public class Product {

    private long id;

    private String productName;

    private String productContent;

    private String price;

    private int sort;

    private int falseSales;

    private long category_id;

    private byte type;

    private byte state;

    // PS：省略setter、getter函数

public interface ProductMapper {

    /**

     * 查询所有的产品

     * @return

     */

    List<Product> selectProductList();

}

<?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="team.njupt.mapper.ProductMapper">

    <select id="selectProductList" resultType="team.njupt.entity.Product">

        select * from product

    </select>

</mapper>

driver=com.mysql.jdbc.Driver

url=jdbc:mysql://127.0.0.1:3306/waimai?useUnicode=true&characterEncoding=utf8

username=root

password=xxxxxx

<?xml version="1.0" encoding="UTF-8" ?>

<!DOCTYPE configuration

        PUBLIC "-//mybatis.org//DTD Config 3.0//EN"

        "http://mybatis.org/dtd/mybatis-3-config.dtd">

<configuration>

    <properties resource="db.properties">

        <!--<property name="username" value="dev_user"/> -->

        <!--<property name="password" value="F2Fa3!33TYyg"/> -->

    </properties>

    <environments default="development">

        <environment id="development">

            <transactionManager type="JDBC" />

            <dataSource type="POOLED">

                <property name="driver" value="${driver}" />

                <property name="url" value="${url}" />

                <property name="username" value="${username}" />

                <property name="password" value="${password}" />

            </dataSource>

        </environment>

    </environments>

    <mappers>

        <mapper resource="com/jp/mapper/ProductMapper.xml" />

    </mappers>

</configuration>

public class Main {

    public static void main(String[] args) throws IOException {

        String resource = "mybatis.xml";

        InputStream inputStream = Resources.getResourceAsStream(resource);

        SqlSessionFactory sqlSessionFactory = new SqlSessionFactoryBuilder().build(inputStream);

        SqlSession sqlSession = sqlSessionFactory.openSession();

        try {

            ProductMapper productMapper = sqlSession.getMapper(ProductMapper.class);

            List<Product> productList = productMapper.selectProductList();

            for (Product product : productList) {

                System.out.printf(product.toString());

            }

        } finally {

            sqlSession.close();

        }

    }

}

String resource = "mybatis.xml";

InputStream inputStream = Resources.getResourceAsStream(resource);

2.3 SqlSessionFactory创建过程

下面具体来看一下，build函数是如何创建SqlSessionFactory对象的。

public SqlSessionFactory build(InputStream inputStream, String environment, Properties properties) {

  　　try {

   　　 　　XMLConfigBuilder parser = new XMLConfigBuilder(inputStream, environment, properties);

    　　　　return build(parser.parse());

  　　} catch (Exception e) {

   　　 　　throw ExceptionFactory.wrapException("Error building SqlSession.", e);

  　　} finally {

    　　　　ErrorContext.instance().reset();

   　　 　　try {

    　　  　　　　inputStream.close();

    　　　　} catch (IOException e) {

     　　 // Intentionally ignore. Prefer previous error.

    　　}

 　　 }

}

2.3.1 构造XMLConfigBuilder对象

build函数首先会构造一个XMLConfigBuilder对象，从名字上大致可以猜到，该对象是用来解析XML配置文件的。下面来看一下XMLConfigBuilder的体系结构。

　　当创建 XMLConfigBuilder对象时，就会初始化Configuration对象，并且在初始化Configuration对象的时候，一些别名会被注册到Configuration的typeAliasRegistry容器中。

private XMLConfigBuilder(XPathParser parser, String environment, Properties props) {

super(new Configuration());

ErrorContext.instance().resource("SQL Mapper Configuration");

this.configuration.setVariables(props);

this.parsed = false;

this.environment = environment;

this.parser = parser;

}

public Configuration() {

typeAliasRegistry.registerAlias("JDBC", JdbcTransactionFactory.class);

typeAliasRegistry.registerAlias("MANAGED", ManagedTransactionFactory.class);

typeAliasRegistry.registerAlias("JNDI", JndiDataSourceFactory.class);

typeAliasRegistry.registerAlias("POOLED", PooledDataSourceFactory.class);

typeAliasRegistry.registerAlias("UNPOOLED", UnpooledDataSourceFactory.class);

typeAliasRegistry.registerAlias("PERPETUAL", PerpetualCache.class);

typeAliasRegistry.registerAlias("FIFO", FifoCache.class);

typeAliasRegistry.registerAlias("LRU", LruCache.class);

typeAliasRegistry.registerAlias("SOFT", SoftCache.class);

typeAliasRegistry.registerAlias("WEAK", WeakCache.class);

……

}

private void parseConfiguration(XNode root) {

  try {

    // 解析<properties>节点

    propertiesElement(root.evalNode("properties"));

    // 解析<settings>节点

    Properties settings = settingsAsProperties(root.evalNode("settings"));

    loadCustomVfs(settings);

    // 解析<typeAliases>节点

    typeAliasesElement(root.evalNode("typeAliases"));

    // 解析<plugins>节点

    pluginElement(root.evalNode("plugins"));

    // 解析<objectFactory>节点

    objectFactoryElement(root.evalNode("objectFactory"));

    objectWrapperFactoryElement(root.evalNode("objectWrapperFactory"));

    // 解析<reflectorFactory>节点

    reflectorFactoryElement(root.evalNode("reflectorFactory"));

    settingsElement(settings);

    // 解析<environments>节点

    environmentsElement(root.evalNode("environments"));

    databaseIdProviderElement(root.evalNode("databaseIdProvider"));

    typeHandlerElement(root.evalNode("typeHandlers"));

    // 解析<mappers>节点

    mapperElement(root.evalNode("mappers"));

  } catch (Exception e) {

    throw new BuilderException("Error parsing SQL Mapper Configuration. Cause: " + e, e);

  }

}

<properties>节点的定义如下：

<properties resource="org/mybatis/example/config.properties">

  <property name="username" value="dev_user"/>

  <property name="password" value="F2Fa3!33TYyg"/>

</properties>

/**

  * @Param context <properties>节点

  */

private void propertiesElement(XNode context) throws Exception {

  if (context != null) {

    // 获取<properties>节点的所有子节点

    Properties defaults = context.getChildrenAsProperties();

    // 获取<properties>节点上的resource属性

    String resource = context.getStringAttribute("resource");

    // 获取<properties>节点上的url属性

    String url = context.getStringAttribute("url");

    // resource和url不能同时存在

    if (resource != null && url != null) {

      throw new BuilderException("The properties element cannot specify both a URL and a resource based property file reference.  Please specify one or the other.");

    }

    if (resource != null) {

      // 获取resource属性值对应的properties文件中的键值对，并添加至defaults容器中

      defaults.putAll(Resources.getResourceAsProperties(resource));

    } else if (url != null) {

      // 获取url属性值对应的properties文件中的键值对，并添加至defaults容器中

      defaults.putAll(Resources.getUrlAsProperties(url));

    }

    // 获取configuration中原本的属性，并添加至defaults容器中

    Properties vars = configuration.getVariables();

    if (vars != null) {

      defaults.putAll(vars);

    }

    parser.setVariables(defaults);

    // 将defaults容器添加至configuration中

    configuration.setVariables(defaults);

  }

}

<settings>

  <setting name="cacheEnabled" value="true"/>

  <setting name="lazyLoadingEnabled" value="true"/>

  <setting name="multipleResultSetsEnabled" value="true"/>

</settings>

<typeAliases>

  <typeAlias alias="Author" type="domain.blog.Author"/>

  <typeAlias alias="Blog" type="domain.blog.Blog"/>

</typeAliases>

<typeAliases>

  <package name="domain.blog"/>

</typeAliases>

private void typeAliasesElement(XNode parent) {

  if (parent != null) {

    // 遍历<typeAliases>下的所有子节点

    for (XNode child : parent.getChildren()) {

      // 若当前结点为<package>

      if ("package".equals(child.getName())) {

        // 获取<package>上的name属性（包名）

        String typeAliasPackage = child.getStringAttribute("name");

        // 为该包下的所有类起个别名，并注册进configuration的typeAliasRegistry中

        configuration.getTypeAliasRegistry().registerAliases(typeAliasPackage);

      }

      // 如果当前结点为< typeAlias >

      else {

        // 获取alias和type属性

        String alias = child.getStringAttribute("alias");

        String type = child.getStringAttribute("type");

        // 注册进configuration的typeAliasRegistry中

        try {

          Class<?> clazz = Resources.classForName(type);

          if (alias == null) {

            typeAliasRegistry.registerAlias(clazz);

          } else {

            typeAliasRegistry.registerAlias(alias, clazz);

          }

        } catch (ClassNotFoundException e) {

          throw new BuilderException("Error registering typeAlias for '" + alias + "'. Cause: " + e, e);

        }

      }

    }

  }

}

如果<typeAliases>节点下定义了<package>节点，那么MyBatis会给该包下的所有类起一个别名（以类名首字母小写作为别名）

如果<typeAliases>节点下定义了<typeAlias>节点，那么MyBatis就会给指定的类起指定的别名。

这些别名都会被存入configuration的typeAliasRegistry容器中。

2.3.2.4 <mappers>节点的解析过程

<mappers>节点的定义方式有如下四种：

方式1：

<mappers>

  <package name="org.mybatis.builder"/>

</mappers>

方式2：

<mappers>

  <mapper resource="org/mybatis/builder/AuthorMapper.xml"/>

</mappers>

方式3：

<mappers>

  <mapper url="file:///var/mappers/AuthorMapper.xml"/>

</mappers>

方式4：

<mappers>

  <mapper class="org.mybatis.builder.AuthorMapper"/>

</mappers>

<mappers>节点的解析过程如下：

private void mapperElement(XNode parent) throws Exception {

  if (parent != null) {

    // 遍历<mappers>下所有子节点

    for (XNode child : parent.getChildren()) {

      // 如果当前节点为<package>

      if ("package".equals(child.getName())) {

        // 获取<package>的name属性（该属性值为mapper class所在的包名）

        String mapperPackage = child.getStringAttribute("name");

        // 将该包下的所有Mapper Class注册到configuration的mapperRegistry容器中

        configuration.addMappers(mapperPackage);

      }

      // 如果当前节点为<mapper>

      else {

        // 依次获取resource、url、class属性

        String resource = child.getStringAttribute("resource");

        String url = child.getStringAttribute("url");

        String mapperClass = child.getStringAttribute("class");

        // 解析resource属性（Mapper.xml文件的路径）

        if (resource != null && url == null && mapperClass == null) {

          ErrorContext.instance().resource(resource);

          // 将Mapper.xml文件解析成输入流

          InputStream inputStream = Resources.getResourceAsStream(resource);

          // 使用XMLMapperBuilder解析Mapper.xml，并将Mapper Class注册进configuration对象的mapperRegistry容器中

          XMLMapperBuilder mapperParser = new XMLMapperBuilder(inputStream, configuration, resource, configuration.getSqlFragments());

          mapperParser.parse();

        }

        // 解析url属性（Mapper.xml文件的路径）

        else if (resource == null && url != null && mapperClass == null) {

          ErrorContext.instance().resource(url);

          InputStream inputStream = Resources.getUrlAsStream(url);

          XMLMapperBuilder mapperParser = new XMLMapperBuilder(inputStream, configuration, url, configuration.getSqlFragments());

          mapperParser.parse();

        }

        // 解析class属性（Mapper Class的全限定名）

        else if (resource == null && url == null && mapperClass != null) {

          // 将Mapper Class的权限定名转化成Class对象

          Class<?> mapperInterface = Resources.classForName(mapperClass);

          // 注册进configuration对象的mapperRegistry容器中

          configuration.addMapper(mapperInterface);

        } else {

          throw new BuilderException("A mapper element may only specify a url, resource or class, but not more than one.");

        }

      }

    }

  }

}

MyBatis会遍历<mappers>下所有的子节点，如果当前遍历到的节点是<package>，则MyBatis会将该包下的所有Mapper Class注册到configuration的mapperRegistry容器中。

如果当前节点为<mapper>，则会依次获取resource、url、class属性，解析映射文件，并将映射文件对应的Mapper Class注册到configuration的mapperRegistry容器中。

其中，<mapper>节点的解析过程如下：

XMLMapperBuilder mapperParser = new XMLMapperBuilder(inputStream, configuration, resource, configuration.getSqlFragments());

mapperParser.parse();

private XMLMapperBuilder(XPathParser parser, Configuration configuration, String resource, Map<String, XNode> sqlFragments) {

  // 将configuration赋给BaseBuilder

  super(configuration);

  // 创建MapperBuilderAssistant对象（该对象为MapperBuilder的协助者）

  this.builderAssistant = new  MapperBuilderAssistant(configuration, resource);

  this.parser = parser;

  this.sqlFragments = sqlFragments;

  this.resource = resource;

}

首先会初始化父类BaseBuilder，并将configuration赋给BaseBuilder；

然后创建MapperBuilderAssistant对象，该对象为XMLMapperBuilder的协助者，用来协助XMLMapperBuilder完成一些解析映射文件的动作。

当有了XMLMapperBuilder后，便可进入解析<mapper>的过程：

public void parse() {

  // 若当前的Mapper.xml尚未被解析，则开始解析

  // PS：若<mappers>节点下有相同的<mapper>节点，那么就无需再次解析了

  if (!configuration.isResourceLoaded(resource)) {

    // 解析<mapper>节点

    configurationElement(parser.evalNode("/mapper"));

    // 将该Mapper.xml添加至configuration的LoadedResource容器中，下回无需再解析

    configuration.addLoadedResource(resource);

    // 将该Mapper.xml对应的Mapper Class注册进configuration的mapperRegistry容器中

    bindMapperForNamespace();

  }

  parsePendingResultMaps();

  parsePendingCacheRefs();

  parsePendingStatements();

}

configurationElement函数

private void configurationElement(XNode context) {

try {

  // 获取<mapper>节点上的namespace属性，该属性必须存在，表示当前映射文件对应的Mapper Class是谁

  String namespace = context.getStringAttribute("namespace");

  if (namespace == null || namespace.equals("")) {

    throw new BuilderException("Mapper's namespace cannot be empty");

  }

  // 将namespace属性值赋给builderAssistant

  builderAssistant.setCurrentNamespace(namespace);

  // 解析<cache-ref>节点

  cacheRefElement(context.evalNode("cache-ref"));

  // 解析<cache>节点

  cacheElement(context.evalNode("cache"));

  // 解析<parameterMap>节点

  parameterMapElement(context.evalNodes("/mapper/parameterMap"));

  // 解析<resultMap>节点

  resultMapElements(context.evalNodes("/mapper/resultMap"));

  // 解析<sql>节点

  sqlElement(context.evalNodes("/mapper/sql"));

  // 解析sql语句

  buildStatementFromContext(context.evalNodes("select|insert|update|delete"));

} catch (Exception e) {

  throw new BuilderException("Error parsing Mapper XML. Cause: " + e, e);

}

}

resultMapElements函数
该函数用于解析映射文件中所有的<resultMap>节点，这些节点会被解析成ResultMap对象，存储在Configuration对象的resultMaps容器中。

<resultMap>节点定义如下：

<resultMap id="userResultMap" type="User">

  <constructor>

     <idArg column="id" javaType="int"/>

     <arg column="username" javaType="String"/>

  </constructor>

  <result property="username" column="user_name"/>

  <result property="password" column="hashed_password"/>

</resultMap>

<resultMap>节点的解析过程：

private ResultMap resultMapElement(XNode resultMapNode, List<ResultMapping> additionalResultMappings) throws Exception {

  ErrorContext.instance().activity("processing " + resultMapNode.getValueBasedIdentifier());

  // 获取<ResultMap>上的id属性

  String id = resultMapNode.getStringAttribute("id",

    resultMapNode.getValueBasedIdentifier());

  // 获取<ResultMap>上的type属性（即resultMap的返回值类型）

  String type = resultMapNode.getStringAttribute("type",

    resultMapNode.getStringAttribute("ofType",

        resultMapNode.getStringAttribute("resultType",

            resultMapNode.getStringAttribute("javaType"))));

  // 获取extends属性

  String extend = resultMapNode.getStringAttribute("extends");

  // 获取autoMapping属性

  Boolean autoMapping = resultMapNode.getBooleanAttribute("autoMapping");

  // 将resultMap的返回值类型转换成Class对象

  Class<?> typeClass = resolveClass(type);

  Discriminator discriminator = null;

  // resultMappings用于存储<resultMap>下所有的子节点

  List<ResultMapping> resultMappings = new ArrayList<ResultMapping>();

  resultMappings.addAll(additionalResultMappings);

  // 获取并遍历<resultMap>下所有的子节点

  List<XNode> resultChildren = resultMapNode.getChildren();

  for (XNode resultChild : resultChildren) {

    // 若当前节点为<constructor>，则将它的子节点们添加到resultMappings中去

    if ("constructor".equals(resultChild.getName())) {

      processConstructorElement(resultChild, typeClass, resultMappings);

    }

    // 若当前节点为<discriminator>，则进行条件判断，并将命中的子节点添加到resultMappings中去

    else if ("discriminator".equals(resultChild.getName())) {

      discriminator = processDiscriminatorElement(resultChild, typeClass, resultMappings);

    }

    // 若当前节点为<result>、<association>、<collection>，则将其添加到resultMappings中去

    else {

      // PS:flags仅用于区分当前节点是否是<id>或<idArg>，因为这两个节点的属性名为name，而其他节点的属性名为property

      List<ResultFlag> flags = new ArrayList<ResultFlag>();

      if ("id".equals(resultChild.getName())) {

        flags.add(ResultFlag.ID);

      }

      resultMappings.add(buildResultMappingFromContext(resultChild, typeClass, flags));

    }

  }

  // ResultMapResolver的作用是生成ResultMap对象，并将其加入到Configuration对象的resultMaps容器中（具体过程见下）

  ResultMapResolver resultMapResolver = new ResultMapResolver(builderAssistant, id, typeClass, extend, discriminator, resultMappings, autoMapping);

  try {

    return resultMapResolver.resolve();

  } catch (IncompleteElementException  e) {

    configuration.addIncompleteResultMap(resultMapResolver);

    throw e;

  }

}

ResultMapResolver这个类很纯粹，有且仅有一个函数resolve，用于构造ResultMap对象，并将其存入Configuration对象的resultMaps容器中；而这个过程是借助于MapperBuilderAssistant.addResultMap完成的。

public ResultMap resolve() {

  return assistant.addResultMap(this.id, this.type, this.extend,  this.discriminator, this.resultMappings, this.autoMapping);

}

sqlElement函数
该函数用于解析映射文件中所有的<sql>节点，并将这些节点存储在当前映射文件所对应的XMLMapperBuilder对象的sqlFragments容器中，供解析sql语句时使用。

<sql id="userColumns"> ${alias}.id,${alias}.username,${alias}.password </sql>

buildStatementFromContext函数
该函数会将映射文件中的sql语句解析成MappedStatement对象，并存在configuration的mappedStatements。

2.3.3 创建SqlSessionFactory对象

public SqlSessionFactory build(InputStream inputStream, String environment, Properties properties) {

  try {

    XMLConfigBuilder parser = new XMLConfigBuilder(inputStream, environment, properties);

    return build(parser.parse());

  } catch (Exception e) {

    throw ExceptionFactory.wrapException("Error building SqlSession.", e);

  } finally {

    ErrorContext.instance().reset();

    try {

      inputStream.close();

    } catch (IOException e) {

      // Intentionally ignore. Prefer previous error.

    }

  }

}

public SqlSessionFactory build(Configuration config) {

    return new DefaultSqlSessionFactory(config);

  }