本文主要是介绍再谈Java8 Comparator,希望对大家解决编程问题提供一定的参考价值,需要的开发者们随着小编来一起学习吧!
文章目录
- 1. 开始
- 2. 方法引用::
- 3. comparingLong
- 4. comparing
- 5. 完整示例代码
1. 开始
之前在Java8 Comparator技巧谈过通过Java8中Comparator提供了一些方法,我们可以很容易构造出自定义的Comparator。
在一些常见的排序操作中非常实用,当时我以为我对Java8的Comparator那绝对是无死角的了解了,直到遇到一个要根据嵌套对象属性比较的问题。
如,我有一个User对象列表List,现在要根据User对象中的Info对象中的time属性倒序排序,示例代码如下:
private static List<User> getUserList() {LinkedList<User> users = new LinkedList<>();users.add(new User(1, 25, new Info(9)));users.add(new User(2, 26, new Info(8)));users.add(new User(3, 30, new Info(7)));users.add(new User(4, 28, new Info(6)));return users;}private static final class User {private Integer id;private int age;private Info info;public User(Integer id, int age, Info info) {this.id = id;this.age = age;this.info = info;}public Integer getId() {return id;}public void setId(Integer id) {this.id = id;}public int getAge() {return age;}public void setAge(int age) {this.age = age;}public Info getInfo() {return info;}public void setInfo(Info info) {this.info = info;}@Overridepublic String toString() {return "User{" +"id=" + id +", age=" + age +", info=" + info +'}';}}private static final class Info {private long time;public Info(long time) {this.time = time;}public long getTime() {return time;}public void setTime(long time) {this.time = time;}@Overridepublic String toString() {return "Info{" +"time=" + time +'}';}}
先试一试看,下面哪一个是正确的:
userList.sort(Comparator.comparingLong(user -> user.getInfo().getTime()));
userList.sort(Comparator.comparingLong(user -> user.getInfo().getTime()).reversed());
userList.sort(Comparator.comparing(user -> user.getInfo().getTime()).reversed());
userList.sort(Comparator.comparingLong(User::getInfo::getTime()));
答案是都不正确,我倒不是想玩你,只是这个可以验证一下你自己对Java的lambda表达式、::和理解。
再解决这个问题之前,我们先来了解一下Java的::操作符。
2. 方法引用::
- 静态方法(static)引用:类名::静态方法名 如:Helper::doSomething
- 对象的实例方法引用:对象实例名称(或类名)::实例方法名 如:System.out::println
- 对象的超类方法引用:super::methodname
- 类构造器引用:类名::new 如:HashMap::new
- 数组构造器引用:类名[]::new 如:String[]:new
3. comparingLong
接下来,我们来看一下Comparator的comparingLong方法。
public static <T> Comparator<T> comparingLong(ToLongFunction<? super T> keyExtractor) {Objects.requireNonNull(keyExtractor);return (Comparator<T> & Serializable)(c1, c2) -> Long.compare(keyExtractor.applyAsLong(c1), keyExtractor.applyAsLong(c2));
}
其中ToLongFunction是一个函数式接口,其实可以看成lambda表达式,就是从一个T对象中获取一个long类型用于比较的函数。
@FunctionalInterface
public interface ToLongFunction<T> {long applyAsLong(T value);
}
注意comparingLong方法返回的是Comparator,Comparator本身也是一个函数式接口,相当于包装了一层。
所以:
userList.sort(Comparator.comparingLong(User::getInfo::getTime()));
是肯定有问题的,因为在User::getInfo已经变成一个Comparator,已经不是User对象了。
4. comparing
public static <T, U extends Comparable<? super U>> Comparator<T> comparing(Function<? super T, ? extends U> keyExtractor)
{Objects.requireNonNull(keyExtractor);return (Comparator<T> & Serializable)(c1, c2) -> keyExtractor.apply(c1).compareTo(keyExtractor.apply(c2));
}
comparing也一样,它只是把一个更加通用的Function包装成了Comparator,只是这个Function有点特殊,它的返回参数类型必须实现Comparable,否则包装不了。
当然像int这种原始类型也是可以的,会自动包装为对应的包装类。
所以:
userList.sort(Comparator.comparing(user -> user.getInfo().getTime()).reversed());
是肯定不行的,因为reversed方法不是静态方法,问题是下面这个也不行,让我比较困惑:
userList.sort(Comparator.comparing(user -> user.getInfo().getTime())::reversed);
下面这个是没有问题的,问题是默认是升序。
userList.sort(Comparator.comparingLong(user -> user.getInfo().getTime()));
难道怎的要我通过匿名内部类来实现了么?
当然,不需要,因为Comparator还有一个下面这样的方法:
public static <T, U> Comparator comparing(Function<? super T, ? extends U> keyExtractor,Comparator<? super U> keyComparator)
userList.sort(Comparator.comparing(user -> user.getInfo().getTime(), Comparator.reverseOrder()));
搞定收工!
5. 完整示例代码
import org.junit.Test;import java.util.Comparator;
import java.util.LinkedList;
import java.util.List;public class ComparatorBTest {@Testpublic void comparingKey() {List<User> userList = getUserList();userList.sort(Comparator.comparing(User::getAge));System.out.println(userList);}@Testpublic void comparingComponent() {List<User> userList = getUserList();userList.sort(Comparator.comparing(User::getId).reversed().thenComparing(User::getAge));System.out.println(userList);}@Testpublic void comparing() {List<User> userList = getUserList();
// userList.sort(Comparator.comparingLong(user -> user.getInfo().getTime()));
// userList.sort(Comparator.comparingLong(user -> user.getInfo().getTime()).reversed());
// userList.sort(Comparator.comparingLong(User::getInfo::getTime()));
// userList.sort(Comparator.comparing(user -> user.getInfo().getTime()).reversed());userList.sort(Comparator.comparing(user -> user.getInfo().getTime(), Comparator.reverseOrder()));userList.forEach(System.out::println);}private static List<User> getUserList() {LinkedList<User> users = new LinkedList<>();users.add(new User(1, 25, new Info(9)));users.add(new User(2, 26, new Info(8)));users.add(new User(3, 30, new Info(7)));users.add(new User(4, 28, new Info(6)));return users;}private static final class User {private Integer id;private int age;private Info info;public User(Integer id, int age, Info info) {this.id = id;this.age = age;this.info = info;}public Integer getId() {return id;}public void setId(Integer id) {this.id = id;}public int getAge() {return age;}public void setAge(int age) {this.age = age;}public Info getInfo() {return info;}public void setInfo(Info info) {this.info = info;}@Overridepublic String toString() {return "User{" +"id=" + id +", age=" + age +", info=" + info +'}';}}private static final class Info {private long time;public Info(long time) {this.time = time;}public long getTime() {return time;}public void setTime(long time) {this.time = time;}@Overridepublic String toString() {return "Info{" +"time=" + time +'}';}}
}
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