Ilkka Seppälä
4108f86177
* Changed database implementation. Removed static objects. * Fix Logs * Fix 40 errors from checkstyle plugin run. 139 left)) * Fix CacheStore errors from checkstyle plugin 107 left * Fix last errors in checkstyle. * Fix sonar issues * Fix issues in VALIDATE phase * Fix Bug with mongo connection. Used "Try with resources" * Add test * Added docker-compose for mongo db. MongoDb db work fixed. * Provided missing tests * Comments to start Application with mongo. * Fix some broken links * Remove extra space * Update filename * Fix some links in localization folders * Fix link * Update frontmatters * Work on patterns index page * Work on index page * Fixes according PR comments. Mainly Readme edits. * fix frontmatter * add missing png * Update pattern index.md * Add index.md for Chinese translation * update image paths * update circuit breaker image paths * Update image paths for localizations * add generated puml * Add missing image * Update img file extensions * Update the rest of the EN and ZH patterns to conform with the new website Co-authored-by: Victor Zalevskii <zvictormail@gmail.com>
5.0 KiB
title, category, language, tags
| title | category | language | tags | ||
|---|---|---|---|---|---|
| Observer | Behavioral | en |
|
Also known as
Dependents, Publish-Subscribe
Intent
Define a one-to-many dependency between objects so that when one object changes state, all its dependents are notified and updated automatically.
Explanation
Real-world example
In a land far away live the races of hobbits and orcs. Both of them are mostly outdoors so they closely follow the weather changes. One could say that they are constantly observing the weather.
In plain words
Register as an observer to receive state changes in the object.
Wikipedia says
The observer pattern is a software design pattern in which an object, called the subject, maintains a list of its dependents, called observers, and notifies them automatically of any state changes, usually by calling one of their methods.
Programmatic Example
Let's first introduce the WeatherObserver interface and our races, Orcs and Hobbits.
public interface WeatherObserver {
void update(WeatherType currentWeather);
}
@Slf4j
public class Orcs implements WeatherObserver {
@Override
public void update(WeatherType currentWeather) {
LOGGER.info("The orcs are facing " + currentWeather.getDescription() + " weather now");
}
}
@Slf4j
public class Hobbits implements WeatherObserver {
@Override
public void update(WeatherType currentWeather) {
switch (currentWeather) {
LOGGER.info("The hobbits are facing " + currentWeather.getDescription() + " weather now");
}
}
}
Then here's the Weather that is constantly changing.
@Slf4j
public class Weather {
private WeatherType currentWeather;
private final List<WeatherObserver> observers;
public Weather() {
observers = new ArrayList<>();
currentWeather = WeatherType.SUNNY;
}
public void addObserver(WeatherObserver obs) {
observers.add(obs);
}
public void removeObserver(WeatherObserver obs) {
observers.remove(obs);
}
/**
* Makes time pass for weather.
*/
public void timePasses() {
var enumValues = WeatherType.values();
currentWeather = enumValues[(currentWeather.ordinal() + 1) % enumValues.length];
LOGGER.info("The weather changed to {}.", currentWeather);
notifyObservers();
}
private void notifyObservers() {
for (var obs : observers) {
obs.update(currentWeather);
}
}
}
Here's the full example in action.
var weather = new Weather();
weather.addObserver(new Orcs());
weather.addObserver(new Hobbits());
weather.timePasses();
weather.timePasses();
weather.timePasses();
weather.timePasses();
Program output:
The weather changed to rainy.
The orcs are facing rainy weather now
The hobbits are facing rainy weather now
The weather changed to windy.
The orcs are facing windy weather now
The hobbits are facing windy weather now
The weather changed to cold.
The orcs are facing cold weather now
The hobbits are facing cold weather now
The weather changed to sunny.
The orcs are facing sunny weather now
The hobbits are facing sunny weather now
Class diagram
Applicability
Use the Observer pattern in any of the following situations:
- When an abstraction has two aspects, one dependent on the other. Encapsulating these aspects in separate objects lets you vary and reuse them independently.
- When a change to one object requires changing others, and you don't know how many objects need to be changed.
- When an object should be able to notify other objects without making assumptions about who these objects are. In other words, you don't want these objects tightly coupled.