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682 lines
25 KiB
Plaintext
===========
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Aggregation
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===========
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.. currentmodule:: django.db.models
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The topic guide on :doc:`Django's database-abstraction API </topics/db/queries>`
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described the way that you can use Django queries that create,
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retrieve, update and delete individual objects. However, sometimes you will
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need to retrieve values that are derived by summarizing or *aggregating* a
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collection of objects. This topic guide describes the ways that aggregate values
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can be generated and returned using Django queries.
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Throughout this guide, we'll refer to the following models. These models are
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used to track the inventory for a series of online bookstores:
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.. _queryset-model-example:
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.. code-block:: python
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from django.db import models
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class Author(models.Model):
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name = models.CharField(max_length=100)
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age = models.IntegerField()
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class Publisher(models.Model):
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name = models.CharField(max_length=300)
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class Book(models.Model):
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name = models.CharField(max_length=300)
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pages = models.IntegerField()
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price = models.DecimalField(max_digits=10, decimal_places=2)
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rating = models.FloatField()
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authors = models.ManyToManyField(Author)
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publisher = models.ForeignKey(Publisher, on_delete=models.CASCADE)
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pubdate = models.DateField()
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class Store(models.Model):
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name = models.CharField(max_length=300)
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books = models.ManyToManyField(Book)
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Cheat sheet
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===========
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In a hurry? Here's how to do common aggregate queries, assuming the models
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above:
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.. code-block:: pycon
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# Total number of books.
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>>> Book.objects.count()
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2452
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# Total number of books with publisher=BaloneyPress
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>>> Book.objects.filter(publisher__name="BaloneyPress").count()
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73
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# Average price across all books, provide default to be returned instead
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# of None if no books exist.
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>>> from django.db.models import Avg
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>>> Book.objects.aggregate(Avg("price", default=0))
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{'price__avg': 34.35}
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# Max price across all books, provide default to be returned instead of
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# None if no books exist.
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>>> from django.db.models import Max
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>>> Book.objects.aggregate(Max("price", default=0))
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{'price__max': Decimal('81.20')}
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# Difference between the highest priced book and the average price of all books.
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>>> from django.db.models import FloatField
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>>> Book.objects.aggregate(
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... price_diff=Max("price", output_field=FloatField()) - Avg("price")
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... )
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{'price_diff': 46.85}
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# All the following queries involve traversing the Book<->Publisher
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# foreign key relationship backwards.
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# Each publisher, each with a count of books as a "num_books" attribute.
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>>> from django.db.models import Count
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>>> pubs = Publisher.objects.annotate(num_books=Count("book"))
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>>> pubs
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<QuerySet [<Publisher: BaloneyPress>, <Publisher: SalamiPress>, ...]>
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>>> pubs[0].num_books
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73
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# Each publisher, with a separate count of books with a rating above and below 5
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>>> from django.db.models import Q
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>>> above_5 = Count("book", filter=Q(book__rating__gt=5))
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>>> below_5 = Count("book", filter=Q(book__rating__lte=5))
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>>> pubs = Publisher.objects.annotate(below_5=below_5).annotate(above_5=above_5)
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>>> pubs[0].above_5
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23
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>>> pubs[0].below_5
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12
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# The top 5 publishers, in order by number of books.
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>>> pubs = Publisher.objects.annotate(num_books=Count("book")).order_by("-num_books")[:5]
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>>> pubs[0].num_books
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1323
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Generating aggregates over a ``QuerySet``
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=========================================
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Django provides two ways to generate aggregates. The first way is to generate
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summary values over an entire ``QuerySet``. For example, say you wanted to
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calculate the average price of all books available for sale. Django's query
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syntax provides a means for describing the set of all books:
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.. code-block:: pycon
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>>> Book.objects.all()
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What we need is a way to calculate summary values over the objects that
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belong to this ``QuerySet``. This is done by appending an ``aggregate()``
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clause onto the ``QuerySet``:
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.. code-block:: pycon
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>>> from django.db.models import Avg
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>>> Book.objects.all().aggregate(Avg("price"))
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{'price__avg': 34.35}
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The ``all()`` is redundant in this example, so this could be simplified to:
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.. code-block:: pycon
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>>> Book.objects.aggregate(Avg("price"))
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{'price__avg': 34.35}
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The argument to the ``aggregate()`` clause describes the aggregate value that
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we want to compute - in this case, the average of the ``price`` field on the
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``Book`` model. A list of the aggregate functions that are available can be
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found in the :ref:`QuerySet reference <aggregation-functions>`.
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``aggregate()`` is a terminal clause for a ``QuerySet`` that, when invoked,
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returns a dictionary of name-value pairs. The name is an identifier for the
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aggregate value; the value is the computed aggregate. The name is
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automatically generated from the name of the field and the aggregate function.
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If you want to manually specify a name for the aggregate value, you can do so
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by providing that name when you specify the aggregate clause:
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.. code-block:: pycon
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>>> Book.objects.aggregate(average_price=Avg("price"))
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{'average_price': 34.35}
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If you want to generate more than one aggregate, you add another argument to
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the ``aggregate()`` clause. So, if we also wanted to know the maximum and
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minimum price of all books, we would issue the query:
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.. code-block:: pycon
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>>> from django.db.models import Avg, Max, Min
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>>> Book.objects.aggregate(Avg("price"), Max("price"), Min("price"))
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{'price__avg': 34.35, 'price__max': Decimal('81.20'), 'price__min': Decimal('12.99')}
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Generating aggregates for each item in a ``QuerySet``
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=====================================================
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The second way to generate summary values is to generate an independent
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summary for each object in a :class:`.QuerySet`. For example, if you are
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retrieving a list of books, you may want to know how many authors contributed
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to each book. Each Book has a many-to-many relationship with the Author; we
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want to summarize this relationship for each book in the ``QuerySet``.
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Per-object summaries can be generated using the
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:meth:`~.QuerySet.annotate` clause. When an ``annotate()`` clause is
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specified, each object in the ``QuerySet`` will be annotated with the
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specified values.
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The syntax for these annotations is identical to that used for the
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:meth:`~.QuerySet.aggregate` clause. Each argument to ``annotate()`` describes
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an aggregate that is to be calculated. For example, to annotate books with the
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number of authors:
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.. code-block:: pycon
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# Build an annotated queryset
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>>> from django.db.models import Count
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>>> q = Book.objects.annotate(Count("authors"))
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# Interrogate the first object in the queryset
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>>> q[0]
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<Book: The Definitive Guide to Django>
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>>> q[0].authors__count
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2
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# Interrogate the second object in the queryset
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>>> q[1]
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<Book: Practical Django Projects>
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>>> q[1].authors__count
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1
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As with ``aggregate()``, the name for the annotation is automatically derived
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from the name of the aggregate function and the name of the field being
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aggregated. You can override this default name by providing an alias when you
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specify the annotation:
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.. code-block:: pycon
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>>> q = Book.objects.annotate(num_authors=Count("authors"))
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>>> q[0].num_authors
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2
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>>> q[1].num_authors
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1
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Unlike ``aggregate()``, ``annotate()`` is *not* a terminal clause. The output
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of the ``annotate()`` clause is a ``QuerySet``; this ``QuerySet`` can be
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modified using any other ``QuerySet`` operation, including ``filter()``,
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``order_by()``, or even additional calls to ``annotate()``.
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.. _combining-multiple-aggregations:
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Combining multiple aggregations
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-------------------------------
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Combining multiple aggregations with ``annotate()`` will :ticket:`yield the
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wrong results <10060>` because joins are used instead of subqueries:
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.. code-block:: pycon
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>>> book = Book.objects.first()
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>>> book.authors.count()
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2
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>>> book.store_set.count()
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3
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>>> q = Book.objects.annotate(Count("authors"), Count("store"))
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>>> q[0].authors__count
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6
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>>> q[0].store__count
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6
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For most aggregates, there is no way to avoid this problem, however, the
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:class:`~django.db.models.Count` aggregate has a ``distinct`` parameter that
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may help:
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.. code-block:: pycon
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>>> q = Book.objects.annotate(
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... Count("authors", distinct=True), Count("store", distinct=True)
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... )
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>>> q[0].authors__count
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2
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>>> q[0].store__count
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3
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.. admonition:: If in doubt, inspect the SQL query!
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In order to understand what happens in your query, consider inspecting the
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``query`` property of your ``QuerySet``.
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Joins and aggregates
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====================
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So far, we have dealt with aggregates over fields that belong to the
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model being queried. However, sometimes the value you want to aggregate
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will belong to a model that is related to the model you are querying.
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When specifying the field to be aggregated in an aggregate function, Django
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will allow you to use the same :ref:`double underscore notation
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<field-lookups-intro>` that is used when referring to related fields in
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filters. Django will then handle any table joins that are required to retrieve
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and aggregate the related value.
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For example, to find the price range of books offered in each store,
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you could use the annotation:
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.. code-block:: pycon
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>>> from django.db.models import Max, Min
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>>> Store.objects.annotate(min_price=Min("books__price"), max_price=Max("books__price"))
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This tells Django to retrieve the ``Store`` model, join (through the
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many-to-many relationship) with the ``Book`` model, and aggregate on the
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price field of the book model to produce a minimum and maximum value.
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The same rules apply to the ``aggregate()`` clause. If you wanted to
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know the lowest and highest price of any book that is available for sale
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in any of the stores, you could use the aggregate:
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.. code-block:: pycon
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>>> Store.objects.aggregate(min_price=Min("books__price"), max_price=Max("books__price"))
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Join chains can be as deep as you require. For example, to extract the
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age of the youngest author of any book available for sale, you could
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issue the query:
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.. code-block:: pycon
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>>> Store.objects.aggregate(youngest_age=Min("books__authors__age"))
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Following relationships backwards
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---------------------------------
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In a way similar to :ref:`lookups-that-span-relationships`, aggregations and
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annotations on fields of models or models that are related to the one you are
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querying can include traversing "reverse" relationships. The lowercase name
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of related models and double-underscores are used here too.
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For example, we can ask for all publishers, annotated with their respective
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total book stock counters (note how we use ``'book'`` to specify the
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``Publisher`` -> ``Book`` reverse foreign key hop):
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.. code-block:: pycon
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>>> from django.db.models import Avg, Count, Min, Sum
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>>> Publisher.objects.annotate(Count("book"))
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(Every ``Publisher`` in the resulting ``QuerySet`` will have an extra attribute
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called ``book__count``.)
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We can also ask for the oldest book of any of those managed by every publisher:
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.. code-block:: pycon
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>>> Publisher.objects.aggregate(oldest_pubdate=Min("book__pubdate"))
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(The resulting dictionary will have a key called ``'oldest_pubdate'``. If no
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such alias were specified, it would be the rather long ``'book__pubdate__min'``.)
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This doesn't apply just to foreign keys. It also works with many-to-many
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relations. For example, we can ask for every author, annotated with the total
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number of pages considering all the books the author has (co-)authored (note how we
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use ``'book'`` to specify the ``Author`` -> ``Book`` reverse many-to-many hop):
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.. code-block:: pycon
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>>> Author.objects.annotate(total_pages=Sum("book__pages"))
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(Every ``Author`` in the resulting ``QuerySet`` will have an extra attribute
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called ``total_pages``. If no such alias were specified, it would be the rather
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long ``book__pages__sum``.)
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Or ask for the average rating of all the books written by author(s) we have on
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file:
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.. code-block:: pycon
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>>> Author.objects.aggregate(average_rating=Avg("book__rating"))
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(The resulting dictionary will have a key called ``'average_rating'``. If no
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such alias were specified, it would be the rather long ``'book__rating__avg'``.)
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Aggregations and other ``QuerySet`` clauses
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===========================================
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``filter()`` and ``exclude()``
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------------------------------
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Aggregates can also participate in filters. Any ``filter()`` (or
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``exclude()``) applied to normal model fields will have the effect of
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constraining the objects that are considered for aggregation.
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When used with an ``annotate()`` clause, a filter has the effect of
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constraining the objects for which an annotation is calculated. For example,
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you can generate an annotated list of all books that have a title starting
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with "Django" using the query:
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.. code-block:: pycon
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>>> from django.db.models import Avg, Count
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>>> Book.objects.filter(name__startswith="Django").annotate(num_authors=Count("authors"))
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When used with an ``aggregate()`` clause, a filter has the effect of
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constraining the objects over which the aggregate is calculated.
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For example, you can generate the average price of all books with a
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title that starts with "Django" using the query:
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.. code-block:: pycon
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>>> Book.objects.filter(name__startswith="Django").aggregate(Avg("price"))
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.. _filtering-on-annotations:
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Filtering on annotations
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~~~~~~~~~~~~~~~~~~~~~~~~
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Annotated values can also be filtered. The alias for the annotation can be
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used in ``filter()`` and ``exclude()`` clauses in the same way as any other
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model field.
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For example, to generate a list of books that have more than one author,
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you can issue the query:
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.. code-block:: pycon
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>>> Book.objects.annotate(num_authors=Count("authors")).filter(num_authors__gt=1)
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This query generates an annotated result set, and then generates a filter
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based upon that annotation.
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If you need two annotations with two separate filters you can use the
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``filter`` argument with any aggregate. For example, to generate a list of
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authors with a count of highly rated books:
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.. code-block:: pycon
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>>> highly_rated = Count("book", filter=Q(book__rating__gte=7))
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>>> Author.objects.annotate(num_books=Count("book"), highly_rated_books=highly_rated)
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Each ``Author`` in the result set will have the ``num_books`` and
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``highly_rated_books`` attributes. See also :ref:`conditional-aggregation`.
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.. admonition:: Choosing between ``filter`` and ``QuerySet.filter()``
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Avoid using the ``filter`` argument with a single annotation or
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aggregation. It's more efficient to use ``QuerySet.filter()`` to exclude
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rows. The aggregation ``filter`` argument is only useful when using two or
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more aggregations over the same relations with different conditionals.
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Order of ``annotate()`` and ``filter()`` clauses
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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When developing a complex query that involves both ``annotate()`` and
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``filter()`` clauses, pay particular attention to the order in which the
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clauses are applied to the ``QuerySet``.
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When an ``annotate()`` clause is applied to a query, the annotation is computed
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over the state of the query up to the point where the annotation is requested.
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The practical implication of this is that ``filter()`` and ``annotate()`` are
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not commutative operations.
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Given:
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* Publisher A has two books with ratings 4 and 5.
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* Publisher B has two books with ratings 1 and 4.
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* Publisher C has one book with rating 1.
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Here's an example with the ``Count`` aggregate:
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.. code-block:: pycon
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>>> a, b = Publisher.objects.annotate(num_books=Count("book", distinct=True)).filter(
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... book__rating__gt=3.0
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... )
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>>> a, a.num_books
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(<Publisher: A>, 2)
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>>> b, b.num_books
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(<Publisher: B>, 2)
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>>> a, b = Publisher.objects.filter(book__rating__gt=3.0).annotate(num_books=Count("book"))
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>>> a, a.num_books
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(<Publisher: A>, 2)
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>>> b, b.num_books
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(<Publisher: B>, 1)
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Both queries return a list of publishers that have at least one book with a
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rating exceeding 3.0, hence publisher C is excluded.
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In the first query, the annotation precedes the filter, so the filter has no
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effect on the annotation. ``distinct=True`` is required to avoid a :ref:`query
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bug <combining-multiple-aggregations>`.
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The second query counts the number of books that have a rating exceeding 3.0
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for each publisher. The filter precedes the annotation, so the filter
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constrains the objects considered when calculating the annotation.
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Here's another example with the ``Avg`` aggregate:
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.. code-block:: pycon
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>>> a, b = Publisher.objects.annotate(avg_rating=Avg("book__rating")).filter(
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... book__rating__gt=3.0
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... )
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>>> a, a.avg_rating
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(<Publisher: A>, 4.5) # (5+4)/2
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>>> b, b.avg_rating
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(<Publisher: B>, 2.5) # (1+4)/2
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>>> a, b = Publisher.objects.filter(book__rating__gt=3.0).annotate(
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... avg_rating=Avg("book__rating")
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... )
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>>> a, a.avg_rating
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(<Publisher: A>, 4.5) # (5+4)/2
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>>> b, b.avg_rating
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(<Publisher: B>, 4.0) # 4/1 (book with rating 1 excluded)
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The first query asks for the average rating of all a publisher's books for
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publisher's that have at least one book with a rating exceeding 3.0. The second
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query asks for the average of a publisher's book's ratings for only those
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ratings exceeding 3.0.
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It's difficult to intuit how the ORM will translate complex querysets into SQL
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queries so when in doubt, inspect the SQL with ``str(queryset.query)`` and
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write plenty of tests.
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``order_by()``
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--------------
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Annotations can be used as a basis for ordering. When you
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define an ``order_by()`` clause, the aggregates you provide can reference
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any alias defined as part of an ``annotate()`` clause in the query.
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For example, to order a ``QuerySet`` of books by the number of authors
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that have contributed to the book, you could use the following query:
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.. code-block:: pycon
|
|
|
|
>>> Book.objects.annotate(num_authors=Count("authors")).order_by("num_authors")
|
|
|
|
``values()``
|
|
------------
|
|
|
|
Ordinarily, annotations are generated on a per-object basis - an annotated
|
|
``QuerySet`` will return one result for each object in the original
|
|
``QuerySet``. However, when a ``values()`` clause is used to constrain the
|
|
columns that are returned in the result set, the method for evaluating
|
|
annotations is slightly different. Instead of returning an annotated result
|
|
for each result in the original ``QuerySet``, the original results are
|
|
grouped according to the unique combinations of the fields specified in the
|
|
``values()`` clause. An annotation is then provided for each unique group;
|
|
the annotation is computed over all members of the group.
|
|
|
|
For example, consider an author query that attempts to find out the average
|
|
rating of books written by each author:
|
|
|
|
.. code-block:: pycon
|
|
|
|
>>> Author.objects.annotate(average_rating=Avg("book__rating"))
|
|
|
|
This will return one result for each author in the database, annotated with
|
|
their average book rating.
|
|
|
|
However, the result will be slightly different if you use a ``values()`` clause:
|
|
|
|
.. code-block:: pycon
|
|
|
|
>>> Author.objects.values("name").annotate(average_rating=Avg("book__rating"))
|
|
|
|
In this example, the authors will be grouped by name, so you will only get
|
|
an annotated result for each *unique* author name. This means if you have
|
|
two authors with the same name, their results will be merged into a single
|
|
result in the output of the query; the average will be computed as the
|
|
average over the books written by both authors.
|
|
|
|
Order of ``annotate()`` and ``values()`` clauses
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
As with the ``filter()`` clause, the order in which ``annotate()`` and
|
|
``values()`` clauses are applied to a query is significant. If the
|
|
``values()`` clause precedes the ``annotate()``, the annotation will be
|
|
computed using the grouping described by the ``values()`` clause.
|
|
|
|
However, if the ``annotate()`` clause precedes the ``values()`` clause,
|
|
the annotations will be generated over the entire query set. In this case,
|
|
the ``values()`` clause only constrains the fields that are generated on
|
|
output.
|
|
|
|
For example, if we reverse the order of the ``values()`` and ``annotate()``
|
|
clause from our previous example:
|
|
|
|
.. code-block:: pycon
|
|
|
|
>>> Author.objects.annotate(average_rating=Avg("book__rating")).values(
|
|
... "name", "average_rating"
|
|
... )
|
|
|
|
This will now yield one unique result for each author; however, only
|
|
the author's name and the ``average_rating`` annotation will be returned
|
|
in the output data.
|
|
|
|
You should also note that ``average_rating`` has been explicitly included
|
|
in the list of values to be returned. This is required because of the
|
|
ordering of the ``values()`` and ``annotate()`` clause.
|
|
|
|
If the ``values()`` clause precedes the ``annotate()`` clause, any annotations
|
|
will be automatically added to the result set. However, if the ``values()``
|
|
clause is applied after the ``annotate()`` clause, you need to explicitly
|
|
include the aggregate column.
|
|
|
|
.. _aggregation-ordering-interaction:
|
|
|
|
Interaction with ``order_by()``
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
Fields that are mentioned in the ``order_by()`` part of a queryset are used
|
|
when selecting the output data, even if they are not otherwise specified in the
|
|
``values()`` call. These extra fields are used to group "like" results together
|
|
and they can make otherwise identical result rows appear to be separate. This
|
|
shows up, particularly, when counting things.
|
|
|
|
By way of example, suppose you have a model like this::
|
|
|
|
from django.db import models
|
|
|
|
|
|
class Item(models.Model):
|
|
name = models.CharField(max_length=10)
|
|
data = models.IntegerField()
|
|
|
|
If you want to count how many times each distinct ``data`` value appears in an
|
|
ordered queryset, you might try this::
|
|
|
|
items = Item.objects.order_by("name")
|
|
# Warning: not quite correct!
|
|
items.values("data").annotate(Count("id"))
|
|
|
|
...which will group the ``Item`` objects by their common ``data`` values and
|
|
then count the number of ``id`` values in each group. Except that it won't
|
|
quite work. The ordering by ``name`` will also play a part in the grouping, so
|
|
this query will group by distinct ``(data, name)`` pairs, which isn't what you
|
|
want. Instead, you should construct this queryset::
|
|
|
|
items.values("data").annotate(Count("id")).order_by()
|
|
|
|
...clearing any ordering in the query. You could also order by, say, ``data``
|
|
without any harmful effects, since that is already playing a role in the
|
|
query.
|
|
|
|
This behavior is the same as that noted in the queryset documentation for
|
|
:meth:`~django.db.models.query.QuerySet.distinct` and the general rule is the
|
|
same: normally you won't want extra columns playing a part in the result, so
|
|
clear out the ordering, or at least make sure it's restricted only to those
|
|
fields you also select in a ``values()`` call.
|
|
|
|
.. note::
|
|
You might reasonably ask why Django doesn't remove the extraneous columns
|
|
for you. The main reason is consistency with ``distinct()`` and other
|
|
places: Django **never** removes ordering constraints that you have
|
|
specified (and we can't change those other methods' behavior, as that
|
|
would violate our :doc:`/misc/api-stability` policy).
|
|
|
|
Aggregating annotations
|
|
-----------------------
|
|
|
|
You can also generate an aggregate on the result of an annotation. When you
|
|
define an ``aggregate()`` clause, the aggregates you provide can reference
|
|
any alias defined as part of an ``annotate()`` clause in the query.
|
|
|
|
For example, if you wanted to calculate the average number of authors per
|
|
book you first annotate the set of books with the author count, then
|
|
aggregate that author count, referencing the annotation field:
|
|
|
|
.. code-block:: pycon
|
|
|
|
>>> from django.db.models import Avg, Count
|
|
>>> Book.objects.annotate(num_authors=Count("authors")).aggregate(Avg("num_authors"))
|
|
{'num_authors__avg': 1.66}
|
|
|
|
Aggregating on empty querysets or groups
|
|
----------------------------------------
|
|
|
|
When an aggregation is applied to an empty queryset or grouping, the result
|
|
defaults to its :ref:`default <aggregate-default>` parameter, typically
|
|
``None``. This behavior occurs because aggregate functions return ``NULL`` when
|
|
the executed query returns no rows.
|
|
|
|
You can specify a return value by providing the :ref:`default
|
|
<aggregate-default>` argument for most aggregations. However, since
|
|
:class:`~django.db.models.Count` does not support the :ref:`default
|
|
<aggregate-default>` argument, it will always return ``0`` for empty querysets
|
|
or groups.
|
|
|
|
For example, assuming that no book contains *web* in its name, calculating the
|
|
total price for this book set would return ``None`` since there are no matching
|
|
rows to compute the :class:`~django.db.models.Sum` aggregation on:
|
|
|
|
.. code-block:: pycon
|
|
|
|
>>> from django.db.models import Sum
|
|
>>> Book.objects.filter(name__contains="web").aggregate(Sum("price"))
|
|
{"price__sum": None}
|
|
|
|
However, the :ref:`default <aggregate-default>` argument can be set when
|
|
calling :class:`~django.db.models.Sum` to return a different default value if
|
|
no books can be found:
|
|
|
|
.. code-block:: pycon
|
|
|
|
>>> Book.objects.filter(name__contains="web").aggregate(Sum("price", default=0))
|
|
{"price__sum": Decimal("0")}
|
|
|
|
Under the hood, the :ref:`default <aggregate-default>` argument is implemented
|
|
by wrapping the aggregate function with
|
|
:class:`~django.db.models.functions.Coalesce`.
|