前言

本文讲解 Spring Boot2 基础下,如何使用 Kotlin,并无缝整合与完美交融。为了让读者更加熟悉 Kotlin 的语法糖,笔者会在未来的几篇文章中,聊聊 Kotlin 的新特性及其语法糖。下面话不多说了,来一起看看详细的介绍吧

环境依赖

修改 POM 文件,添加 spring boot 依赖。

<parent>
 <groupId>org.springframework.boot</groupId>
 <artifactId>spring-boot-starter-parent</artifactId>
 <version>2.0.2.RELEASE</version>
 <relativePath/>
</parent>
<dependencies>
 <dependency>
 <groupId>org.springframework.boot</groupId>
 <artifactId>spring-boot-starter</artifactId>
 </dependency>
 <dependency>
 <groupId>org.springframework.boot</groupId>
 <artifactId>spring-boot-starter-web</artifactId>
 </dependency>
 <dependency>
 <groupId>org.springframework.boot</groupId>
 <artifactId>spring-boot-starter-jdbc</artifactId>
 </dependency>
</dependencies>

紧接着,我们需要添加 mysql 依赖。

<dependency>
 <groupId>mysql</groupId>
 <artifactId>mysql-connector-java</artifactId>
 <version>5.1.35</version>
</dependency>
<dependency>
 <groupId>com.alibaba</groupId>
 <artifactId>druid</artifactId>
 <version>1.0.14</version>
</dependency>

最后,添加 Kotlin 依赖。

<dependency>
 <groupId>org.jetbrains.kotlin</groupId>
 <artifactId>kotlin-stdlib-jdk8</artifactId>
</dependency>
<dependency>
 <groupId>org.jetbrains.kotlin</groupId>
 <artifactId>kotlin-reflect</artifactId>
</dependency>
<dependency>
 <groupId>org.jetbrains.kotlin</groupId>
 <artifactId>kotlin-stdlib</artifactId>
</dependency>

注意的是,在 Kotlin 中,data class 默认没有无参构造方法,并且 data class 默认为 final 类型,不可以被继承。注意的是,如果我们使用 Spring + Kotlin 的模式,那么使用 @autowared 就可能遇到这个问题。因此,我们可以添加 NoArg 为标注的类生成无参构造方法。使用 AllOpen 为被标注的类去掉 final,允许被继承。

<plugin>
 <artifactId>kotlin-maven-plugin</artifactId>
 <groupId>org.jetbrains.kotlin</groupId>
 <version>${kotlin.version}</version>
 <executions>
 <execution>
 <id>compile</id>
 <goals> <goal>compile</goal> </goals>
 </execution>
 <execution>
 <id>test-compile</id>
 <goals> <goal>test-compile</goal> </goals>
 </execution>
 </executions>
 <dependencies>
 <dependency>
 <groupId>org.jetbrains.kotlin</groupId>
 <artifactId>kotlin-maven-noarg</artifactId>
 <version>${kotlin.version}</version>
 </dependency>
 <dependency>
 <groupId>org.jetbrains.kotlin</groupId>
 <artifactId>kotlin-maven-allopen</artifactId>
 <version>${kotlin.version}</version>
 </dependency>
 </dependencies>
</plugin>

至此,我们 Maven 的依赖环境大致配置完毕。完整的源码,可以参见文末 GitHub 仓库。

数据源

方案一 使用 Spring Boot 默认配置

使用 Spring Boot 默认配置,不需要在创建 dataSource 和 jdbcTemplate 的 Bean。

在 src/main/resources/application.properties 中配置数据源信息。

spring.datasource.driver-class-name=com.mysql.jdbc.Driver
spring.datasource.url=jdbc:mysql://localhost:3307/springboot_db
spring.datasource.username=root
spring.datasource.password=root

方案二 手动创建

在 src/main/resources/config/source.properties 中配置数据源信息。

# mysql
source.driverClassName = com.mysql.jdbc.Driver
source.url = jdbc:mysql://localhost:3306/springboot_db
source.username = root
source.password = root

这里, 创建 dataSource 和jdbcTemplate。

@Configuration
@EnableTransactionManagement
@PropertySource(value = *arrayOf("classpath:config/source.properties"))
open class BeanConfig {

 @Autowired
 private lateinit var env: Environment

 @Bean
 open fun dataSource(): DataSource {
 val dataSource = DruidDataSource()
 dataSource.driverClassName = env!!.getProperty("source.driverClassName").trim()
 dataSource.url = env.getProperty("source.url").trim()
 dataSource.username = env.getProperty("source.username").trim()
 dataSource.password = env.getProperty("source.password").trim()
 return dataSource
 }

 @Bean
 open fun jdbcTemplate(): JdbcTemplate {
 val jdbcTemplate = JdbcTemplate()
 jdbcTemplate.dataSource = dataSource()
 return jdbcTemplate
 }
}

脚本初始化

先初始化需要用到的 SQL 脚本。

CREATE DATABASE /*!32312 IF NOT EXISTS*/`springboot_db` /*!40100 DEFAULT CHARACTER SET utf8 */;

USE `springboot_db`;

DROP TABLE IF EXISTS `t_author`;

CREATE TABLE `t_author` (
 `id` bigint(20) unsigned NOT NULL AUTO_INCREMENT COMMENT '用户ID',
 `real_name` varchar(32) NOT NULL COMMENT '用户名称',
 `nick_name` varchar(32) NOT NULL COMMENT '用户匿名',
 PRIMARY KEY (`id`)
) ENGINE=InnoDB AUTO_INCREMENT=1 DEFAULT CHARSET=utf8;

使用 JdbcTemplate 操作

实体对象

class Author {
 var id: Long? = null
 var realName: String? = null
 var nickName: String? = null
}

DAO相关

interface AuthorDao {
 fun add(author: Author): Int
 fun update(author: Author): Int
 fun delete(id: Long): Int
 fun findAuthor(id: Long): Author?
 fun findAuthorList(): List<Author>
}

我们来定义实现类,通过 JdbcTemplate 定义的数据访问操作。

@Repository
open class AuthorDaoImpl : AuthorDao {

 @Autowired
 private lateinit var jdbcTemplate: JdbcTemplate

 override fun add(author: Author): Int {
 return jdbcTemplate.update("insert into t_author(real_name, nick_name) values(?, ?)",
 author.realName, author.nickName)
 }

 override fun update(author: Author): Int {
 return jdbcTemplate.update("update t_author set real_name = ?, nick_name = ? where id = ?",
 *arrayOf(author.realName, author.nickName, author.id))
 }

 override fun delete(id: Long): Int {
 return jdbcTemplate.update("delete from t_author where id = ?", id)
 }

 override fun findAuthor(id: Long): Author? {
 val list = jdbcTemplate.query<Author>("select * from t_author where id = ?",
 arrayOf<Any>(id), BeanPropertyRowMapper(Author::class.java))
 return list?.get(0);
 }

 override fun findAuthorList(): List<Author> {
 return jdbcTemplate.query("select * from t_author", arrayOf(), BeanPropertyRowMapper(Author::class.java))
 }
}

Service相关

interface AuthorService {
 fun add(author: Author): Int
 fun update(author: Author): Int
 fun delete(id: Long): Int
 fun findAuthor(id: Long): Author?
 fun findAuthorList(): List<Author>
}

我们来定义实现类,Service 层调用 Dao 层的方法,这个是典型的套路。

@Service("authorService")
open class AuthorServiceImpl : AuthorService {

 @Autowired
 private lateinit var authorDao: AuthorDao

 override fun update(author: Author): Int {
 return this.authorDao.update(author)
 }

 override fun add(author: Author): Int {
 return this.authorDao.add(author)
 }

 override fun delete(id: Long): Int {
 return this.authorDao.delete(id)
 }

 override fun findAuthor(id: Long): Author? {
 return this.authorDao.findAuthor(id)
 }

 override fun findAuthorList(): List<Author> {
 return this.authorDao.findAuthorList()
 }
}

Controller相关

为了展现效果,我们先定义一组简单的 RESTful API 接口进行测试。

@RestController
@RequestMapping(value = "/authors")
class AuthorController {

 @Autowired
 private lateinit var authorService: AuthorService

 /**
 * 查询用户列表
 */
 @RequestMapping(method = [RequestMethod.GET])
 fun getAuthorList(request: HttpServletRequest): Map<String, Any> {
 val authorList = this.authorService.findAuthorList()
 val param = HashMap<String, Any>()
 param["total"] = authorList.size
 param["rows"] = authorList
 return param
 }

 /**
 * 查询用户信息
 */
 @RequestMapping(value = "/{userId:\\d+}", method = [RequestMethod.GET])
 fun getAuthor(@PathVariable userId: Long, request: HttpServletRequest): Author {
 return authorService.findAuthor(userId) ?: throw RuntimeException("查询错误")
 }

 /**
 * 新增方法
 */
 @RequestMapping(method = [RequestMethod.POST])
 fun add(@RequestBody jsonObject: JSONObject) {
 val userId = jsonObject.getString("user_id")
 val realName = jsonObject.getString("real_name")
 val nickName = jsonObject.getString("nick_name")

 val author = Author()
 author.id = java.lang.Long.valueOf(userId)
 author.realName = realName
 author.nickName = nickName
 try {
 this.authorService.add(author)
 } catch (e: Exception) {
 throw RuntimeException("新增错误")
 }
 }

 /**
 * 更新方法
 */
 @RequestMapping(value = "/{userId:\\d+}", method = [RequestMethod.PUT])
 fun update(@PathVariable userId: Long, @RequestBody jsonObject: JSONObject) {
 var author = this.authorService.findAuthor(userId)
 val realName = jsonObject.getString("real_name")
 val nickName = jsonObject.getString("nick_name")
 try {
 if (author != null) {
 author.realName = realName
 author.nickName = nickName
 this.authorService.update(author)
 }
 } catch (e: Exception) {
 throw RuntimeException("更新错误")
 }

 }

 /**
 * 删除方法
 */
 @RequestMapping(value = "/{userId:\\d+}", method = [RequestMethod.DELETE])
 fun delete(@PathVariable userId: Long) {
 try {
 this.authorService.delete(userId)
 } catch (e: Exception) {
 throw RuntimeException("删除错误")
 }
 }
}

最后,我们通过 SpringKotlinApplication 运行程序。

@SpringBootApplication(scanBasePackages = ["com.lianggzone.demo.kotlin"])
open class SpringKotlinApplication{
 fun main(args: Array<String>) {
 SpringApplication.run(SpringKotlinApplication::class.java, *args)
 }
}

关于测试

这里,笔者推荐 IDEA 的 Editor REST Client。IDEA 的 Editor REST Client 在 IntelliJ IDEA 2017.3 版本就开始支持,在 2018.1 版本添加了很多的特性。事实上,它是 IntelliJ IDEA 的 HTTP Client 插件。参见笔者之前的另一篇文章: 快速测试 API 接口的新技能

### 查询用户列表
GET http://localhost:8080/authors
Accept : application/json
Content-Type : application/json;charset=UTF-8

### 查询用户信息
GET http://localhost:8080/authors/15
Accept : application/json
Content-Type : application/json;charset=UTF-8

### 新增方法
POST http://localhost:8080/authors
Content-Type: application/json

{
 "user_id": "21",
 "real_name": "梁桂钊",
 "nick_name": "梁桂钊"
}

### 更新方法
PUT http://localhost:8080/authors/21
Content-Type: application/json

{
 "real_name" : "lianggzone",
 "nick_name": "lianggzone"
}

### 删除方法
DELETE http://localhost:8080/authors/21
Accept : application/json
Content-Type : application/json;charset=UTF-8

总结

通过,上面这个简单的案例,我们发现 Spring Boot 整合 Kotlin 非常容易,并简化 Spring 应用的初始搭建以及开发过程。为了让读者更加熟悉 Kotlin 的语法糖,笔者会在未来的几篇文章中,聊聊 Kotlin 的新特性及其语法糖。

源代码

相关示例完整代码: spring-kotlin-samples (本地下载

好了,以上就是这篇文章的全部内容了,希望本文的内容对大家的学习或者工作具有一定的参考学习价值,如果有疑问大家可以留言交流,谢谢大家对脚本之家的支持。

02-02 05:34