Applications¶

For application authors¶

If you’re creating a pluggable app called “Rock ’n’ roll”, here’s how you would provide a proper name for the admin:

# rock_n_roll/apps.py

from django.apps import AppConfig


class RockNRollConfig(AppConfig):
    name = "rock_n_roll"
    verbose_name = "Rock ’n’ roll"

RockNRollConfig will be loaded automatically when INSTALLED_APPS contains 'rock_n_roll'. If you need to prevent this, set default to False in the class definition.

You can provide several AppConfig subclasses with different behaviors. To tell Django which one to use by default, set default to True in its definition. If your users want to pick a non-default configuration, they must replace 'rock_n_roll' with the dotted path to that specific class in their INSTALLED_APPS setting.

The AppConfig.name attribute tells Django which application this configuration applies to. You can define any other attribute documented in the AppConfig API reference.

AppConfig subclasses may be defined anywhere. The apps.py convention merely allows Django to load them automatically when INSTALLED_APPS contains the path to an application module rather than the path to a configuration class.

from django.apps import apps as django_apps

For application users¶

If you’re using “Rock ’n’ roll” in a project called anthology, but you want it to show up as “Jazz Manouche” instead, you can provide your own configuration:

# anthology/apps.py

from rock_n_roll.apps import RockNRollConfig


class JazzManoucheConfig(RockNRollConfig):
    verbose_name = "Jazz Manouche"


# anthology/settings.py

INSTALLED_APPS = [
    "anthology.apps.JazzManoucheConfig",
    # ...
]

This example shows project-specific configuration classes located in a submodule called apps.py. This is a convention, not a requirement. AppConfig subclasses may be defined anywhere.

In this situation, INSTALLED_APPS must contain the dotted path to the configuration class because it lives outside of an application and thus cannot be automatically detected.

Configurable attributes¶

AppConfig.name¶

Full Python path to the application, e.g. 'django.contrib.admin'.

This attribute defines which application the configuration applies to. It must be set in all AppConfig subclasses.

It must be unique across a Django project.

AppConfig.label¶

Short name for the application, e.g. 'admin'

This attribute allows relabeling an application when two applications have conflicting labels. It defaults to the last component of name. It should be a valid Python identifier.

It must be unique across a Django project.

Warning

Changing this attribute after migrations have been applied for an application will result in breaking changes to a project or, in the case of a reusable app, any existing installs of that app. This is because AppConfig.label is used in database tables and migration files when referencing an app in the dependencies list.

AppConfig.verbose_name¶

Human-readable name for the application, e.g. “Administration”.

This attribute defaults to label.title().

AppConfig.path¶

Filesystem path to the application directory, e.g. '/usr/lib/pythonX.Y/dist-packages/django/contrib/admin'.

In most cases, Django can automatically detect and set this, but you can also provide an explicit override as a class attribute on your AppConfig subclass. In a few situations this is required; for instance if the app package is a namespace package with multiple paths.

AppConfig.default¶

Set this attribute to False to prevent Django from selecting a configuration class automatically. This is useful when apps.py defines only one AppConfig subclass but you don’t want Django to use it by default.

Set this attribute to True to tell Django to select a configuration class automatically. This is useful when apps.py defines more than one AppConfig subclass and you want Django to use one of them by default.

By default, this attribute isn’t set.

AppConfig.default_auto_field[source]¶

The implicit primary key type to add to models within this app. You can use this to keep AutoField as the primary key type for third party applications.

By default, this is the value of DEFAULT_AUTO_FIELD.

Read-only attributes¶

AppConfig.module¶

Root module for the application, e.g. <module 'django.contrib.admin' from 'django/contrib/admin/__init__.py'>.

AppConfig.models_module¶

Module containing the models, e.g. <module 'django.contrib.admin.models' from 'django/contrib/admin/models.py'>.

It may be None if the application doesn’t contain a models module. Note that the database related signals such as pre_migrate and post_migrate are only emitted for applications that have a models module.

Methods¶

AppConfig.get_models(include_auto_created=False, include_swapped=False)[source]¶

Returns an iterable of Model classes for this application.

Requires the app registry to be fully populated.

AppConfig.get_model(model_name, require_ready=True)[source]¶

Returns the Model with the given model_name. model_name is case-insensitive.

Raises LookupError if no such model exists in this application.

Requires the app registry to be fully populated unless the require_ready argument is set to False. require_ready behaves exactly as in apps.get_model().

AppConfig.ready()[source]¶

Subclasses can override this method to perform initialization tasks such as registering signals. It is called as soon as the registry is fully populated.

Although you can’t import models at the module-level where AppConfig classes are defined, you can import them in ready(), using either an import statement or get_model().

If you’re registering model signals, you can refer to the sender by its string label instead of using the model class itself.

Example:

from django.apps import AppConfig
from django.db.models.signals import pre_save


class RockNRollConfig(AppConfig):
    # ...

    def ready(self):
        # importing model classes
        from .models import MyModel  # or...

        MyModel = self.get_model("MyModel")

        # registering signals with the model's string label
        pre_save.connect(receiver, sender="app_label.MyModel")

Warning

Although you can access model classes as described above, avoid interacting with the database in your ready() implementation. This includes model methods that execute queries (save(), delete(), manager methods etc.), and also raw SQL queries via django.db.connection. Your ready() method will run during startup of every management command. For example, even though the test database configuration is separate from the production settings, manage.py test would still execute some queries against your production database!

Note

In the usual initialization process, the ready method is only called once by Django. But in some corner cases, particularly in tests which are fiddling with installed applications, ready might be called more than once. In that case, either write idempotent methods, or put a flag on your AppConfig classes to prevent rerunning code which should be executed exactly one time.

Namespace packages as apps¶

Python packages without an __init__.py file are known as “namespace packages” and may be spread across multiple directories at different locations on sys.path (see PEP 420).

Django applications require a single base filesystem path where Django (depending on configuration) will search for templates, static assets, etc. Thus, namespace packages may only be Django applications if one of the following is true:

1. The namespace package actually has only a single location (i.e. is not spread across more than one directory.)

2. The AppConfig class used to configure the application has a path class attribute, which is the absolute directory path Django will use as the single base path for the application.

If neither of these conditions is met, Django will raise ImproperlyConfigured.

How applications are loaded¶

When Django starts, django.setup() is responsible for populating the application registry.

setup(set_prefix=True)[source]¶

Configures Django by:

• Loading the settings.

• Setting up logging.

• If set_prefix is True, setting the URL resolver script prefix to FORCE_SCRIPT_NAME if defined, or / otherwise.

• Initializing the application registry.

This function is called automatically:

• When running an HTTP server via Django’s ASGI or WSGI support.

• When invoking a management command.

It must be called explicitly in other cases, for instance in plain Python scripts.

The application registry is initialized in three stages. At each stage, Django processes all applications in the order of INSTALLED_APPS.

1. First Django imports each item in INSTALLED_APPS.

   If it’s an application configuration class, Django imports the root package of the application, defined by its name attribute. If it’s a Python package, Django looks for an application configuration in an apps.py submodule, or else creates a default application configuration.

   At this stage, your code shouldn’t import any models!

   In other words, your applications’ root packages and the modules that define your application configuration classes shouldn’t import any models, even indirectly.

   Strictly speaking, Django allows importing models once their application configuration is loaded. However, in order to avoid needless constraints on the order of INSTALLED_APPS, it’s strongly recommended not import any models at this stage.

   Once this stage completes, APIs that operate on application configurations such as get_app_config() become usable.

2. Then Django attempts to import the models submodule of each application, if there is one.

   You must define or import all models in your application’s models.py or models/__init__.py. Otherwise, the application registry may not be fully populated at this point, which could cause the ORM to malfunction.

   Once this stage completes, APIs that operate on models such as get_model() become usable.

3. Finally Django runs the ready() method of each application configuration.

Troubleshooting¶

Here are some common problems that you may encounter during initialization:

• AppRegistryNotReady: This happens when importing an application configuration or a models module triggers code that depends on the app registry.

  For example, gettext() uses the app registry to look up translation catalogs in applications. To translate at import time, you need gettext_lazy() instead. (Using gettext() would be a bug, because the translation would happen at import time, rather than at each request depending on the active language.)

  Executing database queries with the ORM at import time in models modules will also trigger this exception. The ORM cannot function properly until all models are available.

  This exception also happens if you forget to call django.setup() in a standalone Python script.

• ImportError: cannot import name ... This happens if the import sequence ends up in a loop.

  To eliminate such problems, you should minimize dependencies between your models modules and do as little work as possible at import time. To avoid executing code at import time, you can move it into a function and cache its results. The code will be executed when you first need its results. This concept is known as “lazy evaluation”.

• django.contrib.admin automatically performs autodiscovery of admin modules in installed applications. To prevent it, change your INSTALLED_APPS to contain 'django.contrib.admin.apps.SimpleAdminConfig' instead of 'django.contrib.admin'.

• RuntimeWarning: Accessing the database during app initialization is discouraged. This warning is triggered for database queries executed before apps are ready, such as during module imports or in the AppConfig.ready() method. Such premature database queries are discouraged because they will run during the startup of every management command, which will slow down your project startup, potentially cache stale data, and can even fail if migrations are pending.

  For example, a common mistake is making a database query to populate form field choices:

  class LocationForm(forms.Form):
      country = forms.ChoiceField(choices=[c.name for c in Country.objects.all()])
  

  In the example above, the query from Country.objects.all() is executed during module import, because the QuerySet is iterated over. To avoid the warning, the form could use a ModelChoiceField instead:

  class LocationForm(forms.Form):
      country = forms.ModelChoiceField(queryset=Country.objects.all())
  

  To make it easier to find the code that triggered this warning, you can make Python treat warnings as errors to reveal the stack trace, for example with python -Werror manage.py shell.