Mybatis中 SIMPLEREUSEBATCH的区别
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Executor分成两大类,一类是CacheExecutor,另一类是普通Executor。
普通类又分为:
ExecutorType.SIMPLE: 这个执行器类型不做特殊的事情。它为每个语句的执行创建一个新的预处理语句。(默认)
ExecutorType.REUSE: 这个执行器类型会复用预处理语句。
ExecutorType.BATCH: 这个执行器会批量执行所有更新语句,如果 SELECT 在它们中间执行还会标定它们是 必须的,来保证一个简单并易于理解的行为。
分别对应SimpleExecutor,ReuseExecutor,BatchExecutor,他们都继承于BaseExecutor,BatchExecutor专门用于执行批量sql操作,ReuseExecutor会重用statement执行sql操作,SimpleExecutor只是简单执行sql没有什么特别的。
作用范围:Executor的这些特点,都严格限制在SqlSession生命周期范围内。
Mybatis中如何指定使用哪一种Executor执行器?
在Mybatis配置文件中,可以指定默认的ExecutorType执行器类型,也可以手动给DefaultSqlSessionFactory的创建SqlSession的方法传递ExecutorType类型参数。
CacheExecutor有一个重要属性delegate,它保存的是某类普通的Executor,值在构照时传入。执行数据库update操作时,它直接调用delegate的update方法,执行query方法时先尝试从cache中取值,取不到再调用delegate的查询方法,并将查询结果存入cache中。代码如下:
package org.apache.ibatis.executor; import java.sql.SQLException; import java.util.List; import org.apache.ibatis.cache.Cache; import org.apache.ibatis.cache.CacheKey; import org.apache.ibatis.cache.TransactionalCacheManager; import org.apache.ibatis.mapping.BoundSql; import org.apache.ibatis.mapping.MappedStatement; import org.apache.ibatis.mapping.ParameterMapping; import org.apache.ibatis.mapping.ParameterMode; import org.apache.ibatis.mapping.StatementType; import org.apache.ibatis.reflection.MetaObject; import org.apache.ibatis.session.ResultHandler; import org.apache.ibatis.session.RowBounds; import org.apache.ibatis.transaction.Transaction; /** * @author Clinton Begin * @author Eduardo Macarron */ public class CachingExecutor implements Executor { private Executor delegate; private TransactionalCacheManager tcm = new TransactionalCacheManager(); public CachingExecutor(Executor delegate) { this.delegate = delegate; delegate.setExecutorWrapper(this); } public Transaction getTransaction() { return delegate.getTransaction(); } public void close(boolean forceRollback) { try { //issues #499, #524 and #573 if (forceRollback) { tcm.rollback(); } else { tcm.commit(); } } finally { delegate.close(forceRollback); } } //是否关闭了executor public boolean isClosed() { return delegate.isClosed(); } public int update(MappedStatement ms, Object parameterObject) throws SQLException { flushCacheIfRequired(ms);//是否需要更缓存 return delegate.update(ms, parameterObject);//更新数据 } public <E> List<E> query(MappedStatement ms, Object parameterObject, RowBounds rowBounds, ResultHandler resultHandler) throws SQLException { BoundSql boundSql = ms.getBoundSql(parameterObject); CacheKey key = createCacheKey(ms, parameterObject, rowBounds, boundSql); return query(ms, parameterObject, rowBounds, resultHandler, key, boundSql);//获取记录 } public <E> List<E> query(MappedStatement ms, Object parameterObject, RowBounds rowBounds, ResultHandler resultHandler, CacheKey key, BoundSql boundSql) throws SQLException { Cache cache = ms.getCache();//获取缓存 if (cache != null) { flushCacheIfRequired(ms); if (ms.isUseCache() && resultHandler == null) { ensureNoOutParams(ms, parameterObject, boundSql); @SuppressWarnings("unchecked") List<E> list = (List<E>) tcm.getObject(cache, key);//从缓存中获取数据 //如果为空,则查询数据库,并把结果保存到缓存中 if (list == null) { list = delegate.<E> query(ms, parameterObject, rowBounds, resultHandler, key, boundSql); tcm.putObject(cache, key, list); // issue #578. Query must be not synchronized to prevent deadlocks } return list; } } return delegate.<E> query(ms, parameterObject, rowBounds, resultHandler, key, boundSql); } public List<BatchResult> flushStatements() throws SQLException { return delegate.flushStatements(); } public void commit(boolean required) throws SQLException { delegate.commit(required); tcm.commit(); } public void rollback(boolean required) throws SQLException { try { delegate.rollback(required); } finally { if (required) { tcm.rollback(); } } } private void ensureNoOutParams(MappedStatement ms, Object parameter, BoundSql boundSql) { if (ms.getStatementType() == StatementType.CALLABLE) { for (ParameterMapping parameterMapping : boundSql.getParameterMappings()) { if (parameterMapping.getMode() != ParameterMode.IN) { throw new ExecutorException("Caching stored procedures with OUT params is not supported. Please configure useCache=false in " + ms.getId() + " statement."); } } } } public CacheKey createCacheKey(MappedStatement ms, Object parameterObject, RowBounds rowBounds, BoundSql boundSql) { return delegate.createCacheKey(ms, parameterObject, rowBounds, boundSql); } public boolean isCached(MappedStatement ms, CacheKey key) { return delegate.isCached(ms, key); } public void deferLoad(MappedStatement ms, MetaObject resultObject, String property, CacheKey key, Class<?> targetType) { delegate.deferLoad(ms, resultObject, property, key, targetType); } public void clearLocalCache() { delegate.clearLocalCache(); } private void flushCacheIfRequired(MappedStatement ms) { Cache cache = ms.getCache(); if (cache != null && ms.isFlushCacheRequired()) { tcm.clear(cache); } } @Override public void setExecutorWrapper(Executor executor) { throw new UnsupportedOperationException("This method should not be called"); } }
SimpleExecutor通过类名可以看出,它是一个简单的执行类,并不会做一些处理就执行sql。(每执行一次update或select,就开启一个Statement对象,用完立刻关闭Statement对象)源码及分析如下:
package org.apache.ibatis.executor; import java.sql.Connection; import java.sql.SQLException; import java.sql.Statement; import java.util.Collections; import java.util.List; import org.apache.ibatis.executor.statement.StatementHandler; import org.apache.ibatis.logging.Log; import org.apache.ibatis.mapping.BoundSql; import org.apache.ibatis.mapping.MappedStatement; import org.apache.ibatis.session.Configuration; import org.apache.ibatis.session.ResultHandler; import org.apache.ibatis.session.RowBounds; import org.apache.ibatis.transaction.Transaction; /** * @author Clinton Begin */ public class SimpleExecutor extends BaseExecutor { public SimpleExecutor(Configuration configuration, Transaction transaction) { super(configuration, transaction); } public int doUpdate(MappedStatement ms, Object parameter) throws SQLException { Statement stmt = null; try { Configuration configuration = ms.getConfiguration();//获得配置 //获得statementHandler里面有statement,来处理 StatementHandler handler = configuration.newStatementHandler(this, ms, parameter, RowBounds.DEFAULT, null, null); stmt = prepareStatement(handler, ms.getStatementLog()); return handler.update(stmt);//最终是一个statement进行处理 } finally { closeStatement(stmt); } } public <E> List<E> doQuery(MappedStatement ms, Object parameter, RowBounds rowBounds, ResultHandler resultHandler, BoundSql boundSql) throws SQLException { Statement stmt = null; try { Configuration configuration = ms.getConfiguration(); StatementHandler handler = configuration.newStatementHandler(wrapper, ms, parameter, rowBounds, resultHandler, boundSql); stmt = prepareStatement(handler, ms.getStatementLog()); return handler.<E>query(stmt, resultHandler); } finally { closeStatement(stmt); } } public List<BatchResult> doFlushStatements(boolean isRollback) throws SQLException { return Collections.emptyList(); } private Statement prepareStatement(StatementHandler handler, Log statementLog) throws SQLException { Statement stmt; Connection connection = getConnection(statementLog); stmt = handler.prepare(connection); handler.parameterize(stmt);//将Statement转为PrepareStatement return stmt; } }
BatchExecutor : 通过批量操作来提高性能。(执行update(没有select,JDBC批处理不支持select),将所有sql都添加到批处理中(addBatch()),等待统一执行(executeBatch()),它缓存了多个Statement对象,每个Statement对象都是addBatch()完毕后,等待逐一执行executeBatch()批处理。与JDBC批处理相同。)
package org.apache.ibatis.executor; import java.sql.BatchUpdateException; import java.sql.Connection; import java.sql.SQLException; import java.sql.Statement; import java.util.ArrayList; import java.util.Collections; import java.util.List; import org.apache.ibatis.executor.keygen.Jdbc3KeyGenerator; import org.apache.ibatis.executor.keygen.KeyGenerator; import org.apache.ibatis.executor.keygen.NoKeyGenerator; import org.apache.ibatis.executor.statement.StatementHandler; import org.apache.ibatis.mapping.BoundSql; import org.apache.ibatis.mapping.MappedStatement; import org.apache.ibatis.session.Configuration; import org.apache.ibatis.session.ResultHandler; import org.apache.ibatis.session.RowBounds; import org.apache.ibatis.transaction.Transaction; /** * @author Jeff Butler */ public class BatchExecutor extends BaseExecutor { public static final int BATCH_UPDATE_RETURN_VALUE = Integer.MIN_VALUE + 1002; private final List<Statement> statementList = new ArrayList<Statement>();//Statement list private final List<BatchResult> batchResultList = new ArrayList<BatchResult>();//batch list private String currentSql; private MappedStatement currentStatement; public BatchExecutor(Configuration configuration, Transaction transaction) { super(configuration, transaction); } public int doUpdate(MappedStatement ms, Object parameterObject) throws SQLException { final Configuration configuration = ms.getConfiguration();//获得配置信息 final StatementHandler handler = configuration.newStatementHandler(this, ms, parameterObject, RowBounds.DEFAULT, null, null); final BoundSql boundSql = handler.getBoundSql(); final String sql = boundSql.getSql();//获得Sql语句 final Statement stmt; //如果sql语句等于当前sql MappedStatement 等于当前Map碰到Statement if (sql.equals(currentSql) && ms.equals(currentStatement)) { int last = statementList.size() - 1; stmt = statementList.get(last);//获得最后一个 //有相同的MappedStatement和参数 BatchResult batchResult = batchResultList.get(last); batchResult.addParameterObject(parameterObject); } else { //如果不存在就创建一个批处理操作 Connection connection = getConnection(ms.getStatementLog()); stmt = handler.prepare(connection); currentSql = sql; currentStatement = ms; statementList.add(stmt);//添加批量处理操作 batchResultList.add(new BatchResult(ms, sql, parameterObject)); } handler.parameterize(stmt); handler.batch(stmt);//最终是调用jdbc的批处理操作 return BATCH_UPDATE_RETURN_VALUE; } public <E> List<E> doQuery(MappedStatement ms, Object parameterObject, RowBounds rowBounds, ResultHandler resultHandler, BoundSql boundSql) throws SQLException { Statement stmt = null; try { flushStatements(); Configuration configuration = ms.getConfiguration(); StatementHandler handler = configuration.newStatementHandler(wrapper, ms, parameterObject, rowBounds, resultHandler, boundSql); Connection connection = getConnection(ms.getStatementLog()); stmt = handler.prepare(connection); handler.parameterize(stmt); return handler.<E>query(stmt, resultHandler); } finally { closeStatement(stmt); } } //刷新Statement,记录执行次数 public List<BatchResult> doFlushStatements(boolean isRollback) throws SQLException { try { List<BatchResult> results = new ArrayList<BatchResult>(); if (isRollback) { return Collections.emptyList(); } else { //如果进行了批量处理 for (int i = 0, n = statementList.size(); i < n; i++) { Statement stmt = statementList.get(i); BatchResult batchResult = batchResultList.get(i); try { //记录批量处理执行操作的条数 batchResult.setUpdateCounts(stmt.executeBatch()); MappedStatement ms = batchResult.getMappedStatement(); List<Object> parameterObjects = batchResult.getParameterObjects();//参数对象集合 KeyGenerator keyGenerator = ms.getKeyGenerator();//生成key if (Jdbc3KeyGenerator.class.equals(keyGenerator.getClass())) { Jdbc3KeyGenerator jdbc3KeyGenerator = (Jdbc3KeyGenerator) keyGenerator; jdbc3KeyGenerator.processBatch(ms, stmt, parameterObjects); } else if (!NoKeyGenerator.class.equals(keyGenerator.getClass())) { //issue #141 for (Object parameter : parameterObjects) { keyGenerator.processAfter(this, ms, stmt, parameter); } } } catch (BatchUpdateException e) { StringBuffer message = new StringBuffer(); message.append(batchResult.getMappedStatement().getId()) .append(" (batch index #") .append(i + 1) .append(")") .append(" failed."); if (i > 0) { message.append(" ") .append(i) .append(" prior sub executor(s) completed successfully, but will be rolled back."); } throw new BatchExecutorException(message.toString(), e, results, batchResult); } results.add(batchResult);//记录操作 } return results; } } finally { for (Statement stmt : statementList) { closeStatement(stmt); } currentSql = null; statementList.clear(); batchResultList.clear(); } } }
ReuseExecutor: 重复使用执行,其定义了一个Map<String, Statement>,将执行的sql作为key,将执行的Statement作为value保存,这样执行相同的sql时就可以使用已经存在的Statement,就不需要新创建了。(执行update或select,以sql作为key查找Statement对象,存在就使用,不存在就创建,用完后,不关闭Statement对象,而是放置于Map内,供下一次使用。简言之,就是重复使用Statement对象。)源码及分析如下:
package org.apache.ibatis.executor; import java.sql.Connection; import java.sql.SQLException; import java.sql.Statement; import java.util.Collections; import java.util.HashMap; import java.util.List; import java.util.Map; import org.apache.ibatis.executor.statement.StatementHandler; import org.apache.ibatis.logging.Log; import org.apache.ibatis.mapping.BoundSql; import org.apache.ibatis.mapping.MappedStatement; import org.apache.ibatis.session.Configuration; import org.apache.ibatis.session.ResultHandler; import org.apache.ibatis.session.RowBounds; import org.apache.ibatis.transaction.Transaction; /** * @author Clinton Begin */ public class ReuseExecutor extends BaseExecutor { private final Map<String, Statement> statementMap = new HashMap<String, Statement>(); public ReuseExecutor(Configuration configuration, Transaction transaction) { super(configuration, transaction); } public int doUpdate(MappedStatement ms, Object parameter) throws SQLException { Configuration configuration = ms.getConfiguration(); StatementHandler handler = configuration.newStatementHandler(this, ms, parameter, RowBounds.DEFAULT, null, null); Statement stmt = prepareStatement(handler, ms.getStatementLog());//转换为PrepareStatement return handler.update(stmt); } public <E> List<E> doQuery(MappedStatement ms, Object parameter, RowBounds rowBounds, ResultHandler resultHandler, BoundSql boundSql) throws SQLException { Configuration configuration = ms.getConfiguration(); StatementHandler handler = configuration.newStatementHandler(wrapper, ms, parameter, rowBounds, resultHandler, boundSql); Statement stmt = prepareStatement(handler, ms.getStatementLog()); return handler.<E>query(stmt, resultHandler); } public List<BatchResult> doFlushStatements(boolean isRollback) throws SQLException { for (Statement stmt : statementMap.values()) { closeStatement(stmt);//关闭Statement } statementMap.clear();//清空sql return Collections.emptyList(); } private Statement prepareStatement(StatementHandler handler, Log statementLog) throws SQLException { Statement stmt; BoundSql boundSql = handler.getBoundSql(); String sql = boundSql.getSql();//获得sql语句 if (hasStatementFor(sql)) { //查看是否存在Statement stmt = getStatement(sql);//如果存在就获取Statement } else { Connection connection = getConnection(statementLog); stmt = handler.prepare(connection);//否则通过连接创建一个Statement putStatement(sql, stmt);//将sql语句及对应的Statement 保存到map中 } handler.parameterize(stmt); return stmt; } private boolean hasStatementFor(String sql) { try { //查看map中是否含有sql语句对应的Statement return statementMap.keySet().contains(sql) && !statementMap.get(sql).getConnection().isClosed(); } catch (SQLException e) { return false; } } //获得Sql语句对应的Statement private Statement getStatement(String s) { return statementMap.get(s); } //将sql语句及对应的Statement保存到map中 private void putStatement(String sql, Statement stmt) { statementMap.put(sql, stmt); } }
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