JabezBrew
edbb59a982
* #2450 1. Refactored Layers Architecture to be a Spring boot app. 2. Changed the xml-based configuration to annotation-based. 3. Used spring's constructor injection to pass around needed objects. 4. Implemented deleteAll() methods for the CakeBakingServiceImpl to be used during testing 5. Implemented a CommandLineRunner to run the spring boot app. And others. * #2450 added the contents of the etc directory and a README.md * #2450 made corrections in response to the PR tests * #2450 made corrections in response to requested changes * #2450 made corrections in response to requested changes --------- Co-authored-by: Ilkka Seppälä <iluwatar@users.noreply.github.com>
2.9 KiB
title, category, language, tag
| title | category | language | tag | |
|---|---|---|---|---|
| Layers | Architectural | en |
|
Intent
Layers is an architectural pattern where software responsibilities are divided among the different layers of the application.
Explanation
Real world example
Consider a website displaying decorated cakes for weddings and such. Instead of the web page directly reaching into the database, it relies on a service to deliver this information. The service then queries the data layer to assimilate the needed information. In plain words
With Layers architectural pattern different concerns reside on separate layers. View layer is interested only in rendering, service layer assembles the requested data from various sources, and data layer gets the bits from the data storage. Wikipedia says
In software engineering, multitier architecture (often referred to as n-tier architecture) or multilayered architecture is a client–server architecture in which presentation, application processing, and data management functions are physically separated. Programmatic Example
On the data layer, we keep our cake building blocks. Cake consist of layers and topping.
@Entity
public class Cake {
@Id
@GeneratedValue
private Long id;
@OneToOne(cascade = CascadeType.REMOVE)
private CakeTopping topping;
@OneToMany(cascade = CascadeType.REMOVE, fetch = FetchType.EAGER)
private Set<CakeLayer> layers;
}
The service layer offers CakeBakingService for easy access to different aspects of cakes.
public interface CakeBakingService {
void bakeNewCake(CakeInfo cakeInfo) throws CakeBakingException;
List<CakeInfo> getAllCakes();
void saveNewTopping(CakeToppingInfo toppingInfo);
List<CakeToppingInfo> getAvailableToppings();
void saveNewLayer(CakeLayerInfo layerInfo);
List<CakeLayerInfo> getAvailableLayers();
}
On the top we have our View responsible of rendering the cakes.
public interface View {
void render();
}
@Slf4j
public class CakeViewImpl implements View {
private final CakeBakingService cakeBakingService;
public CakeViewImpl(CakeBakingService cakeBakingService) {
this.cakeBakingService = cakeBakingService;
}
public void render() {
cakeBakingService.getAllCakes().forEach(cake -> LOGGER.info(cake.toString()));
}
}
Class diagram
Applicability
Use the Layers architecture when
- You want clearly divide software responsibilities into different parts of the program.
- You want to prevent a change from propagating throughout the application.
- You want to make your application more maintainable and testable.