python-dependency-injector/docs/providers/factory.rst

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Factory providers
-----------------
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.. currentmodule:: dependency_injector.providers
:py:class:`Factory` provider creates new instance of specified class on every
call.
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Nothing could be better than brief example:
.. image:: /images/providers/factory.png
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:width: 80%
:align: center
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.. literalinclude:: ../../examples/providers/factory.py
:language: python
:linenos:
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Factory providers and __init__ injections
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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:py:class:`Factory` takes a various number of positional and keyword arguments
that are used as ``__init__()`` injections. Every time, when
:py:class:`Factory` creates new one instance, positional and keyword
argument injections would be passed as instance arguments.
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Injections are done according to the next rules:
+ All providers (instances of :py:class:`Provider`) are called every time
when injection needs to be done.
+ Providers could be injected "as is" (delegated), if it is defined obviously.
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Check out :ref:`factory_providers_delegation`.
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+ All other injectable values are provided *"as is"*.
+ Positional context arguments will be appended after :py:class:`Factory`
positional injections.
+ Keyword context arguments have priority on :py:class:`Factory` keyword
injections and will be merged over them.
For example, if injectable value of injection is a :py:class:`Factory`, it
will provide new one instance (as a result of its call) every time, when
injection needs to be done.
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Example below is a little bit more complicated. It shows how to create
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:py:class:`Factory` of particular class with ``__init__()`` injections which
injectable values are also provided by another factories:
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.. image:: /images/providers/factory_init_injections.png
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.. literalinclude:: ../../examples/providers/factory_init_injections.py
:language: python
:linenos:
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.. _factory_providers_delegation:
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Factory providers delegation
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
:py:class:`Factory` provider could be delegated to any other provider via any
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kind of injection.
As it was mentioned earlier, if :py:class:`Factory` is
injectable value, it will be called every time when injection needs to be
done. But sometimes there is a need to inject :py:class:`Factory` provider
itself (not a result of its call) as a dependency. Such injections are called
- *delegated provider injections*.
Saying in other words, delegation of factories - is a way to inject factories
themselves, instead of results of their calls.
:py:class:`Factory` delegation is performed by wrapping delegated
:py:class:`Factory` into special provider type - :py:class:`Delegate`, that
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just returns wrapped :py:class:`Factory`.
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Actually, there are three ways for creating factory delegates:
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+ ``DelegatedFactory(...)`` - use special type of factory -
:py:class:`DelegatedFactory`. Such factories are always injected as
delegates ("as is").
+ ``Delegate(Factory(...))`` - obviously wrapping factory into
:py:class:`Delegate` provider.
+ ``Factory(...).delegate()`` - calling factory :py:meth:`Factory.delegate`
method, that returns delegate wrapper for current factory.
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+ ``Factory(...).provider`` - getting factory :py:attr:`Factory.provider`
attribute, that returns delegate wrapper for current factory (alias of
``Factory(...).delegate()`` method).
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Example:
.. image:: /images/providers/factory_delegation.png
:width: 85%
:align: center
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.. literalinclude:: ../../examples/providers/factory_delegation.py
:language: python
:linenos:
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.. _factory_providers_specialization:
Factory providers specialization
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
:py:class:`Factory` provider could be specialized for any kind of needs via
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creating its subclasses.
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One of such specialization features is a limitation to :py:class:`Factory`
provided type:
.. literalinclude:: ../../examples/providers/factory_provided_type.py
:language: python
:linenos:
.. _abstract_factory_providers:
Abstract factory providers
~~~~~~~~~~~~~~~~~~~~~~~~~~
:py:class:`AbstractFactory` provider is a :py:class:`Factory` provider that
must be explicitly overridden before calling.
.. note::
Overriding of :py:class:`AbstractFactory` provider is possible only by
another :py:class:`Factory` provider.
:py:class:`AbstractFactory` provider is useful when it is needed to specify
explicitly that it only provides abstraction, but not an implementation.
Client code must override such factories with factories that provide particular
implementations. Otherwise, :py:class:`AbstractFactory` will raise an error
on attempt of calling it. At the same time, :py:class:`AbstractFactory` is
regular provider that could be injected into other providers (or used for
any other kind of bindings) without being overridden. After
:py:class:`AbstractFactory` provider has been overridden, its behaviour is
identical to regular :py:class:`Factory` provider.
Example:
.. image:: /images/providers/abstract_factory.png
:width: 100%
:align: center
Listing of ``cache.py``:
.. literalinclude:: ../../examples/providers/abstract_factory/cache.py
:language: python
:linenos:
Listing of ``example.py``:
.. literalinclude:: ../../examples/providers/abstract_factory/example.py
:language: python
:linenos:
Factory aggregate providers
~~~~~~~~~~~~~~~~~~~~~~~~~~~
:py:class:`FactoryAggregate` provider is a special type of provider that
aggregates other :py:class:`Factory` providers.
.. note::
:py:class:`FactoryAggregate` is not overridable. Calling of
:py:meth:`FactoryAggregate.override` will result in raising of an
exception.
Next prototype might be the best demonstration of
:py:class:`FactoryAggregate` features:
.. literalinclude:: ../../examples/providers/factory_aggregate/prototype.py
:language: python
:linenos:
Example below shows one of the :py:class:`FactoryAggregate` use cases, when
concrete implementation (game) must be selected based on dynamic input (CLI).
Listing of ``games.py``:
.. literalinclude:: ../../examples/providers/factory_aggregate/games.py
:language: python
:linenos:
Listing of ``example.py``:
.. literalinclude:: ../../examples/providers/factory_aggregate/example.py
:language: python
:linenos:
.. disqus::