Dependency Injection library for Python 3
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Description
serum
is a fresh take on Dependency Injection in Python 3.
serum
is pure python and has no dependencies.
Installation
> pip install serum
Quickstart
from serum import inject, dependency, Context
# Classes decorated with 'dependency' are injectable types.
@dependency
class Log:
def info(self, message: str):
raise NotImplementedError()
class SimpleLog(Log):
def info(self, message: str):
print(message)
class StubLog(SimpleLog):
def info(self, message: str):
pass
@inject # Dependencies are injected using a class decorator...
class NeedsLog:
log: Log # ...and class level annotations...
class NeedsSimpleLog:
@inject # ...or using a function decorator
def __init__(self, log: SimpleLog):
self.log = log
@inject
class NeedsNamedDependency:
named_dependency: str # class level annotations annotated with a type that is not
# decorated with 'dependency' will be treated as a named
# dependency
# Contexts provide dependencies
with Context(SimpleLog, named_dependency='this name is injected!'):
assert isinstance(NeedsLog().log, SimpleLog)
assert NeedsNamedDependency().named_dependency == 'this name is injected!'
# Contexts will always provide the most specific
# subtype of the requested type. This allows you to change which
# dependencies are injected.
with Context(StubLog):
NeedsLog().log.info('Hello serum!') # doesn't output anything
NeedsSimpleLog().log.info('Hello serum!') # doesn't output anything
Documentation
inject
inject
is used to decorate functions and classes in which you want to inject
dependencies.
from serum import inject, dependency
@dependency
class MyDependency:
pass
@inject
def f(dependency: MyDependency):
assert isinstance(dependency, MyDependency)
f()
Functions decorated with inject
can be called as normal functions. serum
will
not attempt to inject arguments given at call time.
@inject
def f(dependency: MyDependency):
print(dependency)
f('Overridden dependency') # outputs: Overridden dependency
inject
will instantiate classes decorated with dependency
. In
this way, your entire dependency graph can be specified using just inject
and
dependency
.
Instances of simple types and objects you want to instantiate yourself can be
injected using keyword arguments to Context
.
@inject
def f(dependency: str):
assert dependency == 'a named dependency'
with Context(dependency='a named dependency'):
f()
inject
can also be used to decorate classes.
@inject
class SomeClass:
dependency: MyDependency
This is roughly equivalent to:
class SomeClass:
@inject
def __init__(self, dependency: MyDependency):
self.__dependency = dependency
@property
def dependency(self) -> MyDependency:
return self.__dependency
Dependencies that are specified as class level annotations can be overridden
using key-word arguments to __init__
assert SomeClass(dependency='Overridden!').dependency == 'Overridden!'
dependency
Classes decorated with dependency
can be instantiated and injected
by serum
.
from serum import dependency, inject
@dependency
class Log:
def info(self, message):
print(message)
@inject
class NeedsLog:
log: Log
assert isinstance(NeedsLog().log, Log)
serum
relies on being able to inject all dependencies for dependency
decorated classes
recursively. To achieve this, serum
assumes that the __init__
method
of dependency
decorated classes can be called without any arguments.
This means that all arguments to __init__
of dependency
decorated classes must be injected using inject
.
@dependency
class SomeDependency:
def method(self):
pass
@inject
@dependency
class ValidDependency: # OK!
some_dependency: SomeDependency
def __init__(self):
...
@dependency
class AlsoValidDependency: # Also OK!
@inject
def __init__(self, some_dependency: SomeDependency):
...
@dependency
class InvalidDependency:
def __init__(self, a):
...
@inject
def f(dependency: InvalidDependency):
...
f()
# raises:
# TypeError: __init__() missing 1 required positional argument: 'a'
# The above exception was the direct cause of the following exception:
# InjectionError Traceback (most recent call last)
# ...
# InjectionError: Could not instantiate dependency <class 'InvalidDependency'>
# when injecting argument "dependency" in <function f at 0x10a074ea0>.
Note that circular dependencies preventing instantiation of dependency
decorated
classes leads to an error.
@dependency
class AbstractA:
pass
@dependency
class AbstractB:
pass
class A(AbstractA):
@inject
def __init__(self, b: AbstractB):
self.b = b
class B(AbstractB):
@inject
def __init__(self, a: AbstractA):
self.a = a
@inject
class Dependent:
a: AbstractA
with Context(A, B):
Dependent().a # raises: CircularDependency: Circular dependency encountered while injecting <class 'AbstractA'> in <B object at 0x1061e3898>
Context
Context
s provide implementations of dependencies. A Context
will always provide the most
specific subtype of the requested type (in Method Resolution Order).
@dependency
class Super:
pass
class Sub(Super):
pass
@inject
class NeedsSuper:
instance: Super
with Context(Sub):
assert isinstance(NeedsSuper().instance, Sub)
It is an error to inject a type in an Context
that provides two or more equally specific subtypes of that type:
class AlsoSub(Super):
pass
with Context(Sub, AlsoSub):
NeedsSuper() # raises: AmbiguousDependencies: Attempt to inject type <class 'Log'> with equally specific provided subtypes: <class 'MockLog'>, <class 'FileLog'>
Context
s can also be used as decorators:
context = Context(Sub)
@context
def f():
assert isinstance(NeedsSuper().instance, Sub)
You can provide named dependencies of any type using keyword arguments.
@inject
class Database:
connection_string: str
connection_string = 'mysql+pymysql://root:my_pass@127.0.0.1:3333/my_db'
context = Context(
connection_string=connection_string
)
with context:
assert Database().connection_string == connection_string
Context
s are local to each thread. This means that when using multi-threading
each thread runs in its own context
import threading
@singleton
class SomeSingleton:
pass
def worker_without_environment():
NeedsSuper().instance
@inject
def worker(instance: SomeSingleton):
print(instance)
with Context():
worker() # outputs: <SomeSingleton object at 0x101f75470>
threading.Thread(target=worker).start() # outputs: <SomeSingleton object at 0x1035fb320>
singleton
To always inject the same instance of a dependency in the same Context
, annotate your type with singleton
.
from serum import singleton
@singleton
class ExpensiveObject:
pass
@inject
class NeedsExpensiveObject:
expensive_instance: ExpensiveObject
instance1 = NeedsExpensiveObject()
instance2 = NeedsExpensiveObject()
assert instance1.expensive_instance is instance2.expensive_instance
Note that Singleton
dependencies injected in different environments
will not refer to the same instance.
with Context():
instance1 = NeedsExpensiveObject()
with Context():
assert instance1.expensive_instance is not NeedsExpensiveObject().expensive_instance
mock
serum
has support for injecting MagicMock
s from the builtin
unittest.mock
library in unittests using the mock
utility
function. Mocks are reset
when the environment context is closed.
from serum import mock
@dependency
class SomeDependency:
def method(self):
return 'some value'
@inject
class Dependent:
dependency: SomeDependency
context = Context()
with context:
mock_dependency = mock(SomeDependency)
mock_dependency.method.return_value = 'some mocked value'
instance = Dependent()
assert instance.dependency is mock_dependency
assert instance.dependency.method() == 'some mocked value'
with context:
instance = Dependent()
assert instance.dependency is not mock_dependency
assert isinstance(instance.dependency, SomeDependency)
mock
uses its argument to spec the injected instance of MagicMock
. This means
that attempting to call methods that are not defined by the mocked Component
leads to an error
with context:
mock_dependency = mock(SomeDependency)
mock_dependency.no_method() # raises: AttributeError: Mock object has no attribute 'no method'
Note that mock
will only mock requests of the
exact type supplied as its argument, but not requests of
more or less specific types
from unittest.mock import MagicMock
@dependency
class Super:
pass
class Sub(Super):
pass
class SubSub(Sub):
pass
@inject
class NeedsSuper:
injected: Super
@inject
class NeedsSub:
injected: Sub
@inject
class NeedsSubSub:
injected: SubSub
with Context():
mock(Sub)
needs_super = NeedsSuper()
needs_sub = NeedsSub()
needs_subsub = NeedsSubSub()
assert isinstance(needs_super.injected, Super)
assert isinstance(needs_sub.injected, MagicMock)
assert isinstance(needs_subsub.injected, SubSub)
match
match
is small utility function for matching Context
instances
with values of an environment variable.
# my_script.py
from serum import match, dependency, Context, inject
@dependency
class BaseDependency:
def method(self):
raise NotImplementedError()
class ProductionDependency(BaseDependency):
def method(self):
print('Production!')
class TestDependency(BaseDependency):
def method(self):
print('Test!')
@inject
def f(dependency: BaseDependency):
dependency.method()
context = match(
environment_variable='MY_SCRIPT_ENV',
default=Context(ProductionDependency),
PROD=Context(ProductionDependency),
TEST=Context(TestDependency)
)
with context:
f()
> python my_script.py
Production!
> MY_SCRIPT_ENV=PROD python my_script.py
Production!
> MY_SCRIPT_ENV=TEST python my_script.py
Test!
IPython Integration
It can be slightly annoying to import some Context
and start it as a
context manager in the beginning of every IPython session.
Moreover, you quite often want to run an IPython REPL in a special context,
e.g to provide configuration that is normally supplied through command line
arguments in some other way.
To this end serum
can act as an IPython extension. To activate it,
add the following lines to your ipython_config.py
:
c.InteractiveShellApp.extensions = ['serum']
Finally, create a file named ipython_context.py
in the root of your project. In it,
assign the Context
instance you would like automatically started to a global
variable named context
:
# ipython_context.py
from serum import Context
context = Context()
IPython will now enter this context automatically in the beginning of every REPL session started in the root of your project.
Why?
If you've been researching Dependency Injection frameworks for python, you've no doubt come across this opinion:
You dont need Dependency Injection in python. You can just use duck typing and monkey patching!
The position behind this statement is often that you only need Dependency Injection in statically typed languages.
In truth, you don't really need Dependency Injection in any language,
statically typed or otherwise.
When building large applications that need to run in multiple environments however,
Dependency Injection can make your life a lot easier. In my experience,
excessive use of monkey patching for managing environments leads to a jumbled
mess of implicit initialisation steps and if value is None
type code.
In addition to being a framework, I've attempted to design serum
to encourage
designing classes that follow the Dependency Inversion Principle:
one should “depend upon abstractions, not concretions."
This is achieved by letting inheritance being the principle way of providing dependencies and allowing dependencies to be abstract.
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