假设现在有一个列表,这个列表是需要排序的,该列表的顺序对于其他功能是有意义的。所以我们需要记录这个列表的顺序。
我们可以在该列表对应的数据库中增加一个sort(int)字段记录排序值,从0到N。我们可以想象,对一条数据改动(排序值为n)的时候,后面的数据从(n+1)开始,sort字段都要做更新。或者直接删除在插入整个列表。显然这样更新过于频繁,如果数据量大,对数据库也会有一定压力。
sort.png
解决办法: 使用链表来做记录。
- 在数据库中增加
predecessorId字段来取代sort字段。该字段保存上一条数据的id。 - 增加一条假数据,作为第一条数据。这样做的目的是为了找到第一条数据。
这样以来,更新的时候, 你只需要改动更新数据的前后两条数据就可以了,前后台处理起来也很方便,就很机智。
在代码中处理排序。
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
public class test {
public static class Student{
private String id;
private String predecessorId;
private String name;
public String getId() {
return id;
}
public void setId(String id) {
this.id = id;
}
public String getPredecessorId() {
return predecessorId;
}
public void setPredecessorId(String predecessorId) {
this.predecessorId = predecessorId;
}
public String getName() {
return name;
}
public void setName(String name) {
this.name = name;
}
public Student(String id, String predecessorId, String name) {
this.id = id;
this.predecessorId = predecessorId;
this.name = name;
}
}
public static List<Student> getSort(List<Student> list){
String firstDataPredecessorId = "START_OF_LIST";
// Create map of a mean found by its predecessor's ID
Map<String, Student> map = new HashMap<>();
for (Student bean : list) {
map.put(bean.getPredecessorId(), bean);
}
// The first item of the list, will be that with the predecessor ID equal to START-OF-LIST
Student item = map.get(firstDataPredecessorId);
List<Student> result = new ArrayList<>();
// Return empty list if we cannot get the first item
if (item == null) {
return result;
}
// The last item of the list, will be the item whose ID is not equal to any predecessor ID in the map
// Therefore, while the variable 'item' has a predecessor ID the item itself is added to the list (including the last entry)
do {
result.add(item);
}
while ((item = map.get(item.getId())) != null);
return result;
}
public static void main(String[] args) {
// for the first data, id and predecessorId are both START_OF_LIST
Student s0 = new Student("START_OF_LIST", "START_OF_LIST", "name1");
// this is real first data, pay attention to the predecessorId,
// then we will know it follow the data that id is START_OF_LIST
Student s1 = new Student("id1", "START_OF_LIST", "name1");
Student s2 = new Student("id2", "id1", "name1");
Student s3 = new Student("id3", "id2", "name1");
Student s4 = new Student("id4", "id3", "name1");
// we create list without sort
List<Student> list = new ArrayList<>();
list.add(s4);
list.add(s0);
list.add(s3);
list.add(s1);
list.add(s2);
List<Student> sortList = getSort(list);
sortList.forEach(l -> System.out.println(l.getId()));
// result: id1 ,id2, id3, id4 .
// success!!!
}
}
