.. module:: jingo
Jingo is an adapter for using Jinja2 templates within Django.
In version 1.8, Django added support for multiple template engines, and provided a Jinja2 backend. The django-jinja project leverages that to support Jinja2, while Jingo does not.
django-jinja is recommended for new projects. Jingo >=0.8 supports Django 1.8, but it will not be maintained beyond version 0.9, and will not support Django 1.9 or above. If you're already using Jingo, and not ready to make the switch, Jingo should continue to work for now, though not without some effort.
0.9 will be the last release of Jingo, unless a new maintainer comes along with a new direction.
As of 0.9, Jingo's built-in helpers are provided via a Jinja2 extension to
simplify moving away from Jingo. The entire jingo/ext.py
file can be copied
into another project, or referenced as 'jingo.ext.JingoExtension'
. Used in
this way, Jingo plays nicely with django-jinja (and theoretically Django's
built-in Jinja2 backend).
When configured properly (see Settings below) you can render Jinja2 templates in your view the same way you'd render Django templates:
from django.shortcuts import render def my_view(request): context = dict(user_ids=(1, 2, 3, 4)) return render(request, 'users/search.html', context)
Note
Not only does django.shorcuts.render
work, but so does any method that
Django provides to render templates.
You'll want to use Django to use jingo's template loader.
In settings.py
:
TEMPLATE_LOADERS = ( 'jingo.Loader', 'django.template.loaders.filesystem.Loader', 'django.template.loaders.app_directories.Loader', )
This will let you use django.shortcuts.render
or
django.shortcuts.render_to_response
.
You can optionally specify which filename patterns to consider Jinja2 templates:
JINGO_INCLUDE_PATTERN = r'\.jinja2' # use any regular expression here
This will consider every template file that contains the substring .jinja2 to be a Jinja2 file (unless it's in a module explicitly excluded, see below).
And finally you may have apps that do not use Jinja2, these must be excluded from the loader:
JINGO_EXCLUDE_APPS = ('debug_toolbar',)
If a template path begins with debug_toolbar
, the Jinja loader will raise a
TemplateDoesNotExist
exception. This causes Django to move onto the next
loader in TEMPLATE_LOADERS
to find a template - in this case,
django.template.loaders.filesystem.Loader
.
Note
Technically, we're looking at the template path, not the app. Often these are the same, but in some cases, like 'registration' in the default setting--which is an admin template--they are not.
The default is in jingo.EXCLUDE_APPS
:
EXCLUDE_APPS = ( 'admin', 'admindocs', 'registration', 'context_processors', )
.. versionchanged:: 0.6.2 Added ``context_processors`` application.
If you want to configure the Jinja environment, use JINJA_CONFIG
in
settings.py
. It can be a dict or a function that returns a dict.
JINJA_CONFIG = {'autoescape': False}
or:
def JINJA_CONFIG(): return {'the_answer': 41 + 1}
If you set the extensions
key in the configuration, you must
include jingo.ext.JingoExtension
to get Jingo's built-in template
helpers (see below).
Note
In the interest of future-proofing, consider writing custom filters and
functions as Jinja extensions. See jingo/ext.py
for a simple example.
Instead of template tags, Jinja encourages you to add functions and filters to
the templating environment. In jingo
, we call these helpers. When the
Jinja environment is initialized, jingo
will try to open a helpers.py
file from every app in INSTALLED_APPS
. Two decorators are provided to ease
the environment extension:
.. function:: jingo.register.filter Adds the decorated function to Jinja's filter library.
.. function:: jingo.register.function Adds the decorated function to Jinja's global namespace.
Helpers are available in all templates automatically, without any extra
loading. See jingo/ext.py
for their definitions.
A single Jinja Environment
is created for use in all templates. This is
available via jingo.get_env()
if you need to work with the Environment
.
Since we all love L10n, let's see what it looks like in Jinja templates:
<h2>{{ _('Reviews for {0}')|f(addon.name) }}</h2>
The simple way is to use the familiar underscore and string within a {{ }}
moustache block. f
is an interpolation filter documented below. Sphinx
could create a link if I knew how to do that.
The other method uses Jinja's trans
tag:
{% trans user=review.user|user_link, date=review.created|datetime %} by {{ user }} on {{ date }} {% endtrans %}
trans
is nice when you have a lot of text or want to inject some variables
directly. Both methods are useful, pick the one that makes you happy.
Django marks its form HTML "safe" according to its own rules, which Jinja2 does not recognize.
This monkeypatches Django to support the __html__
protocol used in Jinja2
templates. Form
, BoundField
, ErrorList
, and other form objects that
render HTML through their __unicode__
method are extended with __html__
so they can be rendered in Jinja2 templates without adding |safe
.
Call the patch()
function to execute the patch. It must be called
before django.forms
is imported for the conditional_escape patch to work
properly. The root URLconf is the recommended location for calling patch()
.
Usage:
import jingo.monkey jingo.monkey.patch()
To run the test suite, you need to define DJANGO_SETTINGS_MODULE
first:
$ export DJANGO_SETTINGS_MODULE="fake_settings" $ nosetests
or simply run:
$ python run_tests.py
To test on all supported versions of Python and Django:
$ pip install tox $ tox