Briger模式

最新推荐文章于 2024-04-29 07:30:00 发布

最新推荐文章于 2024-04-29 07:30:00 发布 · 388 阅读

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此模式的特点是使抽象与抽象的实现同时处在了变化之中,其关键是引入了一个接口或抽象类
父类声明了一个抽象方法，此抽象方法的方法名与接口定义的方法相同，子类实现了这个抽象方法但是得依赖加入的动态接口或抽象类声明，这样子类的实现也可以根据抽象的改变而动态改变
抽象父类 ---飞船



public abstract class FlyShip {
      public shipPower sp;

	  public FlyShip(){
		  sp = ShipPowerBuilder.getSp();
	  } 

      public abstract void startPowerEngine();

}

抽象接口:描述飞船发动机的类型



public interface shipPower {
     void startPowerEngine();
}

2个实现接口的实现类，标明了两种类型
电子发动机



public class ElecticPowerEngine implements shipPower {

    public void startPowerEngine() {
        System.out.println("ElecticPowerEngine is online");
	}

}

核发动机


public class NuclerPowerEngine implements shipPower {

	public void startPowerEngine() {
		// TODO Auto-generated method stub
		System.out.println("nuclerPowerEngine is on line");

	}

}

2艘飞船通过继承父类而来
1盖亚


   public class Gaya extends FlyShip {


	public Gaya() {
		super();
		// TODO Auto-generated constructor stub
	}

	@Override
	public void startPowerEngine() {
		// TODO Auto-generated method stub
		this.sp.startPowerEngine();
	}
}

2诺亚


   public class Noya extends FlyShip {



	public Noya() {
		super();
		// TODO Auto-generated constructor stub
	}

	@Override
	public void startPowerEngine() {
		// TODO Auto-generated method stub
		this.sp.startPowerEngine();
	}

}

配置抽象实现的类,在调用子类行为前，先指定抽象的属性,在这个例子里就是电力发动机或核动力发动机


 public class ShipPowerBuilder {
    private static shipPower sp; 

    public ShipPowerBuilder(shipPower sp){
    	this.sp=sp;
    }

	public static shipPower getSp() {
		return sp;
	}
}

测试


// TODO Auto-generated method stub
ShipPowerBuilder builder = new ShipPowerBuilder(new NuclerPowerEngine());
       Noya noya = new Noya();
       noya.startPowerEngine();

结果
nuclerPowerEngine is on line