latest/).
## Internationalization: in URL patterns
Django provides two mechanisms to internationalize URL patterns:
* Adding the language prefix to the root of the URL patterns to make it possible for [`LocaleMiddleware`](http://masteringdjango.com/django-internationalization/chapter_19.html#django.middleware.locale.LocaleMiddleware "django.middleware.locale.LocaleMiddleware") to detect the language to activate from the requested URL.
* Making URL patterns themselves translatable via the `django.utils.translation.ugettext_lazy()` function.
Warning
Using either one of these features requires that an active language be set for each request; in other words, you need to have [`django.middleware.locale.LocaleMiddleware`](http://masteringdjango.com/django-internationalization/chapter_19.html#django.middleware.locale.LocaleMiddleware "django.middleware.locale.LocaleMiddleware") in your `MIDDLEWARE_CLASSES` setting.
### Language prefix in URL patterns
`django.conf.urls.i18n.``i18n_patterns`(*prefix*, *pattern_description*, *…*)
Deprecated since version 1.8: The `prefix` argument to `i18n_patterns()` has been deprecated and will not be supported in Django 2.0\. Simply pass a list of `django.conf.urls.url()` instances instead.
This function can be used in your root URLconf and Django will automatically prepend the current active language code to all url patterns defined within [`i18n_patterns()`](http://masteringdjango.com/django-internationalization/#django.conf.urls.i18n.i18n_patterns "django.conf.urls.i18n.i18n_patterns"). Example URL patterns:
~~~
from django.conf.urls import include, url
from django.conf.urls.i18n import i18n_patterns
from about import views as about_views
from news import views as news_views
from sitemap.views import sitemap
urlpatterns = [
url(r'^sitemap\.xml$', sitemap, name='sitemap_xml'),
]
news_patterns = [
url(r'^$', news_views.index, name='index'),
url(r'^category/(?P<slug>[\w-]+)/$', news_views.category, name='category'),
url(r'^(?P<slug>[\w-]+)/$', news_views.details, name='detail'),
]
urlpatterns += i18n_patterns(
url(r'^about/$', about_views.main, name='about'),
url(r'^news/', include(news_patterns, namespace='news')),
)
~~~
After defining these URL patterns, Django will automatically add the language prefix to the URL patterns that were added by the `i18n_patterns` function. Example:
~~~
from django.core.urlresolvers import reverse
from django.utils.translation import activate
>>> activate('en')
>>> reverse('sitemap_xml')
'/sitemap.xml'
>>> reverse('news:index')
'/en/news/'
>>> activate('nl')
>>> reverse('news:detail', kwargs={'slug': 'news-slug'})
'/nl/news/news-slug/'
~~~
Warning
[`i18n_patterns()`](http://masteringdjango.com/django-internationalization/#django.conf.urls.i18n.i18n_patterns "django.conf.urls.i18n.i18n_patterns") is only allowed in your root URLconf. Using it within an included URLconf will throw an`ImproperlyConfigured` exception.
Warning
Ensure that you dont have non-prefixed URL patterns that might collide with an automatically-added language prefix.
### Translating URL patterns
URL patterns can also be marked translatable using the `ugettext_lazy()` function. Example:
~~~
from django.conf.urls import include, url
from django.conf.urls.i18n import i18n_patterns
from django.utils.translation import ugettext_lazy as _
from about import views as about_views
from news import views as news_views
from sitemaps.views import sitemap
urlpatterns = [
url(r'^sitemap\.xml$', sitemap, name='sitemap_xml'),
]
news_patterns = [
url(r'^$', news_views.index, name='index'),
url(_(r'^category/(?P<slug>[\w-]+)/$'), news_views.category, name='category'),
url(r'^(?P<slug>[\w-]+)/$', news_views.details, name='detail'),
]
urlpatterns += i18n_patterns(
url(_(r'^about/$'), about_views.main, name='about'),
url(_(r'^news/'), include(news_patterns, namespace='news')),
)
~~~
After youve created the translations, the `reverse()` function will return the URL in the active language. Example:
~~~
from django.core.urlresolvers import reverse
from django.utils.translation import activate
>>> activate('en')
>>> reverse('news:category', kwargs={'slug': 'recent'})
'/en/news/category/recent/'
>>> activate('nl')
>>> reverse('news:category', kwargs={'slug': 'recent'})
'/nl/nieuws/categorie/recent/'
~~~
Warning
In most cases, its best to use translated URLs only within a language-code-prefixed block of patterns (using [`i18n_patterns()`](http://masteringdjango.com/django-internationalization/#django.conf.urls.i18n.i18n_patterns "django.conf.urls.i18n.i18n_patterns")), to avoid the possibility that a carelessly translated URL causes a collision with a non-translated URL pattern.
### Reversing in templates
If localized URLs get reversed in templates they always use the current language. To link to a URL in another language use the `language` template tag. It enables the given language in the enclosed template section:
~~~
{% load i18n %}
{% get_available_languages as languages %}
{% trans "View this category in:" %}
{% for lang_code, lang_name in languages %}
{% language lang_code %}
<a href="{% url 'category' slug=category.slug %}">{{ lang_name }}</a>
{% endlanguage %}
{% endfor %}
~~~
The `language` tag expects the language code as the only argument.
## Localization: how to create language files
Once the string literals of an application have been tagged for later translation, the translation themselves need to be written (or obtained). Heres how that works.
### Message files
The first step is to create a [message file](http://masteringdjango.com/django-internationalization/#term-message-file) for a new language. A message file is a plain-text file, representing a single language, that contains all available translation strings and how they should be represented in the given language. Message files have a `.po` file extension.
Django comes with a tool, django-admin makemessages , that automates the creation and upkeep of these files.
Gettext utilities
The `makemessages` command (and `compilemessages` discussed later) use commands from the GNU gettext toolset: `xgettext`, `msgfmt`, `msgmerge` and `msguniq`.
The minimum version of the `gettext` utilities supported is 0.15.
To create or update a message file, run this command:
~~~
django-admin makemessages -l de
~~~
…where `de` is the [locale name](http://masteringdjango.com/django-internationalization/#term-locale-name) for the message file you want to create. For example, `pt_BR` for Brazilian Portuguese, `de_AT` for Austrian German or `id` for Indonesian.
The script should be run from one of two places:
* The root directory of your Django project (the one that contains `manage.py`).
* The root directory of one of your Django apps.
The script runs over your project source tree or your application source tree and pulls out all strings marked for translation (see how-django-discovers-translations and be sure `LOCALE_PATHS` is configured correctly). It creates (or updates) a message file in the directory `locale/LANG/LC_MESSAGES`. In the `de` example, the file will be `locale/de/LC_MESSAGES/django.po`.
When you run `makemessages` from the root directory of your project, the extracted strings will be automatically distributed to the proper message files. That is, a string extracted from a file of an app containing a `locale` directory will go in a message file under that directory. A string extracted from a file of an app without any `locale` directory will either go in a message file under the directory listed first in`LOCALE_PATHS` or will generate an error if `LOCALE_PATHS` is empty.
By default django-admin makemessages examines every file that has the `.html` or `.txt` file extension. In case you want to override that default, use the `--extension` or `-e` option to specify the file extensions to examine:
~~~
django-admin makemessages -l de -e txt
~~~
Separate multiple extensions with commas and/or use `-e` or `--extension` multiple times:
~~~
django-admin makemessages -l de -e html,txt -e xml
~~~
Warning
When creating message files from JavaScript source code you need to use the special djangojs domain, not`-e js`.
No gettext?
If you dont have the `gettext` utilities installed, `makemessages` will create empty files. If thats the case, either install the `gettext` utilities or just copy the English message file (`locale/en/LC_MESSAGES/django.po`) if available and use it as a starting point; its just an empty translation file.
Working on Windows?
If youre using Windows and need to install the GNU gettext utilities so `makemessages` works, see gettext_on_windows for more information.
The format of `.po` files is straightforward. Each `.po` file contains a small bit of metadata, such as the translation maintainers contact information, but the bulk of the file is a list of messages simple mappings between translation strings and the actual translated text for the particular language.
For example, if your Django app contained a translation string for the text `"Welcome to my site."`, like so:
~~~
_("Welcome to my site.")
~~~
…then django-admin makemessages will have created a `.po` file containing the following snippet a message:
~~~
#: path/to/python/module.py:23
msgid "Welcome to my site."
msgstr ""
~~~
A quick explanation:
* `msgid` is the translation string, which appears in the source. Dont change it.
* `msgstr` is where you put the language-specific translation. It starts out empty, so its your responsibility to change it. Make sure you keep the quotes around your translation.
* As a convenience, each message includes, in the form of a comment line prefixed with `#` and located above the `msgid` line, the filename and line number from which the translation string was gleaned.
Long messages are a special case. There, the first string directly after the `msgstr` (or `msgid`) is an empty string. Then the content itself will be written over the next few lines as one string per line. Those strings are directly concatenated. Dont forget trailing spaces within the strings; otherwise, theyll be tacked together without whitespace!
Mind your charset
Due to the way the `gettext` tools work internally and because we want to allow non-ASCII source strings in Djangos core and your applications, you must use UTF-8 as the encoding for your PO files (the default when PO files are created). This means that everybody will be using the same encoding, which is important when Django processes the PO files.
To reexamine all source code and templates for new translation strings and update all message files for alllanguages, run this:
~~~
django-admin makemessages -a
~~~
### Compiling message files
After you create your message file and each time you make changes to it youll need to compile it into a more efficient form, for use by `gettext`. Do this with the django-admin compilemessages utility.
This tool runs over all available `.po` files and creates `.mo` files, which are binary files optimized for use by`gettext`. In the same directory from which you ran django-admin makemessages , run django-admin compilemessages like this:
~~~
django-admin compilemessages
~~~
Thats it. Your translations are ready for use.
Working on Windows?
If youre using Windows and need to install the GNU gettext utilities so django-admin compilemessages works see gettext_on_windows for more information.
.po files: Encoding and BOM usage.
Django only supports `.po` files encoded in UTF-8 and without any BOM (Byte Order Mark) so if your text editor adds such marks to the beginning of files by default then you will need to reconfigure it.
### Creating message files from JavaScript source code
You create and update the message files the same way as the other Django message files with the django-admin makemessages tool. The only difference is you need to explicitly specify what in gettext parlance is known as a domain in this case the `djangojs` domain, by providing a `-d djangojs` parameter, like this:
~~~
django-admin makemessages -d djangojs -l de
~~~
This would create or update the message file for JavaScript for German. After updating message files, just run django-admin compilemessages the same way as you do with normal Django message files.
### `gettext` on Windows
This is only needed for people who either want to extract message IDs or compile message files (`.po`). Translation work itself just involves editing existing files of this type, but if you want to create your own message files, or want to test or compile a changed message file, you will need the `gettext` utilities:
* Download the following zip files from the GNOME servers[https://download.gnome.org/binaries/win32/dependencies/](https://download.gnome.org/binaries/win32/dependencies/)
* `gettext-runtime-X.zip`
* `gettext-tools-X.zip`
`X` is the version number, we are requiring `0.15` or higher.
* Extract the contents of the `bin\` directories in both files to the same folder on your system (i.e. `C:\ProgramFiles\gettext-utils`)
* Update the system PATH:
* `Control Panel > System > Advanced > Environment Variables`.
* In the `System variables` list, click `Path`, click `Edit`.
* Add `;C:\Program Files\gettext-utils\bin` at the end of the `Variable value` field.
You may also use `gettext` binaries you have obtained elsewhere, so long as the `xgettext --version` command works properly. Do not attempt to use Django translation utilities with a `gettext` package if the command`xgettext --version` entered at a Windows command prompt causes a popup window saying xgettext.exe has generated errors and will be closed by Windows.
### Customizing the `makemessages` command
If you want to pass additional parameters to `xgettext`, you need to create a custom `makemessages` command and override its `xgettext_options` attribute:
~~~
from django.core.management.commands import makemessages
class Command(makemessages.Command):
xgettext_options = makemessages.Command.xgettext_options + ['--keyword=mytrans']
~~~
If you need more flexibility, you could also add a new argument to your custom `makemessages` command:
~~~
from django.core.management.commands import makemessages
class Command(makemessages.Command):
def add_arguments(self, parser):
super(Command, self).add_arguments(parser)
parser.add_argument('--extra-keyword', dest='xgettext_keywords',
action='append')
def handle(self, *args, **options):
xgettext_keywords = options.pop('xgettext_keywords')
if xgettext_keywords:
self.xgettext_options = (
makemessages.Command.xgettext_options[:] +
['--keyword=%s' % kwd for kwd in xgettext_keywords]
)
super(Command, self).handle(*args, **options)
~~~
## Miscellaneous
### The `set_language` redirect view
`django.views.i18n.``set_language`(*request*)
As a convenience, Django comes with a view, [`django.views.i18n.set_language()`](http://masteringdjango.com/django-internationalization/#django.views.i18n.set_language "django.views.i18n.set_language"), that sets a users language preference and redirects to a given URL or, by default, back to the previous page.
Activate this view by adding the following line to your URLconf:
~~~
url(r'^i18n/', include('django.conf.urls.i18n')),
~~~
(Note that this example makes the view available at `/i18n/setlang/`.)
Warning
Make sure that you dont include the above URL within [`i18n_patterns()`](http://masteringdjango.com/django-internationalization/#django.conf.urls.i18n.i18n_patterns "django.conf.urls.i18n.i18n_patterns") – it needs to be language-independent itself to work correctly.
The view expects to be called via the `POST` method, with a `language` parameter set in request. If session support is enabled, the view saves the language choice in the users session. Otherwise, it saves the language choice in a cookie that is by default named `django_language`. (The name can be changed through the `LANGUAGE_COOKIE_NAME` setting.)
After setting the language choice, Django redirects the user, following this algorithm:
* Django looks for a `next` parameter in the `POST` data.
* If that doesnt exist, or is empty, Django tries the URL in the `Referrer` header.
* If thats empty say, if a users browser suppresses that header then the user will be redirected to `/` (the site root) as a fallback.
Heres example HTML template code:
~~~
{% load i18n %}
<form action="{% url 'set_language' %}" method="post">
{% csrf_token %}
<input name="next" type="hidden" value="{{ redirect_to }}" />
<select name="language">
{% get_current_language as LANGUAGE_CODE %}
{% get_available_languages as LANGUAGES %}
{% get_language_info_list for LANGUAGES as languages %}
{% for language in languages %}
<option value="{{ language.code }}"{% if language.code == LANGUAGE_CODE %} selected="selected"{% endif %}>
{{ language.name_local }} ({{ language.code }})
</option>
{% endfor %}
</select>
<input type="submit" value="Go" />
</form>
~~~
In this example, Django looks up the URL of the page to which the user will be redirected in the`redirect_to` context variable.
### Explicitly setting the active language
You may want to set the active language for the current session explicitly. Perhaps a users language preference is retrieved from another system, for example. Youve already been introduced to`django.utils.translation.activate()`. That applies to the current thread only. To persist the language for the entire session, also modify `LANGUAGE_SESSION_KEY` in the session:
~~~
from django.utils import translation
user_language = 'fr'
translation.activate(user_language)
request.session[translation.LANGUAGE_SESSION_KEY] = user_language
~~~
You would typically want to use both: `django.utils.translation.activate()` will change the language for this thread, and modifying the session makes this preference persist in future requests.
If you are not using sessions, the language will persist in a cookie, whose name is configured in`LANGUAGE_COOKIE_NAME`. For example:
~~~
from django.utils import translation
from django import http
from django.conf import settings
user_language = 'fr'
translation.activate(user_language)
response = http.HttpResponse(...)
response.set_cookie(settings.LANGUAGE_COOKIE_NAME, user_language)
~~~
### Using translations outside views and templates
While Django provides a rich set of i18n tools for use in views and templates, it does not restrict the usage to Django-specific code. The Django translation mechanisms can be used to translate arbitrary texts to any language that is supported by Django (as long as an appropriate translation catalog exists, of course). You can load a translation catalog, activate it and translate text to language of your choice, but remember to switch back to original language, as activating a translation catalog is done on per-thread basis and such change will affect code running in the same thread.
For example:
~~~
from django.utils import translation
def welcome_translated(language):
cur_language = translation.get_language()
try:
translation.activate(language)
text = translation.ugettext('welcome')
finally:
translation.activate(cur_language)
return text
~~~
Calling this function with the value de will give you `"Willkommen"`, regardless of `LANGUAGE_CODE` and language set by middleware.
Functions of particular interest are `django.utils.translation.get_language()` which returns the language used in the current thread, `django.utils.translation.activate()` which activates a translation catalog for the current thread, and `django.utils.translation.check_for_language()` which checks if the given language is supported by Django.
### Language cookie
A number of settings can be used to adjust language cookie options:
* `LANGUAGE_COOKIE_NAME`
* `LANGUAGE_COOKIE_AGE`
* `LANGUAGE_COOKIE_DOMAIN`
* `LANGUAGE_COOKIE_PATH`
## Implementation notes
### Specialties of Django translation
Djangos translation machinery uses the standard `gettext` module that comes with Python. If you know`gettext`, you might note these specialties in the way Django does translation:
* The string domain is `django` or `djangojs`. This string domain is used to differentiate between different programs that store their data in a common message-file library (usually `/usr/share/locale/`). The `django`domain is used for python and template translation strings and is loaded into the global translation catalogs. The `djangojs` domain is only used for JavaScript translation catalogs to make sure that those are as small as possible.
* Django doesnt use `xgettext` alone. It uses Python wrappers around `xgettext` and `msgfmt`. This is mostly for convenience.
### How Django discovers language preference
Once youve prepared your translations or, if you just want to use the translations that come with Django youll just need to activate translation for your app.
Behind the scenes, Django has a very flexible model of deciding which language should be used installation-wide, for a particular user, or both.
To set an installation-wide language preference, set `LANGUAGE_CODE`. Django uses this language as the default translation the final attempt if no better matching translation is found through one of the methods employed by the locale middleware (see below).
If all you want is to run Django with your native language all you need to do is set `LANGUAGE_CODE` and make sure the corresponding [message files](http://masteringdjango.com/django-internationalization/#term-message-file) and their compiled versions (`.mo`) exist.
If you want to let each individual user specify which language they prefer, then you also need to use the`LocaleMiddleware`. `LocaleMiddleware` enables language selection based on data from the request. It customizes content for each user.
To use `LocaleMiddleware`, add `'django.middleware.locale.LocaleMiddleware'` to your `MIDDLEWARE_CLASSES` setting. Because middleware order matters, you should follow these guidelines:
* Make sure its one of the first middlewares installed.
* It should come after `SessionMiddleware`, because `LocaleMiddleware` makes use of session data. And it should come before `CommonMiddleware` because `CommonMiddleware` needs an activated language in order to resolve the requested URL.
* If you use `CacheMiddleware`, put `LocaleMiddleware` after it.
For example, your `MIDDLEWARE_CLASSES` might look like this:
~~~
MIDDLEWARE_CLASSES = [
'django.contrib.sessions.middleware.SessionMiddleware',
'django.middleware.locale.LocaleMiddleware',
'django.middleware.common.CommonMiddleware',
]
~~~
(For more on middleware, see the middleware documentation.
`LocaleMiddleware` tries to determine the users language preference by following this algorithm:
* First, it looks for the language prefix in the requested URL. This is only performed when you are using the`i18n_patterns` function in your root URLconf. See url-internationalization for more information about the language prefix and how to internationalize URL patterns.
* Failing that, it looks for the `LANGUAGE_SESSION_KEY` key in the current users session.
* Failing that, it looks for a cookie.
The name of the cookie used is set by the `LANGUAGE_COOKIE_NAME` setting. (The default name is`django_language`.)
* Failing that, it looks at the `Accept-Language` HTTP header. This header is sent by your browser and tells the server which language(s) you prefer, in order by priority. Django tries each language in the header until it finds one with available translations.
* Failing that, it uses the global `LANGUAGE_CODE` setting.
Notes:
* In each of these places, the language preference is expected to be in the standard [language format](http://masteringdjango.com/django-internationalization/#term-language-code), as a string. For example, Brazilian Portuguese is `pt-br`.
* If a base language is available but the sublanguage specified is not, Django uses the base language. For example, if a user specifies `de-at` (Austrian German) but Django only has `de` available, Django uses `de`.
* Only languages listed in the `LANGUAGES` setting can be selected. If you want to restrict the language selection to a subset of provided languages (because your application doesnt provide all those languages), set `LANGUAGES` to a list of languages. For example:
~~~
LANGUAGES = [
('de', _('German')),
('en', _('English')),
]
~~~
This example restricts languages that are available for automatic selection to German and English (and any sublanguage, like de-ch or en-us).
* If you define a custom `LANGUAGES` setting, as explained in the previous bullet, you can mark the language names as translation strings but use `ugettext_lazy()` instead of `ugettext()` to avoid a circular import.
Heres a sample settings file:
~~~
from django.utils.translation import ugettext_lazy as _
LANGUAGES = [
('de', _('German')),
('en', _('English')),
]
~~~
Once `LocaleMiddleware` determines the users preference, it makes this preference available as`request.LANGUAGE_CODE` for each `HttpRequest`. Feel free to read this value in your view code. Heres a simple example:
~~~
from django.http import HttpResponse
def hello_world(request, count):
if request.LANGUAGE_CODE == 'de-at':
return HttpResponse("You prefer to read Austrian German.")
else:
return HttpResponse("You prefer to read another language.")
~~~
Note that, with static (middleware-less) translation, the language is in `settings.LANGUAGE_CODE`, while with dynamic (middleware) translation, its in `request.LANGUAGE_CODE`.
### How Django discovers translations
At runtime, Django builds an in-memory unified catalog of literals-translations. To achieve this it looks for translations by following this algorithm regarding the order in which it examines the different file paths to load the compiled [message files](http://masteringdjango.com/django-internationalization/#term-message-file) (`.mo`) and the precedence of multiple translations for the same literal:
1. The directories listed in `LOCALE_PATHS` have the highest precedence, with the ones appearing first having higher precedence than the ones appearing later.
2. Then, it looks for and uses if it exists a `locale` directory in each of the installed apps listed in`INSTALLED_APPS`. The ones appearing first have higher precedence than the ones appearing later.
3. Finally, the Django-provided base translation in `django/conf/locale` is used as a fallback.
See also
The translations for literals included in JavaScript assets are looked up following a similar but not identical algorithm. See the javascript_catalog view documentation for more details.
In all cases the name of the directory containing the translation is expected to be named using [locale name](http://masteringdjango.com/django-internationalization/#term-locale-name) notation. E.g. `de`, `pt_BR`, `es_AR`, etc.
This way, you can write applications that include their own translations, and you can override base translations in your project. Or, you can just build a big project out of several apps and put all translations into one big common message file specific to the project you are composing. The choice is yours.
All message file repositories are structured the same way. They are:
* All paths listed in `LOCALE_PATHS` in your settings file are searched for `<language>/LC_MESSAGES/django.(po|mo)`
* `$APPPATH/locale/<language>/LC_MESSAGES/django.(po|mo)`
* `$PYTHONPATH/django/conf/locale/<language>/LC_MESSAGES/django.(po|mo)`
To create message files, you use the django-admin makemessages tool. And you use django-admin compilemessages to produce the binary `.mo` files that are used by `gettext`.
You can also run django-admin compilemessages to make the compiler process all the directories in your`LOCALE_PATHS` setting.
- perface
- Front Matter
- Introduction
- Introduction to Django
- Chapter 1: Getting Started
- Chapter 2: Views and URLconfs
- Chapter 3: Templates
- Chapter 4: Models
- Chapter 5: The Django Admin Site
- Chapter 6: Forms
- Chapter 7: Advanced Views and URLconfs
- Chapter 8: Advanced Templates
- Chapter 9: Advanced Models
- Chapter 10: Generic Views
- Chapter 11: User Authentication in Django
- Chapter 12 – testing in Django
- Chapter 13: Deploying Django
- Chapter 14 – How to write reusable apps
- Chapter 15: Generating Non-HTML Content
- Chapter 16 – Django sessions
- Chapter 17 – Django’s cache framework
- Chapter 18 – Other core Django functionalities
- Chapter 19 – Django Middleware
- Chapter 20: Internationalization
- Chapter 21: Security in Django
- Chapter 22: How to install Django
- Chapter 23: Advanced database management
- Appendix A: Model Definition Reference
- Appendix B: Database API Reference
- Appendix C: Generic View Reference
- Appendix D: Settings
- Appendix E: Built-in Template Tags and Filters
- Appendix F: The django-admin Utility
- Appendix G: Request and Response Objects
- License & Copyright