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目录存储树的表结构扁平List转树形List双层for递归转换为Map栈树形List转扁平List递归栈背景:在平时的开发中,我们时常会遇到下列场景 公司的组织架构的数据存储与展示文
背景:在平时的开发中,我们时常会遇到下列场景
对于这种有层级的结构化数据,就像是一棵树一样。在关系型数据库中,通常将一个个的节点信息存储到表中,通过一个字段(例如,pid),指向其父节点。而在数据展示的时候,我们又希望它是呈现层级的,例如:
id name pid
1 总公司 -1
2 上海分公司 1
3 浙江分公司 1
4 闵行区分公司 2
5 嘉兴分公司 3
{
"id": 1,
"name": "总公司",
"pid": -1,
"branch":
[
{
"id": 2,
"name": "上海分公司",
"pid": 1,
"branch":
[
{
"id": 4,
"name": "闵行区分公司",
"pid": 2,
"branch":
[]
}
]
},
{
"id": 3,
"name": "浙江分公司",
"pid": 1,
"branch":
[
{
"id": 5,
"name": "嘉兴分公司",
"pid": 3,
"branch":
[]
}
]
}
]
}所以,本文的主要内容就是提供几种方案,实现这两类数据的转换方式。
如何在一张数据库表中表示一颗树结构中的所有节点信息,这里有一个示例:
DROP TABLE IF EXISTS zj_city;
CREATE TABLE zj_city (
id BIGINT NOT NULL AUTO_INCREMENT,
name VARCHAR(50) COMMENT '节点名称',
pid int NOT NULL COMMENT '父节点',
create_time DATETIME DEFAULT now() COMMENT '创建时间: 年-月-日 时:分:秒',
update_time DATETIME DEFAULT now() ON UPDATE now() COMMENT '更新时间',
is_deleted BIT DEFAULT 0 COMMENT '是否删除:0-false-未删除;1-true-已删除',
PRIMARY KEY (id)
)COMMENT '浙江城市';
INSERT INTO zj_city(name, pid) VALUES
('浙江省',0),
('金华市',1),
('嘉兴市',1),
('杭州市',1),
('宁波市',1);
INSERT INTO zj_city(name, pid) VALUES
('下城区',4),
('钱塘区',4),
('西湖区',4),
('上城区',4);
INSERT INTO zj_city(name, pid) VALUES
('南湖区',3),
('秀洲区',3),
('桐乡市',3),
('平湖市',3),
('海宁市',3);
INSERT INTO zj_city(name, pid) VALUES
('梧桐街道',12),
('凤鸣街道',12),
('龙翔街道',12),
('崇福镇',12),
('乌镇镇',12),
('高桥镇',12),
('河山镇',12),
('濮院镇',12);
SELECT * from zj_city;应用场景
主要思想:外层循环-找父节点;内层循环-找子节点;因为每个元素都会找一遍,所有最终得到完整的树
import com.alibaba.fastJSON.jsON;
import com.ks.boot.entity.CityEntity;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import java.util.ArrayList;
import java.util.List;
public class TreeListDemo {
List<CityEntity> cityEntities;
@BeforeEach
public void init() {
cityEntities = JSON.parseArray("[{\"id\":1,\"name\":\"浙江\",\"pid\":0},\n" +
"{\"id\":2,\"name\":\"杭州\",\"pid\":1},\n" +
"{\"id\":3,\"name\":\"嘉兴\",\"pid\":1},\n" +
"{\"id\":4,\"name\":\"南湖\",\"pid\":3},\n" +
"{\"id\":5,\"name\":\"桐乡\",\"pid\":3},\n" +
"{\"id\":6,\"name\":\"余杭\",\"pid\":2},\n" +
"{\"id\":7,\"name\":\"西湖\",\"pid\":2},\n" +
"{\"id\":8,\"name\":\"云南\",\"pid\":0},\n" +
"{\"id\":9,\"name\":\"昆明\",\"pid\":8},\n" +
"{\"id\":10,\"name\":\"昭通\",\"pid\":8}]", CityEntity.class);
}
@Test
public void testList2Tree() {
List<CityEntity> resultTree = list2Tree(this.cityEntities);
System.out.println(JSON.toJSONString(resultTree));
}
public List<CityEntity> list2Tree(List<CityEntity> cityEntities) {
List<CityEntity> resultCities = new ArrayList<>();
for (CityEntity city : cityEntities) {
if(0 == city.getPid()) { //根节点、顶级节点,直接放入最终返回结果的List
resultCities.add(city);
}
for (CityEntity curCity : cityEntities) { //根据当前city找它的子节点
if(city.getId().equals(curCity.getPid())) {
if(city.getSubCityList() == null) { //还没有任何子节点,new一个空的放进去
city.setSubCityList(new ArrayList<>());
}
city.getSubCityList().add(curCity);
}
}
}
return resultCities;
}
}
public class CityEntity {
private Long id;
private String name;
private Long pid;
private List<CityEntity> subCityList;
getter/setter
}主要思想:获取所有根节点、顶级节点,再从List中查找根节点的子节点;
import com.alibaba.fastjson.JSON;
import com.ks.boot.entity.CityEntity;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import java.util.ArrayList;
import java.util.List;
public class TreeListDemo {
List<CityEntity> cityEntities;
@BeforeEach
public void init() {
cityEntities = JSON.parseArray("[{\"id\":1,\"name\":\"浙江\",\"pid\":0},\n" +
"{\"id\":2,\"name\":\"杭州\",\"pid\":1},\n" +
"{\"id\":3,\"name\":\"嘉兴\",\"pid\":1},\n" +
"{\"id\":4,\"name\":\"南湖\",\"pid\":3},\n" +
"{\"id\":5,\"name\":\"桐乡\",\"pid\":3},\n" +
"{\"id\":6,\"name\":\"余杭\",\"pid\":2},\n" +
"{\"id\":7,\"name\":\"西湖\",\"pid\":2},\n" +
"{\"id\":8,\"name\":\"云南\",\"pid\":0},\n" +
"{\"id\":9,\"name\":\"昆明\",\"pid\":8},\n" +
"{\"id\":10,\"name\":\"昭通\",\"pid\":8}]", CityEntity.class);
}
@Test
public void testList2Tree() {
List<CityEntity> resultCities = new ArrayList<>();
for (CityEntity city : cityEntities) {
if(0 == city.getPid()) { //获取所有根节点、顶级节点,再根据根节点进行递归
CityEntity topCity = findChild(cityEntities, city); //此时的topCity已经包含它的所有子节点
resultCities.add(topCity);
}
}
System.out.println(JSON.toJSONString(resultCities));
}
public CityEntity findChild(List<CityEntity> cityEntities, CityEntity curCity) {
for (CityEntity city : cityEntities) {
if(curCity.getId().equals(city.getPid())) {
if(null == curCity.getSubCityList()) {
curCity.setSubCityList(new ArrayList<>());
}
CityEntity subChild = findChild(cityEntities, city); //每次递归,都从头开始查找有没有city的子节点
curCity.getSubCityList().add(subChild);
}
}
return curCity;
}
}
public class CityEntity {
private Long id;
private String name;
private Long pid;
private List<CityEntity> subCityList;
getter/setter
}主要思想:
import com.alibaba.fastjson2.JSON;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.stream.Collectors;
public class TreeListDemo {
List<CityEntity> cityEntities;
@BeforeEach
public void init() {
cityEntities = JSON.parseArray("[{\"id\":1,\"name\":\"浙江\",\"pid\":0},\n" +
"{\"id\":2,\"name\":\"杭州\",\"pid\":1},\n" +
"{\"id\":3,\"name\":\"嘉兴\",\"pid\":1},\n" +
"{\"id\":4,\"name\":\"南湖\",\"pid\":3},\n" +
"{\"id\":5,\"name\":\"桐乡\",\"pid\":3},\n" +
"{\"id\":6,\"name\":\"余杭\",\"pid\":2},\n" +
"{\"id\":7,\"name\":\"西湖\",\"pid\":2},\n" +
"{\"id\":8,\"name\":\"云南\",\"pid\":0},\n" +
"{\"id\":9,\"name\":\"昆明\",\"pid\":8},\n" +
"{\"id\":10,\"name\":\"昭通\",\"pid\":8}]", CityEntity.class);
}
@Test
public void list2tree() {
//收集每个PID下的节点为Map
Map<Long, List<CityEntity>> cityMapByPid = cityEntities.stream().collect(Collectors.groupingBy(CityEntity::getPid));
List<CityEntity> resultCityList = new ArrayList<>();
for (CityEntity city : cityEntities) {
if(0 == city.getPid()) { //根节点、顶点
resultCityList.add(city);
}
List<CityEntity> citiesByPid = cityMapByPid.get(city.getId());
if(null != citiesByPid && citiesByPid.size() > 0) { //有子节点
if(null == city.getSubCityList()) {
city.setSubCityList(new ArrayList<>());
}
city.getSubCityList().addAll(citiesByPid); //塞入
}
}
System.out.println(JSON.toJSONString(resultCityList));
}
@Test
public void list2tree4Simple() {
List<CityEntity> resultCityList = new ArrayList<>();
//保存每个PID下的子节点
Map<Long, List<CityEntity>> cityMapByPid = new HashMap<>();
for (CityEntity city : cityEntities) { //收集每个PID下的子节点
//获取当前PID对应的子节点List,如果没有则创建一个空的List塞入
//这个设计得很巧妙
List<CityEntity> children = cityMapByPid.getOrDefault(city.getPid(), new ArrayList<>());
children.add(city); //插入当前元素
cityMapByPid.put(city.getPid(), children);
}
for (CityEntity city : cityEntities) {
if(0 == city.getPid()) { //根节点、顶点
resultCityList.add(city);
}
city.setSubCityList(cityMapByPid.get(city.getId()));
}
System.out.println(JSON.toJSONString(resultCityList));
}
}主要思想
收集根节点、顶级节点,存入resultList,并且压栈
循环出栈,栈元素Cur
import com.alibaba.fastjson2.JSON;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import java.util.*;
import java.util.stream.Collectors;
public class TreeListDemo {
List<CityEntity> cityEntities;
@BeforeEach
public void init() {
cityEntities = JSON.parseArray("[{\"id\":1,\"name\":\"浙江\",\"pid\":0},\n" +
"{\"id\":2,\"name\":\"杭州\",\"pid\":1},\n" +
"{\"id\":3,\"name\":\"嘉兴\",\"pid\":1},\n" +
"{\"id\":4,\"name\":\"南湖\",\"pid\":3},\n" +
"{\"id\":5,\"name\":\"桐乡\",\"pid\":3},\n" +
"{\"id\":6,\"name\":\"余杭\",\"pid\":2},\n" +
"{\"id\":7,\"name\":\"西湖\",\"pid\":2},\n" +
"{\"id\":8,\"name\":\"云南\",\"pid\":0},\n" +
"{\"id\":9,\"name\":\"昆明\",\"pid\":8},\n" +
"{\"id\":10,\"name\":\"昭通\",\"pid\":8}]", CityEntity.class);
}
@Test
public void list2tree() {
List<CityEntity> resultCityList = new ArrayList<>();
Stack<CityEntity> stack = new Stack<>();
resultCityList = cityEntities.stream().filter(ele -> 0 == ele.getPid()).collect(Collectors.toList());
stack.addAll(resultCityList); //根节点、顶点入栈
while(!stack.isEmpty()) {
CityEntity curCity = stack.pop();
List<CityEntity> child = cityEntities.stream().filter(ele -> curCity.getId().equals(ele.getPid())).collect(Collectors.toList());
if(!child.isEmpty()) { //这一步处理的原因是:当没有子元素,不显示该个字段。流处理后没有元素只会返回空List,不会返回null
curCity.setSubCityList(child);
}
if(!child.isEmpty()) {
stack.addAll(child);
}
}
System.out.println(JSON.toJSONString(resultCityList));
}
}主要思想:遍历树节点,一个树节点如果有子树,则再次递归此子树,直到没有子树为止
import com.alibaba.fastjson2.JSON;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import java.util.ArrayList;
import java.util.List;
public class ListTreeDemo {
List<CityEntity> treeList;
@BeforeEach
public void init() {
treeList = JSON.parseArray("[{\"id\":1,\"name\":\"浙江\",\"pid\":0,\"subCityList\":[" +
"{\"id\":2,\"name\":\"杭州\",\"pid\":1,\"subCityList\":[{\"id\":6,\"name\":\"余杭\",\"pid\":2},{\"id\":7,\"name\":\"西湖\",\"pid\":2}]}," +
"{\"id\":3,\"name\":\"嘉兴\",\"pid\":1,\"subCityList\":[{\"id\":4,\"name\":\"南湖\",\"pid\":3},{\"id\":5,\"name\":\"桐乡\",\"pid\":3}]}]}," +
"{\"id\":8,\"name\":\"云南\",\"pid\":0,\"subCityList\":[{\"id\":9,\"name\":\"昆明\",\"pid\":8},{\"id\":10,\"name\":\"昭通\",\"pid\":8}]}]", CityEntity.class);
}
@Test
public void tree2list() {
List<CityEntity> resList = new ArrayList<>();
//这一层for的目的是:遍历根节点
for (CityEntity city : treeList) {
reversion(city,resList);
}
System.out.println(JSON.toJSONString(resList));
}
public void reversion(CityEntity curnode, List<CityEntity> resList) {
resList.add(beanCopy(curNode));
List<CityEntity> subCityList = curNode.getSubCityList();
if(subCityList != null && !subCityList.isEmpty()) {
for (CityEntity city : subCityList) { //递归寻找子节点的子节点们
reversion(city, resList);
}
}
//递归的出口就是subCityList为null或者empty
}
private CityEntity beanCopy(CityEntity source) {
CityEntity res = new CityEntity();
res.setId(source.getId());
res.setName(source.getName());
res.setPid(source.getPid());
return res;
}
}主要思想
依次遍历树形List,当前节点为Cur
依次弹出栈元素,当前弹出的元素为StackSubTree
import com.alibaba.fastjson2.JSON;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import java.util.ArrayList;
import java.util.List;
import java.util.Stack;
public class ListTreeDemo {
List<CityEntity> treeList;
@BeforeEach
public void init() {
treeList = JSON.parseArray("[{\"id\":1,\"name\":\"浙江\",\"pid\":0,\"subCityList\":[" +
"{\"id\":2,\"name\":\"杭州\",\"pid\":1,\"subCityList\":[{\"id\":6,\"name\":\"余杭\",\"pid\":2},{\"id\":7,\"name\":\"西湖\",\"pid\":2}]}," +
"{\"id\":3,\"name\":\"嘉兴\",\"pid\":1,\"subCityList\":[{\"id\":4,\"name\":\"南湖\",\"pid\":3},{\"id\":5,\"name\":\"桐乡\",\"pid\":3}]}]}," +
"{\"id\":8,\"name\":\"云南\",\"pid\":0,\"subCityList\":[{\"id\":9,\"name\":\"昆明\",\"pid\":8},{\"id\":10,\"name\":\"昭通\",\"pid\":8}]}]", CityEntity.class);
}
@Test
public void tree2list() {
List<CityEntity> resList = new ArrayList<>();
Stack<List<CityEntity>> stack = new Stack<>();
for (CityEntity curCity : treeList) {
resList.add(beanCopy(curCity));
if (curCity.getSubCityList() != null && !curCity.getSubCityList().isEmpty()) {
stack.push(curCity.getSubCityList());
}
}
while (!stack.isEmpty()) {
List<CityEntity> subTree = stack.pop();
for (CityEntity city : subTree) {
if (city.getSubCityList() != null && !city.getSubCityList().isEmpty()) {
stack.push(city.getSubCityList());
} else {
resList.add(beanCopy(city));
}
}
}
System.out.println(JSON.toJSONString(resList));
}
private CityEntity beanCopy(CityEntity source) {
CityEntity res = new CityEntity();
res.setId(source.getId());
res.setName(source.getName());
res.setPid(source.getPid());
return res;
}
}到此这篇关于Java实现树形List与扁平List互转的示例代码的文章就介绍到这了,更多相关Java树形List与扁平List互转内容请搜索编程网以前的文章或继续浏览下面的相关文章希望大家以后多多支持编程网!
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本文标题: Java实现树形List与扁平List互转的示例代码
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