Version 13 (modified by pirosb3, 10 years ago) ( diff )

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The new Options API proposal

As of my 2014 Summer of Code project, my second deliverable is a refactored working implementation of the Options API. The Options API is at the core of Django, it enables introspection of Django Models with the rest of the system. This includes lookups, queries, forms, admin to understand the capabilities of every model. The Options API is hidden under the _meta attribute of each model class. Options has always been a private API, but Django developers have always been using it in their projects in a non-official way. This is obviously very dangerous because, as there are no official endpoints, Options could change breaking other people's implementation. Options did not have any unit-tests, but the entire system uses it and relies on it to work correctly. My Summer of Code project is all about understanding and refactoring Options to make it a testable and official API that Django and any other developer can use.

Current state of the API

I now have a working and tested implementation of Options, I have managed to simplify 20+ functions and reduce them to 2 main endpoints, that are the main API. Because Options needs to be very fast, I necessarily had to add some accessors on Options for the most common calls (although both endpoints are cached, we can increase speed by avoiding function calls). Each accessor is a cached property and is computed, using the new API, on first access.

For this reason, I am planning to release in attached PR:

  • Unit tests for the new Meta API
  • The new Meta API
  • The implementation of the new API throughout django and django.contrib

Concepts

Field types

There are 5 main types of fields:

Data fields

A data field is any field that has an entry on the database, for example a CharField, BooleanField, a ForeignKey

class Person(models.Model):
    # DATA field
    data_abstract = models.CharField(max_length=10)
M2M fields

A M2M field that is defined on the current model

class Person(models.Model):
    # M2M fields
    friends = models.ManyToManyField('self', related_name='friends', symmetrical=True)
Related Object

A Related Object is a one-to-many relation from another model (such as a ForeignKey) that points to the current model

class City(models.Model):
    name = models.CharField(max_length=100)

class Person(models.Model):
    # M2M fields
    city = models.ForeignKey(City)

In this case, City has a related object from Person (as you can access person_set)

Related M2M

A Related M2M is a M2M relation from another model that points to the current model

class City(models.Model):
    name = models.CharField(max_length=100)

class Person(models.Model):
    # M2M fields
    cities_lived_in = models.ManyToManyField(City)

In this case, City has a related m2m from Person

Virtual

Virtual fields do not necessarily have an entry on the database, they are "Django fields" such as a GenericRelation

class Person(models.Model):
    content_type = models.ForeignKey(ContentType, related_name='+')
    object_id_ = models.PositiveIntegerField()
    item = GenericForeignKey('content_type', 'object_id')

GenericForeignKey uses content_type and object_id to keep track of what model type and id is set by item, but item itself does not have a concrete presence on the database. In this case, item is a virtual field.

Field options

There are 5 properties that each field can have:

Local

A local field is one that is defined on the queries model and is not derived from inheritance. Fields from models that directly inherit from abstract models or proxy classes are still local

class Person(models.Model):
  name = models.CharField(max_length=50)

class Londoner(Person):
  overdraft = models.DecimalField()

Londoner has two fields (name and overdraft) but only one local field (overdraft)

Hidden

Hidden fields are only referred to related objects and related m2m. When a relational model (such as ManyToManyField, or ForeignKey) specifies a related_name that starts with a "+", it tells Django to not create a reverse relation.

class City(models.Model):
    name = models.CharField(max_length=100)

class Person(models.Model):
    city = models.ForeignKey(City, related_name='+')

In this case, City has a related hidden object from Person (as you can't access person_set)

Concrete

Concrete fields are fields that have a column

Proxied relations

Proxied relations are when concrete models inherit all related from their proxies.

class Person(models.Model):
    pass

class ProxyPerson(Person):
    class Meta:
        proxy = True

class RelationToProxy(models.Model):
     proxy_person = models.ForeignKey(ProxyPerson)

In this case, Person has no related objects, but it has 1 proxied related object from RelationToProxy.

The new API

The new API is composed of 2 main functions: get_fields, and get_field.

get_fields
    def get_fields(self, m2m=False, data=True, related_m2m=False, related_objects=False, virtual=False,
                       include_parents=True, include_non_concrete=True, include_hidden=False, include_proxy=False, export_map=False):

get_fields takes a set of flags as parameters, and returns a tuple of field instances that match those parameters. All possible combinations of options are possible here, although some will have no effect (such as include_proxy combined with data or m2m by itself). get_fields is internally cached for speed and a recursive function that collects fields from each parent of the model. An example of every (sane) combination of flags will be available in the model_meta test suite that I will ship with the new API. The 'export_map' key is only used internally (by get_field) and is not part of the public API. 'export_map=True' will return an OrderedDict with fields as keys and a tuple of strings as values. While the keys map exactly to the same output as 'export_map=False', the tuple of values will contain all possible lookup names for that field. This is used to build a fast lookup table for get_field and to avoid re-iterating over every field to pull out every possible name.

    >>> User._meta.get_fields() # Only data by default
    (<django.db.models.fields.AutoField: id>,
     <django.db.models.fields.CharField: password>,
     <django.db.models.fields.DateTimeField: last_login>,
     <django.db.models.fields.BooleanField: is_superuser>,
     <django.db.models.fields.CharField: username>,
     <django.db.models.fields.CharField: first_name>,
     <django.db.models.fields.CharField: last_name>,
     <django.db.models.fields.EmailField: email>,
     <django.db.models.fields.BooleanField: is_staff>,
     <django.db.models.fields.BooleanField: is_active>,
     <django.db.models.fields.DateTimeField: date_joined>)

    >>> User._meta.get_fields(data=False, related_objects=True) # only related_objects
    (<RelatedObject: admin:logentry related to user>,)

    >>> User._meta.get_fields(data=False, related_objects=True
                                  include_hidden=True) # only related_objects including hidden
    (<RelatedObject: auth:user_groups related to user>,
     <RelatedObject: auth:user_user_permissions related to user>,
     <RelatedObject: admin:logentry related to user>)
get_field
    def get_field(self, field_name, m2m=True, data=True, related_m2m=False, related_objects=False, virtual=False)

'get_field' returns a field_instance from a given field name. field_name can be anything from name, attname and related_query name. get_field is recursive by default and does not include any hidden or proxied relations. There has still not been any reason to add these and they can be derived from 'get_fields'. If a given name is not found, it will raise a FieldDoesNotExist error. 'get_field' is internally cached and gets all field information from 'get_fields' internally.

NOTE: There is an inconsistency between the defaults of get_field and get_fields. 'get_fields' by default enables only data fields while 'get_field' by default enables data and m2m. This is because of backwards-compatibility issues (get_field already existed).

    >>> User._meta.get_new_field('username') # A data field
    <django.db.models.fields.CharField: username>

    >>> User._meta.get_new_field('logentry', related_objects=True) # A related object
    <RelatedObject: admin:logentry related to user>

    >>> LogEntry._meta.get_field('user') # ForeignKey can be queried by field name
    <django.db.models.fields.related.ForeignKey: user>
    >>> LogEntry._meta.get_field('user_id') # .. and also by database column name
    <django.db.models.fields.related.ForeignKey: user>

    >>> User._meta.get_new_field('does_not_exist') # A non existent field
    *** FieldDoesNotExist: User has no field named 'does_not_exist'
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