Wagtail defaults to serving :class:`~wagtail.core.models.Page`-derived models by passing a reference to the page object to a Django HTML template matching the model's name, but suppose you wanted to serve something other than HTML? You can override the :meth:`~wagtail.core.models.Page.serve` method provided by the :class:`~wagtail.core.models.Page` class and handle the Django request and response more directly.
Consider this example from the Wagtail demo site's ``models.py``, which serves an ``EventPage`` object as an iCal file if the ``format`` variable is set in the request:
:meth:`~wagtail.core.models.Page.serve` takes a Django request object and returns a Django response object. Wagtail returns a ``TemplateResponse`` object with the template and context which it generates, which allows middleware to function as intended, so keep in mind that a simpler response object like a ``HttpResponse`` will not receive these benefits.
Wagtail routes requests by iterating over the path components (separated with a forward slash ``/``), finding matching objects based on their slug, and delegating further routing to that object's model class. The Wagtail source is very instructive in figuring out what's happening. This is the default ``route()`` method of the ``Page`` class:
:meth:`~wagtail.core.models.Page.route` takes the current object (``self``), the ``request`` object, and a list of the remaining ``path_components`` from the request URL. It either continues delegating routing by calling :meth:`~wagtail.core.models.Page.route` again on one of its children in the Wagtail tree, or ends the routing process by returning a ``RouteResult`` object or raising a 404 error.
The ``RouteResult`` object (defined in wagtail.core.url_routing) encapsulates all the information Wagtail needs to call a page's :meth:`~wagtail.core.models.Page.serve` method and return a final response: this information consists of the page object, and any additional ``args``/``kwargs`` to be passed to :meth:`~wagtail.core.models.Page.serve`.
By overriding the :meth:`~wagtail.core.models.Page.route` method, we could create custom endpoints for each object in the Wagtail tree. One use case might be using an alternate template when encountering the ``print/`` endpoint in the path. Another might be a REST API which interacts with the current object. Just to see what's involved, lets make a simple model which prints out all of its child path components.
This model, ``Echoer``, doesn't define any properties, but does subclass ``Page`` so objects will be able to have a custom title and slug. The template just has to display our ``{{ echo }}`` property.
Be careful if you're introducing new required arguments to the ``serve()`` method - Wagtail still needs to be able to display a default view of the page for previewing and moderation, and by default will attempt to do this by calling ``serve()`` with a request object and no further arguments. If your ``serve()`` method does not accept that as a method signature, you will need to override the page's ``serve_preview()`` method to call ``serve()`` with suitable arguments:
Wagtail provides tagging capabilities through the combination of two Django modules, `django-taggit <https://django-taggit.readthedocs.io/>`_ (which provides a general-purpose tagging implementation) and `django-modelcluster <https://github.com/wagtail/django-modelcluster>`_ (which extends django-taggit's ``TaggableManager`` to allow tag relations to be managed in memory without writing to the database - necessary for handling previews and revisions). To add tagging to a page model, you'll need to define a 'through' model inheriting from ``TaggedItemBase`` to set up the many-to-many relationship between django-taggit's ``Tag`` model and your page model, and add a ``ClusterTaggableManager`` accessor to your page model to present this relation as a single tag field.
We can now make use of the many-to-many tag relationship in our views and templates. For example, we can set up the blog's index page to accept a ``?tag=...`` query parameter to filter the ``BlogPage`` listing by tag:
Here, ``blog_entries.filter(tags__name=tag)`` follows the ``tags`` relation on ``BlogPage``, to filter the listing to only those pages with a matching tag name before passing this to the template for rendering. We can now update the ``blog_page.html`` template to show a list of tags associated with the page, with links back to the filtered index page:
Iterating through ``page.tags.all`` will display each tag associated with ``page``, while the links back to the index make use of the filter option added to the ``BlogIndexPage`` model. A Django query could also use the ``tagged_items`` related name field to get ``BlogPage`` objects associated with a tag.
The same approach can be used to add tagging to non-page models managed through :ref:`snippets` and :doc:`/reference/contrib/modeladmin/index`. In this case, the model must inherit from ``modelcluster.models.ClusterableModel`` to be compatible with ``ClusterTaggableManager``.
Custom tag models
-----------------
In the above example, any newly-created tags will be added to django-taggit's default ``Tag`` model, which will be shared by all other models using the same recipe as well as Wagtail's image and document models. In particular, this means that the autocompletion suggestions on tag fields will include tags previously added to other models. To avoid this, you can set up a custom tag model inheriting from ``TagBase``, along with a 'through' model inheriting from ``ItemBase``, which will provide an independent pool of tags for that page model.
..code-block:: python
from django.db import models
from modelcluster.contrib.taggit import ClusterTaggableManager
Within the admin, the tag field will automatically recognise the custom tag model being used, and will offer autocomplete suggestions taken from that tag model.
Disabling free tagging
----------------------
By default, tag fields work on a "free tagging" basis: editors can enter anything into the field, and upon saving, any tag text not recognised as an existing tag will be created automatically. To disable this behaviour, and only allow editors to enter tags that already exist in the database, custom tag models accept a ``free_tagging = False`` option:
..code-block:: python
from taggit.models import TagBase
from wagtail.snippets.models import register_snippet
Here we have registered ``BlogTag`` as a snippet, to provide an interface for administrators (and other users with the appropriate permissions) to manage the allowed set of tags. With the ``free_tagging = False`` option set, editors can no longer enter arbitrary text into the tag field, and must instead select existing tags from the autocomplete dropdown.
You may want redirects created automatically when a url gets changed in the admin so as to avoid broken links. You can add something like the following block to a ``wagtail_hooks.py`` file within one of your project's apps.
..code-block:: python
from wagtail.core import hooks
from wagtail.contrib.redirects.models import Redirect
Note: This does not work in some cases e.g. when you redirect a page, create a new page in that url and then move the new one. It should be helpful in most cases however.