Antidotes is a dependency injection micro-framework for Python 3.7+. It is built on the idea of ensuring best maintainability of your code while being as easy to use as possible. It also provides the fastest injection with @inject allowing you to use it virtually anywhere and fast full isolation of your tests.

Antidote provides the following features:

  • Ease of use
    • Injection anywhere you need through a decorator @inject, be it static methods, functions, etc.. By default, it will only rely on annotated type hints, but it supports a lot more!

    • No **kwargs arguments hiding actual arguments and fully mypy typed, helping you and your IDE.

    • Documented, everything has tested examples.

    • No need for any custom setup, just use your injected function as usual. You just don’t have to specify injected arguments anymore. Allowing you to gradually migrate an existing project.

  • Flexibility
    • Most common dependencies out of the box: services, configuration, factories, interface/implementation.

    • All of those are implemented on top of the core implementation. If Antidote doesn’t provide what you need, there’s a good chance you can implement it yourself.

    • Scope support

    • Async injection

  • Maintainability
    • All dependencies can be tracked back to their declaration/implementation easily.

    • Mypy compatibility and usage of type hints as much as possible.

    • Overriding dependencies will raise an error outside of tests.

    • Dependencies can be frozen, which blocks any new declarations.

    • No double injection.

    • Everything is as explicit as possible, @inject does not inject anything implicitly.

    • Type checks when a type is explicitly defined with world.get, world.lazy and constants.

    • Thread-safe, cycle detection.

    • Immutable whenever possible.

  • Testability
    • @inject lets you override any injections by passing explicitly the arguments.

    • Fully isolate each test with world.test.clone. They will work on separate objects.

    • Override globally any dependency locally in a test.

    • When encountering issues you can retrieve the full dependency tree, nicely formatted, with world.debug.

  • Performance*
    • Fastest @inject with heavily tuned Cython.

    • As much as possible is done at import time.

    • Testing utilities are tuned to ensure that even with full isolation it stays fast.

    • Benchmarks: comparison, injection, test utilities

*with the compiled version, in Cython. Pre-built wheels for Linux. See further down for more details.

Comparison benchmark image


To install Antidote, simply run this command:

pip install antidote


Beginner friendly tutorial, recipes, the reference and a FAQ can be found in the documentation.

Here are some links:

Issues / Questions

Feel free to open an issue on Github for questions or issues !

Hands-on quick start

Showcase of the most important features of Antidote with short and concise examples. Checkout the Getting started for a full beginner friendly tutorial.


from antidote import inject, service

class Database:

def f(db: Database =
    return db

assert isinstance(f(), Database)  # works !

Simple, right ? And you can still use it like a normal function, typically when testing it:


inject() here used the marker with the help of the type hint to determine the dependency. But it also supports the following ways to express the dependency wiring:

  • annotated type hints:
    from antidote import Inject
    def f(db: Inject[Database]):
  • list (matching argument position):
    def f(db):
  • dictionary:
    @inject({'db': Database})
    def f(db):
  • optional dependencies:
    from typing import Optional
    class Dummy:
    # When the type_hint is optional and a marker like `` is used, None will be
    # provided if the dependency does not exists.
    def f(dummy: Optional[Dummy] =
        return dummy
    assert f() is None

You can also retrieve the dependency by hand with world.get:

from antidote import world

# Retrieve dependencies by hand, in tests typically
world.get[Database](Database)  # with type hint, enforced when possible


Services are classes for which Antidote provides an instance. It can be a singleton or not. Scopes are also supported. Every method is injected by default, relying on annotated type hints and markers such as

from antidote import service, inject

class QueryBuilder:
    # methods are also injected by default
    def __init__(self, db: Database =
        self._db = db

def load_data(builder: QueryBuilder =

load_data()  # yeah !


Constants can be provided lazily by Antidote:

from antidote import inject, Constants, const

class Config(Constants):
    DB_HOST = const('localhost')

def ping_db(db_host: str = Config.DB_HOST):

ping_db()  # nice !

This feature really shines when your constants aren’t hard-coded:

from typing import Optional
from antidote import inject, Constants, const

class Config(Constants):
    # Like world.get, a type hint can be provided and is enforced.
    DB_HOST = const[str]()
    DB_PORT = const[int]()
    DB_USER = const[str](default='postgres')  # default is used on LookupError

    # name of the constant and the arg given to const() if any.
    def provide_const(self, name: str, arg: Optional[object]):
        return os.environ[name]

import os
os.environ['DB_HOST'] = 'localhost'
os.environ['DB_PORT'] = '5432'

def check_connection(db_host: str = Config.DB_HOST,
                     db_port: int = Config.DB_PORT,
                     db_user: str = Config.DB_USER):

check_connection()  # perfect !

Note that on the injection site, nothing changed!


Factories are used by Antidote to generate a dependency, typically a class from an external code:

from antidote import factory, inject

class User:

@factory(singleton=False)  # function is injected by default
def current_user(db: Database = -> User:
    return User()

# Consistency between the type hint and the factory result type hint is enforced.
def is_admin(user: User =

While it’s a bit verbose, you always know how the dependency is created. Obviously you can retrieve it from world:

from antidote import world

world.get(User, source=current_user)


The distinction between an interface and its implementation lets you choose between multiple implementations, which one to use. This choice can be permanent or not. For the latter, Antidote will retrieve the current implementation each time:

from antidote import implementation, inject, factory, Get

class Cache:

class MemoryCache(Cache):

class Redis:
    """ class from an external library """

def redis_cache() -> Redis:
    return Redis()

def global_cache():
    # Returning the dependency that must be retrieved
    import os

    if os.environ.get('USE_REDIS_CACHE'):
        return Get(Redis, source=redis_cache)

    return MemoryCache

The cache can then be retrieved with the same syntax as a factory:

from antidote import world, inject

def heavy_compute(cache: Cache =

world.get(Cache, source=global_cache)

Like factories, it’s easy to know where the dependency is coming from !

Testing and Debugging

inject always allows you to pass your own argument to override the injection:

from antidote import service, inject

class Database:

def f(db: Database =

f(Database())  # test with specific arguments in unit tests

You can also fully isolate your tests from each other and override any dependency within that context:

from antidote import world

# Clone current world to isolate it from the rest
with world.test.clone():
    x = object()
    # Override the Database
    world.test.override.singleton(Database, x)
    f()  # will have `x` injected for the Database

    def override_database():
        class DatabaseMock:

        return DatabaseMock()

    f()  # will have `DatabaseMock()` injected for the Database

If you ever need to debug your dependency injections, Antidote also provides a tool to have a quick summary of what is actually going on:

def function_with_complex_dependencies():

# would output something like this:
└── Permanent implementation: MovieDB @ current_movie_db
    └──<∅> IMDBMovieDB
        └── ImdbAPI @ imdb_factory
            └── imdb_factory
                ├── Config.IMDB_API_KEY
                ├── Config.IMDB_PORT
                └── Config.IMDB_HOST

Singletons have no scope markers.
<∅> = no scope (new instance each time)
<name> = custom scope

Hooked ? Check out the documentation ! There are still features not presented here !


The compiled implementation is roughly 10x faster than the Python one and strictly follows the same API than the pure Python implementation. Pre-compiled wheels are available only for Linux currently. You can check whether you’re using the compiled version or not with:

from antidote import is_compiled

f"Is Antidote compiled ? {is_compiled()}"

You can force the compilation of antidote yourself when installing:

ANTIDOTE_COMPILED=true pip install antidote

On the contrary, you can force the pure Python version with:

pip install --no-binary antidote


The compiled version is not tested against PyPy. The compiled version relies currently on Cython, but it is not part of the public API. Relying on it in your own Cython code is at your risk.

How to Contribute

  1. Check for open issues or open a fresh issue to start a discussion around a feature or a bug.

  2. Fork the repo on GitHub. Run the tests to confirm they all pass on your machine. If you cannot find why it fails, open an issue.

  3. Start making your changes to the master branch.

  4. Writes tests which shows that your code is working as intended. (This also means 100% coverage.)

  5. Send a pull request.

Be sure to merge the latest from “upstream” before making a pull request!

If you have any issue during development or just want some feedback, don’t hesitate to open a pull request and ask for help !

Pull requests will not be accepted if:

  • public classes/functions have not docstrings documenting their behavior with examples.

  • tests do not cover all of code changes (100% coverage) in the pure python.

If you face issues with the Cython part of Antidote, I may implement it myself.

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