mirror of https://github.com/django/django.git
345 lines
14 KiB
Plaintext
345 lines
14 KiB
Plaintext
==============
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Custom Lookups
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==============
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.. currentmodule:: django.db.models
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Django offers a wide variety of :ref:`built-in lookups <field-lookups>` for
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filtering (for example, ``exact`` and ``icontains``). This documentation
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explains how to write custom lookups and how to alter the working of existing
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lookups. For the API references of lookups, see the :doc:`/ref/models/lookups`.
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A simple lookup example
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=======================
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Let's start with a simple custom lookup. We will write a custom lookup ``ne``
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which works opposite to ``exact``. ``Author.objects.filter(name__ne='Jack')``
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will translate to the SQL:
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.. code-block:: sql
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"author"."name" <> 'Jack'
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This SQL is backend independent, so we don't need to worry about different
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databases.
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There are two steps to making this work. Firstly we need to implement the
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lookup, then we need to tell Django about it. The implementation is quite
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straightforward::
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from django.db.models import Lookup
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class NotEqual(Lookup):
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lookup_name = 'ne'
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def as_sql(self, compiler, connection):
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lhs, lhs_params = self.process_lhs(compiler, connection)
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rhs, rhs_params = self.process_rhs(compiler, connection)
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params = lhs_params + rhs_params
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return '%s <> %s' % (lhs, rhs), params
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To register the ``NotEqual`` lookup we will just need to call
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``register_lookup`` on the field class we want the lookup to be available. In
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this case, the lookup makes sense on all ``Field`` subclasses, so we register
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it with ``Field`` directly::
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from django.db.models.fields import Field
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Field.register_lookup(NotEqual)
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Lookup registration can also be done using a decorator pattern::
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from django.db.models.fields import Field
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@Field.register_lookup
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class NotEqualLookup(Lookup):
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# ...
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We can now use ``foo__ne`` for any field ``foo``. You will need to ensure that
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this registration happens before you try to create any querysets using it. You
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could place the implementation in a ``models.py`` file, or register the lookup
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in the ``ready()`` method of an ``AppConfig``.
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Taking a closer look at the implementation, the first required attribute is
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``lookup_name``. This allows the ORM to understand how to interpret ``name__ne``
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and use ``NotEqual`` to generate the SQL. By convention, these names are always
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lowercase strings containing only letters, but the only hard requirement is
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that it must not contain the string ``__``.
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We then need to define the ``as_sql`` method. This takes a ``SQLCompiler``
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object, called ``compiler``, and the active database connection.
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``SQLCompiler`` objects are not documented, but the only thing we need to know
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about them is that they have a ``compile()`` method which returns a tuple
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containing an SQL string, and the parameters to be interpolated into that
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string. In most cases, you don't need to use it directly and can pass it on to
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``process_lhs()`` and ``process_rhs()``.
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A ``Lookup`` works against two values, ``lhs`` and ``rhs``, standing for
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left-hand side and right-hand side. The left-hand side is usually a field
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reference, but it can be anything implementing the :ref:`query expression API
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<query-expression>`. The right-hand is the value given by the user. In the
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example ``Author.objects.filter(name__ne='Jack')``, the left-hand side is a
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reference to the ``name`` field of the ``Author`` model, and ``'Jack'`` is the
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right-hand side.
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We call ``process_lhs`` and ``process_rhs`` to convert them into the values we
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need for SQL using the ``compiler`` object described before. These methods
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return tuples containing some SQL and the parameters to be interpolated into
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that SQL, just as we need to return from our ``as_sql`` method. In the above
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example, ``process_lhs`` returns ``('"author"."name"', [])`` and
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``process_rhs`` returns ``('"%s"', ['Jack'])``. In this example there were no
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parameters for the left hand side, but this would depend on the object we have,
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so we still need to include them in the parameters we return.
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Finally we combine the parts into an SQL expression with ``<>``, and supply all
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the parameters for the query. We then return a tuple containing the generated
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SQL string and the parameters.
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A simple transformer example
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============================
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The custom lookup above is great, but in some cases you may want to be able to
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chain lookups together. For example, let's suppose we are building an
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application where we want to make use of the ``abs()`` operator.
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We have an ``Experiment`` model which records a start value, end value, and the
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change (start - end). We would like to find all experiments where the change
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was equal to a certain amount (``Experiment.objects.filter(change__abs=27)``),
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or where it did not exceed a certain amount
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(``Experiment.objects.filter(change__abs__lt=27)``).
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.. note::
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This example is somewhat contrived, but it nicely demonstrates the range of
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functionality which is possible in a database backend independent manner,
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and without duplicating functionality already in Django.
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We will start by writing an ``AbsoluteValue`` transformer. This will use the SQL
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function ``ABS()`` to transform the value before comparison::
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from django.db.models import Transform
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class AbsoluteValue(Transform):
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lookup_name = 'abs'
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function = 'ABS'
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Next, let's register it for ``IntegerField``::
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from django.db.models import IntegerField
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IntegerField.register_lookup(AbsoluteValue)
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We can now run the queries we had before.
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``Experiment.objects.filter(change__abs=27)`` will generate the following SQL:
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.. code-block:: sql
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SELECT ... WHERE ABS("experiments"."change") = 27
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By using ``Transform`` instead of ``Lookup`` it means we are able to chain
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further lookups afterwards. So
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``Experiment.objects.filter(change__abs__lt=27)`` will generate the following
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SQL:
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.. code-block:: sql
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SELECT ... WHERE ABS("experiments"."change") < 27
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Note that in case there is no other lookup specified, Django interprets
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``change__abs=27`` as ``change__abs__exact=27``.
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This also allows the result to be used in ``ORDER BY`` and ``DISTINCT ON``
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clauses. For example ``Experiment.objects.order_by('change__abs')`` generates:
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.. code-block:: sql
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SELECT ... ORDER BY ABS("experiments"."change") ASC
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And on databases that support distinct on fields (such as PostgreSQL),
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``Experiment.objects.distinct('change__abs')`` generates:
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.. code-block:: sql
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SELECT ... DISTINCT ON ABS("experiments"."change")
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When looking for which lookups are allowable after the ``Transform`` has been
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applied, Django uses the ``output_field`` attribute. We didn't need to specify
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this here as it didn't change, but supposing we were applying ``AbsoluteValue``
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to some field which represents a more complex type (for example a point
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relative to an origin, or a complex number) then we may have wanted to specify
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that the transform returns a ``FloatField`` type for further lookups. This can
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be done by adding an ``output_field`` attribute to the transform::
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from django.db.models import FloatField, Transform
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class AbsoluteValue(Transform):
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lookup_name = 'abs'
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function = 'ABS'
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@property
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def output_field(self):
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return FloatField()
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This ensures that further lookups like ``abs__lte`` behave as they would for
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a ``FloatField``.
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Writing an efficient ``abs__lt`` lookup
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=======================================
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When using the above written ``abs`` lookup, the SQL produced will not use
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indexes efficiently in some cases. In particular, when we use
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``change__abs__lt=27``, this is equivalent to ``change__gt=-27`` AND
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``change__lt=27``. (For the ``lte`` case we could use the SQL ``BETWEEN``).
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So we would like ``Experiment.objects.filter(change__abs__lt=27)`` to generate
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the following SQL:
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.. code-block:: sql
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SELECT .. WHERE "experiments"."change" < 27 AND "experiments"."change" > -27
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The implementation is::
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from django.db.models import Lookup
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class AbsoluteValueLessThan(Lookup):
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lookup_name = 'lt'
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def as_sql(self, compiler, connection):
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lhs, lhs_params = compiler.compile(self.lhs.lhs)
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rhs, rhs_params = self.process_rhs(compiler, connection)
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params = lhs_params + rhs_params + lhs_params + rhs_params
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return '%s < %s AND %s > -%s' % (lhs, rhs, lhs, rhs), params
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AbsoluteValue.register_lookup(AbsoluteValueLessThan)
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There are a couple of notable things going on. First, ``AbsoluteValueLessThan``
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isn't calling ``process_lhs()``. Instead it skips the transformation of the
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``lhs`` done by ``AbsoluteValue`` and uses the original ``lhs``. That is, we
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want to get ``"experiments"."change"`` not ``ABS("experiments"."change")``.
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Referring directly to ``self.lhs.lhs`` is safe as ``AbsoluteValueLessThan``
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can be accessed only from the ``AbsoluteValue`` lookup, that is the ``lhs``
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is always an instance of ``AbsoluteValue``.
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Notice also that as both sides are used multiple times in the query the params
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need to contain ``lhs_params`` and ``rhs_params`` multiple times.
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The final query does the inversion (``27`` to ``-27``) directly in the
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database. The reason for doing this is that if the ``self.rhs`` is something else
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than a plain integer value (for example an ``F()`` reference) we can't do the
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transformations in Python.
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.. note::
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In fact, most lookups with ``__abs`` could be implemented as range queries
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like this, and on most database backends it is likely to be more sensible to
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do so as you can make use of the indexes. However with PostgreSQL you may
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want to add an index on ``abs(change)`` which would allow these queries to
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be very efficient.
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A bilateral transformer example
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===============================
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The ``AbsoluteValue`` example we discussed previously is a transformation which
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applies to the left-hand side of the lookup. There may be some cases where you
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want the transformation to be applied to both the left-hand side and the
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right-hand side. For instance, if you want to filter a queryset based on the
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equality of the left and right-hand side insensitively to some SQL function.
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Let's examine the simple example of case-insensitive transformation here. This
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transformation isn't very useful in practice as Django already comes with a bunch
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of built-in case-insensitive lookups, but it will be a nice demonstration of
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bilateral transformations in a database-agnostic way.
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We define an ``UpperCase`` transformer which uses the SQL function ``UPPER()`` to
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transform the values before comparison. We define
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:attr:`bilateral = True <django.db.models.Transform.bilateral>` to indicate that
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this transformation should apply to both ``lhs`` and ``rhs``::
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from django.db.models import Transform
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class UpperCase(Transform):
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lookup_name = 'upper'
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function = 'UPPER'
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bilateral = True
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Next, let's register it::
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from django.db.models import CharField, TextField
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CharField.register_lookup(UpperCase)
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TextField.register_lookup(UpperCase)
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Now, the queryset ``Author.objects.filter(name__upper="doe")`` will generate a case
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insensitive query like this:
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.. code-block:: sql
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SELECT ... WHERE UPPER("author"."name") = UPPER('doe')
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Writing alternative implementations for existing lookups
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========================================================
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Sometimes different database vendors require different SQL for the same
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operation. For this example we will rewrite a custom implementation for
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MySQL for the NotEqual operator. Instead of ``<>`` we will be using ``!=``
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operator. (Note that in reality almost all databases support both, including
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all the official databases supported by Django).
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We can change the behavior on a specific backend by creating a subclass of
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``NotEqual`` with an ``as_mysql`` method::
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class MySQLNotEqual(NotEqual):
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def as_mysql(self, compiler, connection, **extra_context):
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lhs, lhs_params = self.process_lhs(compiler, connection)
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rhs, rhs_params = self.process_rhs(compiler, connection)
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params = lhs_params + rhs_params
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return '%s != %s' % (lhs, rhs), params
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Field.register_lookup(MySQLNotEqual)
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We can then register it with ``Field``. It takes the place of the original
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``NotEqual`` class as it has the same ``lookup_name``.
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When compiling a query, Django first looks for ``as_%s % connection.vendor``
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methods, and then falls back to ``as_sql``. The vendor names for the in-built
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backends are ``sqlite``, ``postgresql``, ``oracle`` and ``mysql``.
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How Django determines the lookups and transforms which are used
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===============================================================
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In some cases you may wish to dynamically change which ``Transform`` or
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``Lookup`` is returned based on the name passed in, rather than fixing it. As
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an example, you could have a field which stores coordinates or an arbitrary
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dimension, and wish to allow a syntax like ``.filter(coords__x7=4)`` to return
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the objects where the 7th coordinate has value 4. In order to do this, you
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would override ``get_lookup`` with something like::
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class CoordinatesField(Field):
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def get_lookup(self, lookup_name):
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if lookup_name.startswith('x'):
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try:
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dimension = int(lookup_name[1:])
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except ValueError:
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pass
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else:
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return get_coordinate_lookup(dimension)
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return super().get_lookup(lookup_name)
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You would then define ``get_coordinate_lookup`` appropriately to return a
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``Lookup`` subclass which handles the relevant value of ``dimension``.
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There is a similarly named method called ``get_transform()``. ``get_lookup()``
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should always return a ``Lookup`` subclass, and ``get_transform()`` a
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``Transform`` subclass. It is important to remember that ``Transform``
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objects can be further filtered on, and ``Lookup`` objects cannot.
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When filtering, if there is only one lookup name remaining to be resolved, we
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will look for a ``Lookup``. If there are multiple names, it will look for a
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``Transform``. In the situation where there is only one name and a ``Lookup``
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is not found, we look for a ``Transform`` and then the ``exact`` lookup on that
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``Transform``. All call sequences always end with a ``Lookup``. To clarify:
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- ``.filter(myfield__mylookup)`` will call ``myfield.get_lookup('mylookup')``.
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- ``.filter(myfield__mytransform__mylookup)`` will call
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``myfield.get_transform('mytransform')``, and then
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``mytransform.get_lookup('mylookup')``.
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- ``.filter(myfield__mytransform)`` will first call
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``myfield.get_lookup('mytransform')``, which will fail, so it will fall back
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to calling ``myfield.get_transform('mytransform')`` and then
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``mytransform.get_lookup('exact')``.
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