Common Issues

Bulk Creating and Queryset Updating

django-simple-history functions by saving history using a post_save signal every time that an object with history is saved. However, for certain bulk operations, such as bulk_create, bulk_update, and queryset updates, signals are not sent, and the history is not saved automatically. However, django-simple-history provides utility functions to work around this.

Bulk Creating a Model with History

As of django-simple-history 2.2.0, we can use the utility function bulk_create_with_history in order to bulk create objects while saving their history:

>>> from simple_history.utils import bulk_create_with_history
>>> from simple_history.tests.models import Poll
>>> from django.utils.timezone import now
>>>
>>> data = [Poll(id=x, question='Question ' + str(x), pub_date=now()) for x in range(1000)]
>>> objs = bulk_create_with_history(data, Poll, batch_size=500)
>>> Poll.objects.count()
1000
>>> Poll.history.count()
1000

If you want to specify a change reason or history user for each record in the bulk create, you can add _change_reason, _history_user or _history_date on each instance:

>>> for poll in data:
        poll._change_reason = 'reason'
        poll._history_user = my_user
        poll._history_date = some_date
>>> objs = bulk_create_with_history(data, Poll, batch_size=500)
>>> Poll.history.get(id=data[0].id).history_change_reason
'reason'

You can also specify a default user or default change reason responsible for the change (_change_reason, _history_user and _history_date take precedence).

>>> user = User.objects.create_user("tester", "tester@example.com")
>>> objs = bulk_create_with_history(data, Poll, batch_size=500, default_user=user)
>>> Poll.history.get(id=data[0].id).history_user == user
True

If you’re using additional fields in historical models and have custom fields to batch-create into the history, pass the optional dict argument custom_historical_attrs containing the field names and values. A field session would be passed as custom_historical_attrs={'session': 'training'}.

>>> from simple_history.tests.models import PollWithHistoricalSessionAttr
>>> data = [
    PollWithHistoricalSessionAttr(id=x, question=f'Question {x}')
    for x in range(10)
]
>>> objs = bulk_create_with_history(
        data, PollWithHistoricalSessionAttr,
        custom_historical_attrs={'session': 'training'}
    )
>>> data[0].history.get().session
'training'

Bulk Updating a Model with History (New)

Bulk update was introduced with Django 2.2. We can use the utility function bulk_update_with_history in order to bulk update objects using Django’s bulk_update function while saving the object history:

>>> from simple_history.utils import bulk_update_with_history
>>> from simple_history.tests.models import Poll
>>> from django.utils.timezone import now
>>>
>>> data = [Poll(id=x, question='Question ' + str(x), pub_date=now()) for x in range(1000)]
>>> objs = bulk_create_with_history(data, Poll, batch_size=500)
>>> for obj in objs: obj.question = 'Duplicate Questions'
>>> bulk_update_with_history(objs, Poll, ['question'], batch_size=500)
>>> Poll.objects.first().question
'Duplicate Question``

If your models require the use of an alternative model manager (usually because the default manager returns a filtered set), you can specify which manager to use with the manager argument:

>>> from simple_history.utils import bulk_update_with_history
>>> from simple_history.tests.models import PollWithAlternativeManager
>>>
>>> data = [PollWithAlternativeManager(id=x, question='Question ' + str(x), pub_date=now()) for x in range(1000)]
>>> objs = bulk_create_with_history(data, PollWithAlternativeManager, batch_size=500, manager=PollWithAlternativeManager.all_polls)

If you’re using additional fields in historical models and have custom fields to batch-update into the history, pass the optional dict argument custom_historical_attrs containing the field names and values. A field session would be passed as custom_historical_attrs={'session': 'jam'}.

>>> bulk_update_with_history(
        data, PollWithHistoricalSessionAttr, [],
        custom_historical_attrs={'session': 'jam'}
    )
>>> data[0].history.latest().session
'jam'

QuerySet Updates with History (Updated in Django 2.2)

Unlike with bulk_create, queryset updates perform an SQL update query on the queryset, and never return the actual updated objects (which would be necessary for the inserts into the historical table). Thus, we tell you that queryset updates will not save history (since no post_save signal is sent). As the Django documentation says:

If you want to update a bunch of records for a model that has a custom
``save()`` method, loop over them and call ``save()``, like this:
for e in Entry.objects.filter(pub_date__year=2010):
    e.comments_on = False
    e.save()

Note: Django 2.2 now allows bulk_update. No pre_save or post_save signals are sent still.

Tracking Custom Users

  • fields.E300:

    ERRORS:
    custom_user.HistoricalCustomUser.history_user: (fields.E300) Field defines a relation with model 'custom_user.CustomUser', which is either not installed, or is abstract.
    

    Use register() to track changes to the custom user model instead of setting HistoricalRecords on the model directly.

    The reason for this, is that unfortunately HistoricalRecords cannot be set directly on a swapped user model because of the user foreign key to track the user making changes.

Using F() expressions

F() expressions, as described here, do not work on models that have history. Simple history inserts a new record in the historical table for any model being updated. However, F() expressions are only functional on updates. Thus, when an F() expression is used on a model with a history table, the historical model tries to insert using the F() expression, and raises a ValueError.

Reserved Field Names

For each base model that has its history tracked using django-simple-history, an associated historical model is created. Thus, if we have:

class BaseModel(models.Model):
    history = HistoricalRecords()

a Django model called HistoricalBaseModel is also created with all of the fields from BaseModel, plus a few extra fields and methods that are on all historical models.

Since these fields and methods are on all historical models, any field or method names on a base model that clash with those names will not be on the historical model (and, thus, won’t be tracked). The reserved historical field and method names are below:

  • history_id

  • history_date

  • history_change_reason

  • history_type

  • history_object

  • history_user

  • history_user_id

  • instance

  • instance_type

  • next_record

  • prev_record

  • revert_url

  • __str__

So if we have:

class BaseModel(models.Model):
    instance = models.CharField(max_length=255)
    history = HistoricalRecords()

the instance field will not actually be tracked on the history table because it’s in the reserved set of terms.

Multi-table Inheritance

django-simple-history supports tracking history on models that use multi-table inheritance, such as:

class ParentModel(models.Model):
    parent_field = models.CharField(max_length=255)
    history = HistoricalRecords()

class ChildModel(ParentModel):
    child_field = models.CharField(max_length=255)
    history = HistoricalRecords()

A few notes:

  • On the child model, the HistoricalRecords instance is not inherited from the parent model. This means that you can choose to track changes on just the parent model, just the child model, or both.

  • The child’s history table contains all fields from the child model as well as all the fields from the parent model.

  • Updating a child instance only updates the child’s history table, not the parent’s history table.

Usage with django-modeltranslation

If you have django-modeltranslation installed, you will need to use the register() method to model translation, as described here.

Pointing to the model

Sometimes you have to point to the model of the historical records. Examples are Django’s generic views or Django REST framework’s serializers. You can get there through your HistoricalRecords manager you defined in your model. According to our example:

class PollHistoryListView(ListView): # or PollHistorySerializer(ModelSerializer):
    class Meta:
        model = Poll.history.model
       # ...

Working with BitBucket Pipelines

When using BitBucket Pipelines to test your Django project with the django-simple-history middleware, you will run into an error relating to missing migrations relating to the historic User model from the auth app. This is because the migration file is not held within either your project or django-simple-history. In order to bypass the error you need to add a `python manage.py makemigrations auth` step into your YML file prior to running the tests.

Using custom OneToOneFields

If you are using a custom OneToOneField that has additional arguments and receiving the following TypeError:

TypeError: __init__() got an unexpected keyword argument

This is because Django Simple History coerces OneToOneField into ForeignKey on the historical model. You can work around this by excluded those additional arguments using excluded_field_kwargs as follows:

class Poll(models.Model):
    organizer = CustomOneToOneField(Organizer, ..., custom_argument="some_value")
    history = HistoricalRecords(
        excluded_field_kwargs={"organizer": set(["custom_argument"])}
    )