A design pattern to reduce coupling between components, by dynamically injecting into a software component dependencies that it needs to function.
Dependency injection (DI) is a design-pattern for object-oriented programming involving dynamically injecting (inserting) into a software component dependencies (service components) that it needs to function, without needing the dependent component to hard-code a dependency on the service. This reduces coupling between the dependent consumer and the service.
Resources / background questions
If you need a general introduction to DI you should refer to this question: What is dependency injection?
If you need a non-technical introduction you can refer to this question: How to explain Dependency Injection to a 5-year old.
For general recommendations for writing DI-friendly code without a DI Container, see Dependency Inject (DI) “friendly” library.
If you are wondering why you should use a DI Container (a.k.a. an ioc-container) instead of Poor Man's DI, see Why do I need an IoC container as opposed to straightforward DI code?
If you are wondering what the Composition Root is, see What is a composition root in the context of Dependency Injection.
For potential downsides of using DI, see What are the downsides to using dependency injection?
Dependency injection and Inversion of Control are closely related. The difference between them is discussed at where-exactly-is-the-difference-between-ioc-and-di.
Also can read basic here : Dependency Injection For Beginner - 1
Benefits of Dependency Injection
- Separation of Concerns.
- Boilerplate Code reduction in application classes because all work to initialize dependencies is handled by the injector component.
- Configurable components makes application easily extendable.
- Unit testing is easy with mock objects.
Disadvantages of Dependency Injection
- If overused, it can lead to maintenance issues because effect of changes are known at runtime.
- Dependency injection hides the service class dependencies that can lead to runtime errors that would have been caught at compile time.