mybatis初期使用比较麻烦,需要各种配置文件、实体类、dao层映射关联、还有一大推其它配置。当然mybatis也发现了这种弊端,初期开发了generator可以根据表结果自动生产实体类、配置文件和dao层代码,可以减轻一部分开发量;后期也进行了大量的优化可以使用注解了,自动管理dao层和配置文件等,发展到最顶端就是今天要讲的这种模式了,mybatis-spring-boot-starter就是springboot+mybatis可以完全注解不用配置文件,也可以简单配置轻松上手。
现在想想spring boot 就是牛鼻呀,任何东西只要关联到spring boot都是化繁为简。
mybatis-spring-boot-starter
官方说明:MyBatis Spring-Boot-Starter will help you use MyBatis with Spring Boot
其实就是myBatis看spring boot这么火热也开发出一套解决方案来凑凑热闹,但这一凑确实解决了很多问题,使用起来确实顺畅了许多。mybatis-spring-boot-starter主要有两种解决方案,一种是使用注解解决一切问题,一种是简化后的老传统。
当然任何模式都需要首先引入mybatis-spring-boot-starter的pom文件,现在最新版本是1.1.1
<dependency> <groupId>org.mybatis.spring.boot</groupId> <artifactId>mybatis-spring-boot-starter</artifactId> <version>1.1.1</version></dependency>
好了下来分别介绍两种开发模式
无配置文件注解版
就是一切使用注解搞定。
1 添加相关maven文件
<dependencies> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter</artifactId> </dependency> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-test</artifactId> <scope>test</scope> </dependency> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-web</artifactId> </dependency> <dependency> <groupId>org.mybatis.spring.boot</groupId> <artifactId>mybatis-spring-boot-starter</artifactId> <version>1.1.1</version> </dependency> <dependency> <groupId>mysql</groupId> <artifactId>mysql-connector-java</artifactId> </dependency> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-devtools</artifactId> <optional>true</optional> </dependency></dependencies>
完整的pom包这里就不贴了,大家直接看源码
2、application.properties 添加相关配置
mybatis.type-aliases-package=com.neo.entity spring.datasource.driverClassName = com.mysql.jdbc.Driver spring.datasource.url = jdbc:mysql://localhost:3306/test1?useUnicode=true&characterEncoding=utf-8spring.datasource.username = root spring.datasource.password = root
springboot会自动加载spring.datasource.*相关配置,数据源就会自动注入到sqlSessionFactory中,sqlSessionFactory会自动注入到Mapper中,对了你一切都不用管了,直接拿起来使用就行了。
在启动类中添加对mapper包扫描@MapperScan
@SpringBootApplication@MapperScan("com.neo.mapper")public class Application { public static void main(String[] args) { SpringApplication.run(Application.class, args); } }
或者直接在Mapper类上面添加注解@Mapper,建议使用上面那种,不然每个mapper加个注解也挺麻烦的
3、开发Mapper
第三步是最关键的一块,sql生产都在这里
public interface UserMapper { @Select("SELECT * FROM users") @Results({ @Result(property = "userSex", column = "user_sex", javaType = UserSexEnum.class), @Result(property = "nickName", column = "nick_name") }) List<UserEntity> getAll(); @Select("SELECT * FROM users WHERE id = #{id}") @Results({ @Result(property = "userSex", column = "user_sex", javaType = UserSexEnum.class), @Result(property = "nickName", column = "nick_name") }) UserEntity getOne(Long id); @Insert("INSERT INTO users(userName,passWord,user_sex) VALUES(#{userName}, #{passWord}, #{userSex})") void insert(UserEntity user); @Update("UPDATE users SET userName=#{userName},nick_name=#{nickName} WHERE id =#{id}") void update(UserEntity user); @Delete("DELETE FROM users WHERE id =#{id}") void delete(Long id); }
注意,使用#符号和$符号的不同:
// This example creates a prepared statement, something like select * from teacher where name = ?; @Select("Select * from teacher where name = #{name}") Teacher selectTeachForGivenName(@Param("name") String name); // This example creates n inlined statement, something like select * from teacher where name = 'someName'; @Select("Select * from teacher where name = '${name}') Teacher selectTeachForGivenName(@Param("name") String name);
4、使用
上面三步就基本完成了相关dao层开发,使用的时候当作普通的类注入进入就可以了
@RunWith(SpringRunner.class)@SpringBootTestpublic class UserMapperTest { @Autowired private UserMapper UserMapper; @Test public void testInsert() throws Exception { UserMapper.insert(new UserEntity("aa", "a123456", UserSexEnum.MAN)); UserMapper.insert(new UserEntity("bb", "b123456", UserSexEnum.WOMAN)); UserMapper.insert(new UserEntity("cc", "b123456", UserSexEnum.WOMAN)); Assert.assertEquals(3, UserMapper.getAll().size()); } @Test public void testQuery() throws Exception { List<UserEntity> users = UserMapper.getAll(); System.out.println(users.toString()); } @Test public void testUpdate() throws Exception { UserEntity user = UserMapper.getOne(3l); System.out.println(user.toString()); user.setNickName("neo"); UserMapper.update(user); Assert.assertTrue(("neo".equals(UserMapper.getOne(3l).getNickName()))); } }
极简xml版本
极简xml版本保持映射文件的老传统,优化主要体现在不需要实现dao的是实现层,系统会自动根据方法名在映射文件中找对应的sql.
1、配置
pom文件和上个版本一样,只是application.properties新增以下配置
mybatis.config-locations=classpath:mybatis/mybatis-config.xm
mybatis.config-locations=classpath:mybatis/mybatis-config.xml mybatis.mapper-locations=classpath:mybatis/mapper/*.xml
指定了mybatis基础配置文件和实体类映射文件的地址
mybatis-config.xml 配置
<configuration> <typeAliases> <typeAlias alias="Integer" type="java.lang.Integer" /> <typeAlias alias="Long" type="java.lang.Long" /> <typeAlias alias="HashMap" type="java.util.HashMap" /> <typeAlias alias="LinkedHashMap" type="java.util.LinkedHashMap" /> <typeAlias alias="ArrayList" type="java.util.ArrayList" /> <typeAlias alias="LinkedList" type="java.util.LinkedList" /> </typeAliases></configuration>
这里也可以添加一些mybatis基础的配置
2、添加User的映射文件
<mapper namespace="com.neo.mapper.UserMapper" > <resultMap id="BaseResultMap" type="com.neo.entity.UserEntity" > <id column="id" property="id" jdbcType="BIGINT" /> <result column="userName" property="userName" jdbcType="VARCHAR" /> <result column="passWord" property="passWord" jdbcType="VARCHAR" /> <result column="user_sex" property="userSex" javaType="com.neo.enums.UserSexEnum"/> <result column="nick_name" property="nickName" jdbcType="VARCHAR" /> </resultMap> <sql id="Base_Column_List" > id, userName, passWord, user_sex, nick_name </sql> <select id="getAll" resultMap="BaseResultMap" > SELECT <include refid="Base_Column_List" /> FROM users </select> <select id="getOne" parameterType="java.lang.Long" resultMap="BaseResultMap" > SELECT <include refid="Base_Column_List" /> FROM users WHERE id = #{id} </select> <insert id="insert" parameterType="com.neo.entity.UserEntity" > INSERT INTO users (userName,passWord,user_sex) VALUES (#{userName}, #{passWord}, #{userSex}) </insert> <update id="update" parameterType="com.neo.entity.UserEntity" > UPDATE users SET <if test="userName != null">userName = #{userName},</if> <if test="passWord != null">passWord = #{passWord},</if> nick_name = #{nickName} WHERE id = #{id} </update> <delete id="delete" parameterType="java.lang.Long" > DELETE FROM users WHERE id =#{id} </delete></mapper>
其实就是把上个版本中mapper的sql搬到了这里的xml中了
3、编写Dao层的代码
public interface UserMapper { List<UserEntity> getAll(); UserEntity getOne(Long id); void insert(UserEntity user); void update(UserEntity user); void delete(Long id); }
对比上一步这里全部只剩了接口方法
如何选择
两种模式各有特点,注解版适合简单快速的模式,其实像现在流行的这种微服务模式,一个微服务就会对应一个自已的数据库,多表连接查询的需求会大大的降低,会越来越适合这种模式。
老传统模式比适合大型项目,可以灵活的动态生成SQL,方便调整SQL,也有痛痛快快,洋洋洒洒的写SQL的感觉。