前言:
1,实现Comparator接口的类的对象作为sort的入参
2,在方法的局部使用局部类
3,基于第二种方法,局部类改为匿名类
4,使用lamdba表达式->这种形式
5,借助Comparator和lamdba表达式多条件排序
6,调用方式和第五种有区别,原理一样
注:我以前是常用第1种,看了代码之后,觉得5,6种好一些
正文:
目标:按年龄从小到大排序
compareTo()方法:返回值为-1,第一个参数排前面;返回值为1,则第二个参数排前面;返回0按初始顺序排列
Comparator.comparing可以构造相反的排序:Comparator.comparing,见方法5
0,Java的实体bean结构
import java.util.ArrayList; import java.util.List; public class Human { private String name; private int age; public Human() { } public Human(String name, int age) { this.name = name; this.age = age; } public String getName() { return name; } public void setName(String name) { this.name = name; } public int getAge() { return age; } public void setAge(int age) { this.age = age; } @SuppressWarnings("serial") public static List<Human> getAInitHumanList() { return new ArrayList<Human>() { { add(new Human("guorao", 10)); add(new Human("mako", 12)); add(new Human("hel", 30)); add(new Human("lin", 28)); } }; } @Override public String toString() { return this.getName() + ":" + this.getAge(); } }
1,实现Comparator接口的类的对象作为sort的入参
其实就是自己先定义一个比较的方法,一般是把这个方法写在实体类里面
public class HumanComparetor implements Comparator<Human> { @Override public int compare(Human h1, Human h2) { if (h1.getAge() > h2.getAge()) { return 1; } else if (h1.getAge() == h2.getAge()) { return 0; } else { return -1; } } }
调用
public static void main(String[] args) { List<Human> humans = Human.getAInitHumanList(); Collections.sort(humans, new HumanComparetor()); System.out.println(humans); }
2,在方法的局部使用局部类
这样的格式看着就不太想用
public static void main(String[] args) { List<Human> humans = Human.getAInitHumanList(); //方法内-局部类 class HumanComparetor implements Comparator<Human> { @Override public int compare(Human h1, Human h2) { return h1.getAge() - h2.getAge(); } } Collections.sort(humans, new HumanComparetor()); System.out.println(humans); }
3,基于第二种方法,局部类改为匿名类
同上
public static void main(String[] args) { List<Human> humans = Human.getAInitHumanList(); //匿名类 Collections.sort(humans, new Comparator<Human>() { @Override public int compare(Human h1, Human h2) { return h1.getAge() - h2.getAge(); } }); System.out.println(humans); }
4,使用lamdba表达式->这种形式
public static void main(String[] args) { List<Human> humans = Human.getAInitHumanList(); //lamdba 表达式 -> Collections.sort(humans, (Human h1, Human h2) -> h1.getAge() - h2.getAge()); System.out.println(humans); }
5,借助Comparator和lamdba表达式多条件排序
public static void main(String[] args) { List<Human> humans = Human.getAInitHumanList(); ////lamdba 表达式 :: Collections.sort(humans, Comparator.comparing(Human::getAge).thenComparing(Human::getName)); System.out.println(humans); }
public static void main(String[] args) { List<Human> humans = Human.getAInitHumanList(); Collections.sort(humans, Comparator.comparing(Human::getAge).reversed()); System.out.println(humans); }
6,调用方式和第五种有区别,原理一样
public static void main(String[] args) { List<Human> humans = Human.getAInitHumanList(); //直接用list.sort humans.sort(Comparator.comparing(Human::getAge).thenComparing(Human::getName)); System.out.println(humans); }
参考博客:
https://blog.csdn.net/heliangb46/article/details/77188939
原文:https://www.cnblogs.com/huashengweilong/p/10667908.html