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转自:http://www.wujianrong.com/archives/2006/07/post_280.html

摘要:经常看见有人还在不厌其烦的用冒泡(最常见!)或是交换做排序,实际上用几行代码就可以既快又好地实现排序,不论是简单类型还是类,数组还是Java聚集(Collection)

简单类型的排序

简单类型不外是byte, char, short, int, long, float, double等数据类型, 这些类型不能放在聚集中,只能使用数组。java.util.Arrays方法提供了对这些类型的sort方法(实际上还有很多其他有用的方法),下面是对一个简单的int数组排序:

       int[] arr = {2, 3, 1,10,7,4};

       System.out.print("before sort: ");

       for (int i = 0; i< arr.length; i++)

           System.out.print(arr[i] + " ");

       System.out.println();      

       Arrays.sort(arr);

       System.out.print("after sort: ");

       for (int i = 0; i< arr.length; i++)

           System.out.print(arr[i] + " ");

       System.out.println();      

输出结果:

before sort: 2 3 1 10 7 4

after sort: 1 2 3 4 7 10

我们看到排序结果是按照升序排列的,下面的排序都是如此。

对象的排序

对象可以放在数组里,同样调用Arrays.sort(Object[] arr)即可;也可以放到聚集里,用java.util.Collectionssort(List list)。注意不是list必须实现List接口而不仅仅是Collection接口。

但是这个类必须实现了java.lang.Comparable接口。这个接口只有一个方法:int compartTo(Object o),当本对象比传入的对象大时,返回一个正整数。 以类Programmer为例:

class Programmer implements Comparable{

    private String name;

    private String language;

    private double pay;

   

    public Programmer(String name, String language, double pay) {

       this.name = name;

       this.language = language;

       this.pay = pay;

    }

    public int compareTo(Object o) {

       Programmer other = (Programmer)o;

       return (int)pay - (int)other.pay;

    }

    public String toString(){

       return "{name: " + name + ", language: " + language + ", money: " + pay + "}";

    }

}

对其进行排序:

       ArrayList list = new ArrayList();

       list.add(new Programmer("张三", "C", 12000));

       list.add(new Programmer("李四", "Java", 200));

       list.add(new Programmer("王五", "C++", 5000));

       list.add(new Programmer("钱六", "VB", 3000));

       System.out.println("before sort: " + list);

       Collections.sort(list);

       System.out.println("after sort: " + list);   

输出:

before sort: [{name: 张三, language: C, money: 12000.0}, {name: 李四, language: Java, money: 200.0}, {name: 王五, language: C++, money: 5000.0}, {name: 钱六, language: VB, money: 3000.0}]

after sort: [{name: 李四, language: Java, money: 200.0}, {name: 钱六, language: VB, money: 3000.0}, {name: 王五, language: C++, money: 5000.0}, {name: 张三, language: C, money: 12000.0}]

够简单吧!查查Comparablejavadoc可以知道,有很多类已经实现了该接口,因此对这些类的排序几行代码就可以搞定。

最近看C#发现其中用System.Array.sort对数组排序,适用于所有实现了IComparable接口的对象,看来微软的借鉴能力还真是强啊!

对已有类进行排序

上面的方法有一个问题,就是一个类已经存在了,并且没有实现Comparable接口,使用一个子类进行封装?很麻烦(你可以对下面的例子试试)。还有一种情况就是对一个类没法实现多种排序。以File类为例,它实现了Comparable接口,但是是按照名称排序的。如果要按照大小排序,或者按修改时间排序呢?对这两种情况,使用java.util包的Comparator接口:

Arrays.sort(Object[] arr, Comparator com)

Collections.sort(Object[] arr, Comparator com)

Comparator接口的方法:

public int compare(Object o1, Object o2)o1o2大时返回一个正整数

public boolean equals(Object obj) 判断obj与这个Comparator是否同一个对象

下面使用Comparator对文件实现了按文件大小或修改时间排序:

class FileUtils {

    static class CompratorByLastModified implements Comparator {

       public int compare(Object o1, Object o2) {

           File file1 = (File)o1;

           File file2 = (File)o2;

           long diff = file1.lastModified() - file2.lastModified();

           if (diff > 0)

              return 1;

           else if (diff == 0)

              return 0;

           else

              return -1;

       }

      

       public boolean equals(Object obj){

           return true; //简单做法

       }

    }

    static class CompratorBySize implements Comparator {

       public int compare(Object o1, Object o2) {

           File file1 = (File)o1;

           File file2 = (File)o2;

           long diff = file1.length() - file2.length();

           if (diff > 0)

              return 1;

           else if (diff == 0)

              return 0;

           else

              return -1;

       }

      

       public boolean equals(Object obj){

           return true; //简单做法

       }

    }

}

调用的示例:

       File dir = new File("C:""temp");

       File[] files = dir.listFiles();

       System.out.print("before sort: ");

       for (int i = 0; i< files.length; i++)

           System.out.print(files[i] + " ");

       System.out.println();      

      

       Arrays.sort(files);

       System.out.print("sort by name: ");

       for (int i = 0; i< files.length; i++)

           System.out.print(files[i] + " ");

       System.out.println();      

       Arrays.sort(files, new FileUtils.CompratorBySize());

       System.out.print("sort by size: ");

       for (int i = 0; i< files.length; i++)

           System.out.print(files[i] + " ");

       System.out.println();      

       Arrays.sort(files, new FileUtils.CompratorByLastModified());

       System.out.print("sort by last modified: ");

       for (int i = 0; i< files.length; i++)

           System.out.print(files[i] + " ");

       System.out.println();      

      

自己找个目录试一下吧。用这些Java类库中的方法,一般情况下应该是不用自己写排序算法了吧?

最后附上完整代码占点版面:

TestSort.java

import java.io.*;

import java.util.*;

public class TestSort {

    public static void main(String[] args) {

       sortSimpleType();

       sortComparable();

       sortComparator();

    }

   

    public static void sortSimpleType() {

       int[] arr = {2, 3, 1,10,7,4};

       System.out.print("before sort: ");

       for (int i = 0; i< arr.length; i++)

           System.out.print(arr[i] + " ");

       System.out.println();      

       Arrays.sort(arr);

       System.out.print("after sort: ");

       for (int i = 0; i< arr.length; i++)

           System.out.print(arr[i] + " ");

       System.out.println();      

    }

    public static void sortComparable() {

       ArrayList list = new ArrayList();

       list.add(new Programmer("张三", "C", 12000));

       list.add(new Programmer("李四", "Java", 200));

       list.add(new Programmer("王五", "C++", 5000));

       list.add(new Programmer("钱六", "VB", 3000));

       System.out.println("before sort: " + list);

       Collections.sort(list);

       System.out.println("after sort: " + list);   

    }

   

    public static void sortComparator() {

       File dir = new File("C:""temp");

       File[] files = dir.listFiles();

       System.out.print("before sort: ");

       for (int i = 0; i< files.length; i++)

           System.out.print(files[i] + " ");

       System.out.println();      

      

       Arrays.sort(files);

       System.out.print("sort by name: ");

       for (int i = 0; i< files.length; i++)

           System.out.print(files[i] + " ");

       System.out.println();      

       Arrays.sort(files, new FileUtils.CompratorBySize());

       System.out.print("sort by size: ");

       for (int i = 0; i< files.length; i++)

           System.out.print(files[i] + " ");

       System.out.println();      

       Arrays.sort(files, new FileUtils.CompratorByLastModified());

       System.out.print("sort by last modified: ");

       for (int i = 0; i< files.length; i++)

           System.out.print(files[i] + " ");

       System.out.println();      

      

    }

}

class Programmer implements Comparable{

    private String name;

    private String language;

    private double pay;

   

    public Programmer(String name, String language, double pay) {

       this.name = name;

       this.language = language;

       this.pay = pay;

    }

    public int compareTo(Object o) {

       Programmer other = (Programmer)o;

       return (int)pay - (int)other.pay;

    }

    public String toString(){

       return "{name: " + name + ", language: " + language + ", money: " + pay + "}";

    }

}

class FileUtils {

    static class CompratorByLastModified implements Comparator {

       public int compare(Object o1, Object o2) {

           File file1 = (File)o1;

           File file2 = (File)o2;

           long diff = file1.lastModified() - file2.lastModified();

           if (diff > 0)

              return 1;

           else if (diff == 0)

              return 0;

           else

              return -1;

       }

      

       public boolean equals(Object obj){

           return true; //简单做法

       }

    }

    static class CompratorBySize implements Comparator {

       public int compare(Object o1, Object o2) {

           File file1 = (File)o1;

           File file2 = (File)o2;

           long diff = file1.length() - file2.length();

           if (diff > 0)

              return 1;

           else if (diff == 0)

              return 0;

           else

              return -1;

       } 

       public boolean equals(Object obj){

           return true; //简单做法

       }

    }

}

posted on 2009-02-22 19:20 weesun一米阳光 阅读(2039) 评论(1)  编辑  收藏 所属分类: 总结备用cnweblog/nm1504

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# re: Collection-用几行代码实现排序[转] 2009-10-27 16:56 s
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