Composite组合模式:
简介:
又叫局部整体模式,这个模式在咱们的生存中也常常应用,比如说Java的AWT编写程序,将按钮,方框等等这些组件有程序的组织成一个界面展现进去,或者说在做ppt的时候将一些形态(圆形,三角形)放在一张ppt下面进行展现,又或者说咱们的目录树结构,树形数据结构等等都是一种组合;
模式实例:
在这里,我以组装树形数据来简略展现一下,运行代码便会明确:
abstract class Node{
abstract public void p();
}
class LeafNode extends Node {
String content;
public LeafNode(String content){this.content = content;}
@Override
public void p() {
System.out.println(content);
}
}
class BranchNode extends Node{
List<Node> nodes = new ArrayList<>();
String name;
public BranchNode(String name) {
this.name = name;
}
@Override
public void p() {
System.out.println(name);
}
public void add(Node n) {
nodes.add(n);
}
}
public class Main {
public static void main(String[] args) {
BranchNode root = new BranchNode("root");
BranchNode chapter1 = new BranchNode("chapter1");
BranchNode chapter2 = new BranchNode("chapter2");
Node c11 = new LeafNode("c11");
Node c12 = new LeafNode("c12");
BranchNode b21 = new BranchNode("section21");
Node c211 = new LeafNode("c211");
Node c212 = new LeafNode("c212");
root.add(chapter1);
root.add(chapter2);
chapter1.add(c11);
chapter1.add(c12);
chapter2.add(b21);
b21.add(c211);
b21.add(c212);
tree(root,0);
}
static void tree(Node b,int depth){
for (int i = 0; i<depth; i++){
System.out.print("--");
}
b.p();
if(b instanceof BranchNode){
for(Node n:((BranchNode) b).nodes){
tree(n,depth+1);
}
}
}
}
Flyweight享元模式:
简介:
参考:http://c.biancheng.net/view/1371.html
顾名思义就是共享元数据,在java当中,体现最显著的就是String,String变量援用的常量,如果常量池当中曾经存在便不会反复创立
public static void main(String[] args) {
String s1 = "abc";
String s2 = "abc";
String s3 = new String("abc");
String s4 = new String("abc");
System.out.println(s1 == s2);
System.out.println(s1 == s3);
System.out.println(s3 == s4);
System.out.println(s3.intern() == s1);
System.out.println(s3.intern() == s4.intern());
}联合Composite的Flyweight享元模式:
简介:
简略的介绍一下,比方将awt当中的button跟其余的组件组合在一起(当作一个元组件放在池中),而后再拿进去应用,大略就能想到这里
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