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|
Reference
=========
.. currentmodule:: factory
This section offers an in-depth description of factory_boy features.
For internals and customization points, please refer to the :doc:`internals` section.
The :class:`Factory` class
--------------------------
.. class:: FactoryOptions
.. versionadded:: 2.4.0
A :class:`Factory`'s behaviour can be tuned through a few settings.
For convenience, they are declared in a single ``class Meta`` attribute:
.. code-block:: python
class MyFactory(factory.Factory):
class Meta:
model = MyObject
abstract = False
.. attribute:: model
This optional attribute describes the class of objects to generate.
If unset, it will be inherited from parent :class:`Factory` subclasses.
.. versionadded:: 2.4.0
.. attribute:: abstract
This attribute indicates that the :class:`Factory` subclass should not
be used to generate objects, but instead provides some extra defaults.
It will be automatically set to ``True`` if neither the :class:`Factory`
subclass nor its parents define the :attr:`~FactoryOptions.model` attribute.
.. warning:: This flag is reset to ``False`` When a :class:`Factory` subclasses
another one if a :attr:`~FactoryOptions.model` is set.
.. versionadded:: 2.4.0
.. attribute:: inline_args
Some factories require non-keyword arguments to their :meth:`~object.__init__`.
They should be listed, in order, in the :attr:`inline_args`
attribute:
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
inline_args = ('login', 'email')
login = 'john'
email = factory.LazyAttribute(lambda o: '%s@example.com' % o.login)
firstname = "John"
.. code-block:: pycon
>>> UserFactory()
<User: john>
>>> User('john', 'john@example.com', firstname="John") # actual call
.. versionadded:: 2.4.0
.. attribute:: exclude
While writing a :class:`Factory` for some object, it may be useful to
have general fields helping defining others, but that should not be
passed to the model class; for instance, a field named 'now' that would
hold a reference time used by other objects.
Factory fields whose name are listed in :attr:`exclude` will
be removed from the set of args/kwargs passed to the underlying class;
they can be any valid factory_boy declaration:
.. code-block:: python
class OrderFactory(factory.Factory):
class Meta:
model = Order
exclude = ('now',)
now = factory.LazyAttribute(lambda o: datetime.datetime.utcnow())
started_at = factory.LazyAttribute(lambda o: o.now - datetime.timedelta(hours=1))
paid_at = factory.LazyAttribute(lambda o: o.now - datetime.timedelta(minutes=50))
.. code-block:: pycon
>>> OrderFactory() # The value of 'now' isn't passed to Order()
<Order: started 2013-04-01 12:00:00, paid 2013-04-01 12:10:00>
>>> # An alternate value may be passed for 'now'
>>> OrderFactory(now=datetime.datetime(2013, 4, 1, 10))
<Order: <Order: started 2013-04-01 09:00:00, paid 2013-04-01 09:10:00>
.. versionadded:: 2.4.0
.. attribute:: strategy
Use this attribute to change the strategy used by a :class:`Factory`.
The default is :data:`BUILD_STRATEGY`.
.. class:: Factory
**Class-level attributes:**
.. attribute:: _meta
.. versionadded:: 2.4.0
The :class:`FactoryOptions` instance attached to a :class:`Factory` class is available
as a :attr:`_meta` attribute.
.. attribute:: _options_class
.. versionadded:: 2.4.0
If a :class:`Factory` subclass needs to define additional, extra options, it has to
provide a custom :class:`FactoryOptions` subclass.
A pointer to that custom class should be provided as :attr:`_options_class` so that
the :class:`Factory`-building metaclass can use it instead.
**Base functions:**
The :class:`Factory` class provides a few methods for getting objects;
the usual way being to simply call the class:
.. code-block:: pycon
>>> UserFactory() # Calls UserFactory.create()
>>> UserFactory(login='john') # Calls UserFactory.create(login='john')
Under the hood, factory_boy will define the :class:`Factory`
:meth:`~object.__new__` method to call the default :ref:`strategy <strategies>`
of the :class:`Factory`.
A specific strategy for getting instance can be selected by calling the
adequate method:
.. classmethod:: build(cls, **kwargs)
Provides a new object, using the 'build' strategy.
.. classmethod:: build_batch(cls, size, **kwargs)
Provides a list of :obj:`size` instances from the :class:`Factory`,
through the 'build' strategy.
.. classmethod:: create(cls, **kwargs)
Provides a new object, using the 'create' strategy.
.. classmethod:: create_batch(cls, size, **kwargs)
Provides a list of :obj:`size` instances from the :class:`Factory`,
through the 'create' strategy.
.. classmethod:: stub(cls, **kwargs)
Provides a new stub
.. classmethod:: stub_batch(cls, size, **kwargs)
Provides a list of :obj:`size` stubs from the :class:`Factory`.
.. classmethod:: generate(cls, strategy, **kwargs)
Provide a new instance, with the provided :obj:`strategy`.
.. classmethod:: generate_batch(cls, strategy, size, **kwargs)
Provides a list of :obj:`size` instances using the specified strategy.
.. classmethod:: simple_generate(cls, create, **kwargs)
Provide a new instance, either built (``create=False``) or created (``create=True``).
.. classmethod:: simple_generate_batch(cls, create, size, **kwargs)
Provides a list of :obj:`size` instances, either built or created
according to :obj:`create`.
**Extension points:**
A :class:`Factory` subclass may override a couple of class methods to adapt
its behaviour:
.. classmethod:: _adjust_kwargs(cls, **kwargs)
.. OHAI_VIM**
The :meth:`_adjust_kwargs` extension point allows for late fields tuning.
It is called once keyword arguments have been resolved and post-generation
items removed, but before the :attr:`~FactoryOptions.inline_args` extraction
phase.
.. code-block:: python
class UserFactory(factory.Factory):
@classmethod
def _adjust_kwargs(cls, **kwargs):
# Ensure ``lastname`` is upper-case.
kwargs['lastname'] = kwargs['lastname'].upper()
return kwargs
.. OHAI_VIM**
.. classmethod:: _setup_next_sequence(cls)
This method will compute the first value to use for the sequence counter
of this factory.
It is called when the first instance of the factory (or one of its subclasses)
is created.
Subclasses may fetch the next free ID from the database, for instance.
.. classmethod:: _build(cls, model_class, *args, **kwargs)
.. OHAI_VIM*
This class method is called whenever a new instance needs to be built.
It receives the model class (provided to :attr:`~FactoryOptions.model`), and
the positional and keyword arguments to use for the class once all has
been computed.
Subclasses may override this for custom APIs.
.. classmethod:: _create(cls, model_class, *args, **kwargs)
.. OHAI_VIM*
The :meth:`_create` method is called whenever an instance needs to be
created.
It receives the same arguments as :meth:`_build`.
Subclasses may override this for specific persistence backends:
.. code-block:: python
class BaseBackendFactory(factory.Factory):
class Meta:
abstract = True # Optional
def _create(cls, model_class, *args, **kwargs):
obj = model_class(*args, **kwargs)
obj.save()
return obj
.. OHAI_VIM*
.. classmethod:: _after_postgeneration(cls, obj, create, results=None)
:arg object obj: The object just generated
:arg bool create: Whether the object was 'built' or 'created'
:arg dict results: Map of post-generation declaration name to call
result
The :meth:`_after_postgeneration` is called once post-generation
declarations have been handled.
Its arguments allow to handle specifically some post-generation return
values, for instance.
**Advanced functions:**
.. classmethod:: reset_sequence(cls, value=None, force=False)
:arg int value: The value to reset the sequence to
:arg bool force: Whether to force-reset the sequence
Allows to reset the sequence counter for a :class:`~factory.Factory`.
The new value can be passed in as the ``value`` argument:
.. code-block:: pycon
>>> SomeFactory.reset_sequence(4)
>>> SomeFactory._next_sequence
4
Since subclasses of a non-:attr:`abstract <factory.FactoryOptions.abstract>`
:class:`~factory.Factory` share the same sequence counter, special care needs
to be taken when resetting the counter of such a subclass.
By default, :meth:`reset_sequence` will raise a :exc:`ValueError` when
called on a subclassed :class:`~factory.Factory` subclass. This can be
avoided by passing in the ``force=True`` flag:
.. code-block:: pycon
>>> InheritedFactory.reset_sequence()
Traceback (most recent call last):
File "factory_boy/tests/test_base.py", line 179, in test_reset_sequence_subclass_parent
SubTestObjectFactory.reset_sequence()
File "factory_boy/factory/base.py", line 250, in reset_sequence
"Cannot reset the sequence of a factory subclass. "
ValueError: Cannot reset the sequence of a factory subclass. Please call reset_sequence() on the root factory, or call reset_sequence(forward=True).
>>> InheritedFactory.reset_sequence(force=True)
>>>
This is equivalent to calling :meth:`reset_sequence` on the base
factory in the chain.
.. _strategies:
Strategies
""""""""""
factory_boy supports two main strategies for generating instances, plus stubs.
.. data:: BUILD_STRATEGY
The 'build' strategy is used when an instance should be created,
but not persisted to any datastore.
It is usually a simple call to the :meth:`~object.__init__` method of the
:attr:`~FactoryOptions.model` class.
.. data:: CREATE_STRATEGY
The 'create' strategy builds and saves an instance into its appropriate datastore.
This is the default strategy of factory_boy; it would typically instantiate an
object, then save it:
.. code-block:: pycon
>>> obj = self._associated_class(*args, **kwargs)
>>> obj.save()
>>> return obj
.. OHAI_VIM*
.. warning:: For backward compatibility reasons, the default behaviour of
factory_boy is to call ``MyClass.objects.create(*args, **kwargs)``
when using the ``create`` strategy.
That policy will be used if the
:attr:`associated class <FactoryOptions.model>` has an ``objects``
attribute *and* the :meth:`~Factory._create` classmethod of the
:class:`Factory` wasn't overridden.
.. function:: use_strategy(strategy)
*Decorator*
Change the default strategy of the decorated :class:`Factory` to the chosen :obj:`strategy`:
.. code-block:: python
@use_strategy(factory.BUILD_STRATEGY)
class UserBuildingFactory(UserFactory):
pass
.. data:: STUB_STRATEGY
The 'stub' strategy is an exception in the factory_boy world: it doesn't return
an instance of the :attr:`~FactoryOptions.model` class, and actually doesn't
require one to be present.
Instead, it returns an instance of :class:`StubObject` whose attributes have been
set according to the declarations.
.. class:: StubObject(object)
A plain, stupid object. No method, no helpers, simply a bunch of attributes.
It is typically instantiated, then has its attributes set:
.. code-block:: pycon
>>> obj = StubObject()
>>> obj.x = 1
>>> obj.y = 2
.. class:: StubFactory(Factory)
An :attr:`abstract <FactoryOptions.abstract>` :class:`Factory`,
with a default strategy set to :data:`STUB_STRATEGY`.
.. function:: debug(logger='factory', stream=None)
:param str logger: The name of the logger to enable debug for
:param file stream: The stream to send debug output to, defaults to :obj:`sys.stderr`
Context manager to help debugging factory_boy behavior.
It will temporarily put the target logger (e.g ``'factory'``) in debug mode,
sending all output to :obj`~sys.stderr`;
upon leaving the context, the logging levels are reset.
A typical use case is to understand what happens during a single factory call:
.. code-block:: python
with factory.debug():
obj = TestModel2Factory()
This will yield messages similar to those (artificial indentation):
.. code-block:: ini
BaseFactory: Preparing tests.test_using.TestModel2Factory(extra={})
LazyStub: Computing values for tests.test_using.TestModel2Factory(two=<OrderedDeclarationWrapper for <factory.declarations.SubFactory object at 0x1e15610>>)
SubFactory: Instantiating tests.test_using.TestModelFactory(__containers=(<LazyStub for tests.test_using.TestModel2Factory>,), one=4), create=True
BaseFactory: Preparing tests.test_using.TestModelFactory(extra={'__containers': (<LazyStub for tests.test_using.TestModel2Factory>,), 'one': 4})
LazyStub: Computing values for tests.test_using.TestModelFactory(one=4)
LazyStub: Computed values, got tests.test_using.TestModelFactory(one=4)
BaseFactory: Generating tests.test_using.TestModelFactory(one=4)
LazyStub: Computed values, got tests.test_using.TestModel2Factory(two=<tests.test_using.TestModel object at 0x1e15410>)
BaseFactory: Generating tests.test_using.TestModel2Factory(two=<tests.test_using.TestModel object at 0x1e15410>)
.. _declarations:
Declarations
------------
LazyAttribute
"""""""""""""
.. class:: LazyAttribute(method_to_call)
The :class:`LazyAttribute` is a simple yet extremely powerful building brick
for extending a :class:`Factory`.
It takes as argument a method to call (usually a lambda); that method should
accept the object being built as sole argument, and return a value.
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
username = 'john'
email = factory.LazyAttribute(lambda o: '%s@example.com' % o.username)
.. code-block:: pycon
>>> u = UserFactory()
>>> u.email
'john@example.com'
>>> u = UserFactory(username='leo')
>>> u.email
'leo@e 'leo@example.com'
The object passed to :class:`LazyAttribute` is not an instance of the target class,
but instead a :class:`~containers.LazyStub`: a temporary container that computes
the value of all declared fields.
Decorator
~~~~~~~~~
.. function:: lazy_attribute
If a simple lambda isn't enough, you may use the :meth:`lazy_attribute` decorator instead.
This decorates an instance method that should take a single argument, ``self``;
the name of the method will be used as the name of the attribute to fill with the
return value of the method:
.. code-block:: python
class UserFactory(factory.Factory)
class Meta:
model = User
name = u"Jean"
@factory.lazy_attribute
def email(self):
# Convert to plain ascii text
clean_name = (unicodedata.normalize('NFKD', self.name)
.encode('ascii', 'ignore')
.decode('utf8'))
return u'%s@example.com' % clean_name
.. code-block:: pycon
>>> joel = UserFactory(name=u"Joël")
>>> joel.email
u'joel@example.com'
Sequence
""""""""
.. class:: Sequence(lambda, type=int)
If a field should be unique, and thus different for all built instances,
use a :class:`Sequence`.
This declaration takes a single argument, a function accepting a single parameter
- the current sequence counter - and returning the related value.
.. note:: An extra kwarg argument, ``type``, may be provided.
This feature is deprecated in 1.3.0 and will be removed in 2.0.0.
.. code-block:: python
class UserFactory(factory.Factory)
class Meta:
model = User
phone = factory.Sequence(lambda n: '123-555-%04d' % n)
.. code-block:: pycon
>>> UserFactory().phone
'123-555-0001'
>>> UserFactory().phone
'123-555-0002'
Decorator
~~~~~~~~~
.. function:: sequence
As with :meth:`lazy_attribute`, a decorator is available for complex situations.
:meth:`sequence` decorates an instance method, whose ``self`` method will actually
be the sequence counter - this might be confusing:
.. code-block:: python
class UserFactory(factory.Factory)
class Meta:
model = User
@factory.sequence
def phone(n):
a = n // 10000
b = n % 10000
return '%03d-555-%04d' % (a, b)
.. code-block:: pycon
>>> UserFactory().phone
'000-555-9999'
>>> UserFactory().phone
'001-555-0000'
Sharing
~~~~~~~
The sequence counter is shared across all :class:`Sequence` attributes of the
:class:`Factory`:
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
phone = factory.Sequence(lambda n: '%04d' % n)
office = factory.Sequence(lambda n: 'A23-B%03d' % n)
.. code-block:: pycon
>>> u = UserFactory()
>>> u.phone, u.office
'0041', 'A23-B041'
>>> u2 = UserFactory()
>>> u2.phone, u2.office
'0042', 'A23-B042'
Inheritance
~~~~~~~~~~~
When a :class:`Factory` inherits from another :class:`Factory`, their
sequence counter is shared:
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
phone = factory.Sequence(lambda n: '123-555-%04d' % n)
class EmployeeFactory(UserFactory):
office_phone = factory.Sequence(lambda n: '%04d' % n)
.. code-block:: pycon
>>> u = UserFactory()
>>> u.phone
'123-555-0001'
>>> e = EmployeeFactory()
>>> e.phone, e.office_phone
'123-555-0002', '0002'
>>> u2 = UserFactory()
>>> u2.phone
'1 '123-555-0003'
Forcing a sequence counter
~~~~~~~~~~~~~~~~~~~~~~~~~~
If a specific value of the sequence counter is required for one instance, the
``__sequence`` keyword argument should be passed to the factory method.
This will force the sequence counter during the call, without altering the
class-level value.
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
uid = factory.Sequence(int)
.. code-block:: pycon
>>> UserFactory()
<User: 0>
>>> UserFactory()
<User: 1>
>>> UserFactory(__sequence=42)
<User: 42>
.. warning:: The impact of setting ``__sequence=n`` on a ``_batch`` call is
undefined. Each generated instance may share a same counter, or
use incremental values starting from the forced value.
LazyAttributeSequence
"""""""""""""""""""""
.. class:: LazyAttributeSequence(method_to_call)
The :class:`LazyAttributeSequence` declaration merges features of :class:`Sequence`
and :class:`LazyAttribute`.
It takes a single argument, a function whose two parameters are, in order:
* The object being built
* The sequence counter
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
login = 'john'
email = factory.LazyAttributeSequence(lambda o, n: '%s@s%d.example.com' % (o.login, n))
.. code-block:: pycon
>>> UserFactory().email
'john@s1.example.com'
>>> UserFactory(login='jack').email
'jack@s2.example.com'
Decorator
~~~~~~~~~
.. function:: lazy_attribute_sequence(method_to_call)
As for :meth:`lazy_attribute` and :meth:`sequence`, the :meth:`lazy_attribute_sequence`
handles more complex cases:
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
login = 'john'
@lazy_attribute_sequence
def email(self, n):
bucket = n % 10
return '%s@s%d.example.com' % (self.login, bucket)
SubFactory
""""""""""
.. class:: SubFactory(factory, **kwargs)
.. OHAI_VIM**
This attribute declaration calls another :class:`Factory` subclass,
selecting the same build strategy and collecting extra kwargs in the process.
The :class:`SubFactory` attribute should be called with:
* A :class:`Factory` subclass as first argument, or the fully qualified import
path to that :class:`Factory` (see :ref:`Circular imports <subfactory-circular>`)
* An optional set of keyword arguments that should be passed when calling that
factory
.. note::
When passing an actual :class:`~factory.Factory` for the
:attr:`~factory.SubFactory.factory` argument, make sure to pass
the class and not instance (i.e no ``()`` after the class):
.. code-block:: python
class FooFactory(factory.Factory):
class Meta:
model = Foo
bar = factory.SubFactory(BarFactory) # Not BarFactory()
Definition
~~~~~~~~~~
.. code-block:: python
# A standard factory
class UserFactory(factory.Factory):
class Meta:
model = User
# Various fields
first_name = 'John'
last_name = factory.Sequence(lambda n: 'D%se' % ('o' * n)) # De, Doe, Dooe, Doooe, ...
email = factory.LazyAttribute(lambda o: '%s.%s@example.org' % (o.first_name.lower(), o.last_name.lower()))
# A factory for an object with a 'User' field
class CompanyFactory(factory.Factory):
class Meta:
model = Company
name = factory.Sequence(lambda n: 'FactoryBoyz' + 'z' * n)
# Let's use our UserFactory to create that user, and override its first name.
owner = factory.SubFactory(UserFactory, first_name='Jack')
Calling
~~~~~~~
The wrapping factory will call of the inner factory:
.. code-block:: pycon
>>> c = CompanyFactory()
>>> c
<Company: FactoryBoyz>
# Notice that the first_name was overridden
>>> c.owner
<User: Jack De>
>>> c.owner.email
jack.de@example.org
Fields of the :class:`~factory.SubFactory` may be overridden from the external factory:
.. code-block:: pycon
>>> c = CompanyFactory(owner__first_name='Henry')
>>> c.owner
<User: Henry Doe>
# Notice that the updated first_name was propagated to the email LazyAttribute.
>>> c.owner.email
henry.doe@example.org
# It is also possible to override other fields of the SubFactory
>>> c = CompanyFactory(owner__last_name='Jones')
>>> c.owner
<User: H <User: Henry Jones>
>>> c.owner.email
henry.jones@example.org
Strategies
~~~~~~~~~~
The strategy chosen for the external factory will be propagated to all subfactories:
.. code-block:: pycon
>>> c = CompanyFactory()
>>> c.pk # Saved to the database
3
>>> c.owner.pk # Saved to the database
8
>>> c = CompanyFactory.build()
>>> c.pk # Not saved
None
>>> c.owner.pk # Not saved either
None
.. _subfactory-circular:
Circular imports
~~~~~~~~~~~~~~~~
Some factories may rely on each other in a circular manner.
This issue can be handled by passing the absolute import path to the target
:class:`Factory` to the :class:`SubFactory`.
.. versionadded:: 1.3.0
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
username = 'john'
main_group = factory.SubFactory('users.factories.GroupFactory')
class GroupFactory(factory.Factory):
class Meta:
model = Group
name = "MyGroup"
owner = factory.SubFactory(UserFactory)
Obviously, such circular relationships require careful handling of loops:
.. code-block:: pycon
>>> owner = UserFactory(main_group=None)
>>> UserFactory(main_group__owner=owner)
<john (group: MyGroup)>
SelfAttribute
"""""""""""""
.. class:: SelfAttribute(dotted_path_to_attribute)
Some fields should reference another field of the object being constructed, or an attribute thereof.
This is performed by the :class:`~factory.SelfAttribute` declaration.
That declaration takes a single argument, a dot-delimited path to the attribute to fetch:
.. code-block:: python
class UserFactory(factory.Factory)
class Meta:
model = User
birthdate = factory.Sequence(lambda n: datetime.date(2000, 1, 1) + datetime.timedelta(days=n))
birthmonth = factory.SelfAttribute('birthdate.month')
.. code-block:: pycon
>>> u = UserFactory()
>>> u.birthdate
date(2000, 3, 15)
>>> u.birthmonth
3
Parents
~~~~~~~
When used in conjunction with :class:`~factory.SubFactory`, the :class:`~factory.SelfAttribute`
gains an "upward" semantic through the double-dot notation, as used in Python imports.
``factory.SelfAttribute('..country.language')`` means
"Select the ``language`` of the ``country`` of the :class:`~factory.Factory` calling me".
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
language = 'en'
class CompanyFactory(factory.Factory):
class Meta:
model = Company
country = factory.SubFactory(CountryFactory)
owner = factory.SubFactory(UserFactory, language=factory.SelfAttribute('..country.language'))
.. code-block:: pycon
>>> company = CompanyFactory()
>>> company.country.language
'fr'
>>> company.owner.language
'fr'
Obviously, this "follow parents" hability also handles overriding some attributes on call:
.. code-block:: pycon
>>> company = CompanyFactory(country=china)
>>> company.owner.language
'cn'
This feature is also available to :class:`LazyAttribute` and :class:`LazyAttributeSequence`,
through the :attr:`~containers.LazyStub.factory_parent` attribute of the passed-in object:
.. code-block:: python
class CompanyFactory(factory.Factory):
class Meta:
model = Company
country = factory.SubFactory(CountryFactory)
owner = factory.SubFactory(UserFactory,
language=factory.LazyAttribute(lambda user: user.factory_parent.country.language),
)
Iterator
""""""""
.. class:: Iterator(iterable, cycle=True, getter=None)
The :class:`Iterator` declaration takes succesive values from the given
iterable. When it is exhausted, it starts again from zero (unless ``cycle=False``).
.. attribute:: cycle
The ``cycle`` argument is only useful for advanced cases, where the provided
iterable has no end (as wishing to cycle it means storing values in memory...).
.. versionadded:: 1.3.0
The ``cycle`` argument is available as of v1.3.0; previous versions
had a behaviour equivalent to ``cycle=False``.
.. attribute:: getter
A custom function called on each value returned by the iterable.
See the :ref:`iterator-getter` section for details.
.. versionadded:: 1.3.0
.. method:: reset()
Reset the internal iterator used by the attribute, so that the next value
will be the first value generated by the iterator.
May be called several times.
Each call to the factory will receive the next value from the iterable:
.. code-block:: python
class UserFactory(factory.Factory)
lang = factory.Iterator(['en', 'fr', 'es', 'it', 'de'])
.. code-block:: pycon
>>> UserFactory().lang
'en'
>>> UserFactory().lang
'fr'
When a value is passed in for the argument, the iterator will *not* be advanced:
.. code-block:: pycon
>>> UserFactory().lang
'en'
>>> UserFactory(lang='cn').lang
'cn'
>>> UserFactory().lang
'fr'
.. _iterator-getter:
Getter
~~~~~~
Some situations may reuse an existing iterable, using only some component.
This is handled by the :attr:`~Iterator.getter` attribute: this is a function
that accepts as sole parameter a value from the iterable, and returns an
adequate value.
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
# CATEGORY_CHOICES is a list of (key, title) tuples
category = factory.Iterator(User.CATEGORY_CHOICES, getter=lambda c: c[0])
Decorator
~~~~~~~~~
.. function:: iterator(func)
When generating items of the iterator gets too complex for a simple list comprehension,
use the :func:`iterator` decorator:
.. warning:: The decorated function takes **no** argument,
notably no ``self`` parameter.
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
@factory.iterator
def name():
with open('test/data/names.dat', 'r') as f:
for line in f:
yield line
Resetting
~~~~~~~~~
In order to start back at the first value in an :class:`Iterator`,
simply call the :meth:`~Iterator.reset` method of that attribute
(accessing it from the bare :class:`~Factory` subclass):
.. code-block:: pycon
>>> UserFactory().lang
'en'
>>> UserFactory().lang
'fr'
>>> UserFactory.lang.reset()
>>> UserFactory().lang
'en'
Dict and List
"""""""""""""
When a factory expects lists or dicts as arguments, such values can be generated
through the whole range of factory_boy declarations,
with the :class:`Dict` and :class:`List` attributes:
.. class:: Dict(params[, dict_factory=factory.DictFactory])
The :class:`Dict` class is used for dict-like attributes.
It receives as non-keyword argument a dictionary of fields to define, whose
value may be any factory-enabled declarations:
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
is_superuser = False
roles = factory.Dict({
'role1': True,
'role2': False,
'role3': factory.Iterator([True, False]),
'admin': factory.SelfAttribute('..is_superuser'),
})
.. note:: Declarations used as a :class:`Dict` values are evaluated within
that :class:`Dict`'s context; this means that you must use
the ``..foo`` syntax to access fields defined at the factory level.
On the other hand, the :class:`Sequence` counter is aligned on the
containing factory's one.
The :class:`Dict` behaviour can be tuned through the following parameters:
.. attribute:: dict_factory
The actual factory to use for generating the dict can be set as a keyword
argument, if an exotic dictionary-like object (SortedDict, ...) is required.
.. class:: List(items[, list_factory=factory.ListFactory])
The :class:`List` can be used for list-like attributes.
Internally, the fields are converted into a ``index=value`` dict, which
makes it possible to override some values at use time:
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
flags = factory.List([
'user',
'active',
'admin',
])
.. code-block:: pycon
>>> u = UserFactory(flags__2='superadmin')
>>> u.flags
['user', 'active', 'superadmin']
The :class:`List` behaviour can be tuned through the following parameters:
.. attribute:: list_factory
The actual factory to use for generating the list can be set as a keyword
argument, if another type (tuple, set, ...) is required.
Post-generation hooks
"""""""""""""""""""""
Some objects expect additional method calls or complex processing for proper definition.
For instance, a ``User`` may need to have a related ``Profile``, where the ``Profile`` is built from the ``User`` object.
To support this pattern, factory_boy provides the following tools:
- :class:`PostGenerationMethodCall`: allows you to hook a particular attribute to a function call
- :class:`PostGeneration`: this class allows calling a given function with the generated object as argument
- :func:`post_generation`: decorator performing the same functions as :class:`PostGeneration`
- :class:`RelatedFactory`: this builds or creates a given factory *after* building/creating the first Factory.
Extracting parameters
"""""""""""""""""""""
All post-building hooks share a common base for picking parameters from the
set of attributes passed to the :class:`Factory`.
For instance, a :class:`PostGeneration` hook is declared as ``post``:
.. code-block:: python
class SomeFactory(factory.Factory):
class Meta:
model = SomeObject
@post_generation
def post(obj, create, extracted, **kwargs):
obj.set_origin(create)
.. OHAI_VIM**
When calling the factory, some arguments will be extracted for this method:
- If a ``post`` argument is passed, it will be passed as the ``extracted`` field
- Any argument starting with ``post__XYZ`` will be extracted, its ``post__`` prefix
removed, and added to the kwargs passed to the post-generation hook.
Extracted arguments won't be passed to the :attr:`~FactoryOptions.model` class.
Thus, in the following call:
.. code-block:: pycon
>>> SomeFactory(
post=1,
post_x=2,
post__y=3,
post__z__t=42,
)
The ``post`` hook will receive ``1`` as ``extracted`` and ``{'y': 3, 'z__t': 42}``
as keyword arguments; ``{'post_x': 2}`` will be passed to ``SomeFactory._meta.model``.
RelatedFactory
""""""""""""""
.. class:: RelatedFactory(factory, factory_related_name='', **kwargs)
.. OHAI_VIM**
A :class:`RelatedFactory` behaves mostly like a :class:`SubFactory`,
with the main difference that the related :class:`Factory` will be generated
*after* the base :class:`Factory`.
.. attribute:: factory
As for :class:`SubFactory`, the :attr:`factory` argument can be:
- A :class:`Factory` subclass
- Or the fully qualified path to a :class:`Factory` subclass
(see :ref:`subfactory-circular` for details)
.. attribute:: name
The generated object (where the :class:`RelatedFactory` attribute will
set) may be passed to the related factory if the :attr:`factory_related_name` parameter
is set.
It will be passed as a keyword argument, using the :attr:`name` value as
keyword:
.. note::
When passing an actual :class:`~factory.Factory` for the
:attr:`~factory.RelatedFactory.factory` argument, make sure to pass
the class and not instance (i.e no ``()`` after the class):
.. code-block:: python
class FooFactory(factory.Factory):
class Meta:
model = Foo
bar = factory.RelatedFactory(BarFactory) # Not BarFactory()
.. code-block:: python
class CityFactory(factory.Factory):
class Meta:
model = City
capital_of = None
name = "Toronto"
class CountryFactory(factory.Factory):
class Meta:
model = Country
lang = 'fr'
capital_city = factory.RelatedFactory(CityFactory, 'capital_of', name="Paris")
.. code-block:: pycon
>>> france = CountryFactory()
>>> City.objects.get(capital_of=france)
<City: Paris>
Extra kwargs may be passed to the related factory, through the usual ``ATTR__SUBATTR`` syntax:
.. code-block:: pycon
>>> england = CountryFactory(lang='en', capital_city__name="London")
>>> City.objects.get(capital_of=england)
<City: London>
If a value if passed for the :class:`RelatedFactory` attribute, this disables
:class:`RelatedFactory` generation:
.. code-block:: pycon
>>> france = CountryFactory()
>>> paris = City.objects.get()
>>> paris
<City: Paris>
>>> reunion = CountryFactory(capital_city=paris)
>>> City.objects.count() # No new capital_city generated
1
>>> guyane = CountryFactory(capital_city=paris, capital_city__name='Kourou')
>>> City.objects.count() # No new capital_city generated, ``name`` ignored.
1
PostGeneration
""""""""""""""
.. class:: PostGeneration(callable)
The :class:`PostGeneration` declaration performs actions once the model object
has been generated.
Its sole argument is a callable, that will be called once the base object has
been generated.
Once the base object has been generated, the provided callable will be called
as ``callable(obj, create, extracted, **kwargs)``, where:
- ``obj`` is the base object previously generated
- ``create`` is a boolean indicating which strategy was used
- ``extracted`` is ``None`` unless a value was passed in for the
:class:`PostGeneration` declaration at :class:`Factory` declaration time
- ``kwargs`` are any extra parameters passed as ``attr__key=value`` when calling
the :class:`Factory`:
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
login = 'john'
make_mbox = factory.PostGeneration(
lambda obj, create, extracted, **kwargs: os.makedirs(obj.login))
.. OHAI_VIM**
Decorator
~~~~~~~~~
.. function:: post_generation
A decorator is also provided, decorating a single method accepting the same
``obj``, ``created``, ``extracted`` and keyword arguments as :class:`PostGeneration`.
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
login = 'john'
@factory.post_generation
def mbox(self, create, extracted, **kwargs):
if not create:
return
path = extracted or os.path.join('/tmp/mbox/', self.login)
os.path.makedirs(path)
return path
.. OHAI_VIM**
.. code-block:: pycon
>>> UserFactory.build() # Nothing was created
>>> UserFactory.create() # Creates dir /tmp/mbox/john
>>> UserFactory.create(login='jack') # Creates dir /tmp/mbox/jack
>>> UserFactory.create(mbox='/tmp/alt') # Creates dir /tmp/alt
PostGenerationMethodCall
""""""""""""""""""""""""
.. class:: PostGenerationMethodCall(method_name, *args, **kwargs)
.. OHAI_VIM*
The :class:`PostGenerationMethodCall` declaration will call a method on
the generated object just after instantiation. This declaration class
provides a friendly means of generating attributes of a factory instance
during initialization. The declaration is created using the following arguments:
.. attribute:: method_name
The name of the method to call on the :attr:`~FactoryOptions.model` object
.. attribute:: args
The default set of unnamed arguments to pass to the method given in
:attr:`method_name`
.. attribute:: kwargs
The default set of keyword arguments to pass to the method given in
:attr:`method_name`
Once the factory instance has been generated, the method specified in
:attr:`~PostGenerationMethodCall.method_name` will be called on the generated object
with any arguments specified in the :class:`PostGenerationMethodCall` declaration, by
default.
For example, to set a default password on a generated User instance
during instantiation, we could make a declaration for a ``password``
attribute like below:
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
username = 'user'
password = factory.PostGenerationMethodCall('set_password',
'defaultpassword')
When we instantiate a user from the ``UserFactory``, the factory
will create a password attribute by calling ``User.set_password('defaultpassword')``.
Thus, by default, our users will have a password set to ``'defaultpassword'``.
.. code-block:: pycon
>>> u = UserFactory() # Calls user.set_password('defaultpassword')
>>> u.check_password('defaultpassword')
True
If the :class:`PostGenerationMethodCall` declaration contained no
arguments or one argument, an overriding the value can be passed
directly to the method through a keyword argument matching the attribute name.
For example we can override the default password specified in the declaration
above by simply passing in the desired password as a keyword argument to the
factory during instantiation.
.. code-block:: pycon
>>> other_u = UserFactory(password='different') # Calls user.set_password('different')
>>> other_u.check_password('defaultpassword')
False
>>> other_u.check_password('different')
True
.. note::
For Django models, unless the object method called by
:class:`PostGenerationMethodCall` saves the object back to the
database, we will have to explicitly remember to save the object back
if we performed a ``create()``.
.. code-block:: pycon
>>> u = UserFactory.create() # u.password has not been saved back to the database
>>> u.save() # we must remember to do it ourselves
We can avoid this by subclassing from :class:`DjangoModelFactory`,
instead, e.g.,
.. code-block:: python
class UserFactory(factory.django.DjangoModelFactory):
class Meta:
model = User
username = 'user'
password = factory.PostGenerationMethodCall('set_password',
'defaultpassword')
If instead the :class:`PostGenerationMethodCall` declaration uses two or
more positional arguments, the overriding value must be an iterable. For
example, if we declared the ``password`` attribute like the following,
.. code-block:: python
class UserFactory(factory.Factory):
class Meta:
model = User
username = 'user'
password = factory.PostGenerationMethodCall('set_password', '', 'sha1')
then we must be cautious to pass in an iterable for the ``password``
keyword argument when creating an instance from the factory:
.. code-block:: pycon
>>> UserFactory() # Calls user.set_password('', 'sha1')
>>> UserFactory(password=('test', 'md5')) # Calls user.set_password('test', 'md5')
>>> # Always pass in a good iterable:
>>> UserFactory(password=('test',)) # Calls user.set_password('test')
>>> UserFactory(password='test') # Calls user.set_password('t', 'e', 's', 't')
.. note:: While this setup provides sane and intuitive defaults for most users,
it prevents passing more than one argument when the declaration used
zero or one.
In such cases, users are advised to either resort to the more powerful
:class:`PostGeneration` or to add the second expected argument default
value to the :class:`PostGenerationMethodCall` declaration
(``PostGenerationMethodCall('method', 'x', 'y_that_is_the_default')``)
Keywords extracted from the factory arguments are merged into the
defaults present in the :class:`PostGenerationMethodCall` declaration.
.. code-block:: pycon
>>> UserFactory(password__disabled=True) # Calls user.set_password('', 'sha1', disabled=True)
Module-level functions
----------------------
Beyond the :class:`Factory` class and the various :ref:`declarations` classes
and methods, factory_boy exposes a few module-level functions, mostly useful
for lightweight factory generation.
Lightweight factory declaration
"""""""""""""""""""""""""""""""
.. function:: make_factory(klass, **kwargs)
.. OHAI_VIM**
The :func:`make_factory` function takes a class, declarations as keyword arguments,
and generates a new :class:`Factory` for that class accordingly:
.. code-block:: python
UserFactory = make_factory(User,
login='john',
email=factory.LazyAttribute(lambda u: '%s@example.com' % u.login),
)
# This is equivalent to:
class UserFactory(factory.Factory):
class Meta:
model = User
login = 'john'
email = factory.LazyAttribute(lambda u: '%s@example.com' % u.login)
An alternate base class to :class:`Factory` can be specified in the
``FACTORY_CLASS`` argument:
.. code-block:: python
UserFactory = make_factory(models.User,
login='john',
email=factory.LazyAttribute(lambda u: '%s@example.com' % u.login),
FACTORY_CLASS=factory.django.DjangoModelFactory,
)
# This is equivalent to:
class UserFactory(factory.django.DjangoModelFactory):
class Meta:
model = models.User
login = 'john'
email = factory.LazyAttribute(lambda u: '%s@example.com' % u.login)
.. versionadded:: 2.0.0
The ``FACTORY_CLASS`` kwarg was added in 2.0.0.
Instance building
"""""""""""""""""
The :mod:`factory` module provides a bunch of shortcuts for creating a factory and
extracting instances from them:
.. function:: build(klass, FACTORY_CLASS=None, **kwargs)
.. function:: build_batch(klass, size, FACTORY_CLASS=None, **kwargs)
Create a factory for :obj:`klass` using declarations passed in kwargs;
return an instance built from that factory,
or a list of :obj:`size` instances (for :func:`build_batch`).
:param class klass: Class of the instance to build
:param int size: Number of instances to build
:param kwargs: Declarations to use for the generated factory
:param FACTORY_CLASS: Alternate base class (instead of :class:`Factory`)
.. function:: create(klass, FACTORY_CLASS=None, **kwargs)
.. function:: create_batch(klass, size, FACTORY_CLASS=None, **kwargs)
Create a factory for :obj:`klass` using declarations passed in kwargs;
return an instance created from that factory,
or a list of :obj:`size` instances (for :func:`create_batch`).
:param class klass: Class of the instance to create
:param int size: Number of instances to create
:param kwargs: Declarations to use for the generated factory
:param FACTORY_CLASS: Alternate base class (instead of :class:`Factory`)
.. function:: stub(klass, FACTORY_CLASS=None, **kwargs)
.. function:: stub_batch(klass, size, FACTORY_CLASS=None, **kwargs)
Create a factory for :obj:`klass` using declarations passed in kwargs;
return an instance stubbed from that factory,
or a list of :obj:`size` instances (for :func:`stub_batch`).
:param class klass: Class of the instance to stub
:param int size: Number of instances to stub
:param kwargs: Declarations to use for the generated factory
:param FACTORY_CLASS: Alternate base class (instead of :class:`Factory`)
.. function:: generate(klass, strategy, FACTORY_CLASS=None, **kwargs)
.. function:: generate_batch(klass, strategy, size, FACTORY_CLASS=None, **kwargs)
Create a factory for :obj:`klass` using declarations passed in kwargs;
return an instance generated from that factory with the :obj:`strategy` strategy,
or a list of :obj:`size` instances (for :func:`generate_batch`).
:param class klass: Class of the instance to generate
:param str strategy: The strategy to use
:param int size: Number of instances to generate
:param kwargs: Declarations to use for the generated factory
:param FACTORY_CLASS: Alternate base class (instead of :class:`Factory`)
.. function:: simple_generate(klass, create, FACTORY_CLASS=None, **kwargs)
.. function:: simple_generate_batch(klass, create, size, FACTORY_CLASS=None, **kwargs)
Create a factory for :obj:`klass` using declarations passed in kwargs;
return an instance generated from that factory according to the :obj:`create` flag,
or a list of :obj:`size` instances (for :func:`simple_generate_batch`).
:param class klass: Class of the instance to generate
:param bool create: Whether to build (``False``) or create (``True``) instances
:param int size: Number of instances to generate
:param kwargs: Declarations to use for the generated factory
:param FACTORY_CLASS: Alternate base class (instead of :class:`Factory`)
|