This content originally appeared on DEV Community and was authored by Ewerson Vieira Nascimento
Hexagonal Architecture, also known as Ports and Adapters, originally introduced by Alistair Cockburn in 2005, has gained significant traction due to its emphasis on separating concerns and promoting modularity. In this article, we’ll see the core objectives of Hexagonal Architecture, its role in decoupling technical complexity from business logic, and its utilization of the Dependency Inversion Principle for enhanced componentization.
Understanding Hexagonal Architecture
The primary goal of Hexagonal Architecture is to facilitate the development of software systems that are adaptable, maintainable, and easily testable. At its core, this architectural style revolves around the concept of a hexagon, with the application’s core business logic situated at its center. Surrounding this core are various layers, or ports, through which the application interacts with external systems, such as databases, user interfaces, or third-party services.
Separating Technical and Business Concerns
One of the key advantages of Hexagonal Architecture is its ability to segregate technical complexities from the core business logic. By defining clear boundaries between different layers of the system, Hexagonal Architecture ensures that changes in one area do not ripple through the entire codebase. This separation allows developers to focus on implementing and evolving business rules independently of the technical infrastructure.
Isolation from External Dependencies
Hexagonal Architecture also promotes the isolation of the application from its external dependencies. Through the use of adapters, the system can interact with external components without being tightly coupled to their implementations. This isolation not only enhances flexibility but also simplifies the process of integration and testing. Additionally, it enables easier swapping of components, making the system more resilient to changes in the external environment.
Dependency Inversion Principle in Action
The Dependency Inversion Principle (DIP) states that high-level modules should not depend on low-level modules; both should depend on abstractions. Hexagonal Architecture embodies this principle by introducing clear interfaces, or ports, between different components of the system. This abstraction layer allows for the inversion of dependencies, enabling high-level modules, such as business logic, to remain agnostic to the specific implementations of lower-level components, such as data access or external services.
Example Implementation
An implementation that could be used as an example of how Hexagonal Architecture works can be found in this repository. It showcases how the principles of Hexagonal Architecture can be applied in a real-world scenario, using the Go programming language.
In this implementation, the core business logic is encapsulated within the application’s internal package, while the external dependencies, such as database access and HTTP communication, are defined in the adapters package. Adapters implement the interfaces defined by the application package, thereby enabling the application to interact with external systems while maintaining loose coupling and flexibility.
PS: The code was developed for study purposes, so don’t mind all the refactoring it requires.
Conclusion
Hexagonal Architecture, with its focus on separation of concerns and dependency inversion, provides a solid foundation for building modular, maintainable software systems. By isolating technical complexities, decoupling external dependencies, and embracing principles like the Dependency Inversion Principle, Hexagonal Architecture empowers developers to create adaptable solutions that can evolve with changing requirements and environments.
This content originally appeared on DEV Community and was authored by Ewerson Vieira Nascimento
Ewerson Vieira Nascimento | Sciencx (2024-09-08T23:37:18+00:00) Exploring Hexagonal Architecture. Retrieved from https://www.scien.cx/2024/09/08/exploring-hexagonal-architecture/
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