设计模式 - 观察者模式(Observer Pattern) 详细说明

观察者模式(Observer Pattern) 详细说明


本文地址: http://blog.csdn.net/caroline_wendy/article/details/26583157


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观察者模式(Observer Pattern): 定义了对象之间的一对多的依赖, 这样一来, 当一个对象改变状态时, 它的全部依赖者都会收到通知并自己主动更新.


用法:


1. 首先新建主题(subject)接口, 负责注冊(register)\删除(remove)\通知(notify)观察者; 观察者(observer)接口, 负责更新(update)数据;

主题(subject)接口: 注冊观察者(registerObserver), 删除观察者(removeObserver), 通知观察者(notifyObservers, 通知全部观察者);

观察者(observer)接口: 更新(update);


代码:

/**
 * @time 2014年5月22日
 */
package observer;

/**
 * @author C.L.Wang
 *
 */
public interface Subject {
	public void registerObserver(Observer o);
	public void removeObserver(Observer o);
	public void notifyObervers();
}


/**
 * @time 2014年5月22日
 */
package observer;

/**
 * @author C.L.Wang
 *
 */
public interface Observer {
	public void update(float temp, float humidity, float pressure);
}


/**
 * @time 2014年5月22日
 */
package observer;

/**
 * @author C.L.Wang
 *
 */
public interface DisplayElement {
	public void display();
}

2. 实现主题(subject)接口, 通过列表(list)的形式注冊(register)和删除(remove)观察者, 

通知(notify)观察者时, 循环调用全部已注冊的观察者的更新(update)动作;

通过接口函数(set), 封装通知(notify)动作, 传入參数并进行通知.


代码:

/**
 * @time 2014年5月22日
 */
package observer;

import java.util.ArrayList;

/**
 * @author C.L.Wang
 *
 */
public class WeatherData implements Subject {
	
	public ArrayList<Observer> observers;
	private float temperature;
	private float humidity; //湿度
	private float pressure;
	
	public WeatherData() {
		observers = new ArrayList<Observer>();
	}
	
	/* (non-Javadoc)
	 * @see observer.Subject#registerObserver(observer.Observer)
	 */
	@Override
	public void registerObserver(Observer o) {
		// TODO Auto-generated method stub
		observers.add(o);
	}

	/* (non-Javadoc)
	 * @see observer.Subject#removeObserver(observer.Observer)
	 */
	@Override
	public void removeObserver(Observer o) {
		// TODO Auto-generated method stub
		int i = observers.indexOf(o);
		if (i>=0) {
			observers.remove(i);
		}
	}

	/* (non-Javadoc)
	 * @see observer.Subject#notifyObervers()
	 */
	@Override
	public void notifyObervers() {
		// TODO Auto-generated method stub
		for (int i=0; i<observers.size(); ++i) {
			Observer observer = (Observer)observers.get(i);
			observer.update(temperature, humidity, pressure);
		}
	}
	
	public void measurementsChanged() {
		notifyObervers();
	}
	
	public void setMeasurements(float temperature, float humidity, float pressure) {
		this.temperature = temperature;
		this.humidity = humidity;
		this.pressure = pressure;
		measurementsChanged();
	}

}

3. 实现观察者(observer)接口, 主要保存收到的数据, 并实现更新(update)动作, 即把数据保存在本地;

构造函数中, 把自己注冊(register)入, 传入的主题(subject)參数, 使主题能够通知观察者.


代码:

/**
 * @time 2014年5月22日
 */
package observer;

/**
 * @author C.L.Wang
 *
 */
public class CurrentConditionsDisplay implements Observer, DisplayElement {
	
	private float temperature;
	private float humidity;
	private Subject weatherData;
	
	public CurrentConditionsDisplay(Subject weatherData) {
		this.weatherData = weatherData;
		weatherData.registerObserver(this);
	}
	
	/* (non-Javadoc)
	 * @see observer.DisplayElement#display()
	 */
	@Override
	public void display() {
		// TODO Auto-generated method stub
		System.out.println("Current conditions: " + temperature +
				"F degrees and " + humidity + "% humidity");
	}

	/* (non-Javadoc)
	 * @see observer.Observer#update(float, float, float)
	 */
	@Override
	public void update(float temperature, float humidity, float pressure) {
		// TODO Auto-generated method stub
		this.temperature = temperature;
		this.humidity = humidity;
		display();
	}

}


package observer;

import java.util.*;

public class ForecastDisplay implements Observer, DisplayElement {
	private float currentPressure = 29.92f;  
	private float lastPressure;
	private WeatherData weatherData;

	public ForecastDisplay(WeatherData weatherData) {
		this.weatherData = weatherData;
		weatherData.registerObserver(this);
	}

	public void update(float temp, float humidity, float pressure) {
                lastPressure = currentPressure;
		currentPressure = pressure;

		display();
	}

	public void display() {
		System.out.print("Forecast: ");
		if (currentPressure > lastPressure) {
			System.out.println("Improving weather on the way!");
		} else if (currentPressure == lastPressure) {
			System.out.println("More of the same");
		} else if (currentPressure < lastPressure) {
			System.out.println("Watch out for cooler, rainy weather");
		}
	}
}


package observer;

import java.util.*;

public class StatisticsDisplay implements Observer, DisplayElement {
	private float maxTemp = 0.0f;
	private float minTemp = 200;
	private float tempSum= 0.0f;
	private int numReadings;
	private WeatherData weatherData;

	public StatisticsDisplay(WeatherData weatherData) {
		this.weatherData = weatherData;
		weatherData.registerObserver(this);
	}

	public void update(float temp, float humidity, float pressure) {
		tempSum += temp;
		numReadings++;

		if (temp > maxTemp) {
			maxTemp = temp;
		}
 
		if (temp < minTemp) {
			minTemp = temp;
		}

		display();
	}

	public void display() {
		System.out.println("Avg/Max/Min temperature = " + (tempSum / numReadings)
			+ "/" + maxTemp + "/" + minTemp);
	}
}

4. 測试, 创建不同的观察者(observer), 并把主题(subject)作为參数传入, 通知观察者.


代码:

/**
 * @time 2014年5月22日
 */
package observer;

/**
 * @author C.L.Wang
 *
 */
public class WeatherStation {

	/**
	 * @param args
	 */
	public static void main(String[] args) {
		// TODO Auto-generated method stub
		WeatherData weatherData = new WeatherData();
		
		CurrentConditionsDisplay currentConditionsDisplay = 
				new CurrentConditionsDisplay(weatherData); //new的时候进行注冊
		
		StatisticsDisplay statisticsDisplay = new StatisticsDisplay(weatherData);
		ForecastDisplay forecastDisplay = new ForecastDisplay(weatherData);
		
		weatherData.setMeasurements(80, 65, 30.4f);
		weatherData.setMeasurements(82, 70, 29.2f);
		weatherData.setMeasurements(78, 90, 29.2f);
	}

}

5. 输出:

Current conditions: 80.0F degrees and 65.0% humidity
Avg/Max/Min temperature = 80.0/80.0/80.0
Forecast: Improving weather on the way!
Current conditions: 82.0F degrees and 70.0% humidity
Avg/Max/Min temperature = 81.0/82.0/80.0
Forecast: Watch out for cooler, rainy weather
Current conditions: 78.0F degrees and 90.0% humidity
Avg/Max/Min temperature = 80.0/82.0/78.0
Forecast: More of the same


面向对象的原则:

为了设计对象和工作之间松散耦合的交互.





posted @ 2015-12-09 11:57  hrhguanli  阅读(261)  评论(0编辑  收藏  举报