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269 lines
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269 lines
10 KiB
Plaintext
.. _topics-db-sql:
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==========================
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Performing raw SQL queries
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==========================
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.. currentmodule:: django.db.models
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When the :ref:`model query APIs <topics-db-queries>` don't go far enough, you
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can fall back to writing raw SQL. Django gives you two ways of performing raw
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SQL queries: you can use :meth:`Manager.raw()` to `perform raw queries and
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return model instances`__, or you can avoid the model layer entirely and
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`execute custom SQL directly`__.
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__ `performing raw queries`_
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__ `executing custom SQL directly`_
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Performing raw queries
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======================
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.. versionadded:: 1.2
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The ``raw()`` manager method can be used to perform raw SQL queries that
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return model instances:
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.. method:: Manager.raw(raw_query, params=None, translations=None)
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This method method takes a raw SQL query, executes it, and returns model
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instances.
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This is best illustrated with an example. Suppose you've got the following model::
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class Person(models.Model):
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first_name = models.CharField(...)
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last_name = models.CharField(...)
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birth_date = models.DateField(...)
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You could then execute custom SQL like so::
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>>> Person.objects.raw('SELECT * from myapp_person')
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[<Person: John Doe>, <Person: Jane Doe>, ...]
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.. admonition:: Model table names
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Where'd the name of the ``Person`` table come from in that example?
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By default, Django figures out a database table name by joining the
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model's "app label" -- the name you used in ``manage.py startapp`` -- to
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the model's class name, with an underscore between them. In the example
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we've assumed that the ``Person`` model lives in an app named ``myapp``,
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so its table would be ``myapp_person``.
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For more details check out the documentation for the
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:attr:`~Options.db_table` option, which also lets you manually set the
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database table name.
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Of course, this example isn't very exciting -- it's exactly the same as
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running ``Person.objects.all()``. However, ``raw()`` has a bunch of other
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options that make it very powerful.
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Mapping query fields to model fields
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------------------------------------
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``raw()`` automatically maps fields in the query to fields on the model.
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The order of fields in your query doesn't matter. In other words, both
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of the following queries work identically::
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>>> Person.objects.raw('SELECT id, first_name, last_name, birth_date FROM myapp_person')
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...
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>>> Person.objects.raw('SELECT last_name, birth_date, first_name, id FROM myapp_person')
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...
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Matching is done by name. This means that you can use SQL's ``AS`` clauses to
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map fields in the query to model fields. So if you had some other table that
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had ``Person`` data in it, you could easily map it into ``Person`` instances::
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>>> Person.objects.raw('''SELECT first AS first_name,
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... last AS last_name,
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... bd AS birth_date,
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... pk as id,
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... FROM some_other_table)
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As long as the names match, the model instances will be created correctly.
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Alternatively, you can map fields in the query to model fields using the
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``translations`` argument to ``raw()``. This is a dictionary mapping names of
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fields in the query to names of fields on the model. For example, the above
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query could also be written::
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>>> name_map = {'first': 'first_name', 'last': 'last_name', 'bd': 'birth_date', 'pk': 'id'}
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>>> Person.objects.raw('SELECT * FROM some_other_table', translations=name_map)
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Index lookups
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-------------
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``raw()`` supports indexing, so if you need only the first result you can
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write::
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>>> first_person = Person.objects.raw('SELECT * from myapp_person')[0]
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However, the indexing and slicing are not performed at the database level. If
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you have a big amount of ``Person`` objects in your database, it is more
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efficient to limit the query at the SQL level::
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>>> first_person = Person.objects.raw('SELECT * from myapp_person LIMIT 1')[0]
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Deferring model fields
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----------------------
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Fields may also be left out::
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>>> people = Person.objects.raw('SELECT id, first_name FROM myapp_person'):
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The ``Person`` objects returned by this query will be :ref:`deferred
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<queryset-defer>` model instances. This means that the fields that are omitted
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from the query will be loaded on demand. For example::
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>>> for p in Person.objects.raw('SELECT id, first_name FROM myapp_person'):
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... print p.first_name, # This will be retrieved by the original query
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... print p.last_name # This will be retrieved on demand
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...
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John Smith
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Jane Jones
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From outward appearances, this looks like the query has retrieved both
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the first name and last name. However, this example actually issued 3
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queries. Only the first names were retrieved by the raw() query -- the
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last names were both retrieved on demand when they were printed.
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There is only one field that you can't leave out - the primary key
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field. Django uses the primary key to identify model instances, so it
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must always be included in a raw query. An ``InvalidQuery`` exception
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will be raised if you forget to include the primary key.
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Adding annotations
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------------------
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You can also execute queries containing fields that aren't defined on the
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model. For example, we could use `PostgreSQL's age() function`__ to get a list
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of people with their ages calculated by the database::
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>>> people = Person.objects.raw('SELECT *, age(birth_date) AS age FROM myapp_person')
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>>> for p in people:
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... print "%s is %s." % (p.first_name, p.age)
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John is 37.
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Jane is 42.
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...
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__ http://www.postgresql.org/docs/8.4/static/functions-datetime.html
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Passing parameters into ``raw()``
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---------------------------------
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If you need to perform parameterized queries, you can use the ``params``
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argument to ``raw()``::
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>>> lname = 'Doe'
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>>> Person.objects.raw('SELECT * FROM myapp_person WHERE last_name = %s', [lname])
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``params`` is a list of parameters. You'll use ``%s`` placeholders in the
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query string (regardless of your database engine); they'll be replaced with
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parameters from the ``params`` list.
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.. warning::
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**Do not use string formatting on raw queries!**
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It's tempting to write the above query as::
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>>> query = 'SELECT * FROM myapp_person WHERE last_name = %s' % lname
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>>> Person.objects.raw(query)
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**Don't.**
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Using the ``params`` list completely protects you from `SQL injection
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attacks`__, a common exploit where attackers inject arbitrary SQL into
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your database. If you use string interpolation, sooner or later you'll
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fall victim to SQL injection. As long as you remember to always use the
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``params`` list you'll be protected.
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__ http://en.wikipedia.org/wiki/SQL_injection
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Executing custom SQL directly
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=============================
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Sometimes even :meth:`Manager.raw` isn't quite enough: you might need to
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perform queries that don't map cleanly to models, or directly execute
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``UPDATE``, ``INSERT``, or ``DELETE`` queries.
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In these cases, you can always access the database directly, routing around
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the model layer entirely.
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The object ``django.db.connection`` represents the
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current database connection, and ``django.db.transaction`` represents the
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current database transaction. To use the database connection, call
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``connection.cursor()`` to get a cursor object. Then, call
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``cursor.execute(sql, [params])`` to execute the SQL and ``cursor.fetchone()``
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or ``cursor.fetchall()`` to return the resulting rows. After performing a data
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changing operation, you should then call
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``transaction.commit_unless_managed()`` to ensure your changes are committed
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to the database. If your query is purely a data retrieval operation, no commit
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is required. For example::
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def my_custom_sql():
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from django.db import connection, transaction
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cursor = connection.cursor()
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# Data modifying operation - commit required
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cursor.execute("UPDATE bar SET foo = 1 WHERE baz = %s", [self.baz])
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transaction.commit_unless_managed()
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# Data retrieval operation - no commit required
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cursor.execute("SELECT foo FROM bar WHERE baz = %s", [self.baz])
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row = cursor.fetchone()
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return row
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.. _transactions-and-raw-sql:
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Transactions and raw SQL
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------------------------
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If you are using transaction decorators (such as ``commit_on_success``) to
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wrap your views and provide transaction control, you don't have to make a
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manual call to ``transaction.commit_unless_managed()`` -- you can manually
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commit if you want to, but you aren't required to, since the decorator will
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commit for you. However, if you don't manually commit your changes, you will
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need to manually mark the transaction as dirty, using
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``transaction.set_dirty()``::
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@commit_on_success
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def my_custom_sql_view(request, value):
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from django.db import connection, transaction
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cursor = connection.cursor()
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# Data modifying operation
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cursor.execute("UPDATE bar SET foo = 1 WHERE baz = %s", [value])
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# Since we modified data, mark the transaction as dirty
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transaction.set_dirty()
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# Data retrieval operation. This doesn't dirty the transaction,
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# so no call to set_dirty() is required.
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cursor.execute("SELECT foo FROM bar WHERE baz = %s", [value])
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row = cursor.fetchone()
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return render_to_response('template.html', {'row': row})
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The call to ``set_dirty()`` is made automatically when you use the Django ORM
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to make data modifying database calls. However, when you use raw SQL, Django
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has no way of knowing if your SQL modifies data or not. The manual call to
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``set_dirty()`` ensures that Django knows that there are modifications that
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must be committed.
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Connections and cursors
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-----------------------
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``connection`` and ``cursor`` mostly implement the standard `Python DB-API`_
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(except when it comes to :ref:`transaction handling <topics-db-transactions>`).
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If you're not familiar with the Python DB-API, note that the SQL statement in
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``cursor.execute()`` uses placeholders, ``"%s"``, rather than adding parameters
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directly within the SQL. If you use this technique, the underlying database
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library will automatically add quotes and escaping to your parameter(s) as
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necessary. (Also note that Django expects the ``"%s"`` placeholder, *not* the
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``"?"`` placeholder, which is used by the SQLite Python bindings. This is for
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the sake of consistency and sanity.)
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.. _Python DB-API: http://www.python.org/dev/peps/pep-0249/
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