java组合模式 java实现Composite组合模式的实例代码
醉生梦死_0423 人气:0//20210121
写在前面:刚期末考试完,考了面向对象,里边儿有23个设计模式,我寻思着考完挨个儿实现一下,本文实现组合模式
- 组合模式核心思想类似文件夹的概念,构件树形结构,树形有叶子结点和文件夹结点,文件夹结点可以包含叶子结点和文件夹结点
- 分为两种模式
- 透明型:所有节点构造全部相同,但是由于叶子结点没有下层结点,所以其有些方法为空,会不安全
- 安全型:叶子结点和文件架节点构造不同,这样展示的时候需要判断节点属性,不方便调用,但是由于没有空方法,会很安全
透明型组合模式程序源代码:
//节点抽象父类 /** * 透明模式就是把组合使用的方法放到抽象类中,不管叶子对象还是数值对象都有相同的结构 * 这样做的好处就是叶子结点和树枝结点对于外界没有区别,他们具备完全一致的行为接口 */ public abstract class ComponentTransparent { protected String name; public ComponentTransparent(String name){ this.name = name; } //增加一个叶子构件或者树枝构件 public abstract void add(ComponentTransparent componentTransparent); //删除 public abstract void remove(ComponentTransparent componentTransparent); //获取分支下的所有叶子构件和树枝构件 public abstract void display(int depth); }
//文件架节点实现子类 import java.util.ArrayList; public class CompositeTransparent extends ComponentTransparent{ public CompositeTransparent(String name){ super(name); } //构建容器 private ArrayList<ComponentTransparent> componentTransparentsArraylist= new ArrayList<>(); @Override public void add(ComponentTransparent componentTransparent) { this.componentTransparentsArraylist.add(componentTransparent); } @Override public void remove(ComponentTransparent componentTransparent) { this.componentTransparentsArraylist.remove(componentTransparent); } @Override public void display(int depth) { //输出树形结构 for (int i = 0;i<depth;++i){ System.out.print("-"); } System.out.println(this.name); //下级遍历 for(ComponentTransparent componentTransparent:this.componentTransparentsArraylist){ componentTransparent.display(depth+1); } } }
//叶子节点实现子类 public class LeafTransparent extends ComponentTransparent{ public LeafTransparent(String name){ super(name); } @Override public void add(ComponentTransparent componentTransparent) { //空实现,抛出"不支持请求"异常 throw new UnsupportedOperationException(); } @Override public void remove(ComponentTransparent componentTransparent) { throw new UnsupportedOperationException(); } @Override public void display(int depth) { //输出树形结构的叶子节点 for (int i = 0;i<depth;++i){ System.out.print("-"); } System.out.println(this.name); } }
安全型组合模式源代码:安全型中,叶子结点没有增加移除方法,方法需要自己实现,而不会在父类中指出
//节点抽象父类 public abstract class ComponentSafty { protected String name; public ComponentSafty(String name){ this.name = name; } //展示 public abstract void display(int depth); }
//文件夹节点实现子类 import java.util.ArrayList; public class CompositeSafty extends ComponentSafty{ public CompositeSafty(String name){ super(name); } private ArrayList<ComponentSafty> componentSaftyArrayList = new ArrayList<>(); public void add(ComponentSafty component){ this.componentSaftyArrayList.add(component); } public void remove(ComponentSafty componentSafty){ this.componentSaftyArrayList.remove(componentSafty); } @Override public void display(int depth) { for (int i=0;i<depth;++i){ System.out.print("-"); } System.out.println(this.name); for (ComponentSafty componentSafty : componentSaftyArrayList) { componentSafty.display(depth+1); } } }
//叶子结点实现子类 public class LeafSafty extends ComponentSafty{ public LeafSafty(String name){ super(name); } @Override public void display(int depth) { for (int i=0;i<depth;++i){ System.out.print("-"); } System.out.println(this.name); } }
测试主类程序源代码
//测试主类 public class Main { private static void transparent(){ //创建根节点以及其子节点 ComponentTransparent root = new CompositeTransparent("root"); root.add(new LeafTransparent("Leaf A")); root.add(new LeafTransparent("Leaf B")); //创建第二层结点及其子节点 ComponentTransparent branch = new CompositeTransparent("Composite X"); branch.add(new LeafTransparent("Leaf XA")); branch.add(new LeafTransparent("Leaf XB")); root.add(branch); //创建第三层节点及其子结点 ComponentTransparent branch2 = new CompositeTransparent("Composite XY"); branch2.add(new LeafTransparent("Leaf XYA")); branch2.add(new LeafTransparent("Leaf XYB")); branch.add(branch2); //创建第二层结点 root.add(new LeafTransparent("Leaf C")); //常见第二层节点并删除 ComponentTransparent leaf = new LeafTransparent("Leaf D"); root.add(leaf); root.display(1); root.remove(leaf); for(int i =0;i<10;++i){ System.out.print("="); } System.out.println(); //展示 root.display(1); } private static void safty(){ //创建根节点以及其子节点 CompositeSafty root = new CompositeSafty("root"); root.add(new LeafSafty("Leaf A")); root.add(new LeafSafty("Leaf B")); //创建第二层结点及其子节点 CompositeSafty branch = new CompositeSafty("Composite X"); branch.add(new LeafSafty("Leaf XA")); branch.add(new LeafSafty("Leaf XB")); root.add(branch); //创建第三层节点及其子结点 CompositeSafty branch2 = new CompositeSafty("Composite XY"); branch2.add(new LeafSafty("Leaf XYA")); branch2.add(new LeafSafty("Leaf XYB")); branch.add(branch2); //创建第二层结点 root.add(new LeafSafty("Leaf C")); //常见第二层节点并删除 LeafSafty leaf = new LeafSafty("Leaf D"); root.add(leaf); root.display(1); root.remove(leaf); for(int i =0;i<10;++i){ System.out.print("="); } System.out.println(); //展示 root.display(1); } public static void main(String[] args) { System.out.println("透明模式:"); transparent(); for(int i =0;i<10;++i){ System.out.print("="); } System.out.println(); System.out.println("安全模式:"); safty(); } }
输出如下:
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