django/docs/topics/http/urls.txt

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==============
URL dispatcher
==============
A clean, elegant URL scheme is an important detail in a high-quality Web
application. Django lets you design URLs however you want, with no framework
limitations.
There's no ``.php`` or ``.cgi`` required, and certainly none of that
``0,2097,1-1-1928,00`` nonsense.
See `Cool URIs don't change`_, by World Wide Web creator Tim Berners-Lee, for
excellent arguments on why URLs should be clean and usable.
.. _Cool URIs don't change: https://www.w3.org/Provider/Style/URI
Overview
========
To design URLs for an app, you create a Python module informally called a
**URLconf** (URL configuration). This module is pure Python code and is a
mapping between URL path expressions to Python functions (your views).
This mapping can be as short or as long as needed. It can reference other
mappings. And, because it's pure Python code, it can be constructed
dynamically.
Django also provides a way to translate URLs according to the active
language. See the :ref:`internationalization documentation
<url-internationalization>` for more information.
.. _how-django-processes-a-request:
How Django processes a request
==============================
When a user requests a page from your Django-powered site, this is the
algorithm the system follows to determine which Python code to execute:
1. Django determines the root URLconf module to use. Ordinarily,
this is the value of the :setting:`ROOT_URLCONF` setting, but if the incoming
``HttpRequest`` object has a :attr:`~django.http.HttpRequest.urlconf`
attribute (set by middleware), its value will be used in place of the
:setting:`ROOT_URLCONF` setting.
2. Django loads that Python module and looks for the variable
``urlpatterns``. This should be a Python list of :func:`django.urls.path`
and/or :func:`django.urls.re_path` instances.
3. Django runs through each URL pattern, in order, and stops at the first
one that matches the requested URL.
4. Once one of the URL patterns matches, Django imports and calls the given
view, which is a simple Python function (or a :doc:`class-based view
</topics/class-based-views/index>`). The view gets passed the following
arguments:
* An instance of :class:`~django.http.HttpRequest`.
* If the matched URL pattern returned no named groups, then the
matches from the regular expression are provided as positional arguments.
* The keyword arguments are made up of any named parts matched by the
path expression, overridden by any arguments specified in the optional
``kwargs`` argument to :func:`django.urls.path` or
:func:`django.urls.re_path`.
5. If no URL pattern matches, or if an exception is raised during any
point in this process, Django invokes an appropriate
error-handling view. See `Error handling`_ below.
Example
=======
Here's a sample URLconf::
from django.urls import path
from . import views
urlpatterns = [
path('articles/2003/', views.special_case_2003),
path('articles/<int:year>/', views.year_archive),
path('articles/<int:year>/<int:month>/', views.month_archive),
path('articles/<int:year>/<int:month>/<slug:slug>/', views.article_detail),
]
Notes:
* To capture a value from the URL, use angle brackets.
* Captured values can optionally include a converter type. For example, use
``<int:name>`` to capture an integer parameter. If a converter isn't included,
any string, excluding a ``/`` character, is matched.
* There's no need to add a leading slash, because every URL has that. For
example, it's ``articles``, not ``/articles``.
Example requests:
* A request to ``/articles/2005/03/`` would match the third entry in the
list. Django would call the function
``views.month_archive(request, year=2005, month=3)``.
* ``/articles/2003/`` would match the first pattern in the list, not the
second one, because the patterns are tested in order, and the first one
is the first test to pass. Feel free to exploit the ordering to insert
special cases like this. Here, Django would call the function
``views.special_case_2003(request)``
* ``/articles/2003`` would not match any of these patterns, because each
pattern requires that the URL end with a slash.
* ``/articles/2003/03/building-a-django-site/`` would match the final
pattern. Django would call the function
``views.article_detail(request, year=2003, month=3, slug="building-a-django-site")``.
Path converters
===============
The following path converters are available by default:
* ``str`` - Matches any non-empty string, excluding the path separator, ``'/'``.
This is the default if a converter isn't included in the expression.
* ``int`` - Matches zero or any positive integer. Returns an `int`.
* ``slug`` - Matches any slug string consisting of ASCII letters or numbers,
plus the hyphen and underscore characters. For example,
``building-your-1st-django-site``.
* ``uuid`` - Matches a formatted UUID. To prevent multiple URLs from mapping to
the same page, dashes must be included and letters must be lowercase. For
example, ``075194d3-6885-417e-a8a8-6c931e272f00``. Returns a
:class:`~uuid.UUID` instance.
* ``path`` - Matches any non-empty string, including the path separator,
``'/'``. This allows you to match against a complete URL path rather than
just a segment of a URL path as with ``str``.
.. _registering-custom-path-converters:
Registering custom path converters
==================================
For more complex matching requirements, you can define your own path converters.
A converter is a class that includes the following:
* A ``regex`` class attribute, as a string.
* A ``to_python(self, value)`` method, which handles converting the matched
string into the type that should be passed to the view function. It should
raise ``ValueError`` if it can't convert the given value.
* A ``to_url(self, value)`` method, which handles converting the Python type
into a string to be used in the URL.
For example::
class FourDigitYearConverter:
regex = '[0-9]{4}'
def to_python(self, value):
return int(value)
def to_url(self, value):
return '%04d' % value
Register custom converter classes in your URLconf using
:func:`~django.urls.register_converter`::
from django.urls import register_converter, path
from . import converters, views
register_converter(converters.FourDigitYearConverter, 'yyyy')
urlpatterns = [
path('articles/2003/', views.special_case_2003),
path('articles/<yyyy:year>/', views.year_archive),
...
]
Using regular expressions
=========================
If the paths and converters syntax isn't sufficient for defining your URL
patterns, you can also use regular expressions. To do so, use
:func:`~django.urls.re_path` instead of :func:`~django.urls.path`.
In Python regular expressions, the syntax for named regular expression groups
is ``(?P<name>pattern)``, where ``name`` is the name of the group and
``pattern`` is some pattern to match.
Here's the example URLconf from earlier, rewritten using regular expressions::
from django.urls import path, re_path
from . import views
urlpatterns = [
path('articles/2003/', views.special_case_2003),
re_path(r'^articles/(?P<year>[0-9]{4})/$', views.year_archive),
re_path(r'^articles/(?P<year>[0-9]{4})/(?P<month>[0-9]{2})/$', views.month_archive),
re_path(r'^articles/(?P<year>[0-9]{4})/(?P<month>[0-9]{2})/(?P<slug>[\w-]+)/$', views.article_detail),
]
This accomplishes roughly the same thing as the previous example, except:
* The exact URLs that will match are slightly more constrained. For example,
the year 10000 will no longer match since the year integers are constrained
to be exactly four digits long.
* Each captured argument is sent to the view as a string, regardless of what
sort of match the regular expression makes.
When switching from using :func:`~django.urls.path` to
:func:`~django.urls.re_path` or vice versa, it's particularly important to be
aware that the type of the view arguments may change, and so you may need to
adapt your views.
Using unnamed regular expression groups
---------------------------------------
As well as the named group syntax, e.g. ``(?P<year>[0-9]{4})``, you can
also use the shorter unnamed group, e.g. ``([0-9]{4})``.
This usage isn't particularly recommended as it makes it easier to accidentally
introduce errors between the intended meaning of a match and the arguments
of the view.
In either case, using only one style within a given regex is recommended. When
both styles are mixed, any unnamed groups are ignored and only named groups are
passed to the view function.
Nested arguments
----------------
Regular expressions allow nested arguments, and Django will resolve them and
pass them to the view. When reversing, Django will try to fill in all outer
captured arguments, ignoring any nested captured arguments. Consider the
following URL patterns which optionally take a page argument::
from django.urls import re_path
urlpatterns = [
re_path(r'^blog/(page-(\d+)/)?$', blog_articles), # bad
re_path(r'^comments/(?:page-(?P<page_number>\d+)/)?$', comments), # good
]
Both patterns use nested arguments and will resolve: for example,
``blog/page-2/`` will result in a match to ``blog_articles`` with two
positional arguments: ``page-2/`` and ``2``. The second pattern for
``comments`` will match ``comments/page-2/`` with keyword argument
``page_number`` set to 2. The outer argument in this case is a non-capturing
argument ``(?:...)``.
The ``blog_articles`` view needs the outermost captured argument to be reversed,
``page-2/`` or no arguments in this case, while ``comments`` can be reversed
with either no arguments or a value for ``page_number``.
Nested captured arguments create a strong coupling between the view arguments
and the URL as illustrated by ``blog_articles``: the view receives part of the
URL (``page-2/``) instead of only the value the view is interested in. This
coupling is even more pronounced when reversing, since to reverse the view we
need to pass the piece of URL instead of the page number.
As a rule of thumb, only capture the values the view needs to work with and
use non-capturing arguments when the regular expression needs an argument but
the view ignores it.
What the URLconf searches against
=================================
The URLconf searches against the requested URL, as a normal Python string. This
does not include GET or POST parameters, or the domain name.
For example, in a request to ``https://www.example.com/myapp/``, the URLconf
will look for ``myapp/``.
In a request to ``https://www.example.com/myapp/?page=3``, the URLconf will look
for ``myapp/``.
The URLconf doesn't look at the request method. In other words, all request
methods -- ``POST``, ``GET``, ``HEAD``, etc. -- will be routed to the same
function for the same URL.
Specifying defaults for view arguments
======================================
A convenient trick is to specify default parameters for your views' arguments.
Here's an example URLconf and view::
# URLconf
from django.urls import path
from . import views
urlpatterns = [
path('blog/', views.page),
path('blog/page<int:num>/', views.page),
]
# View (in blog/views.py)
def page(request, num=1):
# Output the appropriate page of blog entries, according to num.
...
In the above example, both URL patterns point to the same view --
``views.page`` -- but the first pattern doesn't capture anything from the
URL. If the first pattern matches, the ``page()`` function will use its
default argument for ``num``, ``1``. If the second pattern matches,
``page()`` will use whatever ``num`` value was captured.
Performance
===========
Each regular expression in a ``urlpatterns`` is compiled the first time it's
accessed. This makes the system blazingly fast.
Syntax of the ``urlpatterns`` variable
======================================
``urlpatterns`` should be a Python list of :func:`~django.urls.path` and/or
:func:`~django.urls.re_path` instances.
Error handling
==============
When Django can't find a match for the requested URL, or when an exception is
raised, Django invokes an error-handling view.
The views to use for these cases are specified by four variables. Their
default values should suffice for most projects, but further customization is
possible by overriding their default values.
See the documentation on :ref:`customizing error views
<customizing-error-views>` for the full details.
Such values can be set in your root URLconf. Setting these variables in any
other URLconf will have no effect.
Values must be callables, or strings representing the full Python import path
to the view that should be called to handle the error condition at hand.
The variables are:
* ``handler400`` -- See :data:`django.conf.urls.handler400`.
* ``handler403`` -- See :data:`django.conf.urls.handler403`.
* ``handler404`` -- See :data:`django.conf.urls.handler404`.
* ``handler500`` -- See :data:`django.conf.urls.handler500`.
.. _including-other-urlconfs:
Including other URLconfs
========================
At any point, your ``urlpatterns`` can "include" other URLconf modules. This
essentially "roots" a set of URLs below other ones.
For example, here's an excerpt of the URLconf for the `Django website`_
itself. It includes a number of other URLconfs::
from django.urls import include, path
urlpatterns = [
# ... snip ...
path('community/', include('aggregator.urls')),
path('contact/', include('contact.urls')),
# ... snip ...
]
Whenever Django encounters :func:`~django.urls.include()`, it chops off
whatever part of the URL matched up to that point and sends the remaining
string to the included URLconf for further processing.
Another possibility is to include additional URL patterns by using a list of
:func:`~django.urls.path` instances. For example, consider this URLconf::
from django.urls import include, path
from apps.main import views as main_views
from credit import views as credit_views
extra_patterns = [
path('reports/', credit_views.report),
path('reports/<int:id>/', credit_views.report),
path('charge/', credit_views.charge),
]
urlpatterns = [
path('', main_views.homepage),
path('help/', include('apps.help.urls')),
path('credit/', include(extra_patterns)),
]
In this example, the ``/credit/reports/`` URL will be handled by the
``credit_views.report()`` Django view.
This can be used to remove redundancy from URLconfs where a single pattern
prefix is used repeatedly. For example, consider this URLconf::
from django.urls import path
from . import views
urlpatterns = [
path('<page_slug>-<page_id>/history/', views.history),
path('<page_slug>-<page_id>/edit/', views.edit),
path('<page_slug>-<page_id>/discuss/', views.discuss),
path('<page_slug>-<page_id>/permissions/', views.permissions),
]
We can improve this by stating the common path prefix only once and grouping
the suffixes that differ::
from django.urls import include, path
from . import views
urlpatterns = [
path('<page_slug>-<page_id>/', include([
path('history/', views.history),
path('edit/', views.edit),
path('discuss/', views.discuss),
path('permissions/', views.permissions),
])),
]
.. _`Django website`: https://www.djangoproject.com/
Captured parameters
-------------------
An included URLconf receives any captured parameters from parent URLconfs, so
the following example is valid::
# In settings/urls/main.py
from django.urls import include, path
urlpatterns = [
path('<username>/blog/', include('foo.urls.blog')),
]
# In foo/urls/blog.py
from django.urls import path
from . import views
urlpatterns = [
path('', views.blog.index),
path('archive/', views.blog.archive),
]
In the above example, the captured ``"username"`` variable is passed to the
included URLconf, as expected.
.. _views-extra-options:
Passing extra options to view functions
=======================================
URLconfs have a hook that lets you pass extra arguments to your view functions,
as a Python dictionary.
The :func:`~django.urls.path` function can take an optional third argument
which should be a dictionary of extra keyword arguments to pass to the view
function.
For example::
from django.urls import path
from . import views
urlpatterns = [
path('blog/<int:year>/', views.year_archive, {'foo': 'bar'}),
]
In this example, for a request to ``/blog/2005/``, Django will call
``views.year_archive(request, year=2005, foo='bar')``.
This technique is used in the
:doc:`syndication framework </ref/contrib/syndication>` to pass metadata and
options to views.
.. admonition:: Dealing with conflicts
It's possible to have a URL pattern which captures named keyword arguments,
and also passes arguments with the same names in its dictionary of extra
arguments. When this happens, the arguments in the dictionary will be used
instead of the arguments captured in the URL.
Passing extra options to ``include()``
--------------------------------------
Similarly, you can pass extra options to :func:`~django.urls.include` and
each line in the included URLconf will be passed the extra options.
For example, these two URLconf sets are functionally identical:
Set one::
# main.py
from django.urls import include, path
urlpatterns = [
path('blog/', include('inner'), {'blog_id': 3}),
]
# inner.py
from django.urls import path
from mysite import views
urlpatterns = [
path('archive/', views.archive),
path('about/', views.about),
]
Set two::
# main.py
from django.urls import include, path
from mysite import views
urlpatterns = [
path('blog/', include('inner')),
]
# inner.py
from django.urls import path
urlpatterns = [
path('archive/', views.archive, {'blog_id': 3}),
path('about/', views.about, {'blog_id': 3}),
]
Note that extra options will *always* be passed to *every* line in the included
URLconf, regardless of whether the line's view actually accepts those options
as valid. For this reason, this technique is only useful if you're certain that
every view in the included URLconf accepts the extra options you're passing.
Reverse resolution of URLs
==========================
A common need when working on a Django project is the possibility to obtain URLs
in their final forms either for embedding in generated content (views and assets
URLs, URLs shown to the user, etc.) or for handling of the navigation flow on
the server side (redirections, etc.)
It is strongly desirable to avoid hard-coding these URLs (a laborious,
non-scalable and error-prone strategy). Equally dangerous is devising ad-hoc
mechanisms to generate URLs that are parallel to the design described by the
URLconf, which can result in the production of URLs that become stale over time.
In other words, what's needed is a DRY mechanism. Among other advantages it
would allow evolution of the URL design without having to go over all the
project source code to search and replace outdated URLs.
The primary piece of information we have available to get a URL is an
identification (e.g. the name) of the view in charge of handling it. Other
pieces of information that necessarily must participate in the lookup of the
right URL are the types (positional, keyword) and values of the view arguments.
Django provides a solution such that the URL mapper is the only repository of
the URL design. You feed it with your URLconf and then it can be used in both
directions:
* Starting with a URL requested by the user/browser, it calls the right Django
view providing any arguments it might need with their values as extracted from
the URL.
* Starting with the identification of the corresponding Django view plus the
values of arguments that would be passed to it, obtain the associated URL.
The first one is the usage we've been discussing in the previous sections. The
second one is what is known as *reverse resolution of URLs*, *reverse URL
matching*, *reverse URL lookup*, or simply *URL reversing*.
Django provides tools for performing URL reversing that match the different
layers where URLs are needed:
* In templates: Using the :ttag:`url` template tag.
* In Python code: Using the :func:`~django.urls.reverse` function.
* In higher level code related to handling of URLs of Django model instances:
The :meth:`~django.db.models.Model.get_absolute_url` method.
Examples
--------
Consider again this URLconf entry::
from django.urls import path
from . import views
urlpatterns = [
#...
path('articles/<int:year>/', views.year_archive, name='news-year-archive'),
#...
]
According to this design, the URL for the archive corresponding to year *nnnn*
is ``/articles/<nnnn>/``.
You can obtain these in template code by using:
.. code-block:: html+django
<a href="{% url 'news-year-archive' 2012 %}">2012 Archive</a>
{# Or with the year in a template context variable: #}
<ul>
{% for yearvar in year_list %}
<li><a href="{% url 'news-year-archive' yearvar %}">{{ yearvar }} Archive</a></li>
{% endfor %}
</ul>
Or in Python code::
from django.urls import reverse
from django.http import HttpResponseRedirect
def redirect_to_year(request):
# ...
year = 2006
# ...
return HttpResponseRedirect(reverse('news-year-archive', args=(year,)))
If, for some reason, it was decided that the URLs where content for yearly
article archives are published at should be changed then you would only need to
change the entry in the URLconf.
In some scenarios where views are of a generic nature, a many-to-one
relationship might exist between URLs and views. For these cases the view name
isn't a good enough identifier for it when comes the time of reversing
URLs. Read the next section to know about the solution Django provides for this.
.. _naming-url-patterns:
Naming URL patterns
===================
In order to perform URL reversing, you'll need to use **named URL patterns**
as done in the examples above. The string used for the URL name can contain any
characters you like. You are not restricted to valid Python names.
When naming URL patterns, choose names that are unlikely to clash with other
applications' choice of names. If you call your URL pattern ``comment``
and another application does the same thing, the URL that
:func:`~django.urls.reverse()` finds depends on whichever pattern is last in
your project's ``urlpatterns`` list.
Putting a prefix on your URL names, perhaps derived from the application
name (such as ``myapp-comment`` instead of ``comment``), decreases the chance
of collision.
You can deliberately choose the *same URL name* as another application if you
want to override a view. For example, a common use case is to override the
:class:`~django.contrib.auth.views.LoginView`. Parts of Django and most
third-party apps assume that this view has a URL pattern with the name
``login``. If you have a custom login view and give its URL the name ``login``,
:func:`~django.urls.reverse()` will find your custom view as long as it's in
``urlpatterns`` after ``django.contrib.auth.urls`` is included (if that's
included at all).
You may also use the same name for multiple URL patterns if they differ in
their arguments. In addition to the URL name, :func:`~django.urls.reverse()`
matches the number of arguments and the names of the keyword arguments.
.. _topics-http-defining-url-namespaces:
URL namespaces
==============
Introduction
------------
URL namespaces allow you to uniquely reverse :ref:`named URL patterns
<naming-url-patterns>` even if different applications use the same URL names.
It's a good practice for third-party apps to always use namespaced URLs (as we
did in the tutorial). Similarly, it also allows you to reverse URLs if multiple
instances of an application are deployed. In other words, since multiple
instances of a single application will share named URLs, namespaces provide a
way to tell these named URLs apart.
Django applications that make proper use of URL namespacing can be deployed more
than once for a particular site. For example :mod:`django.contrib.admin` has an
:class:`~django.contrib.admin.AdminSite` class which allows you to easily
:ref:`deploy more than one instance of the admin <multiple-admin-sites>`.
In a later example, we'll discuss the idea of deploying the polls application
from the tutorial in two different locations so we can serve the same
functionality to two different audiences (authors and publishers).
A URL namespace comes in two parts, both of which are strings:
.. glossary::
application namespace
This describes the name of the application that is being deployed. Every
instance of a single application will have the same application namespace.
For example, Django's admin application has the somewhat predictable
application namespace of ``'admin'``.
instance namespace
This identifies a specific instance of an application. Instance namespaces
should be unique across your entire project. However, an instance namespace
can be the same as the application namespace. This is used to specify a
default instance of an application. For example, the default Django admin
instance has an instance namespace of ``'admin'``.
Namespaced URLs are specified using the ``':'`` operator. For example, the main
index page of the admin application is referenced using ``'admin:index'``. This
indicates a namespace of ``'admin'``, and a named URL of ``'index'``.
Namespaces can also be nested. The named URL ``'sports:polls:index'`` would
look for a pattern named ``'index'`` in the namespace ``'polls'`` that is itself
defined within the top-level namespace ``'sports'``.
.. _topics-http-reversing-url-namespaces:
Reversing namespaced URLs
-------------------------
When given a namespaced URL (e.g. ``'polls:index'``) to resolve, Django splits
the fully qualified name into parts and then tries the following lookup:
1. First, Django looks for a matching :term:`application namespace` (in this
example, ``'polls'``). This will yield a list of instances of that
application.
2. If there is a current application defined, Django finds and returns the URL
resolver for that instance. The current application can be specified with
the ``current_app`` argument to the :func:`~django.urls.reverse()`
function.
The :ttag:`url` template tag uses the namespace of the currently resolved
view as the current application in a
:class:`~django.template.RequestContext`. You can override this default by
setting the current application on the :attr:`request.current_app
<django.http.HttpRequest.current_app>` attribute.
3. If there is no current application. Django looks for a default
application instance. The default application instance is the instance
that has an :term:`instance namespace` matching the :term:`application
namespace` (in this example, an instance of ``polls`` called ``'polls'``).
4. If there is no default application instance, Django will pick the last
deployed instance of the application, whatever its instance name may be.
5. If the provided namespace doesn't match an :term:`application namespace` in
step 1, Django will attempt a direct lookup of the namespace as an
:term:`instance namespace`.
If there are nested namespaces, these steps are repeated for each part of the
namespace until only the view name is unresolved. The view name will then be
resolved into a URL in the namespace that has been found.
Example
~~~~~~~
To show this resolution strategy in action, consider an example of two instances
of the ``polls`` application from the tutorial: one called ``'author-polls'``
and one called ``'publisher-polls'``. Assume we have enhanced that application
so that it takes the instance namespace into consideration when creating and
displaying polls.
.. snippet::
:filename: urls.py
from django.urls import include, path
urlpatterns = [
path('author-polls/', include('polls.urls', namespace='author-polls')),
path('publisher-polls/', include('polls.urls', namespace='publisher-polls')),
]
.. snippet::
:filename: polls/urls.py
from django.urls import path
from . import views
app_name = 'polls'
urlpatterns = [
path('', views.IndexView.as_view(), name='index'),
path('<int:pk>/', views.DetailView.as_view(), name='detail'),
...
]
Using this setup, the following lookups are possible:
* If one of the instances is current - say, if we were rendering the detail page
in the instance ``'author-polls'`` - ``'polls:index'`` will resolve to the
index page of the ``'author-polls'`` instance; i.e. both of the following will
result in ``"/author-polls/"``.
In the method of a class-based view::
reverse('polls:index', current_app=self.request.resolver_match.namespace)
and in the template:
.. code-block:: html+django
{% url 'polls:index' %}
* If there is no current instance - say, if we were rendering a page
somewhere else on the site - ``'polls:index'`` will resolve to the last
registered instance of ``polls``. Since there is no default instance
(instance namespace of ``'polls'``), the last instance of ``polls`` that is
registered will be used. This would be ``'publisher-polls'`` since it's
declared last in the ``urlpatterns``.
* ``'author-polls:index'`` will always resolve to the index page of the instance
``'author-polls'`` (and likewise for ``'publisher-polls'``) .
If there were also a default instance - i.e., an instance named ``'polls'`` -
the only change from above would be in the case where there is no current
instance (the second item in the list above). In this case ``'polls:index'``
would resolve to the index page of the default instance instead of the instance
declared last in ``urlpatterns``.
.. _namespaces-and-include:
URL namespaces and included URLconfs
------------------------------------
Application namespaces of included URLconfs can be specified in two ways.
Firstly, you can set an ``app_name`` attribute in the included URLconf module,
at the same level as the ``urlpatterns`` attribute. You have to pass the actual
module, or a string reference to the module, to :func:`~django.urls.include`,
not the list of ``urlpatterns`` itself.
.. snippet::
:filename: polls/urls.py
from django.urls import path
from . import views
app_name = 'polls'
urlpatterns = [
path('', views.IndexView.as_view(), name='index'),
path('<int:pk>/', views.DetailView.as_view(), name='detail'),
...
]
.. snippet::
:filename: urls.py
from django.urls import include, path
urlpatterns = [
path('polls/', include('polls.urls')),
]
The URLs defined in ``polls.urls`` will have an application namespace ``polls``.
Secondly, you can include an object that contains embedded namespace data. If
you ``include()`` a list of :func:`~django.urls.path` or
:func:`~django.urls.re_path` instances, the URLs contained in that object
will be added to the global namespace. However, you can also ``include()`` a
2-tuple containing::
(<list of path()/re_path() instances>, <application namespace>)
For example::
from django.urls import include, path
from . import views
polls_patterns = ([
path('', views.IndexView.as_view(), name='index'),
path('<int:pk>/', views.DetailView.as_view(), name='detail'),
], 'polls')
urlpatterns = [
path('polls/', include(polls_patterns)),
]
This will include the nominated URL patterns into the given application
namespace.
The instance namespace can be specified using the ``namespace`` argument to
:func:`~django.urls.include`. If the instance namespace is not specified,
it will default to the included URLconf's application namespace. This means
it will also be the default instance for that namespace.