- 如果某个类存在两个维度的变化,通过桥接模式可以将两个维度分离出来,使两者可以独立扩展;
- 桥接模式用一种巧妙地方式处理多层继承的问题,用抽象关联关系取代多层继承关系;
- 将类之间的静态继承关系转换为动态的对象组合关系,符合组合原则;
- 桥接模式更容易扩展,并且可以显著减少类的个数;
- 如果一个类的两个维度分别是m和n,用多层继承则需要创建m*n个类,而桥接模式则只需要创建m+n+2个类,后面两个是抽象类或者接口;
类图with StarUML
像素类
internal class Matrix
{
//模拟像素矩阵
}
一个图像抽象类和4个实现类
internal abstract class Image
{
protected ImageImp imp;
//注入实现类接口对象
public void SetImageImp(ImageImp imp) { this.imp = imp; }
public abstract void ParseFile(string fileName);
}
internal class JPGImage : Image
{
public override void ParseFile(string fileName)
{
Matrix m = new Matrix();
imp.DoPaint(m);
Console.WriteLine($"{fileName},格式为JPG");
}
}
internal class PNGImage : Image
{
public override void ParseFile(string fileName)
{
Matrix m = new Matrix();
imp.DoPaint(m);
Console.WriteLine($"{fileName},格式为PNG");
}
}
internal class BMPImage : Image
{
public override void ParseFile(string fileName)
{
Matrix m = new Matrix();
imp.DoPaint(m);
Console.WriteLine($"{fileName},格式为BMP");
}
}
internal class GIFImage : Image
{
public override void ParseFile(string fileName)
{
Matrix m = new Matrix();
imp.DoPaint(m);
Console.WriteLine($"{fileName},格式为GIF");
}
}
一个操作系统接口和3个实现类
internal interface ImageImp
{
void DoPaint(Matrix m);
}
internal class WindowsImp : ImageImp
{
public void DoPaint(Matrix m) { Console.WriteLine("在Windows系统中显示图像"); }
}
internal class LinuxImp : ImageImp
{
public void DoPaint(Matrix m) { Console.WriteLine("在Linux系统中显示图像"); }
}
internal class UnixImp : ImageImp
{
public void DoPaint(Matrix m) { Console.WriteLine("在Unix系统中显示图像"); }
}
配置文件
客户端
static void Main(string[] args)
{
//面向接口编程
Image image;
ImageImp imp;
//读取配置文件
string imageType = ConfigurationManager.AppSettings["image"];
string osType = ConfigurationManager.AppSettings["os"];
//反射生成对象
image = Assembly.Load("BridgePattern").CreateInstance(imageType) as Image;
imp = Assembly.Load("BridgePattern").CreateInstance(osType) as ImageImp;
image.SetImageImp(imp);
image.ParseFile("中国地图");
Console.Read();
}
}
运行结果