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600 lines
25 KiB
Plaintext
==========
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Migrations
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==========
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.. module:: django.db.migrations
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:synopsis: Schema migration support for Django models
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.. versionadded:: 1.7
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Migrations are Django's way of propagating changes you make to your models
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(adding a field, deleting a model, etc.) into your database schema. They're
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designed to be mostly automatic, but you'll need to know when to make
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migrations, when to run them, and the common problems you might run into.
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A Brief History
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---------------
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Prior to version 1.7, Django only supported adding new models to the
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database; it was not possible to alter or remove existing models via the
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``syncdb`` command (the predecessor to :djadmin:`migrate`).
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Third-party tools, most notably `South <http://south.aeracode.org>`_,
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provided support for these additional types of change, but it was considered
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important enough that support was brought into core Django.
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Two Commands
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------------
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There are two commands which you will use to interact with migrations
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and Django's handling of database schema:
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* :djadmin:`migrate`, which is responsible for applying migrations, as well as
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unapplying and listing their status.
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* :djadmin:`makemigrations`, which is responsible for creating new migrations
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based on the changes you have made to your models.
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It's worth noting that migrations are created and run on a per-app basis.
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In particular, it's possible to have apps that *do not use migrations* (these
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are referred to as "unmigrated" apps) - these apps will instead mimic the
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legacy behavior of just adding new models.
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You should think of migrations as a version control system for your database
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schema. ``makemigrations`` is responsible for packaging up your model changes
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into individual migration files - analogous to commits - and ``migrate`` is
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responsible for applying those to your database.
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The migration files for each app live in a "migrations" directory inside
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of that app, and are designed to be committed to, and distributed as part
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of, its codebase. You should be making them once on your development machine
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and then running the same migrations on your colleagues' machines, your
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staging machines, and eventually your production machines.
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.. note::
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It is possible to override the name of the package which contains the
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migrations on a per-app basis by modifying the :setting:`MIGRATION_MODULES`
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setting.
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Migrations will run the same way on the same dataset and produce consistent
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results, meaning that what you see in development and staging is, under the
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same circumstances, exactly what will happen in production.
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Django will make migrations for any change to your models or fields - even
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options that don't affect the database - as the only way it can reconstruct
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a field correctly is to have all the changes in the history, and you might
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need those options in some data migrations later on (for example, if you've
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set custom validators).
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Backend Support
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---------------
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Migrations are supported on all backends that Django ships with, as well
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as any third-party backends if they have programmed in support for schema
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alteration (done via the :doc:`SchemaEditor </ref/schema-editor>` class).
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However, some databases are more capable than others when it comes to
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schema migrations; some of the caveats are covered below.
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PostgreSQL
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~~~~~~~~~~
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PostgreSQL is the most capable of all the databases here in terms of schema
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support; the only caveat is that adding columns with default values will
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cause a full rewrite of the table, for a time proportional to its size.
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For this reason, it's recommended you always create new columns with
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``null=True``, as this way they will be added immediately.
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MySQL
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~~~~~
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MySQL lacks support for transactions around schema alteration operations,
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meaning that if a migration fails to apply you will have to manually unpick
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the changes in order to try again (it's impossible to roll back to an
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earlier point).
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In addition, MySQL will fully rewrite tables for almost every schema operation
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and generally takes a time proportional to the number of rows in the table to
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add or remove columns. On slower hardware this can be worse than a minute per
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million rows - adding a few columns to a table with just a few million rows
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could lock your site up for over ten minutes.
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Finally, MySQL has reasonably small limits on name lengths for columns, tables
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and indexes, as well as a limit on the combined size of all columns an index
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covers. This means that indexes that are possible on other backends will
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fail to be created under MySQL.
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SQLite
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~~~~~~
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SQLite has very little built-in schema alteration support, and so Django
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attempts to emulate it by:
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* Creating a new table with the new schema
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* Copying the data across
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* Dropping the old table
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* Renaming the new table to match the original name
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This process generally works well, but it can be slow and occasionally
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buggy. It is not recommended that you run and migrate SQLite in a
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production environment unless you are very aware of the risks and
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its limitations; the support Django ships with is designed to allow
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developers to use SQLite on their local machines to develop less complex
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Django projects without the need for a full database.
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Workflow
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--------
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Working with migrations is simple. Make changes to your models - say, add
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a field and remove a model - and then run :djadmin:`makemigrations`::
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$ python manage.py makemigrations
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Migrations for 'books':
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0003_auto.py:
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- Alter field author on book
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Your models will be scanned and compared to the versions currently
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contained in your migration files, and then a new set of migrations
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will be written out. Make sure to read the output to see what
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``makemigrations`` thinks you have changed - it's not perfect, and for
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complex changes it might not be detecting what you expect.
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Once you have your new migration files, you should apply them to your
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database to make sure they work as expected::
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$ python manage.py migrate
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Operations to perform:
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Synchronize unmigrated apps: sessions, admin, messages, auth, staticfiles, contenttypes
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Apply all migrations: books
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Synchronizing apps without migrations:
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Creating tables...
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Installing custom SQL...
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Installing indexes...
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Installed 0 object(s) from 0 fixture(s)
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Running migrations:
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Applying books.0003_auto... OK
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The command runs in two stages; first, it synchronizes unmigrated apps
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(performing the same functionality that ``syncdb`` used to provide), and
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then it runs any migrations that have not yet been applied.
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Once the migration is applied, commit the migration and the models change
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to your version control system as a single commit - that way, when other
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developers (or your production servers) check out the code, they'll
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get both the changes to your models and the accompanying migration at the
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same time.
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Version control
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~~~~~~~~~~~~~~~
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Because migrations are stored in version control, you'll occasionally
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come across situations where you and another developer have both committed
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a migration to the same app at the same time, resulting in two migrations
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with the same number.
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Don't worry - the numbers are just there for developers' reference, Django
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just cares that each migration has a different name. Migrations specify which
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other migrations they depend on - including earlier migrations in the same
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app - in the file, so it's possible to detect when there's two new migrations
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for the same app that aren't ordered.
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When this happens, Django will prompt you and give you some options. If it
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thinks it's safe enough, it will offer to automatically linearize the two
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migrations for you. If not, you'll have to go in and modify the migrations
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yourself - don't worry, this isn't difficult, and is explained more in
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:ref:`migration-files` below.
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Dependencies
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------------
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While migrations are per-app, the tables and relationships implied by
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your models are too complex to be created for just one app at a time. When
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you make a migration that requires something else to run - for example,
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you add a ``ForeignKey`` in your ``books`` app to your ``authors`` app - the
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resulting migration will contain a dependency on a migration in ``authors``.
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This means that when you run the migrations, the ``authors`` migration runs
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first and creates the table the ``ForeignKey`` references, and then the migration
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that makes the ``ForeignKey`` column runs afterwards and creates the constraint.
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If this didn't happen, the migration would try to create the ``ForeignKey``
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column without the table it's referencing existing and your database would
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throw an error.
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This dependency behavior affects most migration operations where you
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restrict to a single app. Restricting to a single app (either in
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``makemigrations`` or ``migrate``) is a best-efforts promise, and not
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a guarantee; any other apps that need to be used to get dependencies correct
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will be.
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.. _unmigrated-dependencies:
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Be aware, however, that unmigrated apps cannot depend on migrated apps, by the
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very nature of not having migrations. This means that it is not generally
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possible to have an unmigrated app have a ForeignKey or ManyToManyField to
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a migrated app; some cases may work, but it will eventually fail.
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This is particularly apparent if you use swappable models (e.g.
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``AUTH_USER_MODEL``), as every app that uses swappable models will need
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to have migrations if you're unlucky. As time goes on, more and more
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third-party apps will get migrations, but in the meantime you can either
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give them migrations yourself (using :setting:`MIGRATION_MODULES` to
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store those modules outside of the app's own module if you wish), or
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keep the app with your user model unmigrated.
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.. _migration-files:
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Migration files
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---------------
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Migrations are stored as an on-disk format, referred to here as
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"migration files". These files are actually just normal Python files with
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an agreed-upon object layout, written in a declarative style.
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A basic migration file looks like this::
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from django.db import migrations, models
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class Migration(migrations.Migration):
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dependencies = [("migrations", "0001_initial")]
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operations = [
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migrations.DeleteModel("Tribble"),
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migrations.AddField("Author", "rating", models.IntegerField(default=0)),
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]
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What Django looks for when it loads a migration file (as a Python module) is
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a subclass of ``django.db.migrations.Migration`` called ``Migration``. It then
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inspects this object for four attributes, only two of which are used
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most of the time:
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* ``dependencies``, a list of migrations this one depends on.
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* ``operations``, a list of ``Operation`` classes that define what this
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migration does.
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The operations are the key; they are a set of declarative instructions which
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tell Django what schema changes need to be made. Django scans them and
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builds an in-memory representation of all of the schema changes to all apps,
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and uses this to generate the SQL which makes the schema changes.
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That in-memory structure is also used to work out what the differences are
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between your models and the current state of your migrations; Django runs
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through all the changes, in order, on an in-memory set of models to come
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up with the state of your models last time you ran ``makemigrations``. It
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then uses these models to compare against the ones in your ``models.py`` files
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to work out what you have changed.
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You should rarely, if ever, need to edit migration files by hand, but
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it's entirely possible to write them manually if you need to. Some of the
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more complex operations are not autodetectable and are only available via
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a hand-written migration, so don't be scared about editing them if you have to.
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Custom fields
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~~~~~~~~~~~~~
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You can't modify the number of positional arguments in an already migrated
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custom field without raising a ``TypeError``. The old migration will call the
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modified ``__init__`` method with the old signature. So if you need a new
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argument, please create a keyword argument and add something like
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``assert kwargs.get('argument_name') is not None`` in the constructor.
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Adding migrations to apps
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-------------------------
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Adding migrations to new apps is straightforward - they come preconfigured to
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accept migrations, and so just run :djadmin:`makemigrations` once you've made
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some changes.
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If your app already has models and database tables, and doesn't have migrations
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yet (for example, you created it against a previous Django version), you'll
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need to convert it to use migrations; this is a simple process::
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$ python manage.py makemigrations your_app_label
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This will make a new initial migration for your app. Now, when you run
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:djadmin:`migrate`, Django will detect that you have an initial migration
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*and* that the tables it wants to create already exist, and will mark the
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migration as already applied.
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Note that this only works given two things:
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* You have not changed your models since you made their tables. For migrations
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to work, you must make the initial migration *first* and then make changes,
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as Django compares changes against migration files, not the database.
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* You have not manually edited your database - Django won't be able to detect
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that your database doesn't match your models, you'll just get errors when
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migrations try to modify those tables.
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.. _historical-models:
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Historical models
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-----------------
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When you run migrations, Django is working from historical versions of
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your models stored in the migration files. If you write Python code
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using the :class:`~django.db.migrations.operations.RunPython` operation, or if
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you have ``allow_migrate`` methods on your database routers, you will be
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exposed to these versions of your models.
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Because it's impossible to serialize arbitrary Python code, these historical
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models will not have any custom methods or managers that you have defined.
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They will, however, have the same fields, relationships and ``Meta`` options
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(also versioned, so they may be different from your current ones).
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.. warning::
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This means that you will NOT have custom ``save()`` methods called on objects
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when you access them in migrations, and you will NOT have any custom
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constructors or instance methods. Plan appropriately!
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In addition, the base classes of the model are just stored as pointers,
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so you must always keep base classes around for as long as there is a migration
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that contains a reference to them. On the plus side, methods and managers
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from these base classes inherit normally, so if you absolutely need access
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to these you can opt to move them into a superclass.
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.. _data-migrations:
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Data Migrations
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---------------
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As well as changing the database schema, you can also use migrations to change
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the data in the database itself, in conjunction with the schema if you want.
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Migrations that alter data are usually called "data migrations"; they're best
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written as separate migrations, sitting alongside your schema migrations.
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Django can't automatically generate data migrations for you, as it does with
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schema migrations, but it's not very hard to write them. Migration files in
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Django are made up of :doc:`Operations </ref/migration-operations>`, and
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the main operation you use for data migrations is
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:class:`~django.db.migrations.operations.RunPython`.
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To start, make an empty migration file you can work from (Django will put
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the file in the right place, suggest a name, and add dependencies for you)::
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python manage.py makemigrations --empty yourappname
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Then, open up the file; it should look something like this::
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# -*- coding: utf-8 -*-
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from django.db import models, migrations
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class Migration(migrations.Migration):
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dependencies = [
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('yourappname', '0001_initial'),
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]
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operations = [
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]
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Now, all you need to do is create a new function and have
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:class:`~django.db.migrations.operations.RunPython` use it.
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:class:`~django.db.migrations.operations.RunPython` expects a callable as its argument
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which takes two arguments - the first is an :doc:`app registry
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</ref/applications/>` that has the historical versions of all your models
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loaded into it to match where in your history the migration sits, and the
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second is a :doc:`SchemaEditor </ref/schema-editor>`, which you can use to
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manually effect database schema changes (but beware, doing this can confuse
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the migration autodetector!)
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Let's write a simple migration that populates our new ``name`` field with the
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combined values of ``first_name`` and ``last_name`` (we've come to our senses
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and realized that not everyone has first and last names). All we
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need to do is use the historical model and iterate over the rows::
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# -*- coding: utf-8 -*-
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from django.db import models, migrations
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def combine_names(apps, schema_editor):
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# We can't import the Person model directly as it may be a newer
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# version than this migration expects. We use the historical version.
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Person = apps.get_model("yourappname", "Person")
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for person in Person.objects.all():
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person.name = "%s %s" % (person.first_name, person.last_name)
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person.save()
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class Migration(migrations.Migration):
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dependencies = [
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('yourappname', '0001_initial'),
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]
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operations = [
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migrations.RunPython(combine_names),
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]
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Once that's done, we can just run ``python manage.py migrate`` as normal and
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the data migration will run in place alongside other migrations.
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You can pass a second callable to
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:class:`~django.db.migrations.operations.RunPython` to run whatever logic you
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want executed when migrating backwards. If this callable is omitted, migrating
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backwards will raise an exception.
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If you're interested in the more advanced migration operations, or want
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to be able to write your own, see the :doc:`migration operations reference
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</ref/migration-operations>`.
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.. _migration-squashing:
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Squashing migrations
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--------------------
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You are encouraged to make migrations freely and not worry about how many you
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have; the migration code is optimized to deal with hundreds at a time without
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much slowdown. However, eventually you will want to move back from having
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several hundred migrations to just a few, and that's where squashing comes in.
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Squashing is the act of reducing an existing set of many migrations down to
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one (or sometimes a few) migrations which still represent the same changes.
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Django does this by taking all of your existing migrations, extracting their
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``Operation``\s and putting them all in sequence, and then running an optimizer
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over them to try and reduce the length of the list - for example, it knows
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that :class:`~django.db.migrations.operations.CreateModel` and
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:class:`~django.db.migrations.operations.DeleteModel` cancel each other out,
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and it knows that :class:`~django.db.migrations.operations.AddField` can be
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rolled into :class:`~django.db.migrations.operations.CreateModel`.
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Once the operation sequence has been reduced as much as possible - the amount
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possible depends on how closely intertwined your models are and if you have
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any :class:`~django.db.migrations.operations.RunSQL`
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or :class:`~django.db.migrations.operations.RunPython` operations (which can't
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be optimized through) - Django will them write it back out into a new set of
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initial migration files.
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These files are marked to say they replace the previously-squashed migrations,
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so they can coexist with the old migration files, and Django will intelligently
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switch between them depending where you are in the history. If you're still
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part-way through the set of migrations that you squashed, it will keep using
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them until it hits the end and then switch to the squashed history, while new
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installs will just use the new squashed migration and skip all the old ones.
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This enables you to squash and not mess up systems currently in production
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that aren't fully up-to-date yet. The recommended process is to squash, keeping
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the old files, commit and release, wait until all systems are upgraded with
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the new release (or if you're a third-party project, just ensure your users
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upgrade releases in order without skipping any), and then remove the old files,
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commit and do a second release.
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The command that backs all this is :djadmin:`squashmigrations` - just pass
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it the app label and migration name you want to squash up to, and it'll get to
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work::
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$ ./manage.py squashmigrations myapp 0004
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Will squash the following migrations:
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- 0001_initial
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- 0002_some_change
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- 0003_another_change
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- 0004_undo_something
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Do you wish to proceed? [yN] y
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Optimizing...
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Optimized from 12 operations to 7 operations.
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Created new squashed migration /home/andrew/Programs/DjangoTest/test/migrations/0001_squashed_0004_undo_somthing.py
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You should commit this migration but leave the old ones in place;
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the new migration will be used for new installs. Once you are sure
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|
all instances of the codebase have applied the migrations you squashed,
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|
you can delete them.
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|
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|
Note that model interdependencies in Django can get very complex, and squashing
|
|
may occasionally result in an optimized migration that doesn't work or is
|
|
impossible to run. When this occurs, you can re-try with ``--no-optimize``, but
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|
please `file a bug report <https://code.djangoproject.com/newticket>`_ either
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|
way detailing the models and their relationships so we can improve the
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|
optimizer to handle your case.
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|
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|
.. _migration-serializing:
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|
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|
Serializing values
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|
------------------
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|
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|
Migrations are just Python files containing the old definitions of your models
|
|
- thus, to write them, Django must take the current state of your models and
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|
serialize them out into a file.
|
|
|
|
While Django can serialize most things, there are some things that we just
|
|
can't serialize out into a valid Python representation - there's no Python
|
|
standard for how a value can be turned back into code (``repr()`` only works
|
|
for basic values, and doesn't specify import paths).
|
|
|
|
Django can serialize the following:
|
|
|
|
- ``int``, ``long``, ``float``, ``bool``, ``str``, ``unicode``, ``bytes``, ``None``
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|
- ``list``, ``set``, ``tuple``, ``dict``
|
|
- ``datetime.date`` and ``datetime.datetime`` instances
|
|
- ``decimal.Decimal`` instances
|
|
- Any Django field
|
|
- Any function or method reference (e.g. ``datetime.datetime.today``)
|
|
- Any class reference
|
|
- Anything with a custom ``deconstruct()`` method (:ref:`see below <custom-deconstruct-method>`)
|
|
|
|
Django can serialize the following on Python 3 only:
|
|
|
|
- Unbound methods used from within the class body (see below)
|
|
|
|
Django cannot serialize:
|
|
|
|
- Arbitrary class instances (e.g. ``MyClass(4.3, 5.7)``)
|
|
- Lambdas
|
|
|
|
Due to the fact ``__qualname__`` was only introduced in Python 3, Django can only
|
|
serialize the following pattern (an unbound method used within the class body)
|
|
on Python 3, and will fail to serialize a reference to it on Python 2::
|
|
|
|
class MyModel(models.Model):
|
|
|
|
def upload_to(self):
|
|
return "something dynamic"
|
|
|
|
my_file = models.FileField(upload_to=upload_to)
|
|
|
|
If you are using Python 2, we recommend you move your methods for upload_to
|
|
and similar arguments that accept callables (e.g. ``default``) to live in
|
|
the main module body, rather than the class body.
|
|
|
|
.. _custom-deconstruct-method:
|
|
|
|
Adding a deconstruct() method
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
You can let Django serialize your own custom class instances by giving the class
|
|
a ``deconstruct()`` method. It takes no arguments, and should return a tuple
|
|
of three things: ``(path, args, kwargs)``. Note this return value is different
|
|
from the ``deconstruct()`` method :ref:`for custom fields
|
|
<custom-field-deconstruct-method>` which returns a tuple of four items.
|
|
|
|
``path`` should be the Python path to the class, with the class name included as the
|
|
last part (for example, ``myapp.custom_things.MyClass``). If your class is not
|
|
available at the top level of a module it is not serializable.
|
|
|
|
``args`` should be a list of positional arguments to pass to your class'
|
|
``__init__`` method. Everything in this list should itself be serializable.
|
|
|
|
``kwargs`` should be a dict of keyword arguments to pass to your class'
|
|
``__init__`` method. Every value should itself be serializable.
|
|
|
|
Django will write out the value as an instantiation of your class with the
|
|
given arguments, similar to the way it writes out references to Django fields.
|
|
|
|
As long as all of the arguments to your class' constructor are themselves
|
|
serializable, you can just use the ``@deconstructible`` class decorator
|
|
from ``django.utils.deconstruct`` to add the method::
|
|
|
|
from django.utils.deconstruct import deconstructible
|
|
|
|
@deconstructible
|
|
class MyCustomClass(object):
|
|
|
|
def __init__(self, foo=1):
|
|
...
|
|
|
|
The decorator adds logic to capture and preserve the arguments on their
|
|
way into your constructor, and then returns those arguments exactly when
|
|
deconstruct() is called.
|
|
|
|
Upgrading from South
|
|
--------------------
|
|
|
|
If you already have pre-existing migrations created with
|
|
`South 0.x <http://south.aeracode.org>`_, then the upgrade process to use
|
|
``django.db.migrations`` is quite simple:
|
|
|
|
* Ensure all installs are fully up-to-date with their migrations
|
|
* Delete all your (numbered) migration files, but not the directory or
|
|
``__init__.py`` - make sure you remove the ``.pyc`` files too.
|
|
* Run ``python manage.py makemigrations``. Django should see the empty
|
|
migration directories and make new initial migrations in the new format.
|
|
* Run ``python manage.py migrate``. Django will see that the tables for the
|
|
initial migrations already exist and mark them as applied without running
|
|
them.
|
|
|
|
That's it! The only complication is if you have a circular dependency loop
|
|
of foreign keys; in this case, ``makemigrations`` might make more than one
|
|
initial migration, and you'll need to mark them all as applied using::
|
|
|
|
python manage.py migrate --fake yourappnamehere
|