37

I have an application which is in BETA mode. The model of this app has some classes with an explicit primary_key. As a consequence Django use the fields and doesn't create an id automatically.

class Something(models.Model):
    name = models.CharField(max_length=64, primary_key=True)

I think that it was a bad idea (see unicode error when saving an object in django admin) and I would like to move back and have an id for every class of my model.

class Something(models.Model):
    name = models.CharField(max_length=64, db_index=True)

I've made the changes to my model (replace every primary_key=True by db_index=True) and I want to migrate the database with south.

Unfortunately, the migration fails with the following message: ValueError: You cannot add a null=False column without a default value.

I am evaluating the different workarounds for this problem. Any suggestions?

Thanks for your help

  • Could you show us your model? – Tom van Enckevort Jan 13 '10 at 10:04
  • @tomlog : see stackoverflow.com/questions/2011629/… There is an example. I wand to add an id as pk – luc Jan 13 '10 at 10:36
  • FWIW, there's nothing wrong having name a primary key, as long as your database correctly uses indexes. – Tobu Jan 13 '10 at 10:51
68

Agreed, your model is probably wrong.

The formal primary key should always be a surrogate key. Never anything else. [Strong words. Been database designer since the 1980's. Important lessoned learned is this: everything is changeable, even when the users swear on their mothers' graves that the value cannot be changed is is truly a natural key that can be taken as primary. It isn't primary. Only surrogates can be primary.]

You're doing open-heart surgery. Don't mess with schema migration. You're replacing the schema.

  1. Unload your data into JSON files. Use Django's own internal django-admin.py tools for this. You should create one unload file for each that will be changing and each table that depends on a key which is being created. Separate files make this slightly easier to do.

  2. Drop the tables which you are going to change from the old schema.

    Tables which depend on these tables will have their FK's changed; you can either update the rows in place or -- it might be simpler -- to delete and reinsert these rows, also.

  3. Create the new schema. This will only create the tables which are changing.

  4. Write scripts to read and reload the data with the new keys. These are short and very similar. Each script will use json.load() to read objects from the source file; you will then create your schema objects from the JSON tuple-line objects that were built for you. You can then insert them into the database.

    You have two cases.

    • Tables with PK's change changed will be inserted and will get new PK's. These must be "cascaded" to other tables to assure that the other table's FK's get changed also.

    • Tables with FK's that change will have to locate the row in the foreign table and update their FK reference.

Alternative.

  1. Rename all your old tables.

  2. Create the entire new schema.

  3. Write SQL to migrate all the data from old schema to new schema. This will have to cleverly reassign keys as it goes.

  4. Drop the renamed old tables.

 

  • When you say "explicit primary_key" Do you mean a formal primary key not defined by Django? Yes and yes I agree with your points. I like your 1st approach. Any pointer on how to export/import in JSON? – luc Jan 13 '10 at 14:58
  • 1
    I'm quoting your question @luc; you appear to mean that you're trying to create a primary key not defined by Django. This is a bad idea. – S.Lott Jan 13 '10 at 15:15
  • I've edited my question. I hope it brings some clarification. dumpdata and loaddata seems to be a way. but maybe not so easy – luc Jan 13 '10 at 16:40
  • 1
    dumpdata, recreate db schema and loaddata seems to be the good approach. Thanks – luc Jan 13 '10 at 19:44
  • @S.Lott +1 for calling this a schema replacement – qua a migration – with the gravitas such a thing entails. – fish2000 May 9 '14 at 15:31
10

To change primary key with south you can use south.db.create_primary_key command in datamigration. To change your custom CharField pk to standard AutoField you should do:

1) create new field in your model

class MyModel(Model):
    id = models.AutoField(null=True)

1.1) if you have a foreign key in some other model to this model, create new fake fk field on these model too (use IntegerField, it will then be converted)

class MyRelatedModel(Model):
    fake_fk = models.IntegerField(null=True)

2) create automatic south migration and migrate:

./manage.py schemamigration --auto
./manage.py migrate

3) create new datamigration

./manage.py datamigration <your_appname> fill_id

in tis datamigration fill these new id and fk fields with numbers (just enumerate them)

    for n, obj in enumerate(orm.MyModel.objects.all()):
        obj.id = n
        # update objects with foreign keys
        obj.myrelatedmodel_set.all().update(fake_fk = n)
        obj.save()

    db.delete_primary_key('my_app_mymodel')
    db.create_primary_key('my_app_mymodel', ['id'])

4) in your models set primary_key=True on your new pk field

id = models.AutoField(primary_key=True)

5) delete old primary key field (if it is not needed) create auto migration and migrate.

5.1) if you have foreign keys - delete old foreign key fields too (migrate)

6) Last step - restore fireign key relations. Create real fk field again, and delete your fake_fk field, create auto migration BUT DO NOT MIGRATE(!) - you need to modify created auto migration: instead of creating new fk and deleting fake_fk - rename column fake_fk

# in your models
class MyRelatedModel(Model):
    # delete fake_fk
    # fake_fk = models.InegerField(null=True)
    # create real fk
    mymodel = models.FoeignKey('MyModel', null=True)

# in migration
    def forwards(self, orm):
        # left this without change - create fk field
        db.add_column('my_app_myrelatedmodel', 'mymodel',
                  self.gf('django.db.models.fields.related.ForeignKey')(default=1, related_name='lots', to=orm['my_app.MyModel']),keep_default=False)

        # remove fk column and rename fake_fk
        db.delete_column('my_app_myrelatedmodel', 'mymodel_id')
        db.rename_column('my_app_myrelatedmodel', 'fake_fk', 'mymodel_id')

so previously filled fake_fk becomes a column, that contain actual relation data, and it does not get lost after all the steps above.

  • 5
    Have you actually tried this? You can't have an autofield which isn't primary, nor one which allows null (south won't allow it, and I don't think django will). Accordingly, you can't really do related lookups once you have altered the primary key. – Marcin Jun 3 '12 at 13:00
  • 3
    That said, an adapted version of this approach did work well for me. – Marcin Jun 4 '12 at 12:32
  • 4
    @marcin, how did you adapt the first step ( to overcome the south/django prohibition on a null, nonpk AutoField ) – hobs Jan 31 '13 at 15:11
  • Starting the id sequence from 0 causes mysql to reassign an ID to that record. So I'd recommend using n+1 in step 3 to avoid this. – Vajk Hermecz Dec 9 '14 at 11:27
  • 1
    Has anyone successfully used this or a modified version of this approach to change the primary key field? – tbz Jan 23 '15 at 12:46
6

Currently you are failing because you are adding a pk column that breaks the NOT NULL and UNIQUE requirements.

You should split the migration into several steps, separating schema migrations and data migrations:

  • add the new column, indexed but not primary key, with a default value (ddl migration)
  • migrate the data: fill the new column with the correct value (data migration)
  • mark the new column primary key, and remove the former pk column if it has become unnecessary (ddl migration)
  • This didn't work for me, due to issues with South. I suggest following the solutions of @RemcoGerlich or S.Lott – grokpot Jan 12 '16 at 22:32
6

I had the same problem to day and came to a solution inspired by the answers above.

My model has a "Location" table. It has a CharField called "unique_id" and I foolishly made it a primary key, last year. Of course they didn't turn out to be as unique as expected at the time. There is also a "ScheduledMeasurement" model that has a foreign key to "Location".

Now I want to correct that mistake and give Location an ordinary auto-incrementing primary key.

Steps taken:

  1. Create a CharField ScheduledMeasurement.temp_location_unique_id and a model TempLocation, and migrations to create them. TempLocation has the structure I want Location to have.

  2. Create a data migration that sets all the temp_location_unique_id's using the foreign key, and that copies over all the data from Location to TempLocation

  3. Remove the foreign key and the Location table with a migration

  4. Re-create the Location model the way I want it to be, re-create the foreign key with null=True. Renamed 'unique_id' to 'location_code'...

  5. Create a data migration that fills in the data in Location using TempLocation, and fills in the foreign keys in ScheduledMeasurement using temp_location

  6. Remove temp_location, TempLocation and null=True in the foreign key

And edit all the code that assumed unique_id was unique (all the objects.get(unique_id=...) stuff), and that used unique_id otherwise...

6

I managed to do this with django 1.10.4 migrations and mysql 5.5, but it wasn't easy.

I had a varchar primary key with several foreign keys. I added an id field, migrated data and foreign keys. This is how:

  1. Adding future primary key field. I added an id = models.IntegerField(default=0) field to my main model and generated an auto migration.
  2. Simple data migration to generate new primary keys:

    def fill_ids(apps, schema_editor):
       Model = apps.get_model('<module>', '<model>')
       for id, code in enumerate(Model.objects.all()):
           code.id = id + 1
           code.save()
    
    class Migration(migrations.Migration):
        dependencies = […]
        operations = [migrations.RunPython(fill_ids)]
    
  3. Migrating existing foreign keys. I wrote a combined migration:

    def change_model_fks(apps, schema_editor):
        Model = apps.get_model('<module>', '<model>')  # Our model we want to change primary key for
        FkModel = apps.get_model('<module>', '<fk_model>')  # Other model that references first one via foreign key
    
        mapping = {}
        for model in Model.objects.all():
            mapping[model.old_pk_field] = model.id  # map old primary keys to new
    
        for fk_model in FkModel.objects.all():
            if fk_model.model_id:
                fk_model.model_id = mapping[fk_model.model_id]  # change the reference
                fk_model.save()
    
    class Migration(migrations.Migration):
        dependencies = […]
        operations = [
            # drop foreign key constraint
            migrations.AlterField(
                model_name='<FkModel>',
                name='model',
                field=models.ForeignKey('<Model>', blank=True, null=True, db_constraint=False)
            ),
    
            # change references
            migrations.RunPython(change_model_fks),
    
            # change field from varchar to integer, drop index
            migrations.AlterField(
                model_name='<FkModel>',
                name='model',
                field=models.IntegerField('<Model>', blank=True, null=True)
            ),
        ]
    
  4. Swapping primary keys and restoring foreign keys. Again, a custom migration. I auto-generated the base for this migration when I a) removed primary_key=True from the old primary key and b) removed id field

    class Migration(migrations.Migration):
        dependencies = […]
        operations = [
            # Drop old primary key
            migrations.AlterField(
                model_name='<Model>',
                name='<old_pk_field>',
                field=models.CharField(max_length=100),
            ),
    
            # Create new primary key
            migrations.RunSQL(
                ['ALTER TABLE <table> CHANGE id id INT (11) NOT NULL PRIMARY KEY AUTO_INCREMENT'],
                ['ALTER TABLE <table> CHANGE id id INT (11) NULL',
                 'ALTER TABLE <table> DROP PRIMARY KEY'],
                state_operations=[migrations.AlterField(
                    model_name='<Model>',
                    name='id',
                    field=models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID'),
                )]
            ),
    
            # Recreate foreign key constraints
            migrations.AlterField(
                model_name='<FkModel>',
                name='model',
                field=models.ForeignKey(blank=True, null=True, to='<module>.<Model>'),
        ]
    
0

I have come across this problem myself and ended up writing a reusable (MySQL-specific) migration which also takes into account a Many-To-Many relationship. As a summary, the steps I took were:

  1. Modify the model class like this:

    class Something(models.Model):
        name = models.CharField(max_length=64, unique=True)
    
  2. Add a new migration along these lines:

    app_name = 'app'
    model_name = 'something'
    related_model_name = 'something_else'
    model_table = '%s_%s' % (app_name, model_name)
    pivot_table = '%s_%s_%ss' % (app_name, related_model_name, model_name)
    
    
    class Migration(migrations.Migration):
    
        operations = [
            migrations.AddField(
                model_name=model_name,
                name='id',
                field=models.IntegerField(null=True),
                preserve_default=True,
            ),
            migrations.RunPython(do_most_of_the_surgery),
            migrations.AlterField(
                model_name=model_name,
                name='id',
                field=models.AutoField(
                    verbose_name='ID', serialize=False, auto_created=True,
                    primary_key=True),
                preserve_default=True,
            ),
            migrations.AlterField(
                model_name=model_name,
                name='name',
                field=models.CharField(max_length=64, unique=True),
                preserve_default=True,
            ),
            migrations.RunPython(do_the_final_lifting),
        ]
    

    where

    def do_most_of_the_surgery(apps, schema_editor):
        models = {}
        Model = apps.get_model(app_name, model_name)
    
        # Generate values for the new id column
        for i, o in enumerate(Model.objects.all()):
            o.id = i + 1
            o.save()
            models[o.name] = o.id
    
        # Work on the pivot table before going on
        drop_constraints_and_indices_in_pivot_table()
    
        # Drop current pk index and create the new one
        cursor.execute(
            "ALTER TABLE %s DROP PRIMARY KEY" % model_table
        )
        cursor.execute(
            "ALTER TABLE %s ADD PRIMARY KEY (id)" % model_table
        )
    
        # Rename the fk column in the pivot table
        cursor.execute(
            "ALTER TABLE %s "
            "CHANGE %s_id %s_id_old %s NOT NULL" %
            (pivot_table, model_name, model_name, 'VARCHAR(30)'))
        # ... and create a new one for the new id
        cursor.execute(
            "ALTER TABLE %s ADD COLUMN %s_id INT(11)" %
            (pivot_table, model_name))
    
        # Fill in the new column in the pivot table
        cursor.execute("SELECT id, %s_id_old FROM %s" % (model_name, pivot_table))
        for row in cursor:
            id, key = row[0], row[1]
            model_id = models[key]
    
            inner_cursor = connection.cursor()
            inner_cursor.execute(
                "UPDATE %s SET %s_id=%d WHERE id=%d" %
                (pivot_table, model_name, model_id, id))
    
        # Drop the old (renamed) column in pivot table, no longer needed
        cursor.execute(
            "ALTER TABLE %s DROP COLUMN %s_id_old" %
            (pivot_table, model_name))
    
    def do_the_final_lifting(apps, schema_editor):
        # Create a new unique index for the old pk column
        index_prefix = '%s_id' % model_table
        new_index_prefix = '%s_name' % model_table
        new_index_name = index_name.replace(index_prefix, new_index_prefix)
    
        cursor.execute(
            "ALTER TABLE %s ADD UNIQUE KEY %s (%s)" %
            (model_table, new_index_name, 'name'))
    
        # Finally, work on the pivot table
        recreate_constraints_and_indices_in_pivot_table()
    
    1. Apply the new migration

You can find the complete code in this repo. I've also written about it in my blog.

0

I had to migrate some keys in my Django 1.11 application − the old keys were deterministic, based on an external model. Later though, it turned out that this external model might change, so I needed my own UUIDs.

For reference, I was changing a table of POS-specific wine bottles, as well as a sales table for those wine bottles.

  • I created an extra field on all the relevant tables. In the first step, I needed to introduce fields that could be None, then I generated UUIDs for all of them. Next I applied a change through Django where the new UUID field was marked as unique. I could start migrating all the views etc to use this UUID field as a lookup, so that less would need to be changed during the upcoming, scarier phase of the migration.
  • I updated the foreign keys using a join. (in PostgreSQL, not Django)
  • I replaced all mention of the old keys with the new keys and tested it out in unit tests, since they use their own separate, testing database. This step is optional for cowboys.
  • Going to your PostgreSQL tables, you'll notice that the foreign key constraints have codenames with numbers. You need to drop those constraints and make new ones:

    alter table pos_winesale drop constraint pos_winesale_pos_item_id_57022832_fk;
    alter table pos_winesale rename column pos_item_id to old_pos_item_id;
    alter table pos_winesale rename column placeholder_fk to pos_item_id;
    alter table pos_winesale add foreign key (pos_item_id) references pos_poswinebottle (id);
    alter table pos_winesale drop column old_pos_item_id;
    
  • With the new foreign keys in place, you can then change the primary key, since nothing references it anymore:

    alter table pos_poswinebottle drop constraint pos_poswinebottle_pkey;
    alter table pos_poswinebottle add primary key (id);
    alter table pos_poswinebottle drop column older_key;
    
  • Fake the migration history.

0

I just tried this approach and it seems to work, for django 2.2.2, but only work for sqlite. Trying this method on other database such as postgres SQL but does not work.

  1. Add id=models.IntegerField() to model, makemigrations and migrate, provide a one off default like 1

  2. Use python shell to generate id for all objects in model from 1 to N

  3. remove primary_key=True from the primary key model and remove id=models.IntegerField(). Makemigration and check the migration and you should see id field will be migrate to autofield.

It should work.

I didn't know what i was doing with putting primary key into one of the field but if unsure how to handle primary key, I think better off letting Django to take care of it for you.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.