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内容:所有原创文章分类汇总及配套源码,涉及Java、Docker、Kubernetes、DevOPS等;
本篇概览
- 本文是《MyBatis初级实战》系列的第五篇,从多表获取数据是个常见的场景,一般有以下两种方式:
- 联表查询:join操作,一次查询完成
- 多次查询:用第一次查询的结果作为条件,再做查询(MyBatis中叫做嵌套查询)
- 本篇的内容就是学习MyBatis对上述两种查询的支持,全文由以下章节组成:
- 准备数据;
- 本次实战的java工程
- 最简单的联表(两个表的数据保存在一个实体类的不同字段);
- 一对一联表查询(两个表的数据分别保存在不同实体类,假设是A和B,A是B的成员变量)
- 一对一嵌套查询(两个表的数据分别保存在不同实体类,假设是A和B,A是B的成员变量)
源码下载
- 如果您不想编码,可以在GitHub下载所有源码,地址和链接信息如下表所示(https://github.com/zq2599/blog_demos):
名称 | 链接 | 备注 |
---|---|---|
项目主页 | https://github.com/zq2599/blog_demos | 该项目在GitHub上的主页 |
git仓库地址(https) | https://github.com/zq2599/blog_demos.git | 该项目源码的仓库地址,https协议 |
git仓库地址(ssh) | [email protected]:zq2599/blog_demos.git | 该项目源码的仓库地址,ssh协议 |
- 这个git项目中有多个文件夹,本章的应用在mybatis文件夹下,如下图红框所示:
- mybatis是个父工程,里面有数个子工程,本篇的源码在relatedoperation子工程中,如下图红框所示:
准备数据
- 本次实战,在名为mybatis的数据库中建立两个表(和前面几篇文章中的表结构一模一样):user和log表;
- user表记录用户信息,非常简单,只有三个字段:主键、名称、年龄
- log表记录用户行为,四个字段:主键、用户id、行为描述、行为时间
- user和log的关系如下图:
- 建表和添加数据的语句如下:
use mybatis;
DROP TABLE IF EXISTS `user`;
CREATE TABLE `user` (
`id` int(32) NOT NULL AUTO_INCREMENT,
`name` varchar(32) NOT NULL,
`age` int(32) NOT NULL,
PRIMARY KEY (`id`)
) ENGINE=InnoDB AUTO_INCREMENT=3 DEFAULT CHARSET=utf8;
DROP TABLE IF EXISTS `log`;
CREATE TABLE `log` (
`id` int(32) NOT NULL AUTO_INCREMENT,
`user_id` int(32),
`action` varchar(255) NOT NULL,
`create_time` datetime not null,
PRIMARY KEY (`id`)
) ENGINE=InnoDB AUTO_INCREMENT=3 DEFAULT CHARSET=utf8;
INSERT INTO mybatis.user (id, name, age) VALUES (3, 'tom', 11);
INSERT INTO mybatis.log (id, user_id, action, create_time) VALUES (3, 3, 'read book', '2020-08-07 08:18:16');
INSERT INTO mybatis.log (id, user_id, action, create_time) VALUES (4, 3, 'go to the cinema', '2020-09-02 20:00:00');
INSERT INTO mybatis.log (id, user_id, action, create_time) VALUES (5, 3, 'have a meal', '2020-10-05 12:03:36');
INSERT INTO mybatis.log (id, user_id, action, create_time) VALUES (6, 3, 'have a sleep', '2020-10-06 13:00:12');
INSERT INTO mybatis.log (id, user_id, action, create_time) VALUES (7, 3, 'write', '2020-10-08 09:21:11');
本次实战的java工程
- 在父工程mybatis下新建子工程relatedoperation,pom.xml如下:
4.0.0
com.bolingcavalry
mybatis
1.0-SNAPSHOT
../pom.xml
com.bolingcavalry
relatedoperation
0.0.1-SNAPSHOT
relatedoperation
Demo project for Mybatis related operation in Spring Boot
1.8
org.projectlombok
lombok
org.springframework.boot
spring-boot-starter-web
org.mybatis.spring.boot
mybatis-spring-boot-starter
mysql
mysql-connector-java
runtime
org.springframework.boot
spring-boot-starter-test
test
io.springfox
springfox-swagger2
io.springfox
springfox-swagger-ui
com.alibaba
druid-spring-boot-starter
junit
junit
test
org.springframework.boot
spring-boot-maven-plugin
- 基本配置文件application.yml:
server:
port: 8080
spring:
#1.JDBC数据源
datasource:
username: root
password: 123456
url: jdbc:mysql://192.168.50.43:3306/mybatis?useUnicode=true&characterEncoding=utf-8&useSSL=true&serverTimezone=UTC
driver-class-name: com.mysql.cj.jdbc.Driver
#2.连接池配置
druid:
#初始化连接池的连接数量 大小,最小,最大
initial-size: 5
min-idle: 5
max-active: 20
#配置获取连接等待超时的时间
max-wait: 60000
#配置间隔多久才进行一次检测,检测需要关闭的空闲连接,单位是毫秒
time-between-eviction-runs-millis: 60000
# 配置一个连接在池中最小生存的时间,单位是毫秒
min-evictable-idle-time-millis: 30000
# 配置一个连接在池中最大生存的时间,单位是毫秒
max-evictable-idle-time-millis: 300000
validation-query: SELECT 1 FROM user
test-while-idle: true
test-on-borrow: true
test-on-return: false
# 是否缓存preparedStatement,也就是PSCache 官方建议MySQL下建议关闭 个人建议如果想用SQL防火墙 建议打开
pool-prepared-statements: true
max-pool-prepared-statement-per-connection-size: 20
# 配置监控统计拦截的filters,去掉后监控界面sql无法统计,'wall'用于防火墙
filters: stat,wall,slf4j
filter:
stat:
merge-sql: true
slow-sql-millis: 5000
#3.基础监控配置
web-stat-filter:
enabled: true
url-pattern: /*
#设置不统计哪些URL
exclusions: "*.js,*.gif,*.jpg,*.png,*.css,*.ico,/druid/*"
session-stat-enable: true
session-stat-max-count: 100
stat-view-servlet:
enabled: true
url-pattern: /druid/*
reset-enable: true
#设置监控页面的登录名和密码
login-username: admin
login-password: admin
allow: 127.0.0.1
#deny: 192.168.1.100
# mybatis配置
mybatis:
# 配置文件所在位置
config-location: classpath:mybatis-config.xml
# 映射文件所在位置
mapper-locations: classpath:mappers/*Mapper.xml
# 日志配置
logging:
level:
root: INFO
com:
bolingcavalry:
relatedoperation:
mapper: debug
- 再准备名为application-test.yml的配置文件,这是执行单元测试时用到的,和application.yml的不同之处是spring.datasource.druid.web-stat-filter.enabled配置设置成false;
- mybatis的配置文件mybatis-config.xml如下:
- 数据源配置类DruidConfig.java:
package com.bolingcavalry.relatedoperation;
import com.alibaba.druid.pool.DruidDataSource;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.springframework.beans.factory.annotation.Value;
import org.springframework.context.annotation.Bean;
import org.springframework.context.annotation.Configuration;
@Configuration
public class DruidConfig {
private static final Logger logger = LoggerFactory.getLogger(DruidConfig.class);
@Value("${spring.datasource.url}")
private String dbUrl;
@Value("${spring.datasource.username}")
private String username;
@Value("${spring.datasource.password}")
private String password;
@Value("${spring.datasource.driver-class-name}")
private String driverClassName;
@Value("${spring.datasource.druid.initial-size}")
private int initialSize;
@Value("${spring.datasource.druid.max-active}")
private int maxActive;
@Value("${spring.datasource.druid.min-idle}")
private int minIdle;
@Value("${spring.datasource.druid.max-wait}")
private int maxWait;
@Value("${spring.datasource.druid.pool-prepared-statements}")
private boolean poolPreparedStatements;
@Value("${spring.datasource.druid.max-pool-prepared-statement-per-connection-size}")
private int maxPoolPreparedStatementPerConnectionSize;
@Value("${spring.datasource.druid.time-between-eviction-runs-millis}")
private int timeBetweenEvictionRunsMillis;
@Value("${spring.datasource.druid.min-evictable-idle-time-millis}")
private int minEvictableIdleTimeMillis;
@Value("${spring.datasource.druid.max-evictable-idle-time-millis}")
private int maxEvictableIdleTimeMillis;
@Value("${spring.datasource.druid.validation-query}")
private String validationQuery;
@Value("${spring.datasource.druid.test-while-idle}")
private boolean testWhileIdle;
@Value("${spring.datasource.druid.test-on-borrow}")
private boolean testOnBorrow;
@Value("${spring.datasource.druid.test-on-return}")
private boolean testOnReturn;
@Value("${spring.datasource.druid.filters}")
private String filters;
@Value("{spring.datasource.druid.connection-properties}")
private String connectionProperties;
/**
* Druid 连接池配置
*/
@Bean
public DruidDataSource dataSource() {
DruidDataSource datasource = new DruidDataSource();
datasource.setUrl(dbUrl);
datasource.setUsername(username);
datasource.setPassword(password);
datasource.setDriverClassName(driverClassName);
datasource.setInitialSize(initialSize);
datasource.setMinIdle(minIdle);
datasource.setMaxActive(maxActive);
datasource.setMaxWait(maxWait);
datasource.setTimeBetweenEvictionRunsMillis(timeBetweenEvictionRunsMillis);
datasource.setMinEvictableIdleTimeMillis(minEvictableIdleTimeMillis);
datasource.setMaxEvictableIdleTimeMillis(minEvictableIdleTimeMillis);
datasource.setValidationQuery(validationQuery);
datasource.setTestWhileIdle(testWhileIdle);
datasource.setTestOnBorrow(testOnBorrow);
datasource.setTestOnReturn(testOnReturn);
datasource.setPoolPreparedStatements(poolPreparedStatements);
datasource.setMaxPoolPreparedStatementPerConnectionSize(maxPoolPreparedStatementPerConnectionSize);
try {
datasource.setFilters(filters);
} catch (Exception e) {
logger.error("druid configuration initialization filter", e);
}
datasource.setConnectionProperties(connectionProperties);
return datasource;
}
}
- swagger配置类:
package com.bolingcavalry.relatedoperation;
import springfox.documentation.service.Contact;
import org.springframework.context.annotation.Bean;
import org.springframework.context.annotation.Configuration;
import springfox.documentation.builders.ApiInfoBuilder;
import springfox.documentation.builders.PathSelectors;
import springfox.documentation.builders.RequestHandlerSelectors;
import springfox.documentation.service.ApiInfo;
import springfox.documentation.service.Tag;
import springfox.documentation.spi.DocumentationType;
import springfox.documentation.spring.web.plugins.Docket;
import springfox.documentation.swagger2.annotations.EnableSwagger2;
@Configuration
@EnableSwagger2
public class SwaggerConfig {
@Bean
public Docket createRestApi() {
return new Docket(DocumentationType.SWAGGER_2)
.apiInfo(apiInfo())
.tags(new Tag("UserController", "用户服务"), new Tag("LogController", "日志服务"))
.select()
// 当前包路径
.apis(RequestHandlerSelectors.basePackage("com.bolingcavalry.relatedoperation.controller"))
.paths(PathSelectors.any())
.build();
}
//构建 api文档的详细信息函数,注意这里的注解引用的是哪个
private ApiInfo apiInfo() {
return new ApiInfoBuilder()
//页面标题
.title("MyBatis CURD操作")
//创建人
.contact(new Contact("程序员欣宸", "https://github.com/zq2599/blog_demos", "[email protected]"))
//版本号
.version("1.0")
//描述
.description("API 描述")
.build();
}
}
- springboot引导类:
package com.bolingcavalry.relatedoperation;
import org.mybatis.spring.annotation.MapperScan;
import org.springframework.boot.SpringApplication;
import org.springframework.boot.autoconfigure.SpringBootApplication;
@SpringBootApplication
@MapperScan("com.bolingcavalry.relatedoperation.mapper")
public class RelatedOperationApplication {
public static void main(String[] args) {
SpringApplication.run(RelatedOperationApplication.class, args);
}
}
- 用户表的实体类:
package com.bolingcavalry.relatedoperation.entity;
import io.swagger.annotations.ApiModel;
import io.swagger.annotations.ApiModelProperty;
import lombok.Data;
import lombok.NoArgsConstructor;
@Data
@NoArgsConstructor
@ApiModel(description = "用户实体类")
public class User {
@ApiModelProperty(value = "用户ID")
private Integer id;
@ApiModelProperty(value = "用户名", required = true)
private String name;
@ApiModelProperty(value = "用户地址", required = false)
private Integer age;
}
- 日志表的实体类:
package com.bolingcavalry.relatedoperation.entity;
import io.swagger.annotations.ApiModel;
import io.swagger.annotations.ApiModelProperty;
import lombok.Data;
import lombok.NoArgsConstructor;
import java.sql.Date;
@Data
@NoArgsConstructor
@ApiModel(description = "日志实体类")
public class Log {
@ApiModelProperty(value = "日志ID")
private Integer id;
@ApiModelProperty(value = "用户ID")
private Integer userId;
@ApiModelProperty(value = "日志内容")
private String action;
@ApiModelProperty(value = "创建时间")
private Date createTime;
}
- 以上就是本篇的准备代码,接下来在此基础上实现各种多表关联查询
最简单的联表
- 先实战的是最普通的联表,如下图所示,查询结果是名为LogExtend的实体类,这个类有5个字段,其中四个来自日志表log,一个来自用户表user:
- 下图是开发步骤:
- 实体类LogExtend的源码如下,可见和Log相比多了个userName字段:
package com.bolingcavalry.relatedoperation.entity;
import io.swagger.annotations.ApiModel;
import io.swagger.annotations.ApiModelProperty;
import lombok.Data;
import lombok.NoArgsConstructor;
@Data
@NoArgsConstructor
@ApiModel(description = "日志实体类(含用户表的字段)")
public class LogExtend extends Log {
@ApiModelProperty(value = "用户名")
private String userName;
}
- 新建log表对应的映射文件LogMapper.xml,如下所示,里面是通过left join语法执行的简单的联表查询,以及查询结果对应的resultMap定义:
- mapper接口代码:
package com.bolingcavalry.relatedoperation.mapper;
import com.bolingcavalry.relatedoperation.entity.LogAssociateUser;
import com.bolingcavalry.relatedoperation.entity.LogExtend;
import org.springframework.stereotype.Repository;
@Repository
public interface LogMapper {
LogExtend oneObjectSel(int id);
}
- service层的代码在LogService.java文件中:
package com.bolingcavalry.relatedoperation.service;
import com.bolingcavalry.relatedoperation.entity.LogAssociateUser;
import com.bolingcavalry.relatedoperation.entity.LogExtend;
import com.bolingcavalry.relatedoperation.mapper.LogMapper;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.stereotype.Service;
@Service
public class LogService {
@Autowired
LogMapper logMapper;
public LogExtend oneObjectSel(int id){
return logMapper.oneObjectSel(id);
}
}
- controller层的代码在LogController.java文件中:
@RestController
@RequestMapping("/log")
@Api(tags = {"LogController"})
public class LogController {
@Autowired
private LogService logService;
@ApiOperation(value = "根据ID查找日志记录,带userName字段,该字段通过联表查询实现", notes="根据ID查找日志记录,带userName字段,该字段通过联表查询实现")
@ApiImplicitParam(name = "id", value = "日志ID", paramType = "path", required = true, dataType = "Integer")
@RequestMapping(value = "/aggregate/{id}", method = RequestMethod.GET)
public LogExtend oneObjectSel(@PathVariable int id){
return logService.oneObjectSel(id);
}
- 编写单元测试的代码ControllerTest.java,由于今天的测试涉及到user和log两个表,因此在测试类ControllerTest的内部准备了两个内部类,分别用于测试user和log表:
package com.bolingcavalry.relatedoperation.controller;
import lombok.extern.slf4j.Slf4j;
import org.junit.jupiter.api.*;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.boot.test.autoconfigure.web.servlet.AutoConfigureMockMvc;
import org.springframework.boot.test.context.SpringBootTest;
import org.springframework.http.MediaType;
import org.springframework.test.context.ActiveProfiles;
import org.springframework.test.web.servlet.MockMvc;
import org.springframework.test.web.servlet.request.MockMvcRequestBuilders;
import static org.springframework.test.web.servlet.result.MockMvcResultHandlers.print;
import static org.springframework.test.web.servlet.result.MockMvcResultMatchers.jsonPath;
import static org.springframework.test.web.servlet.result.MockMvcResultMatchers.status;
@SpringBootTest
@DisplayName("Web接口的单元测试")
@AutoConfigureMockMvc
@ActiveProfiles("test")
@Slf4j
public class ControllerTest {
/**
* 查询方式:联表
*/
final static String SEARCH_TYPE_LEFT_JOIN = "leftjoin";
/**
* 查询方式:嵌套
*/
final static String SEARCH_TYPE_NESTED = "nested";
final static int TEST_USER_ID = 3;
final static String TEST_USER_NAME = "tom";
@Autowired MockMvc mvc;
@Nested
@TestMethodOrder(MethodOrderer.OrderAnnotation.class)
@DisplayName("用户服务")
class User {
}
@Nested
@TestMethodOrder(MethodOrderer.OrderAnnotation.class)
@DisplayName("日志服务")
class Log {
final static int TEST_LOG_ID = 5;
@Test
@DisplayName("通过日志ID获取日志信息,带userName字段,该字段通过联表查询实现")
@Order(1)
void oneObjectSel() throws Exception {
mvc.perform(MockMvcRequestBuilders.get("/log/aggregate/" + TEST_LOG_ID)
.accept(MediaType.APPLICATION_JSON))
.andExpect(status().isOk())
.andExpect(jsonPath("$.id").value(TEST_LOG_ID))
.andExpect(jsonPath("$.userName").value(TEST_USER_NAME))
.andDo(print());
}
}
}
- 执行上述单元测试方法,结果如下图,红框中就是controller层返回的数据,可见已通过Mybatis成功取得LogExtend实例:
- 下一站是一对一联表查询;
关于一对一关联的两种方式
- 前面的查询有个特点:尽管查询了两个表,但结果都在同一实体类的不同字段,而更符合业务逻辑的关系应该是log类中有个user类的成员变量,即如下形式:
@Data
@NoArgsConstructor
@ApiModel(description = "日志实体类")
public class LogAssociateUser {
@ApiModelProperty(value = "日志ID")
private Integer id;
@ApiModelProperty(value = "用户对象")
private User user;
@ApiModelProperty(value = "日志内容")
private String action;
@ApiModelProperty(value = "创建时间")
private Date createTime;
}
- 接下来的实战就是如何用MyBatis查询得到上述LogAssociateUser 类型的结果;
- 一对一关联的实现有联表和嵌套查询两种,它们的差异在Mybatis中体现在association的子节点上:
- 联表时,association内使用result子节点,将联表查询的结果映射到关联对象;
- 嵌套时,association内使用select子节点,触发一次新的查询;
一对一(联表)
所谓一对一,就是一个对象关联了另一个对象,例如一条log记录中,带有对应的user信息;
- 下面是新的实体类LogAssociateUser,该类对应的是log表记录,有个user字段,类型是User对象:
@Data
@NoArgsConstructor
@ApiModel(description = "日志实体类")
public class LogAssociateUser {
@ApiModelProperty(value = "日志ID")
private Integer id;
@ApiModelProperty(value = "用户对象")
private User user;
@ApiModelProperty(value = "日志内容")
private String action;
@ApiModelProperty(value = "创建时间")
private Date createTime;
}
- 映射文件LogMapper.xml中,sql和resultMap如下,可见查询的时候将user表的字段都查出来了,然后在resultMap中用association节点去处理sql中查出的user表的数据,通过javaType属性转为User类的实例:
- 以上就是一对一(联表)的关键点,接下来按部就班的在LogMapper、LogService、LogController中添加方法即可,下面是LogController中对应的web接口,稍后会在单元测试中调用这个接口进行验证:
@ApiOperation(value = "根据ID查找日志记录,带用户对象,联表查询实现", notes="根据ID查找日志记录,带用户对象,联表查询实现")
@ApiImplicitParam(name = "id", value = "日志ID", paramType = "path", required = true, dataType = "Integer")
@RequestMapping(value = "/leftjoin/{id}", method = RequestMethod.GET)
public LogAssociateUser leftJoinSel(@PathVariable int id){
return logService.leftJoinSel(id);
}
- 最后是单元测试的代码(ControllerTest.java文件),用来测试上述代码是否有效,注意下面的queryAndCheck私有方法,该方法中发起请求并验证结果:
/**
* 通过日志ID获取日志信息有两种方式:联表和嵌套查询,
* 从客户端来看,仅一部分path不同,因此将请求和检查封装到一个通用方法中,
* 调用方法只需要指定不同的那一段path
* @param subPath
* @throws Exception
*/
private void queryAndCheck(String subPath) throws Exception {
String queryPath = "/log/" + subPath + "/" + TEST_LOG_ID;
log.info("query path [{}]", queryPath);
mvc.perform(MockMvcRequestBuilders.get(queryPath)
.accept(MediaType.APPLICATION_JSON))
.andExpect(status().isOk())
.andExpect(jsonPath("$.id").value(TEST_LOG_ID))
.andExpect(jsonPath("$.user.id").value(TEST_USER_ID))
.andDo(print());
}
@Test
@DisplayName("通过日志ID获取日志信息(关联了用户),联表查询")
@Order(2)
void leftJoinSel() throws Exception {
queryAndCheck(SEARCH_TYPE_LEFT_JOIN);
}
- 执行单元测试结果如下,可见:内部嵌套了一个json对象,就是user表的数据:
一对一(嵌套)
- 接下来试试嵌套的方式;
- LogMapper.xml中对应的sql:
- 上述sql对应的resultMap如下,可见association节点中有个select属性,这就是MyBatis支持嵌套查询的关键,该属性的值是个select节点:
- 上述节点中select属性的值,对应一个select节点,如下:
- 以上就是一对一(嵌套)的关键点,接下来按部就班的在LogMapper、LogService、LogController中添加方法即可,下面是LogController中对应的web接口,稍后会在单元测试中调用这个接口进行验证:
@ApiOperation(value = "根据ID查找日志记录,带用户对象,嵌套查询实现", notes="根据ID查找日志记录,带用户对象,嵌套查询实现")
@ApiImplicitParam(name = "id", value = "日志ID", paramType = "path", required = true, dataType = "Integer")
@RequestMapping(value = "/nested/{id}", method = RequestMethod.GET)
public LogAssociateUser nestedSel(@PathVariable int id){
return logService.nestedSel(id);
}
- 最后是单元测试的代码(ControllerTest.java文件),用来测试上述代码是否有效,如下可见,直接调用了前面的queryAndCheck来验证:
@Test
@DisplayName("通过日志ID获取日志信息(关联了用户),嵌套查询")
@Order(3)
void nestedSel() throws Exception {
queryAndCheck(SEARCH_TYPE_NESTED);
}
- 执行上述单元测试代码,结果如下,可见嵌套查询的方式也能将user表的数据成功获取,放入log实例的成员变量中:
- 最后是对比联表和嵌套查询的差异,先看联表查询的MyBatis日志,如下图红框所示,只有一次sql查询:
- 再看嵌套查询的日志,如下图,红框是第一次查询,结果中的userid作为绿框中的第二次查询的条件:
- 至此,一对一的多表查询实战就完成了,本篇的逻辑是一条log记录关联一条user记录,下一篇文章,咱们学习一对多关联,即一个user有多条log记录;
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