I've been reading a lot about python-way lately so my question is
How to do dependency injection python-way?
I am talking about usual scenarios when, for example, service A needs access to UserService for authorization checks.
It all depends on the situation. For example, if you use dependency injection for testing purposes -- so you can easily mock out something -- you can often forgo injection altogether: you can instead mock out the module or class you would otherwise inject:
subprocess.Popen = some_mock_Popen result = subprocess.call(...) assert some_mock_popen.result == result
subprocess.call() will call
subprocess.Popen(), and we can mock it out without having to inject the dependency in a special way. We can just replace
subprocess.Popen directly. (This is just an example; in real life you would do this in a much more robust way.)
If you use dependency injection for more complex situations, or when mocking whole modules or classes isn't appropriate (because, for example, you want to only mock out one particular call) then using class attributes or module globals for the dependencies is the usual choice. For example, considering a
from subprocess import Popen def my_call(...): return Popen(...).communicate()
You can easily replace only the
Popen call made by
my_call() by assigning to
my_subprocess.Popen; it wouldn't affect any other calls to
subprocess.Popen (but it would replace all calls to
my_subprocess.Popen, of course.) Similarly, class attributes:
class MyClass(object): Popen = staticmethod(subprocess.Popen) def call(self): return self.Popen(...).communicate(...)
When using class attributes like this, which is rarely necessary considering the options, you should take care to use
staticmethod. If you don't, and the object you're inserting is a normal function object or another type of descriptor, like a property, that does something special when retrieved from a class or instance, it would do the wrong thing. Worse, if you used something that right now isn't a descriptor (like the
subprocess.Popen class, in the example) it would work now, but if the object in question changed to a normal function future, it would break confusingly.
Lastly, there's just plain callbacks; if you just want to tie a particular instance of a class to a particular service, you can just pass the service (or one or more of the service's methods) to the class initializer, and have it use that:
class MyClass(object): def __init__(self, authenticate=None, authorize=None): if authenticate is None: authenticate = default_authenticate if authorize is None: authorize = default_authorize self.authenticate = authenticate self.authorize = authorize def request(self, user, password, action): self.authenticate(user, password) self.authorize(user, action) self._do_request(action) ... helper = AuthService(...) # Pass bound methods to helper.authenticate and helper.authorize to MyClass. inst = MyClass(authenticate=helper.authenticate, authorize=helper.authorize) inst.request(...)
When setting instance attributes like that, you never have to worry about descriptors firing, so just assigning the functions (or classes or other callables or instances) is fine.
How about this "setter-only" injection recipe? http://code.activestate.com/recipes/413268/
It is quite pythonic, using the "descriptor" protocol with
__set__(), but rather invasive, requiring to replace all your attribute-setting code with a
RequiredFeature instance initialized with the str-name of the
After years using Python without any DI autowiring framework and Java with Spring I've come to realize plain simple Python code often doesn't need frameworks for dependency injection without autowiring (autowiring is what Guice and Spring both do in Java), i.e., just doing something like this is enough:
def foo(dep = None): # great for unit testing! self.dep = dep or Dep() # callers can not care about this too ...
This is pure dependency injection (quite simple) but without magical frameworks for automatically injecting them for you (i.e., autowiring) and without Inversion of Control.
Though as I dealt with bigger applications this approach wasn't cutting it anymore. So I've come up with injectable a micro-framework that wouldn't feel non-pythonic and yet would provide first class dependency injection autowiring.
Under the motto Dependency Injection for Humans™ this is what it looks like:
# some_service.py class SomeService: @autowired def __init__( self, database: Autowired(Database), message_brokers: Autowired(List[Broker]), ): pending = database.retrieve_pending_messages() for broker in message_brokers: broker.send_pending(pending)
# database.py @injectable class Database: ...
# message_broker.py class MessageBroker(ABC): def send_pending(messages): ...
# kafka_producer.py @injectable class KafkaProducer(MessageBroker): ...
# sqs_producer.py @injectable class SQSProducer(MessageBroker): ...
I recently released a DI framework for python that might help you here. I think its a fairly fresh take on it, but I'm not sure how 'pythonic' it is. Judge for yourself. Feedback is very welcome.