java比较器:Comparable和Comparator
java比较器
Comparable
一、java中对象可以通过==或!=比较地址值是否相同,在开发场景中还需要对对象做出大小比较以排序
需要利用接口Comparable或Comparator
Comparable:自然排序
1.像String、包装类实现了Comparable接口,重写了comparaTo(obj)方法,给出了比较两个对象大小的方式
2.默认从小到大排序
3.重写comparaTo(obj)的规则:
(1)如果当前对象this大于形参对象obj,返回正整数
(2)小于,则返回负整数
(3)相等,则返回0
4.对于自定义类,如果需要排序,需要实现comparable接口,重写comparaTo(obj)方法,指明排序方式
自定义一个商品类
package com.kuang.oop.Demo11;
import org.junit.Test;
import java.util.Arrays;
//自定义类实现Comparable接口,重写compareTo(obj)方法
public class Goods implements Comparable{
private String name;
private double price;
public Goods() {
}
public Goods(String name, double price) {
this.name = name;
this.price = price;
}
public String getName() {
return name;
}
public void setName(String name) {
this.name = name;
}
public double getPrice() {
return price;
}
public void setPrice(double price) {
this.price = price;
}
@Override
public String toString() {
return "Goods{" +
"name='" + this.name + '\'' +
", price=" + this.price +
'}';
}
//指明商品排序方式,按照商品价格从低到高排序
@Override
public int compareTo(Object o) {
if (o instanceof Goods){
Goods goods = (Goods)o;
//方式一:
if (this.price>goods.price){
return 1;
}else if (this.price<goods.price){
return -1;
}else {
return 0;
}
//方式二:
//return Double.compare(this.price,goods.price);
}else {
throw new RuntimeException("传入的数据类型不一致!");
}
}
}
编写测试类
package com.kuang.oop.Demo11;
import org.junit.Test;
import java.util.Arrays;
public class CompareTest {
@Test
public void test1(){
String[] arr = new String[]{"AA","EE","ZZ","KK","DD"};
Arrays.sort(arr);
System.out.println(Arrays.toString(arr));
//结果:[AA, DD, EE, KK, ZZ]
}
@Test
public void test2(){
Goods[] arr = new Goods[5];
arr[0] = new Goods("lenovoMouse",34);
arr[1] = new Goods("dellMouse",43);
arr[2] = new Goods("xiaomiMouse",12);
arr[3] = new Goods("huaweiMouse",68);
arr[4] = new Goods("microMouse",65);
Arrays.sort(arr);
System.out.println(Arrays.toString(arr));
/*结果:[Goods{name='xiaomiMouse', price=12.0}, Goods{name='lenovoMouse', price=34.0}, Goods{name='dellMouse', price=43.0}, Goods{name='microMouse', price=65.0}, Goods{name='huaweiMouse', price=68.0}]
*/
}
}
Comparator
作用:当元素的类型没有实现comparable接口,又不方便修改代码或者实现了comparable接口但排序不满足要求时,可以考虑使用comparator来排序。
- 对多个对象整体排序
- 需要重写compare(object o1,object o2)方法,比较o1和o2大小(前者大,返回正整数;前者小,返回负整数;相等,返回0)
- 可以将Comparator传递给sort方法(Collection.sort或Arrays.sort)
- Comparator可以控制某些数据结构(如有序set或有序映射)的排序,或为没有自然顺序的对象collection提供排序···
//先编写接口实现类
package com.kuang.oop.Demo11;
import java.util.Comparator;
public class ComparatorTest implements Comparator {
@Override
public int compare(Object o1, Object o2) {
if (o1 instanceof String && o2 instanceof String){
String s1 = (String)o1;
String s2 = (String)o2;
return -s1.compareTo(s2);
}
throw new RuntimeException("输入的类型不是String!");
}
}
============================================================
import org.junit.Test;
import java.util.Arrays;
//排序时,new对象并传参到sort
public class CompareTest {
@Test
public void test3(){
String[] arr = {"Ab","Aa","ZZ","KK","DD"};
Arrays.sort(arr, new ComparatorTest());
System.out.println(Arrays.toString(arr));//[ZZ, KK, DD, Ab, Aa]
}
}
//或直接用到时new并实现
@Test
public void test3(){
String[] arr = new String[]{"Ab","Aa","ZZ","KK","DD"};
Arrays.sort(arr, new Comparator<String>() {
@Override
public int compare(String o1, String o2) {
if (o1 instanceof String && o2 instanceof String){
String s1 = (String) o1;
String s2 = (String) o2;
return -s1.compareTo(s2);//从大到小排序
}
throw new RuntimeException("输入的数据类型不一致!");//[ZZ, KK, DD, Ab, Aa]
}
});
System.out.println(Arrays.toString(arr));
}
}
Comparabel和Comparator的区别
前者通过类重写comparaTo(),实现Comparable接口后,其对象即可进行自然排序,类似于一劳永逸的方式;而后者时临时性的指定了排序方式,每次用到都需要去new一个Comparator对象出来。
