内容简介:提供一个接口接口如何生成对象,采用jdk的动态代理技术,生成对象使用CGLB动态代理可以实现在不提供接口的时候,生成对象
提供一个接口
package com.ming.MyBatis; import com.ming.MyBatis.POJO.Role; import com.ming.MyBatis.POJO.Student; import com.ming.MyBatis.POJO.StudentCard; import org.apache.ibatis.annotations.Param; import java.util.List; import java.util.Map; public interface RoleMapper { /** * @param id * @return */ public Role getRole(int id); /** * 查询Map * @param params * @return */ public List<Role> findRoleByteMap(Map<String, String> params); /** * @param roleName * @param note * @return */ public List<Role> findRoleByteMap1(@Param("roleName") String roleName, @Param("note") String note); public List<StudentCard> findStudentSelfCardByStudentId(@Param("studentId") int studentId); public List<Student> getStudent(@Param("uid")int uid); }
接口如何生成对象,采用jdk的动态代理技术,生成对象
CGLB
使用CGLB动态代理可以实现在不提供接口的时候,生成对象
构建SqlSessionFactory过程
在源代码中是
sqlSessionFactory = new SqlSessionFactoryBuilder().build(cfgReader, properties);
通过new 出一个 SqlSessionFactoryBuilder对象,然后调用build方法.
进入 SqlSessionFactoryBuilder
/** * Copyright 2009-2019 the original author or authors. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.ibatis.session; import java.io.IOException; import java.io.InputStream; import java.io.Reader; import java.util.Properties; import org.apache.ibatis.builder.xml.XMLConfigBuilder; import org.apache.ibatis.exceptions.ExceptionFactory; import org.apache.ibatis.executor.ErrorContext; import org.apache.ibatis.session.defaults.DefaultSqlSessionFactory; /** * Builds {@link SqlSession} instances. * * @author Clinton Begin */ public class SqlSessionFactoryBuilder { public SqlSessionFactory build(Reader reader) { return build(reader, null, null); } public SqlSessionFactory build(Reader reader, String environment) { return build(reader, environment, null); } public SqlSessionFactory build(Reader reader, Properties properties) { return build(reader, null, properties); } public SqlSessionFactory build(Reader reader, String environment, Properties properties) { try { XMLConfigBuilder parser = new XMLConfigBuilder(reader, environment, properties); return build(parser.parse()); } catch (Exception e) { throw ExceptionFactory.wrapException("Error building SqlSession.", e); } finally { ErrorContext.instance().reset(); try { reader.close(); } catch (IOException e) { // Intentionally ignore. Prefer previous error. } } } public SqlSessionFactory build(InputStream inputStream) { return build(inputStream, null, null); } public SqlSessionFactory build(InputStream inputStream, String environment) { return build(inputStream, environment, null); } public SqlSessionFactory build(InputStream inputStream, Properties properties) { return build(inputStream, null, properties); } 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); } }
重写的方法
通过这一句配置文件读入
XMLConfigBuilder parser = new XMLConfigBuilder(reader, environment, properties);
所有的都将会调用该方法
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. } } }
这一段中
XMLConfigBuilder parser = new XMLConfigBuilder(inputStream, environment, properties);
这一句
XML配置读入进入
由于返回的是XMLConfigBuilder对象 所以是使用该对象去创建SqlSessionFactory对象
其中SqlSessionFactory为接口
/** * Copyright 2009-2019 the original author or authors. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.ibatis.session; import java.sql.Connection; /** * Creates an {@link SqlSession} out of a connection or a DataSource * * @author Clinton Begin */ public interface SqlSessionFactory { SqlSession openSession(); SqlSession openSession(boolean autoCommit); SqlSession openSession(Connection connection); SqlSession openSession(TransactionIsolationLevel level); SqlSession openSession(ExecutorType execType); SqlSession openSession(ExecutorType execType, boolean autoCommit); SqlSession openSession(ExecutorType execType, TransactionIsolationLevel level); SqlSession openSession(ExecutorType execType, Connection connection); Configuration getConfiguration(); }
其中根据源码可以看到XMLConfigBuilder对象继承于BaseBuilder, BaseBuilder为抽象类 其中的BaseBuilder 继承 XMLConfigBuilder
所以,这两句成立
private volatile static SqlSessionFactory sqlSessionFactory = null; sqlSessionFactory = new SqlSessionFactoryBuilder().build(cfgReader, properties);
最后就有了SqlSessionFactory实现类
这种创建为Builder创建
进入XMLConfigBuilder 可以看到第115行
// read it after objectFactory and objectWrapperFactory issue #631 environmentsElement(root.evalNode("environments"));
可以看到读入配置文件environments节点
其中还可以看到
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; }
使用的是super 所以进入 Configuration()对象
可以看到这是所有的配置文件
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); typeAliasRegistry.registerAlias("DB_VENDOR", VendorDatabaseIdProvider.class); typeAliasRegistry.registerAlias("XML", XMLLanguageDriver.class); typeAliasRegistry.registerAlias("RAW", RawLanguageDriver.class); typeAliasRegistry.registerAlias("SLF4J", Slf4jImpl.class); typeAliasRegistry.registerAlias("COMMONS_LOGGING", JakartaCommonsLoggingImpl.class); typeAliasRegistry.registerAlias("LOG4J", Log4jImpl.class); typeAliasRegistry.registerAlias("LOG4J2", Log4j2Impl.class); typeAliasRegistry.registerAlias("JDK_LOGGING", Jdk14LoggingImpl.class); typeAliasRegistry.registerAlias("STDOUT_LOGGING", StdOutImpl.class); typeAliasRegistry.registerAlias("NO_LOGGING", NoLoggingImpl.class); typeAliasRegistry.registerAlias("CGLIB", CglibProxyFactory.class); typeAliasRegistry.registerAlias("JAVASSIST", JavassistProxyFactory.class); languageRegistry.setDefaultDriverClass(XMLLanguageDriver.class); languageRegistry.register(RawLanguageDriver.class); }
配置文件信息将会在这个类中保存
该类中的方法MappedStatement 为获取映射器的节点
public MappedStatement getMappedStatement(String id, boolean validateIncompleteStatements) { if (validateIncompleteStatements) { buildAllStatements(); } return mappedStatements.get(id); }
public final class MappedStatement { private String resource; private Configuration configuration; private String id; private Integer fetchSize; private Integer timeout; private StatementType statementType; private ResultSetType resultSetType; private SqlSource sqlSource; private Cache cache; private ParameterMap parameterMap; private List<ResultMap> resultMaps; private boolean flushCacheRequired; private boolean useCache; private boolean resultOrdered; private SqlCommandType sqlCommandType; private KeyGenerator keyGenerator; private String[] keyProperties; private String[] keyColumns; private boolean hasNestedResultMaps; private String databaseId; private Log statementLog; private LanguageDriver lang; private String[] resultSets;
这里进入的是映射器的节点信息
在插件中可以通过MappedStatement类,来获取到映射器的节点,即,获取到映射器的信息.在Tomcat编译成为class文件的时候,会写死在class文件中..
其中MappedStatement为final类型
在映射类的第43行有一个重要的属性
private SqlSource sqlSource;
进入该接口
public interface SqlSource { BoundSql getBoundSql(Object parameterObject); }
其接口有方法
BoundSql getBoundSql(Object parameterObject);
进入该类的查看BoundSql
public class BoundSql { private final String sql; private final List<ParameterMapping> parameterMappings; private final Object parameterObject; private final Map<String, Object> additionalParameters; private final MetaObject metaParameters; public BoundSql(Configuration configuration, String sql, List<ParameterMapping> parameterMappings, Object parameterObject) { this.sql = sql; this.parameterMappings = parameterMappings; this.parameterObject = parameterObject; this.additionalParameters = new HashMap<>(); this.metaParameters = configuration.newMetaObject(additionalParameters); } public String getSql() { return sql; } public List<ParameterMapping> getParameterMappings() { return parameterMappings; } public Object getParameterObject() { return parameterObject; } public boolean hasAdditionalParameter(String name) { String paramName = new PropertyTokenizer(name).getName(); return additionalParameters.containsKey(paramName); } public void setAdditionalParameter(String name, Object value) { metaParameters.setValue(name, value); } public Object getAdditionalParameter(String name) { return metaParameters.getValue(name); } }
BoundSql有三个属性,
this.sql = sql; this.parameterMappings = parameterMappings; // 传递进入的参数 根据Param注解 this.parameterObject = parameterObject; this.additionalParameters = new HashMap<>(); this.metaParameters = configuration.newMetaObject(additionalParameters);
SqlSession运行
SqlSession通过动态代理的方式运行
首先 SqlSessionFactory sqlSessionFactory 是SqlSessionFactory接口
SqlSession类如下
/** * Copyright 2009-2019 the original author or authors. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.ibatis.session; import java.sql.Connection; /** * Creates an {@link SqlSession} out of a connection or a DataSource * * @author Clinton Begin */ public interface SqlSessionFactory { SqlSession openSession(); SqlSession openSession(boolean autoCommit); SqlSession openSession(Connection connection); SqlSession openSession(TransactionIsolationLevel level); SqlSession openSession(ExecutorType execType); SqlSession openSession(ExecutorType execType, boolean autoCommit); SqlSession openSession(ExecutorType execType, TransactionIsolationLevel level); SqlSession openSession(ExecutorType execType, Connection connection); Configuration getConfiguration(); }
首先try里面的第四行
sqlSession = SqlSessionFactoryUtil.openSqlSesion(); roleMapper = sqlSession.getMapper(RoleMapper.class); students = roleMapper.getStudent(1); students1 = roleMapper.getStudent(1); sqlSession.commit();
进入getMapper
/** * Copyright 2009-2019 the original author or authors. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.ibatis.session; import java.io.Closeable; import java.sql.Connection; import java.util.List; import java.util.Map; import org.apache.ibatis.cursor.Cursor; import org.apache.ibatis.executor.BatchResult; /** * The primary Java interface for working with MyBatis. * Through this interface you can execute commands, get mappers and manage transactions. * * @author Clinton Begin */ public interface SqlSession extends Closeable { /** * Retrieve a single row mapped from the statement key. * @param <T> the returned object type * @param statement * @return Mapped object */ <T> T selectOne(String statement); /** * Retrieve a single row mapped from the statement key and parameter. * @param <T> the returned object type * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @return Mapped object */ <T> T selectOne(String statement, Object parameter); /** * Retrieve a list of mapped objects from the statement key and parameter. * @param <E> the returned list element type * @param statement Unique identifier matching the statement to use. * @return List of mapped object */ <E> List<E> selectList(String statement); /** * Retrieve a list of mapped objects from the statement key and parameter. * @param <E> the returned list element type * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @return List of mapped object */ <E> List<E> selectList(String statement, Object parameter); /** * Retrieve a list of mapped objects from the statement key and parameter, * within the specified row bounds. * @param <E> the returned list element type * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @param rowBounds Bounds to limit object retrieval * @return List of mapped object */ <E> List<E> selectList(String statement, Object parameter, RowBounds rowBounds); /** * The selectMap is a special case in that it is designed to convert a list * of results into a Map based on one of the properties in the resulting * objects. * Eg. Return a of Map[Integer,Author] for selectMap("selectAuthors","id") * @param <K> the returned Map keys type * @param <V> the returned Map values type * @param statement Unique identifier matching the statement to use. * @param mapKey The property to use as key for each value in the list. * @return Map containing key pair data. */ <K, V> Map<K, V> selectMap(String statement, String mapKey); /** * The selectMap is a special case in that it is designed to convert a list * of results into a Map based on one of the properties in the resulting * objects. * @param <K> the returned Map keys type * @param <V> the returned Map values type * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @param mapKey The property to use as key for each value in the list. * @return Map containing key pair data. */ <K, V> Map<K, V> selectMap(String statement, Object parameter, String mapKey); /** * The selectMap is a special case in that it is designed to convert a list * of results into a Map based on one of the properties in the resulting * objects. * @param <K> the returned Map keys type * @param <V> the returned Map values type * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @param mapKey The property to use as key for each value in the list. * @param rowBounds Bounds to limit object retrieval * @return Map containing key pair data. */ <K, V> Map<K, V> selectMap(String statement, Object parameter, String mapKey, RowBounds rowBounds); /** * A Cursor offers the same results as a List, except it fetches data lazily using an Iterator. * @param <T> the returned cursor element type. * @param statement Unique identifier matching the statement to use. * @return Cursor of mapped objects */ <T> Cursor<T> selectCursor(String statement); /** * A Cursor offers the same results as a List, except it fetches data lazily using an Iterator. * @param <T> the returned cursor element type. * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @return Cursor of mapped objects */ <T> Cursor<T> selectCursor(String statement, Object parameter); /** * A Cursor offers the same results as a List, except it fetches data lazily using an Iterator. * @param <T> the returned cursor element type. * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @param rowBounds Bounds to limit object retrieval * @return Cursor of mapped objects */ <T> Cursor<T> selectCursor(String statement, Object parameter, RowBounds rowBounds); /** * Retrieve a single row mapped from the statement key and parameter * using a {@code ResultHandler}. * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @param handler ResultHandler that will handle each retrieved row */ void select(String statement, Object parameter, ResultHandler handler); /** * Retrieve a single row mapped from the statement * using a {@code ResultHandler}. * @param statement Unique identifier matching the statement to use. * @param handler ResultHandler that will handle each retrieved row */ void select(String statement, ResultHandler handler); /** * Retrieve a single row mapped from the statement key and parameter * using a {@code ResultHandler} and {@code RowBounds}. * @param statement Unique identifier matching the statement to use. * @param rowBounds RowBound instance to limit the query results * @param handler ResultHandler that will handle each retrieved row */ void select(String statement, Object parameter, RowBounds rowBounds, ResultHandler handler); /** * Execute an insert statement. * @param statement Unique identifier matching the statement to execute. * @return int The number of rows affected by the insert. */ int insert(String statement); /** * Execute an insert statement with the given parameter object. Any generated * autoincrement values or selectKey entries will modify the given parameter * object properties. Only the number of rows affected will be returned. * @param statement Unique identifier matching the statement to execute. * @param parameter A parameter object to pass to the statement. * @return int The number of rows affected by the insert. */ int insert(String statement, Object parameter); /** * Execute an update statement. The number of rows affected will be returned. * @param statement Unique identifier matching the statement to execute. * @return int The number of rows affected by the update. */ int update(String statement); /** * Execute an update statement. The number of rows affected will be returned. * @param statement Unique identifier matching the statement to execute. * @param parameter A parameter object to pass to the statement. * @return int The number of rows affected by the update. */ int update(String statement, Object parameter); /** * Execute a delete statement. The number of rows affected will be returned. * @param statement Unique identifier matching the statement to execute. * @return int The number of rows affected by the delete. */ int delete(String statement); /** * Execute a delete statement. The number of rows affected will be returned. * @param statement Unique identifier matching the statement to execute. * @param parameter A parameter object to pass to the statement. * @return int The number of rows affected by the delete. */ int delete(String statement, Object parameter); /** * Flushes batch statements and commits database connection. * Note that database connection will not be committed if no updates/deletes/inserts were called. * To force the commit call {@link SqlSession#commit(boolean)} */ void commit(); /** * Flushes batch statements and commits database connection. * @param force forces connection commit */ void commit(boolean force); /** * Discards pending batch statements and rolls database connection back. * Note that database connection will not be rolled back if no updates/deletes/inserts were called. * To force the rollback call {@link SqlSession#rollback(boolean)} */ void rollback(); /** * Discards pending batch statements and rolls database connection back. * Note that database connection will not be rolled back if no updates/deletes/inserts were called. * @param force forces connection rollback */ void rollback(boolean force); /** * Flushes batch statements. * @return BatchResult list of updated records * @since 3.0.6 */ List<BatchResult> flushStatements(); /** * Closes the session. */ @Override void close(); /** * Clears local session cache. */ void clearCache(); /** * Retrieves current configuration. * @return Configuration */ Configuration getConfiguration(); /** * Retrieves a mapper. * @param <T> the mapper type * @param type Mapper interface class * @return a mapper bound to this SqlSession */ <T> T getMapper(Class<T> type); /** * Retrieves inner database connection. * @return Connection */ Connection getConnection(); }
这是一个接口
其中DefaultSqlSession为旧版本,新版本使用的是SqlSessionManager
进入SqlSessionManager
@Override public <T> T getMapper(Class<T> type) { return getConfiguration().getMapper(type, this); }
可以看到使用getConfiguration().getMapper(type, this);
getConfiguration()为获取配置信息,mapperRegistry为映射配置类的映射注册表,进入getMapper
public <T> T getMapper(Class<T> type, SqlSession sqlSession) { final MapperProxyFactory<T> mapperProxyFactory = (MapperProxyFactory<T>) knownMappers.get(type); if (mapperProxyFactory == null) { throw new BindingException("Type " + type + " is not known to the MapperRegistry."); } try { return mapperProxyFactory.newInstance(sqlSession); } catch (Exception e) { throw new BindingException("Error getting mapper instance. Cause: " + e, e); } }
如下
@SuppressWarnings("unchecked") public <T> T getMapper(Class<T> type, SqlSession sqlSession) { final MapperProxyFactory<T> mapperProxyFactory = (MapperProxyFactory<T>) knownMappers.get(type); if (mapperProxyFactory == null) { throw new BindingException("Type " + type + " is not known to the MapperRegistry."); } try { return mapperProxyFactory.newInstance(sqlSession); } catch (Exception e) { throw new BindingException("Error getting mapper instance. Cause: " + e, e); } }
然后进入代理工厂类
public class MapperProxyFactory<T> { private final Class<T> mapperInterface; private final Map<Method, MapperMethod> methodCache = new ConcurrentHashMap<>(); public MapperProxyFactory(Class<T> mapperInterface) { this.mapperInterface = mapperInterface; } public Class<T> getMapperInterface() { return mapperInterface; } public Map<Method, MapperMethod> getMethodCache() { return methodCache; } @SuppressWarnings("unchecked") protected T newInstance(MapperProxy<T> mapperProxy) { return (T) Proxy.newProxyInstance(mapperInterface.getClassLoader(), new Class[] { mapperInterface }, mapperProxy); } public T newInstance(SqlSession sqlSession) { final MapperProxy<T> mapperProxy = new MapperProxy<>(sqlSession, mapperInterface, methodCache); return newInstance(mapperProxy); } }
有这么一句
@SuppressWarnings("unchecked") protected T newInstance(MapperProxy<T> mapperProxy) { return (T) Proxy.newProxyInstance(mapperInterface.getClassLoader(), new Class[] { mapperInterface }, mapperProxy); }
调用的是这一句
public T newInstance(SqlSession sqlSession) { final MapperProxy<T> mapperProxy = new MapperProxy<>(sqlSession, mapperInterface, methodCache); return newInstance(mapperProxy); }
在MapperProxy中有如下几个
@Override public Object invoke(Object proxy, Method method, Object[] args) throws Throwable { try { if (Object.class.equals(method.getDeclaringClass())) { return method.invoke(this, args); } else if (isDefaultMethod(method)) { return invokeDefaultMethod(proxy, method, args); } } catch (Throwable t) { throw ExceptionUtil.unwrapThrowable(t); } final MapperMethod mapperMethod = cachedMapperMethod(method); return mapperMethod.execute(sqlSession, args); }
通过动态代理生成该对象
然后接着查看execute源码
public Object execute(SqlSession sqlSession, Object[] args) { Object result; switch (command.getType()) { case INSERT: { Object param = method.convertArgsToSqlCommandParam(args); result = rowCountResult(sqlSession.insert(command.getName(), param)); break; } case UPDATE: { Object param = method.convertArgsToSqlCommandParam(args); result = rowCountResult(sqlSession.update(command.getName(), param)); break; } case DELETE: { Object param = method.convertArgsToSqlCommandParam(args); result = rowCountResult(sqlSession.delete(command.getName(), param)); break; } case SELECT: if (method.returnsVoid() && method.hasResultHandler()) { executeWithResultHandler(sqlSession, args); result = null; } else if (method.returnsMany()) { result = executeForMany(sqlSession, args); } else if (method.returnsMap()) { result = executeForMap(sqlSession, args); } else if (method.returnsCursor()) { result = executeForCursor(sqlSession, args); } else { Object param = method.convertArgsToSqlCommandParam(args); result = sqlSession.selectOne(command.getName(), param); if (method.returnsOptional() && (result == null || !method.getReturnType().equals(result.getClass()))) { result = Optional.ofNullable(result); } } break; case FLUSH: result = sqlSession.flushStatements(); break; default: throw new BindingException("Unknown execution method for: " + command.getName()); } if (result == null && method.getReturnType().isPrimitive() && !method.returnsVoid()) { throw new BindingException("Mapper method '" + command.getName() + " attempted to return null from a method with a primitive return type (" + method.getReturnType() + ")."); } return result; }
这里就能看到 sql 啦
接着任意进入一个
private <E> Object executeForMany(SqlSession sqlSession, Object[] args) { List<E> result; Object param = method.convertArgsToSqlCommandParam(args); if (method.hasRowBounds()) { RowBounds rowBounds = method.extractRowBounds(args); result = sqlSession.selectList(command.getName(), param, rowBounds); } else { result = sqlSession.selectList(command.getName(), param); } // issue #510 Collections & arrays support if (!method.getReturnType().isAssignableFrom(result.getClass())) { if (method.getReturnType().isArray()) { return convertToArray(result); } else { return convertToDeclaredCollection(sqlSession.getConfiguration(), result); } } return result; }
不想看了.....反正就是最后调用sqlsession的
/** * The primary Java interface for working with MyBatis. * Through this interface you can execute commands, get mappers and manage transactions. * * @author Clinton Begin */ public interface SqlSession extends Closeable { /** * Retrieve a single row mapped from the statement key. * @param <T> the returned object type * @param statement * @return Mapped object */ <T> T selectOne(String statement); /** * Retrieve a single row mapped from the statement key and parameter. * @param <T> the returned object type * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @return Mapped object */ <T> T selectOne(String statement, Object parameter); /** * Retrieve a list of mapped objects from the statement key and parameter. * @param <E> the returned list element type * @param statement Unique identifier matching the statement to use. * @return List of mapped object */ <E> List<E> selectList(String statement); /** * Retrieve a list of mapped objects from the statement key and parameter. * @param <E> the returned list element type * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @return List of mapped object */ <E> List<E> selectList(String statement, Object parameter); /** * Retrieve a list of mapped objects from the statement key and parameter, * within the specified row bounds. * @param <E> the returned list element type * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @param rowBounds Bounds to limit object retrieval * @return List of mapped object */ <E> List<E> selectList(String statement, Object parameter, RowBounds rowBounds); /** * The selectMap is a special case in that it is designed to convert a list * of results into a Map based on one of the properties in the resulting * objects. * Eg. Return a of Map[Integer,Author] for selectMap("selectAuthors","id") * @param <K> the returned Map keys type * @param <V> the returned Map values type * @param statement Unique identifier matching the statement to use. * @param mapKey The property to use as key for each value in the list. * @return Map containing key pair data. */ <K, V> Map<K, V> selectMap(String statement, String mapKey); /** * The selectMap is a special case in that it is designed to convert a list * of results into a Map based on one of the properties in the resulting * objects. * @param <K> the returned Map keys type * @param <V> the returned Map values type * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @param mapKey The property to use as key for each value in the list. * @return Map containing key pair data. */ <K, V> Map<K, V> selectMap(String statement, Object parameter, String mapKey); /** * The selectMap is a special case in that it is designed to convert a list * of results into a Map based on one of the properties in the resulting * objects. * @param <K> the returned Map keys type * @param <V> the returned Map values type * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @param mapKey The property to use as key for each value in the list. * @param rowBounds Bounds to limit object retrieval * @return Map containing key pair data. */ <K, V> Map<K, V> selectMap(String statement, Object parameter, String mapKey, RowBounds rowBounds); /** * A Cursor offers the same results as a List, except it fetches data lazily using an Iterator. * @param <T> the returned cursor element type. * @param statement Unique identifier matching the statement to use. * @return Cursor of mapped objects */ <T> Cursor<T> selectCursor(String statement); /** * A Cursor offers the same results as a List, except it fetches data lazily using an Iterator. * @param <T> the returned cursor element type. * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @return Cursor of mapped objects */ <T> Cursor<T> selectCursor(String statement, Object parameter); /** * A Cursor offers the same results as a List, except it fetches data lazily using an Iterator. * @param <T> the returned cursor element type. * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @param rowBounds Bounds to limit object retrieval * @return Cursor of mapped objects */ <T> Cursor<T> selectCursor(String statement, Object parameter, RowBounds rowBounds); /** * Retrieve a single row mapped from the statement key and parameter * using a {@code ResultHandler}. * @param statement Unique identifier matching the statement to use. * @param parameter A parameter object to pass to the statement. * @param handler ResultHandler that will handle each retrieved row */ void select(String statement, Object parameter, ResultHandler handler); /** * Retrieve a single row mapped from the statement * using a {@code ResultHandler}. * @param statement Unique identifier matching the statement to use. * @param handler ResultHandler that will handle each retrieved row */ void select(String statement, ResultHandler handler); /** * Retrieve a single row mapped from the statement key and parameter * using a {@code ResultHandler} and {@code RowBounds}. * @param statement Unique identifier matching the statement to use. * @param rowBounds RowBound instance to limit the query results * @param handler ResultHandler that will handle each retrieved row */ void select(String statement, Object parameter, RowBounds rowBounds, ResultHandler handler); /** * Execute an insert statement. * @param statement Unique identifier matching the statement to execute. * @return int The number of rows affected by the insert. */ int insert(String statement); /** * Execute an insert statement with the given parameter object. Any generated * autoincrement values or selectKey entries will modify the given parameter * object properties. Only the number of rows affected will be returned. * @param statement Unique identifier matching the statement to execute. * @param parameter A parameter object to pass to the statement. * @return int The number of rows affected by the insert. */ int insert(String statement, Object parameter); /** * Execute an update statement. The number of rows affected will be returned. * @param statement Unique identifier matching the statement to execute. * @return int The number of rows affected by the update. */ int update(String statement); /** * Execute an update statement. The number of rows affected will be returned. * @param statement Unique identifier matching the statement to execute. * @param parameter A parameter object to pass to the statement. * @return int The number of rows affected by the update. */ int update(String statement, Object parameter); /** * Execute a delete statement. The number of rows affected will be returned. * @param statement Unique identifier matching the statement to execute. * @return int The number of rows affected by the delete. */ int delete(String statement); /** * Execute a delete statement. The number of rows affected will be returned. * @param statement Unique identifier matching the statement to execute. * @param parameter A parameter object to pass to the statement. * @return int The number of rows affected by the delete. */ int delete(String statement, Object parameter); /** * Flushes batch statements and commits database connection. * Note that database connection will not be committed if no updates/deletes/inserts were called. * To force the commit call {@link SqlSession#commit(boolean)} */ void commit(); /** * Flushes batch statements and commits database connection. * @param force forces connection commit */ void commit(boolean force); /** * Discards pending batch statements and rolls database connection back. * Note that database connection will not be rolled back if no updates/deletes/inserts were called. * To force the rollback call {@link SqlSession#rollback(boolean)} */ void rollback(); /** * Discards pending batch statements and rolls database connection back. * Note that database connection will not be rolled back if no updates/deletes/inserts were called. * @param force forces connection rollback */ void rollback(boolean force); /** * Flushes batch statements. * @return BatchResult list of updated records * @since 3.0.6 */ List<BatchResult> flushStatements(); /** * Closes the session. */ @Override void close(); /** * Clears local session cache. */ void clearCache(); /** * Retrieves current configuration. * @return Configuration */ Configuration getConfiguration(); /** * Retrieves a mapper. * @param <T> the mapper type * @param type Mapper interface class * @return a mapper bound to this SqlSession */ <T> T getMapper(Class<T> type); /** * Retrieves inner database connection. * @return Connection */ Connection getConnection(); }
映射器的本质是动态代理对象
最后都是调用sqlsession接口的定义的方法完成和数据库的交互
以上所述就是小编给大家介绍的《MyBatis 解析运行原理》,希望对大家有所帮助,如果大家有任何疑问请给我留言,小编会及时回复大家的。在此也非常感谢大家对 码农网 的支持!
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