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移除书签TiDB 和 Java 的简单 CRUD 应用程序
本文档将展示如何使用 TiDB 和 Java 来构造一个简单的 CRUD 应用程序。
注意
推荐使用 Java 8 及以上版本进行 TiDB 的应用程序的编写。
拓展学习视频
小贴士
如果你希望使用 Spring Boot 进行 TiDB 应用程序的编写,可以查看 Build the TiDB Application using Spring Boot。
第 1 步:启动你的 TiDB 集群
本节将介绍 TiDB 集群的启动方法。
- TiDB Cloud
- 本地集群
- Gitpod
你可以部署一个本地测试的 TiDB 集群或正式的 TiDB 集群。详细步骤,请参考:
基于 Git 的预配置的开发环境:现在就试试
该环境会自动克隆代码,并通过 TiUP 部署测试集群。
第 2 步:获取代码
git clone https://github.com/pingcap-inc/tidb-example-java.git
- 使用 Mybatis(推荐)
- 使用 Hibernate(推荐)
- 使用 JDBC
Mybatis 是当前比较流行的开源 Java 应用持久层框架,本文将以 Maven 插件的方式使用 MyBatis Generator 生成部分持久层代码。
进入目录 plain-java-mybatis:
cd plain-java-mybatis
目录结构如下所示:
.├── Makefile├── pom.xml└── src└── main├── java│ └── com│ └── pingcap│ ├── MybatisExample.java│ ├── dao│ │ └── PlayerDAO.java│ └── model│ ├── Player.java│ ├── PlayerMapper.java│ └── PlayerMapperEx.java└── resources├── dbinit.sql├── log4j.properties├── mapper│ ├── PlayerMapper.xml│ └── PlayerMapperEx.xml├── mybatis-config.xml└── mybatis-generator.xml
其中,自动生成的文件有:
src/main/java/com/pingcap/model/Player.java:Player 实体类文件src/main/java/com/pingcap/model/PlayerMapper.java:Player Mapper 的接口文件src/main/resources/mapper/PlayerMapper.xml:Player Mapper 的 XML 映射,它是 Mybatis 用于生成 Player Mapper 接口的实现类的配置
这些文件的生成策略被写在了 mybatis-generator.xml 配置文件内,它是 Mybatis Generator 的配置文件,下面配置文件中添加了使用方法的说明:
<!DOCTYPE generatorConfiguration PUBLIC"-//mybatis.org//DTD MyBatis Generator Configuration 1.0//EN""http://mybatis.org/dtd/mybatis-generator-config_1_0.dtd"><generatorConfiguration><!--<context/> entire document: https://mybatis.org/generator/configreference/context.htmlcontext.id: A unique identifier you likecontext.targetRuntime: Used to specify the runtime target for generated code.It has MyBatis3DynamicSql / MyBatis3Kotlin / MyBatis3 / MyBatis3Simple 4 selection to choice.--><context id="simple" targetRuntime="MyBatis3"><!--<commentGenerator/> entire document: https://mybatis.org/generator/configreference/commentGenerator.htmlcommentGenerator:- property(suppressDate): remove timestamp in comments- property(suppressAllComments): remove all comments--><commentGenerator><property name="suppressDate" value="true"/><property name="suppressAllComments" value="true" /></commentGenerator><!--<jdbcConnection/> entire document: https://mybatis.org/generator/configreference/jdbcConnection.htmljdbcConnection.driverClass: The fully qualified class name for the JDBC driver used to access the database.Used mysql-connector-java:5.1.49, should specify JDBC is com.mysql.jdbc.DriverjdbcConnection.connectionURL: The JDBC connection URL used to access the database.--><jdbcConnection driverClass="com.mysql.jdbc.Driver"connectionURL="jdbc:mysql://localhost:4000/test?user=root" /><!--<javaModelGenerator/> entire document: https://mybatis.org/generator/configreference/javaModelGenerator.htmlModel code file will be generated at ${targetProject}/${targetPackage}javaModelGenerator:- property(constructorBased): If it's true, generator will create constructor function in model--><javaModelGenerator targetPackage="com.pingcap.model" targetProject="src/main/java"><property name="constructorBased" value="true"/></javaModelGenerator><!--<sqlMapGenerator/> entire document: https://mybatis.org/generator/configreference/sqlMapGenerator.htmlXML SQL mapper file will be generated at ${targetProject}/${targetPackage}--><sqlMapGenerator targetPackage="." targetProject="src/main/resources/mapper"/><!--<javaClientGenerator/> entire document: https://mybatis.org/generator/configreference/javaClientGenerator.htmlJava code mapper interface file will be generated at ${targetProject}/${targetPackage}javaClientGenerator.type (context.targetRuntime is MyBatis3):This attribute indicated Mybatis how to implement interface.It has ANNOTATEDMAPPER / MIXEDMAPPER / XMLMAPPER 3 selection to choice.--><javaClientGenerator type="XMLMAPPER" targetPackage="com.pingcap.model" targetProject="src/main/java"/><!--<table/> entire document: https://mybatis.org/generator/configreference/table.htmltable.tableName: The name of the database table.table.domainObjectName: The base name from which generated object names will be generated. If not specified, MBG will generate a name automatically based on the tableName.table.enableCountByExample: Signifies whether a count by example statement should be generated.table.enableUpdateByExample: Signifies whether an update by example statement should be generated.table.enableDeleteByExample: Signifies whether a delete by example statement should be generated.table.enableSelectByExample: Signifies whether a select by example statement should be generated.table.selectByExampleQueryId: This value will be added to the select list of the select by example statement in this form: "'<value>' as QUERYID".--><table tableName="player" domainObjectName="Player"enableCountByExample="false" enableUpdateByExample="false"enableDeleteByExample="false" enableSelectByExample="false"selectByExampleQueryId="false"/></context></generatorConfiguration>
mybatis-generator.xml 在 pom.xml 中,以 mybatis-generator-maven-plugin 插件配置的方式被引入:
<plugin><groupId>org.mybatis.generator</groupId><artifactId>mybatis-generator-maven-plugin</artifactId><version>1.4.1</version><configuration><configurationFile>src/main/resources/mybatis-generator.xml</configurationFile><verbose>true</verbose><overwrite>true</overwrite></configuration><dependencies><!-- https://mvnrepository.com/artifact/mysql/mysql-connector-java --><dependency><groupId>mysql</groupId><artifactId>mysql-connector-java</artifactId><version>5.1.49</version></dependency></dependencies></plugin>
在 Maven 插件内引入后,可删除旧的生成文件后,通过命令 mvn mybatis-generate 生成新的文件。或者你也可以使用已经编写好的 make 命令,通过 make gen 来同时删除旧文件,并生成新文件。
注意
mybatis-generator.xml 中的属性 configuration.overwrite 仅可控制新生成的 Java 代码文件使用覆盖方式被写入,但 XML 映射文件仍会以追加方式写入。因此,推荐在 Mybaits Generator 生成新的文件前,先删除掉旧的文件。
Player.java 是使用 Mybatis Generator 生成出的数据实体类文件,为数据库表在程序内的映射。Player 类的每个属性都对应着 player 表的一个字段。
package com.pingcap.model;public class Player {private String id;private Integer coins;private Integer goods;public Player(String id, Integer coins, Integer goods) {this.id = id;this.coins = coins;this.goods = goods;}public Player() {super();}public String getId() {return id;}public void setId(String id) {this.id = id;}public Integer getCoins() {return coins;}public void setCoins(Integer coins) {this.coins = coins;}public Integer getGoods() {return goods;}public void setGoods(Integer goods) {this.goods = goods;}}
PlayerMapper.java 是使用 Mybatis Generator 生成出的映射接口文件,它仅规定了接口,接口的实现类是由 Mybatis 来通过 XML 或注解自动生成的:
package com.pingcap.model;import com.pingcap.model.Player;public interface PlayerMapper {int deleteByPrimaryKey(String id);int insert(Player row);int insertSelective(Player row);Player selectByPrimaryKey(String id);int updateByPrimaryKeySelective(Player row);int updateByPrimaryKey(Player row);}
PlayerMapper.xml 是使用 Mybatis Generator 生成出的映射 XML 文件,Mybatis 将使用这个文件自动生成 PlayerMapper 接口的实现类:
<?xml version="1.0" encoding="UTF-8"?><!DOCTYPE mapper PUBLIC "-//mybatis.org//DTD Mapper 3.0//EN" "http://mybatis.org/dtd/mybatis-3-mapper.dtd"><mapper namespace="com.pingcap.model.PlayerMapper"><resultMap id="BaseResultMap" type="com.pingcap.model.Player"><constructor><idArg column="id" javaType="java.lang.String" jdbcType="VARCHAR" /><arg column="coins" javaType="java.lang.Integer" jdbcType="INTEGER" /><arg column="goods" javaType="java.lang.Integer" jdbcType="INTEGER" /></constructor></resultMap><sql id="Base_Column_List">id, coins, goods</sql><select id="selectByPrimaryKey" parameterType="java.lang.String" resultMap="BaseResultMap">select<include refid="Base_Column_List" />from playerwhere id = #{id,jdbcType=VARCHAR}</select><delete id="deleteByPrimaryKey" parameterType="java.lang.String">delete from playerwhere id = #{id,jdbcType=VARCHAR}</delete><insert id="insert" parameterType="com.pingcap.model.Player">insert into player (id, coins, goods)values (#{id,jdbcType=VARCHAR}, #{coins,jdbcType=INTEGER}, #{goods,jdbcType=INTEGER})</insert><insert id="insertSelective" parameterType="com.pingcap.model.Player">insert into player<trim prefix="(" suffix=")" suffixOverrides=","><if test="id != null">id,</if><if test="coins != null">coins,</if><if test="goods != null">goods,</if></trim><trim prefix="values (" suffix=")" suffixOverrides=","><if test="id != null">#{id,jdbcType=VARCHAR},</if><if test="coins != null">#{coins,jdbcType=INTEGER},</if><if test="goods != null">#{goods,jdbcType=INTEGER},</if></trim></insert><update id="updateByPrimaryKeySelective" parameterType="com.pingcap.model.Player">update player<set><if test="coins != null">coins = #{coins,jdbcType=INTEGER},</if><if test="goods != null">goods = #{goods,jdbcType=INTEGER},</if></set>where id = #{id,jdbcType=VARCHAR}</update><update id="updateByPrimaryKey" parameterType="com.pingcap.model.Player">update playerset coins = #{coins,jdbcType=INTEGER},goods = #{goods,jdbcType=INTEGER}where id = #{id,jdbcType=VARCHAR}</update></mapper>
由于 Mybatis Generator 需要逆向生成源码,因此,数据库中需先行有此表结构,可使用 dbinit.sql 生成表结构:
USE test;DROP TABLE IF EXISTS player;CREATE TABLE player (`id` VARCHAR(36),`coins` INTEGER,`goods` INTEGER,PRIMARY KEY (`id`));
额外拆分接口 PlayerMapperEx 继承 PlayerMapper,并且编写与之匹配的 PlayerMapperEx.xml。避免直接更改 PlayerMapper.java 和 PlayerMapper.xml。这是为了规避 Mybatis Generator 的反复生成,影响到自行编写的代码。
在 PlayerMapperEx.java 中定义自行增加的接口:
package com.pingcap.model;import java.util.List;public interface PlayerMapperEx extends PlayerMapper {Player selectByPrimaryKeyWithLock(String id);List<Player> selectByLimit(Integer limit);Integer count();}
在 PlayerMapperEx.xml 中定义映射规则:
<?xml version="1.0" encoding="UTF-8"?><!DOCTYPE mapper PUBLIC "-//mybatis.org//DTD Mapper 3.0//EN" "http://mybatis.org/dtd/mybatis-3-mapper.dtd"><mapper namespace="com.pingcap.model.PlayerMapperEx"><resultMap id="BaseResultMap" type="com.pingcap.model.Player"><constructor><idArg column="id" javaType="java.lang.String" jdbcType="VARCHAR" /><arg column="coins" javaType="java.lang.Integer" jdbcType="INTEGER" /><arg column="goods" javaType="java.lang.Integer" jdbcType="INTEGER" /></constructor></resultMap><sql id="Base_Column_List">id, coins, goods</sql><select id="selectByPrimaryKeyWithLock" parameterType="java.lang.String" resultMap="BaseResultMap">select<include refid="Base_Column_List" />from playerwhere `id` = #{id,jdbcType=VARCHAR}for update</select><select id="selectByLimit" parameterType="java.lang.Integer" resultMap="BaseResultMap">select<include refid="Base_Column_List" />from playerlimit #{id,jdbcType=INTEGER}</select><select id="count" resultType="java.lang.Integer">select count(*) from player</select></mapper>
PlayerDAO.java 是程序用来管理数据对象的类。其中 DAO 是 Data Access Object 的缩写。在其中定义了一系列数据的操作方法,用于数据的写入。
package com.pingcap.dao;import com.pingcap.model.Player;import com.pingcap.model.PlayerMapperEx;import org.apache.ibatis.session.SqlSession;import org.apache.ibatis.session.SqlSessionFactory;import java.util.List;import java.util.function.Function;public class PlayerDAO {public static class NotEnoughException extends RuntimeException {public NotEnoughException(String message) {super(message);}}// Run SQL code in a way that automatically handles the// transaction retry logic, so we don't have to duplicate it in// various places.public Object runTransaction(SqlSessionFactory sessionFactory, Function<PlayerMapperEx, Object> fn) {Object resultObject = null;SqlSession session = null;try {// open a session with autoCommit is falsesession = sessionFactory.openSession(false);// get player mapperPlayerMapperEx playerMapperEx = session.getMapper(PlayerMapperEx.class);resultObject = fn.apply(playerMapperEx);session.commit();System.out.println("APP: COMMIT;");} catch (Exception e) {if (e instanceof NotEnoughException) {System.out.printf("APP: ROLLBACK BY LOGIC; \n%s\n", e.getMessage());} else {System.out.printf("APP: ROLLBACK BY ERROR; \n%s\n", e.getMessage());}if (session != null) {session.rollback();}} finally {if (session != null) {session.close();}}return resultObject;}public Function<PlayerMapperEx, Object> createPlayers(List<Player> players) {return playerMapperEx -> {Integer addedPlayerAmount = 0;for (Player player: players) {playerMapperEx.insert(player);addedPlayerAmount ++;}System.out.printf("APP: createPlayers() --> %d\n", addedPlayerAmount);return addedPlayerAmount;};}public Function<PlayerMapperEx, Object> buyGoods(String sellId, String buyId, Integer amount, Integer price) {return playerMapperEx -> {Player sellPlayer = playerMapperEx.selectByPrimaryKeyWithLock(sellId);Player buyPlayer = playerMapperEx.selectByPrimaryKeyWithLock(buyId);if (buyPlayer == null || sellPlayer == null) {throw new NotEnoughException("sell or buy player not exist");}if (buyPlayer.getCoins() < price || sellPlayer.getGoods() < amount) {throw new NotEnoughException("coins or goods not enough, rollback");}int affectRows = 0;buyPlayer.setGoods(buyPlayer.getGoods() + amount);buyPlayer.setCoins(buyPlayer.getCoins() - price);affectRows += playerMapperEx.updateByPrimaryKey(buyPlayer);sellPlayer.setGoods(sellPlayer.getGoods() - amount);sellPlayer.setCoins(sellPlayer.getCoins() + price);affectRows += playerMapperEx.updateByPrimaryKey(sellPlayer);System.out.printf("APP: buyGoods --> sell: %s, buy: %s, amount: %d, price: %d\n", sellId, buyId, amount, price);return affectRows;};}public Function<PlayerMapperEx, Object> getPlayerByID(String id) {return playerMapperEx -> playerMapperEx.selectByPrimaryKey(id);}public Function<PlayerMapperEx, Object> printPlayers(Integer limit) {return playerMapperEx -> {List<Player> players = playerMapperEx.selectByLimit(limit);for (Player player: players) {System.out.println("\n[printPlayers]:\n" + player);}return 0;};}public Function<PlayerMapperEx, Object> countPlayers() {return PlayerMapperEx::count;}}
MybatisExample 是 plain-java-mybatis 这个示例程序的主类。其中定义了入口函数:
package com.pingcap;import com.pingcap.dao.PlayerDAO;import com.pingcap.model.Player;import org.apache.ibatis.io.Resources;import org.apache.ibatis.session.SqlSessionFactory;import org.apache.ibatis.session.SqlSessionFactoryBuilder;import java.io.IOException;import java.io.InputStream;import java.util.Arrays;import java.util.Collections;public class MybatisExample {public static void main( String[] args ) throws IOException {// 1. Create a SqlSessionFactory based on our mybatis-config.xml configuration// file, which defines how to connect to the database.InputStream inputStream = Resources.getResourceAsStream("mybatis-config.xml");SqlSessionFactory sessionFactory = new SqlSessionFactoryBuilder().build(inputStream);// 2. And then, create DAO to manager your dataPlayerDAO playerDAO = new PlayerDAO();// 3. Run some simple examples.// Create a player who has 1 coin and 1 goods.playerDAO.runTransaction(sessionFactory, playerDAO.createPlayers(Collections.singletonList(new Player("test", 1, 1))));// Get a player.Player testPlayer = (Player)playerDAO.runTransaction(sessionFactory, playerDAO.getPlayerByID("test"));System.out.printf("PlayerDAO.getPlayer:\n => id: %s\n => coins: %s\n => goods: %s\n",testPlayer.getId(), testPlayer.getCoins(), testPlayer.getGoods());// Count players amount.Integer count = (Integer)playerDAO.runTransaction(sessionFactory, playerDAO.countPlayers());System.out.printf("PlayerDAO.countPlayers:\n => %d total players\n", count);// Print 3 players.playerDAO.runTransaction(sessionFactory, playerDAO.printPlayers(3));// 4. Getting further.// Player 1: id is "1", has only 100 coins.// Player 2: id is "2", has 114514 coins, and 20 goods.Player player1 = new Player("1", 100, 0);Player player2 = new Player("2", 114514, 20);// Create two players "by hand", using the INSERT statement on the backend.int addedCount = (Integer)playerDAO.runTransaction(sessionFactory,playerDAO.createPlayers(Arrays.asList(player1, player2)));System.out.printf("PlayerDAO.createPlayers:\n => %d total inserted players\n", addedCount);// Player 1 wants to buy 10 goods from player 2.// It will cost 500 coins, but player 1 cannot afford it.System.out.println("\nPlayerDAO.buyGoods:\n => this trade will fail");Integer updatedCount = (Integer)playerDAO.runTransaction(sessionFactory,playerDAO.buyGoods(player2.getId(), player1.getId(), 10, 500));System.out.printf("PlayerDAO.buyGoods:\n => %d total update players\n", updatedCount);// So player 1 has to reduce the incoming quantity to two.System.out.println("\nPlayerDAO.buyGoods:\n => this trade will success");updatedCount = (Integer)playerDAO.runTransaction(sessionFactory,playerDAO.buyGoods(player2.getId(), player1.getId(), 2, 100));System.out.printf("PlayerDAO.buyGoods:\n => %d total update players\n", updatedCount);}}
当前开源比较流行的 Java ORM 为 Hibernate,且 Hibernate 在版本 6.0.0.Beta2 及以后支持了 TiDB 方言。完美适配了 TiDB 的特性。因此,此处将以 6.0.0.Beta2 + 版本进行说明。
进入目录 plain-java-hibernate :
cd plain-java-hibernate
目录结构如下所示:
.├── Makefile├── plain-java-hibernate.iml├── pom.xml└── src└── main├── java│ └── com│ └── pingcap│ └── HibernateExample.java└── resources└── hibernate.cfg.xml
其中,hibernate.cfg.xml 为 Hibernate 配置文件,定义了:
<?xml version='1.0' encoding='utf-8'?><!DOCTYPE hibernate-configuration PUBLIC"-//Hibernate/Hibernate Configuration DTD 3.0//EN""http://www.hibernate.org/dtd/hibernate-configuration-3.0.dtd"><hibernate-configuration><session-factory><!-- Database connection settings --><property name="hibernate.connection.driver_class">com.mysql.cj.jdbc.Driver</property><property name="hibernate.dialect">org.hibernate.dialect.TiDBDialect</property><property name="hibernate.connection.url">jdbc:mysql://localhost:4000/test</property><property name="hibernate.connection.username">root</property><property name="hibernate.connection.password"></property><property name="hibernate.connection.autocommit">false</property><!-- Required so a table can be created from the 'PlayerDAO' class --><property name="hibernate.hbm2ddl.auto">create-drop</property><!-- Optional: Show SQL output for debugging --><property name="hibernate.show_sql">true</property><property name="hibernate.format_sql">true</property></session-factory></hibernate-configuration>
HibernateExample.java 是 plain-java-hibernate 这个示例程序的主体。使用 Hibernate 时,相较于 JDBC,这里仅需写入配置文件地址,Hibernate 屏蔽了创建数据库连接时,不同数据库差异的细节。
PlayerDAO 是程序用来管理数据对象的类。其中 DAO 是 Data Access Object 的缩写。其中定义了一系列数据的操作方法,用来提供数据的写入能力。相较于 JDBC,Hibernate 封装了大量的操作,如对象映射、基本对象的 CRUD 等,极大的简化了代码量。
PlayerBean 是数据实体类,为数据库表在程序内的映射。PlayerBean 的每个属性都对应着 player 表的一个字段。相较于 JDBC,Hibernate 的 PlayerBean 实体类为了给 Hibernate 提供更多的信息,加入了注解,用来指示映射关系。
package com.pingcap;import jakarta.persistence.Column;import jakarta.persistence.Entity;import jakarta.persistence.Id;import jakarta.persistence.Table;import org.hibernate.JDBCException;import org.hibernate.Session;import org.hibernate.SessionFactory;import org.hibernate.Transaction;import org.hibernate.cfg.Configuration;import org.hibernate.query.NativeQuery;import org.hibernate.query.Query;import java.util.Arrays;import java.util.Collections;import java.util.List;import java.util.function.Function;@Entity@Table(name = "player_hibernate")class PlayerBean {@Idprivate String id;@Column(name = "coins")private Integer coins;@Column(name = "goods")private Integer goods;public PlayerBean() {}public PlayerBean(String id, Integer coins, Integer goods) {this.id = id;this.coins = coins;this.goods = goods;}public String getId() {return id;}public void setId(String id) {this.id = id;}public Integer getCoins() {return coins;}public void setCoins(Integer coins) {this.coins = coins;}public Integer getGoods() {return goods;}public void setGoods(Integer goods) {this.goods = goods;}@Overridepublic String toString() {return String.format(" %-8s => %10s\n %-8s => %10s\n %-8s => %10s\n","id", this.id, "coins", this.coins, "goods", this.goods);}}/*** Main class for the basic Hibernate example.**/public class HibernateExample{public static class PlayerDAO {public static class NotEnoughException extends RuntimeException {public NotEnoughException(String message) {super(message);}}// Run SQL code in a way that automatically handles the// transaction retry logic so we don't have to duplicate it in// various places.public Object runTransaction(Session session, Function<Session, Object> fn) {Object resultObject = null;Transaction txn = session.beginTransaction();try {resultObject = fn.apply(session);txn.commit();System.out.println("APP: COMMIT;");} catch (JDBCException e) {System.out.println("APP: ROLLBACK BY JDBC ERROR;");txn.rollback();} catch (NotEnoughException e) {System.out.printf("APP: ROLLBACK BY LOGIC; %s", e.getMessage());txn.rollback();}return resultObject;}public Function<Session, Object> createPlayers(List<PlayerBean> players) throws JDBCException {return session -> {Integer addedPlayerAmount = 0;for (PlayerBean player: players) {session.persist(player);addedPlayerAmount ++;}System.out.printf("APP: createPlayers() --> %d\n", addedPlayerAmount);return addedPlayerAmount;};}public Function<Session, Object> buyGoods(String sellId, String buyId, Integer amount, Integer price) throws JDBCException {return session -> {PlayerBean sellPlayer = session.get(PlayerBean.class, sellId);PlayerBean buyPlayer = session.get(PlayerBean.class, buyId);if (buyPlayer == null || sellPlayer == null) {throw new NotEnoughException("sell or buy player not exist");}if (buyPlayer.getCoins() < price || sellPlayer.getGoods() < amount) {throw new NotEnoughException("coins or goods not enough, rollback");}buyPlayer.setGoods(buyPlayer.getGoods() + amount);buyPlayer.setCoins(buyPlayer.getCoins() - price);session.persist(buyPlayer);sellPlayer.setGoods(sellPlayer.getGoods() - amount);sellPlayer.setCoins(sellPlayer.getCoins() + price);session.persist(sellPlayer);System.out.printf("APP: buyGoods --> sell: %s, buy: %s, amount: %d, price: %d\n", sellId, buyId, amount, price);return 0;};}public Function<Session, Object> getPlayerByID(String id) throws JDBCException {return session -> session.get(PlayerBean.class, id);}public Function<Session, Object> printPlayers(Integer limit) throws JDBCException {return session -> {NativeQuery<PlayerBean> limitQuery = session.createNativeQuery("SELECT * FROM player_hibernate LIMIT :limit", PlayerBean.class);limitQuery.setParameter("limit", limit);List<PlayerBean> players = limitQuery.getResultList();for (PlayerBean player: players) {System.out.println("\n[printPlayers]:\n" + player);}return 0;};}public Function<Session, Object> countPlayers() throws JDBCException {return session -> {Query<Long> countQuery = session.createQuery("SELECT count(player_hibernate) FROM PlayerBean player_hibernate", Long.class);return countQuery.getSingleResult();};}}public static void main(String[] args) {// 1. Create a SessionFactory based on our hibernate.cfg.xml configuration// file, which defines how to connect to the database.SessionFactory sessionFactory= new Configuration().configure("hibernate.cfg.xml").addAnnotatedClass(PlayerBean.class).buildSessionFactory();try (Session session = sessionFactory.openSession()) {// 2. And then, create DAO to manager your data.PlayerDAO playerDAO = new PlayerDAO();// 3. Run some simple examples.// Create a player who has 1 coin and 1 goods.playerDAO.runTransaction(session, playerDAO.createPlayers(Collections.singletonList(new PlayerBean("test", 1, 1))));// Get a player.PlayerBean testPlayer = (PlayerBean)playerDAO.runTransaction(session, playerDAO.getPlayerByID("test"));System.out.printf("PlayerDAO.getPlayer:\n => id: %s\n => coins: %s\n => goods: %s\n",testPlayer.getId(), testPlayer.getCoins(), testPlayer.getGoods());// Count players amount.Long count = (Long)playerDAO.runTransaction(session, playerDAO.countPlayers());System.out.printf("PlayerDAO.countPlayers:\n => %d total players\n", count);// Print 3 players.playerDAO.runTransaction(session, playerDAO.printPlayers(3));// 4. Explore more.// Player 1: id is "1", has only 100 coins.// Player 2: id is "2", has 114514 coins, and 20 goods.PlayerBean player1 = new PlayerBean("1", 100, 0);PlayerBean player2 = new PlayerBean("2", 114514, 20);// Create two players "by hand", using the INSERT statement on the backend.int addedCount = (Integer)playerDAO.runTransaction(session,playerDAO.createPlayers(Arrays.asList(player1, player2)));System.out.printf("PlayerDAO.createPlayers:\n => %d total inserted players\n", addedCount);// Player 1 wants to buy 10 goods from player 2.// It will cost 500 coins, but player 1 cannot afford it.System.out.println("\nPlayerDAO.buyGoods:\n => this trade will fail");Integer updatedCount = (Integer)playerDAO.runTransaction(session,playerDAO.buyGoods(player2.getId(), player1.getId(), 10, 500));System.out.printf("PlayerDAO.buyGoods:\n => %d total update players\n", updatedCount);// So player 1 has to reduce the incoming quantity to two.System.out.println("\nPlayerDAO.buyGoods:\n => this trade will success");updatedCount = (Integer)playerDAO.runTransaction(session,playerDAO.buyGoods(player2.getId(), player1.getId(), 2, 100));System.out.printf("PlayerDAO.buyGoods:\n => %d total update players\n", updatedCount);} finally {sessionFactory.close();}}}
进入目录 plain-java-jdbc:
cd plain-java-jdbc
目录结构如下所示:
.├── Makefile├── plain-java-jdbc.iml├── pom.xml└── src└── main├── java│ └── com│ └── pingcap│ └── JDBCExample.java└── resources└── dbinit.sql
其中,dbinit.sql 为数据表初始化语句:
USE test;DROP TABLE IF EXISTS player;CREATE TABLE player (`id` VARCHAR(36),`coins` INTEGER,`goods` INTEGER,PRIMARY KEY (`id`));
JDBCExample.java 是 plain-java-jdbc 这个示例程序的主体。因为 TiDB 与 MySQL 协议兼容,因此,需要初始化一个 MySQL 协议的数据源 MysqlDataSource,以此连接到 TiDB。并在其后,初始化 PlayerDAO,用来管理数据对象,进行增删改查等操作。
PlayerDAO 是程序用来管理数据对象的类。其中 DAO 是 Data Access Object 的缩写。在其中定义了一系列数据的操作方法,用来对提供数据的写入能力。
PlayerBean 是数据实体类,为数据库表在程序内的映射。PlayerBean 的每个属性都对应着 player 表的一个字段。
package com.pingcap;import com.mysql.cj.jdbc.MysqlDataSource;import java.sql.Connection;import java.sql.PreparedStatement;import java.sql.ResultSet;import java.sql.SQLException;import java.util.*;/*** Main class for the basic JDBC example.**/public class JDBCExample{public static class PlayerBean {private String id;private Integer coins;private Integer goods;public PlayerBean() {}public PlayerBean(String id, Integer coins, Integer goods) {this.id = id;this.coins = coins;this.goods = goods;}public String getId() {return id;}public void setId(String id) {this.id = id;}public Integer getCoins() {return coins;}public void setCoins(Integer coins) {this.coins = coins;}public Integer getGoods() {return goods;}public void setGoods(Integer goods) {this.goods = goods;}@Overridepublic String toString() {return String.format(" %-8s => %10s\n %-8s => %10s\n %-8s => %10s\n","id", this.id, "coins", this.coins, "goods", this.goods);}}/*** Data access object used by 'ExampleDataSource'.* Example for CURD and bulk insert.*/public static class PlayerDAO {private final MysqlDataSource ds;private final Random rand = new Random();PlayerDAO(MysqlDataSource ds) {this.ds = ds;}/*** Create players by passing in a List of PlayerBean.** @param players Will create players list* @return The number of create accounts*/public int createPlayers(List<PlayerBean> players){int rows = 0;Connection connection = null;PreparedStatement preparedStatement = null;try {connection = ds.getConnection();preparedStatement = connection.prepareStatement("INSERT INTO player (id, coins, goods) VALUES (?, ?, ?)");} catch (SQLException e) {System.out.printf("[createPlayers] ERROR: { state => %s, cause => %s, message => %s }\n",e.getSQLState(), e.getCause(), e.getMessage());e.printStackTrace();return -1;}try {for (PlayerBean player : players) {preparedStatement.setString(1, player.getId());preparedStatement.setInt(2, player.getCoins());preparedStatement.setInt(3, player.getGoods());preparedStatement.execute();rows += preparedStatement.getUpdateCount();}} catch (SQLException e) {System.out.printf("[createPlayers] ERROR: { state => %s, cause => %s, message => %s }\n",e.getSQLState(), e.getCause(), e.getMessage());e.printStackTrace();} finally {try {connection.close();} catch (SQLException e) {e.printStackTrace();}}System.out.printf("\n[createPlayers]:\n '%s'\n", preparedStatement);return rows;}/*** Buy goods and transfer funds between one player and another in one transaction.* @param sellId Sell player id.* @param buyId Buy player id.* @param amount Goods amount, if sell player has not enough goods, the trade will break.* @param price Price should pay, if buy player has not enough coins, the trade will break.** @return The number of effected players.*/public int buyGoods(String sellId, String buyId, Integer amount, Integer price) {int effectPlayers = 0;Connection connection = null;try {connection = ds.getConnection();} catch (SQLException e) {System.out.printf("[buyGoods] ERROR: { state => %s, cause => %s, message => %s }\n",e.getSQLState(), e.getCause(), e.getMessage());e.printStackTrace();return effectPlayers;}try {connection.setAutoCommit(false);PreparedStatement playerQuery = connection.prepareStatement("SELECT * FROM player WHERE id=? OR id=? FOR UPDATE");playerQuery.setString(1, sellId);playerQuery.setString(2, buyId);playerQuery.execute();PlayerBean sellPlayer = null;PlayerBean buyPlayer = null;ResultSet playerQueryResultSet = playerQuery.getResultSet();while (playerQueryResultSet.next()) {PlayerBean player = new PlayerBean(playerQueryResultSet.getString("id"),playerQueryResultSet.getInt("coins"),playerQueryResultSet.getInt("goods"));System.out.println("\n[buyGoods]:\n 'check goods and coins enough'");System.out.println(player);if (sellId.equals(player.getId())) {sellPlayer = player;} else {buyPlayer = player;}}if (sellPlayer == null || buyPlayer == null) {throw new SQLException("player not exist.");}if (sellPlayer.getGoods().compareTo(amount) < 0) {throw new SQLException(String.format("sell player %s goods not enough.", sellId));}if (buyPlayer.getCoins().compareTo(price) < 0) {throw new SQLException(String.format("buy player %s coins not enough.", buyId));}PreparedStatement transfer = connection.prepareStatement("UPDATE player set goods = goods + ?, coins = coins + ? WHERE id=?");transfer.setInt(1, -amount);transfer.setInt(2, price);transfer.setString(3, sellId);transfer.execute();effectPlayers += transfer.getUpdateCount();transfer.setInt(1, amount);transfer.setInt(2, -price);transfer.setString(3, buyId);transfer.execute();effectPlayers += transfer.getUpdateCount();connection.commit();System.out.println("\n[buyGoods]:\n 'trade success'");} catch (SQLException e) {System.out.printf("[buyGoods] ERROR: { state => %s, cause => %s, message => %s }\n",e.getSQLState(), e.getCause(), e.getMessage());try {System.out.println("[buyGoods] Rollback");connection.rollback();} catch (SQLException ex) {// do nothing}} finally {try {connection.close();} catch (SQLException e) {// do nothing}}return effectPlayers;}/*** Get the player info by id.** @param id Player id.* @return The player of this id.*/public PlayerBean getPlayer(String id) {PlayerBean player = null;try (Connection connection = ds.getConnection()) {PreparedStatement preparedStatement = connection.prepareStatement("SELECT * FROM player WHERE id = ?");preparedStatement.setString(1, id);preparedStatement.execute();ResultSet res = preparedStatement.executeQuery();if(!res.next()) {System.out.printf("No players in the table with id %s", id);} else {player = new PlayerBean(res.getString("id"), res.getInt("coins"), res.getInt("goods"));}} catch (SQLException e) {System.out.printf("PlayerDAO.getPlayer ERROR: { state => %s, cause => %s, message => %s }\n",e.getSQLState(), e.getCause(), e.getMessage());}return player;}/*** Insert randomized account data (id, coins, goods) using the JDBC fast path for* bulk inserts. The fastest way to get data into TiDB is using the* TiDB Lightning(https://docs.pingcap.com/tidb/stable/tidb-lightning-overview).* However, if you must bulk insert from the application using INSERT SQL, the best* option is the method shown here. It will require the following:** Add `rewriteBatchedStatements=true` to your JDBC connection settings.* Setting rewriteBatchedStatements to true now causes CallableStatements* with batched arguments to be re-written in the form "CALL (...); CALL (...); ..."* to send the batch in as few client/server round trips as possible.* https://dev.mysql.com/doc/relnotes/connector-j/5.1/en/news-5-1-3.html** You can see the `rewriteBatchedStatements` param effect logic at* implement function: `com.mysql.cj.jdbc.StatementImpl.executeBatchUsingMultiQueries`** @param total Add players amount.* @param batchSize Bulk insert size for per batch.** @return The number of new accounts inserted.*/public int bulkInsertRandomPlayers(Integer total, Integer batchSize) {int totalNewPlayers = 0;try (Connection connection = ds.getConnection()) {// We're managing the commit lifecycle ourselves, so we can// control the size of our batch inserts.connection.setAutoCommit(false);// In this example we are adding 500 rows to the database,// but it could be any number. What's important is that// the batch size is 128.try (PreparedStatement pstmt = connection.prepareStatement("INSERT INTO player (id, coins, goods) VALUES (?, ?, ?)")) {for (int i=0; i<=(total/batchSize);i++) {for (int j=0; j<batchSize; j++) {String id = UUID.randomUUID().toString();pstmt.setString(1, id);pstmt.setInt(2, rand.nextInt(10000));pstmt.setInt(3, rand.nextInt(10000));pstmt.addBatch();}int[] count = pstmt.executeBatch();totalNewPlayers += count.length;System.out.printf("\nPlayerDAO.bulkInsertRandomPlayers:\n '%s'\n", pstmt);System.out.printf(" => %s row(s) updated in this batch\n", count.length);}connection.commit();} catch (SQLException e) {System.out.printf("PlayerDAO.bulkInsertRandomPlayers ERROR: { state => %s, cause => %s, message => %s }\n",e.getSQLState(), e.getCause(), e.getMessage());}} catch (SQLException e) {System.out.printf("PlayerDAO.bulkInsertRandomPlayers ERROR: { state => %s, cause => %s, message => %s }\n",e.getSQLState(), e.getCause(), e.getMessage());}return totalNewPlayers;}/*** Print a subset of players from the data store by limit.** @param limit Print max size.*/public void printPlayers(Integer limit) {try (Connection connection = ds.getConnection()) {PreparedStatement preparedStatement = connection.prepareStatement("SELECT * FROM player LIMIT ?");preparedStatement.setInt(1, limit);preparedStatement.execute();ResultSet res = preparedStatement.executeQuery();while (!res.next()) {PlayerBean player = new PlayerBean(res.getString("id"),res.getInt("coins"), res.getInt("goods"));System.out.println("\n[printPlayers]:\n" + player);}} catch (SQLException e) {System.out.printf("PlayerDAO.printPlayers ERROR: { state => %s, cause => %s, message => %s }\n",e.getSQLState(), e.getCause(), e.getMessage());}}/*** Count players from the data store.** @return All players count*/public int countPlayers() {int count = 0;try (Connection connection = ds.getConnection()) {PreparedStatement preparedStatement = connection.prepareStatement("SELECT count(*) FROM player");preparedStatement.execute();ResultSet res = preparedStatement.executeQuery();if(res.next()) {count = res.getInt(1);}} catch (SQLException e) {System.out.printf("PlayerDAO.countPlayers ERROR: { state => %s, cause => %s, message => %s }\n",e.getSQLState(), e.getCause(), e.getMessage());}return count;}}public static void main(String[] args) {// 1. Configure the example database connection.// 1.1 Create a mysql data source instance.MysqlDataSource mysqlDataSource = new MysqlDataSource();// 1.2 Set server name, port, database name, username and password.mysqlDataSource.setServerName("localhost");mysqlDataSource.setPortNumber(4000);mysqlDataSource.setDatabaseName("test");mysqlDataSource.setUser("root");mysqlDataSource.setPassword("");// Or you can use jdbc string instead.// mysqlDataSource.setURL("jdbc:mysql://{host}:{port}/test?user={user}&password={password}");// 2. And then, create DAO to manager your data.PlayerDAO dao = new PlayerDAO(mysqlDataSource);// 3. Run some simple examples.// Create a player, who has a coin and a goods..dao.createPlayers(Collections.singletonList(new PlayerBean("test", 1, 1)));// Get a player.PlayerBean testPlayer = dao.getPlayer("test");System.out.printf("PlayerDAO.getPlayer:\n => id: %s\n => coins: %s\n => goods: %s\n",testPlayer.getId(), testPlayer.getCoins(), testPlayer.getGoods());// Create players with bulk inserts. Insert 1919 players totally, with 114 players per batch.int addedCount = dao.bulkInsertRandomPlayers(1919, 114);System.out.printf("PlayerDAO.bulkInsertRandomPlayers:\n => %d total inserted players\n", addedCount);// Count players amount.int count = dao.countPlayers();System.out.printf("PlayerDAO.countPlayers:\n => %d total players\n", count);// Print 3 players.dao.printPlayers(3);// 4. Explore more.// Player 1: id is "1", has only 100 coins.// Player 2: id is "2", has 114514 coins, and 20 goods.PlayerBean player1 = new PlayerBean("1", 100, 0);PlayerBean player2 = new PlayerBean("2", 114514, 20);// Create two players "by hand", using the INSERT statement on the backend.addedCount = dao.createPlayers(Arrays.asList(player1, player2));System.out.printf("PlayerDAO.createPlayers:\n => %d total inserted players\n", addedCount);// Player 1 wants to buy 10 goods from player 2.// It will cost 500 coins, but player 1 cannot afford it.System.out.println("\nPlayerDAO.buyGoods:\n => this trade will fail");int updatedCount = dao.buyGoods(player2.getId(), player1.getId(), 10, 500);System.out.printf("PlayerDAO.buyGoods:\n => %d total update players\n", updatedCount);// So player 1 has to reduce the incoming quantity to two.System.out.println("\nPlayerDAO.buyGoods:\n => this trade will success");updatedCount = dao.buyGoods(player2.getId(), player1.getId(), 2, 100);System.out.printf("PlayerDAO.buyGoods:\n => %d total update players\n", updatedCount);}}
第 3 步:运行代码
本节将逐步介绍代码的运行方法。
第 3 步第 1 部分:JDBC 表初始化
- 使用 Mybatis(推荐)
- 使用 Hibernate(推荐)
- 使用 JDBC
小贴士
在 Gitpod Playground 中尝试 Mybatis:现在就试试
使用 Mybatis 时,需手动初始化数据库表。若你本地已经安装了 mysql-client,且使用本地集群,可直接在 plain-java-mybatis 目录下通过 make prepare 运行:
make prepare
或直接执行:
mysql --host 127.0.0.1 --port 4000 -u root < src/main/resources/dbinit.sql
若你不使用本地集群,或未安装 mysql-client,请直接登录你的集群,并运行 src/main/resources/dbinit.sql 文件内的 SQL 语句。
小贴士
在 Gitpod Playground 中尝试 Hibernate:现在就试试
无需手动初始化表。
小贴士
在 Gitpod Playground 中尝试 JDBC:现在就试试
使用 JDBC 时,需手动初始化数据库表,若你本地已经安装了 mysql-client,且使用本地集群,可直接在 plain-java-jdbc 目录下运行:
make mysql
或直接执行:
mysql --host 127.0.0.1 --port 4000 -u root<src/main/resources/dbinit.sql
若你不使用本地集群,或未安装 mysql-client,请直接登录你的集群,并运行 src/main/resources/dbinit.sql 文件内的 SQL 语句。
第 3 步第 2 部分:TiDB Cloud 更改参数
- 使用 Mybatis(推荐)
- 使用 Hibernate(推荐)
- 使用 JDBC
若你使用 TiDB Cloud Serverless Tier 集群,更改 mybatis-config.xml 内关于 dataSource.url、dataSource.username、dataSource.password 的参数:
<?xml version="1.0" encoding="UTF-8" ?><!DOCTYPE configurationPUBLIC "-//mybatis.org//DTD Config 3.0//EN""http://mybatis.org/dtd/mybatis-3-config.dtd"><configuration><settings><setting name="cacheEnabled" value="true"/><setting name="lazyLoadingEnabled" value="false"/><setting name="aggressiveLazyLoading" value="true"/><setting name="logImpl" value="LOG4J"/></settings><typeAliases><package name="com.pingcap.dao"/></typeAliases><environments default="development"><environment id="development"><!-- JDBC transaction manager --><transactionManager type="JDBC"/><!-- Database pool --><dataSource type="POOLED"><property name="driver" value="com.mysql.jdbc.Driver"/><property name="url" value="jdbc:mysql://127.0.0.1:4000/test"/><property name="username" value="root"/><property name="password" value=""/></dataSource></environment></environments><mappers><mapper resource="mapper/PlayerMapper.xml"/><mapper resource="mapper/PlayerMapperEx.xml"/></mappers></configuration>
若你设定的密码为 123456,而且从 TiDB Cloud Serverless Tier 集群面板中得到的连接信息为:
- Endpoint:
xxx.tidbcloud.com - Port:
4000 - User:
2aEp24QWEDLqRFs.root
那么此处应将配置文件中 dataSource 节点内更改为:
<?xml version="1.0" encoding="UTF-8" ?><!DOCTYPE configurationPUBLIC "-//mybatis.org//DTD Config 3.0//EN""http://mybatis.org/dtd/mybatis-3-config.dtd">...<!-- Database pool --><dataSource type="POOLED"><property name="driver" value="com.mysql.jdbc.Driver"/><property name="url" value="jdbc:mysql://xxx.tidbcloud.com:4000/test?sslMode=VERIFY_IDENTITY&enabledTLSProtocols=TLSv1.2,TLSv1.3"/><property name="username" value="2aEp24QWEDLqRFs.root"/><property name="password" value="123456"/></dataSource>...</configuration>
若你使用 TiDB Cloud Serverless Tier 集群,更改 hibernate.cfg.xml 内关于 hibernate.connection.url、hibernate.connection.username、hibernate.connection.password 的参数:
<?xml version='1.0' encoding='utf-8'?><!DOCTYPE hibernate-configuration PUBLIC"-//Hibernate/Hibernate Configuration DTD 3.0//EN""http://www.hibernate.org/dtd/hibernate-configuration-3.0.dtd"><hibernate-configuration><session-factory><!-- Database connection settings --><property name="hibernate.connection.driver_class">com.mysql.cj.jdbc.Driver</property><property name="hibernate.dialect">org.hibernate.dialect.TiDBDialect</property><property name="hibernate.connection.url">jdbc:mysql://localhost:4000/test</property><property name="hibernate.connection.username">root</property><property name="hibernate.connection.password"></property><property name="hibernate.connection.autocommit">false</property><!-- Required so a table can be created from the 'PlayerDAO' class --><property name="hibernate.hbm2ddl.auto">create-drop</property><!-- Optional: Show SQL output for debugging --><property name="hibernate.show_sql">true</property><property name="hibernate.format_sql">true</property></session-factory></hibernate-configuration>
若你设定的密码为 123456,而且从 TiDB Cloud Serverless Tier 集群面板中得到的连接信息为:
- Endpoint:
xxx.tidbcloud.com - Port:
4000 - User:
2aEp24QWEDLqRFs.root
那么此处应将配置文件更改为:
<?xml version='1.0' encoding='utf-8'?><!DOCTYPE hibernate-configuration PUBLIC"-//Hibernate/Hibernate Configuration DTD 3.0//EN""http://www.hibernate.org/dtd/hibernate-configuration-3.0.dtd"><hibernate-configuration><session-factory><!-- Database connection settings --><property name="hibernate.connection.driver_class">com.mysql.cj.jdbc.Driver</property><property name="hibernate.dialect">org.hibernate.dialect.TiDBDialect</property><property name="hibernate.connection.url">jdbc:mysql://xxx.tidbcloud.com:4000/test?sslMode=VERIFY_IDENTITY&enabledTLSProtocols=TLSv1.2,TLSv1.3</property><property name="hibernate.connection.username">2aEp24QWEDLqRFs.root</property><property name="hibernate.connection.password">123456</property><property name="hibernate.connection.autocommit">false</property><!-- Required so a table can be created from the 'PlayerDAO' class --><property name="hibernate.hbm2ddl.auto">create-drop</property><!-- Optional: Show SQL output for debugging --><property name="hibernate.show_sql">true</property><property name="hibernate.format_sql">true</property></session-factory></hibernate-configuration>
若你使用 TiDB Cloud Serverless Tier 集群,更改 JDBCExample.java 内关于 Host、Port、User、Password 的参数:
mysqlDataSource.setServerName("localhost");mysqlDataSource.setPortNumber(4000);mysqlDataSource.setDatabaseName("test");mysqlDataSource.setUser("root");mysqlDataSource.setPassword("");
若你设定的密码为 123456,而且从 TiDB Cloud Serverless Tier 集群面板中得到的连接信息为:
- Endpoint:
xxx.tidbcloud.com - Port:
4000 - User:
2aEp24QWEDLqRFs.root
那么此处应将参数更改为:
mysqlDataSource.setServerName("xxx.tidbcloud.com");mysqlDataSource.setPortNumber(4000);mysqlDataSource.setDatabaseName("test");mysqlDataSource.setUser("2aEp24QWEDLqRFs.root");mysqlDataSource.setPassword("123456");mysqlDataSource.setSslMode(PropertyDefinitions.SslMode.VERIFY_IDENTITY.name());mysqlDataSource.setEnabledTLSProtocols("TLSv1.2,TLSv1.3");
第 3 步第 3 部分:运行
- 使用 Mybatis(推荐)
- 使用 Hibernate(推荐)
- 使用 JDBC
运行 make,这是以下四个操作的组合:
创建表 (
make prepare):mysql --host 127.0.0.1 --port 4000 -u root < src/main/resources/dbinit.sqlmysql --host 127.0.0.1 --port 4000 -u root -e "TRUNCATE test.player"
清理并构建 (
make gen):rm -f src/main/java/com/pingcap/model/Player.javarm -f src/main/java/com/pingcap/model/PlayerMapper.javarm -f src/main/resources/mapper/PlayerMapper.xmlmvn mybatis-generator:generate
清理并构建 (
make build):mvn clean package运行 (
make run):java -jar target/plain-java-mybatis-0.0.1-jar-with-dependencies.jar
你也可以单独运行这四个 make 命令或原生命令。
运行 make,这是以下两个操作的组合:
- 清理并构建 (make build):
mvn clean package - 运行 (make run):
java -jar target/plain-java-hibernate-0.0.1-jar-with-dependencies.jar
你也可以单独运行这两个 make 命令或原生命令。
运行 make,这是以下两个操作的组合:
- 清理并构建 (make build):
mvn clean package - 运行 (make run):
java -jar target/plain-java-jdbc-0.0.1-jar-with-dependencies.jar
你也可以单独运行这两个 make 命令或原生命令。
第 4 步:预期输出
- 使用 Mybatis(推荐)
- 使用 Hibernate(推荐)
- 使用 JDBC
