Introduction ============ Before you have started with *Dependency Injector* framework and dependecy injection, there are a couple of introduction notes that might be useful. What is DI and why is it needed? -------------------------------- Python ecosystem consists of a big amount of various libraries that contain different classes and functions that could be used for applications development. Each of them has its own role. Modern Python applications are mostly the composition of well-known open source systems / frameworks / libraries and some turnkey functionality. When application goes bigger, its complexity and SLOC_ are also increased. Being driven by SOLID_ (for example), developers often start to split application's sources into not so big classes, functions and modules, that are less complex, could be reused several times and so on... It always helps, but there is another problem on the horizon. The name of this problem is - "Dependency hell!". It sounds like "I have so many classes and functions! They are great, now I can understand each of them, but it is so hard to see the whole picture! How are they linked with each other? What dependencies does this class have?". And this is a key question: "What dependencies does certain class / function have?". To resolve this issues developers have to go inside with IoC_ principles and implementation patterns. One of such IoC_ implementation patterns is called `dependency injection`_. Dependency injection in Python ------------------------------ Interesting but, dependency injection is not very popular topic in Python. The things are so because Python is an awesome language. Your eyes are opened and your hands are free while you are using Python. In practice this means that you can do dependency injection in Python in quite an easy way because language itself helps you to do this. At the same time, even the thins are so, you still have to do some work. Another one 'minor' problem is that there are several ways to do dependency injection container. Key features ------------ *Dependency Injector* is a dependency injection framework for Python projects. It was designed to be unified, developer's friendly tool for managing any kind of Python objects and their dependencies in formal, pretty way. Below is a list of some key features and points of *Dependency Injector* framework: - Easy, smart, pythonic style. - Obvious, clear structure. - Memory efficiency. - Semantic versioning. Main idea of *Dependency Injector* is to keep dependencies under control. Main entities ------------- Current section describes *Dependency Injector* main entities and their interaction with each other. .. image:: /images/internals.png :width: 100% :align: center There are 3 main entities: - Providers. Providers are strategies of accesing objects. For example, ``dependency_injector.providers.Factory`` creates new instance of provided class every time it is called. ``dependency_injector.providers.Singleton`` creates provided instance once and returns it on every next call. Providers could be overridden by another providers. Base class is - ``dependency_injector.providers.Provider``. - Injections. Injections are instructions for making dependency injections (there are several ways how they could be done). Injections are used mostly by ``dependency_injector.providers.Factory`` and ``dependency_injector.providers.Singleton`` providers, but these are not only cases. Base class is - ``dependency_injector.injections.Injection``. - Catalogs. Catalogs are collections of providers. They are used for grouping of providers by some principles. Base class is - ``dependency_injector.catalog.AbstractCatalog``. .. _SLOC: http://en.wikipedia.org/wiki/Source_lines_of_code .. _SOLID: http://en.wikipedia.org/wiki/SOLID_%28object-oriented_design%29 .. _IoC: http://en.wikipedia.org/wiki/Inversion_of_control .. _dependency injection: http://en.wikipedia.org/wiki/Dependency_injection