Model Managers ============== InheritanceManager ------------------ This manager (`contributed by Jeff Elmore`_) should be attached to a base model class in a model-inheritance tree. It allows queries on that base model to return heterogenous results of the actual proper subtypes, without any additional queries. For instance, if you have a ``Place`` model with subclasses ``Restaurant`` and ``Bar``, you may want to query all Places: .. code-block:: python nearby_places = Place.objects.filter(location='here') But when you iterate over ``nearby_places``, you'll get only ``Place`` instances back, even for objects that are "really" ``Restaurant`` or ``Bar``. If you attach an ``InheritanceManager`` to ``Place``, you can just call the ``select_subclasses()`` method on the ``InheritanceManager`` or any ``QuerySet`` from it, and the resulting objects will be instances of ``Restaurant`` or ``Bar``: .. code-block:: python from model_utils.managers import InheritanceManager class Place(models.Model): # ... objects = InheritanceManager() class Restaurant(Place): # ... class Bar(Place): # ... nearby_places = Place.objects.filter(location='here').select_subclasses() for place in nearby_places: # "place" will automatically be an instance of Place, Restaurant, or Bar The database query performed will have an extra join for each subclass; if you want to reduce the number of joins and you only need particular subclasses to be returned as their actual type, you can pass subclass names to ``select_subclasses()``, much like the built-in ``select_related()`` method: .. code-block:: python nearby_places = Place.objects.select_subclasses("restaurant") # restaurants will be Restaurant instances, bars will still be Place instances nearby_places = Place.objects.select_subclasses("restaurant", "bar") # all Places will be converted to Restaurant and Bar instances. It is also possible to use the subclasses themselves as arguments to ``select_subclasses``, leaving it to calculate the relationship for you: .. code-block:: python nearby_places = Place.objects.select_subclasses(Restaurant) # restaurants will be Restaurant instances, bars will still be Place instances nearby_places = Place.objects.select_subclasses(Restaurant, Bar) # all Places will be converted to Restaurant and Bar instances. It is even possible to mix and match the two: .. code-block:: python nearby_places = Place.objects.select_subclasses(Restaurant, "bar") # all Places will be converted to Restaurant and Bar instances. ``InheritanceManager`` also provides a subclass-fetching alternative to the ``get()`` method: .. code-block:: python place = Place.objects.get_subclass(id=some_id) # "place" will automatically be an instance of Place, Restaurant, or Bar If you don't explicitly call ``select_subclasses()`` or ``get_subclass()``, an ``InheritanceManager`` behaves identically to a normal ``Manager``; so it's safe to use as your default manager for the model. .. note:: Due to `Django bug #16572`_, on Django versions prior to 1.6 ``InheritanceManager`` only supports a single level of model inheritance; it won't work for grandchild models. .. _contributed by Jeff Elmore: http://jeffelmore.org/2010/11/11/automatic-downcasting-of-inherited-models-in-django/ .. _Django bug #16572: https://code.djangoproject.com/ticket/16572 .. _QueryManager: QueryManager ------------ Many custom model managers do nothing more than return a QuerySet that is filtered in some way. ``QueryManager`` allows you to express this pattern with a minimum of boilerplate: .. code-block:: python from django.db import models from model_utils.managers import QueryManager class Post(models.Model): ... published = models.BooleanField() pub_date = models.DateField() ... objects = models.Manager() public = QueryManager(published=True).order_by('-pub_date') The kwargs passed to ``QueryManager`` will be passed as-is to the ``QuerySet.filter()`` method. You can also pass a ``Q`` object to ``QueryManager`` to express more complex conditions. Note that you can set the ordering of the ``QuerySet`` returned by the ``QueryManager`` by chaining a call to ``.order_by()`` on the ``QueryManager`` (this is not required). PassThroughManager ------------------ A common "gotcha" when defining methods on a custom manager class is that those same methods are not automatically also available on the QuerySets returned by that manager, so are not "chainable". This can be counterintuitive, as most of the public QuerySet API is mirrored on managers. It is possible to create a custom Manager that returns QuerySets that have the same additional methods, but this requires boilerplate code. The ``PassThroughManager`` class (`contributed by Paul McLanahan`_) removes this boilerplate. .. _contributed by Paul McLanahan: http://paulm.us/post/3717466639/passthroughmanager-for-django To use ``PassThroughManager``, rather than defining a custom manager with additional methods, define a custom ``QuerySet`` subclass with the additional methods you want, and pass that ``QuerySet`` subclass to the ``PassThroughManager.for_queryset_class()`` class method. The returned ``PassThroughManager`` subclass will always return instances of your custom ``QuerySet``, and you can also call methods of your custom ``QuerySet`` directly on the manager: .. code-block:: python from datetime import datetime from django.db import models from django.db.models.query import QuerySet from model_utils.managers import PassThroughManager class PostQuerySet(QuerySet): def by_author(self, user): return self.filter(user=user) def published(self): return self.filter(published__lte=datetime.now()) def unpublished(self): return self.filter(published__gte=datetime.now()) class Post(models.Model): user = models.ForeignKey(User) published = models.DateTimeField() objects = PassThroughManager.for_queryset_class(PostQuerySet)() Post.objects.published() Post.objects.by_author(user=request.user).unpublished()