摘要:
1.查询总结:练习上一次批量查询练习中五种基本查询方法的使用:1。OID查询-基于对象ID 2的查询。对象属性导航查询:obj.getXXX3。HQL查询:查询对象查询4。QBC(QueryByCriteria):条件对象查询5。原生SQL查询:SQLQuery测试代码如下:packagecn.qlq.query;importjava.util.Set;进口,进口
1.查询总结
在之前的批量查询练习的时候练习基本五种查询方法的使用:
1.OID查询---根据对象ID进行查询
2.对象属性导航查询: obj.getXXX
3.HQL查询:Query对象查询
4.QBC(QueryByCriteria):Criteria对象查询
5.原生SQL查询:SQLQuery查询
测试代码如下:
package cn.qlq.query; import java.util.Set; import org.hibernate.Criteria; import org.hibernate.Query; import org.hibernate.SQLQuery; import org.hibernate.Session; import org.hibernate.Transaction; import org.hibernate.criterion.Restrictions; import org.junit.Test; import cn.qlq.domain.Customer; import cn.qlq.domain.LinkMan; import cn.qlq.util.HibernateUtil; /** * 之前的查询总结 * @author liqiang * */ public class HibernateQuery { @Test /** * OID查询(get方法) */ public void fun1(){ Session session = HibernateUtil.openSession(); Transaction tx = session.beginTransaction(); Customer customer = session.get(Customer.class, 7l); System.out.println(customer); tx.commit(); session.close(); } @Test /** * 属性导航语言(对象.getXXX) */ public void fun2(){ Session session = HibernateUtil.openSession(); Transaction tx = session.beginTransaction(); Customer customer = session.get(Customer.class, 7l); Set<LinkMan> linkMens = customer.getLinkMens(); System.out.println(linkMens); tx.commit(); session.close(); } @Test /** * HQL查询(Query对象进行查询) */ public void fun3(){ Session session = HibernateUtil.openSession(); Transaction tx = session.beginTransaction(); String hql = "from cn.qlq.domain.Customer";//如果整个项目只有一个类名,可以省去包名 Query query = session.createQuery(hql); System.out.println(query.list()); tx.commit(); session.close(); } @Test /** * Criteria查询(也被叫做QBC---query by criteria) */ public void fun4(){ Session session = HibernateUtil.openSession(); Transaction tx = session.beginTransaction(); Criteria criteria = session.createCriteria(Customer.class); // criteria.add(Restrictions.ilike("name", "xxx"));//添加过滤条件 System.out.println(criteria.list()); tx.commit(); session.close(); } @Test /** * 原生SQL查询(SQLQuery对象进行查询) */ public void fun5(){ Session session = HibernateUtil.openSession(); Transaction tx = session.beginTransaction(); String sql = "select * from cst_customer"; SQLQuery sqlQuery = session.createSQLQuery(sql); sqlQuery.addEntity(Customer.class); System.out.println(sqlQuery.list()); tx.commit(); session.close(); } }
补充:也可以用query对象将查询结果映射为Map
@Test /** * 原生SQL查询(SQLQuery映射查询结果为map) */ public void fun6(){ Session session = HibernateUtil.openSession(); Transaction tx = session.beginTransaction(); String sql = "select * from cst_customer"; SQLQuery sqlQuery = session.createSQLQuery(sql); sqlQuery.setResultTransformer(Transformers.ALIAS_TO_ENTITY_MAP); System.out.println(sqlQuery.list()); tx.commit(); session.close(); }
结果:
[{cust_phone=null, cust_name=测试名称1, cust_mobile=null, cust_linkman=null, cust_industry=null, cust_level=null, cust_source=null, cust_id=7}, {cust_phone=null, cust_name=测试名称2, cust_mobile=null, cust_linkman=null, cust_industry=null, cust_level=null, cust_source=null, cust_id=8}, {cust_phone=null, cust_name=测试名称3, cust_mobile=null, cust_linkman=null, cust_industry=null, cust_level=null, cust_source=null, cust_id=9}, {cust_phone=null, cust_name=测试名称4, cust_mobile=null, cust_linkman=null, cust_industry=null, cust_level=null, cust_source=null, cust_id=10}, {cust_phone=null, cust_name=测试名称5, cust_mobile=null, cust_linkman=null, cust_industry=null, cust_level=null, cust_source=null, cust_id=11}, {cust_phone=null, cust_name=测试名称6, cust_mobile=null, cust_linkman=null, cust_industry=null, cust_level=null, cust_source=null, cust_id=12}, {cust_phone=null, cust_name=测试名称7, cust_mobile=null, cust_linkman=null, cust_industry=null, cust_level=null, cust_source=null, cust_id=13}]
2.HQL深入学习(Hibernate query language)
1.HQL介绍
HQL是面向对象的查询语言,它和SQL查询有些类似,但它使用的是类、对象、属性的概念,而没有表和字段的概念,也就是在HQL中如果出现DB中的表和字段名是错误的。在Hibernate的各种检索方式中,官方推荐的是HQL检索,也是使用最广泛的一种查询方式。它具有如下功能:
- 在查询中设定各种查询条件
- 支持投影查询,即检索对象的部分属性
- 支持分页查询
- 支持分组查询,允许使用group by关键字和having关键字
- 提供内置聚集函数。如sum、avg、min、max、count等函数
- 能够调用用户定义的SQL函数
- 支持子查询,即嵌套查询
- 支持动态参数绑定
Hibernate提供的Query接口是专门的HQL查询接口,它能够执行各种复杂的HQL查询语句。完整的SQL语句结构如下:
Select ... from... where ... group by ... having...order by ...desc/asc
HQL非常类似于SQL。通常情况下如果查询表中的所有记录的时候,查询语句中可省略select关键字,如下:
from Customer如果执行该语句,则会返回应用程序中的所有的Customer对象,需要注意的是Customer是类名而不是对象名,类名区分大小写,from不区分大小写,如果项目中有多个相同的类名需要加包名。
补充:如果希望查询结果映射为map,可以采用:
query.setResultTransformer(Transformers.ALIAS_TO_ENTITY_MAP);
2.HQL学习
1.基本检索-检索所有
@Test // HQL查询所有数据 public void fun1() { // 1 获得session Session session = HibernateUtil.openSession(); // 2.书写HQL语句 // String hql = "from cn.qlq.domain.Customer";// from 类名全路径 String hql1 = "from Customer";//整个项目只有一个类名可以省略包名 // String hql2 = "from java.lang.Object";//写Object的时候会查询项目中的所有类,切勿使用,浪费内存 // 3.根据hql创建查询对象 // Query query = session.createQuery(hql); Query query = session.createQuery(hql1); // Query query = session.createQuery(hql2); // 4.根据查询对象获取查询结果 List<Customer> objs = query.list(); System.out.println(objs); }
结果:
Hibernate: select customer0_.cust_id as cust_id1_0_, customer0_.cust_name as cust_nam2_0_, customer0_.cust_source as cust_sou3_0_, customer0_.cust_industry as cust_ind4_0_, customer0_.cust_level as cust_lev5_0_, customer0_.cust_linkman as cust_lin6_0_, customer0_.cust_phone as cust_pho7_0_, customer0_.cust_mobile as cust_mob8_0_ from cst_customer customer0_ [Customer [cust_id=7, cust_name=测试名称1], Customer [cust_id=8, cust_name=测试名称2], Customer [cust_id=9, cust_name=测试名称3], Customer [cust_id=10, cust_name=测试名称4], Customer [cust_id=11, cust_name=测试名称5], Customer [cust_id=12, cust_name=测试名称6], Customer [cust_id=13, cust_name=测试名称7]]
2.排序
@Test //排序查询 public void fun2() { // 1 获得session Session session = HibernateUtil.openSession(); // 2.书写HQL语句 String hql1 = "from Customer order by cust_id asc,cust_name desc";//整个项目只有一个类名可以省略包名 // 3.根据hql创建查询对象 Query query = session.createQuery(hql1); // 4.根据查询对象获取查询结果 List<Customer> objs = query.list(); System.out.println(objs); }
结果:
Hibernate: select customer0_.cust_id as cust_id1_0_, customer0_.cust_name as cust_nam2_0_, customer0_.cust_source as cust_sou3_0_, customer0_.cust_industry as cust_ind4_0_, customer0_.cust_level as cust_lev5_0_, customer0_.cust_linkman as cust_lin6_0_, customer0_.cust_phone as cust_pho7_0_, customer0_.cust_mobile as cust_mob8_0_ from cst_customer customer0_ order by customer0_.cust_id asc, customer0_.cust_name desc [Customer [cust_id=7, cust_name=测试名称1], Customer [cust_id=8, cust_name=测试名称2], Customer [cust_id=9, cust_name=测试名称3], Customer [cust_id=10, cust_name=测试名称4], Customer [cust_id=11, cust_name=测试名称5], Customer [cust_id=12, cust_name=测试名称6], Customer [cust_id=13, cust_name=测试名称7]]
3.条件检索
(1)?占位符查询
类似于JDBC的占位符,只是hibernate的?下标从0开始,而JDBC的下标从1开始,基本上所有的编程索引都从0开始,唯独JDBC从1开始。。。。
@Test // HQL的?占位符查询 public void fun3() { // 1 获得session Session session = HibernateUtil.openSession(); // 2.书写HQL语句 // String hql = "from cn.qlq.domain.Customer";// from 类名全路径 String hql = "from Customer where cust_id = ?";// 如果整个项目中只有这一个类名可以直接写名字 // 3.根据hql创建查询对象 Query query = session.createQuery(hql); // query.setLong(0, 1l);//类似于JDBC的占位符,只是JDBC的占位符下标从0开始,hibernate从1开始 query.setParameter(0, 1l);//这种写法不用管类型 // 4.根据查询对象获取查询结果 Customer customer = (Customer) query.uniqueResult(); System.out.println(customer); }
(2)命令占位符 :name格式的查询,固定格式,name随便起,习惯性的起做和条件名字一样
@Test // HQL的命令占位符查询 public void fun4() { // 1 获得session Session session = HibernateUtil.openSession(); // 2.书写HQL语句 // String hql = "from cn.qlq.domain.Customer";// from 类名全路径 String hql = "from Customer where cust_id = :cust_id";// :cust_id的名字随便起,只不过习惯性的起做一样 // 3.根据hql创建查询对象 Query query = session.createQuery(hql); // query.setLong(0, 1l);//类似于JDBC的占位符,只是JDBC的占位符下标从0开始,hibernate从1开始 query.setParameter("cust_id",1l); // 4.根据查询对象获取查询结果 Customer customer = (Customer) query.uniqueResult(); System.out.println(customer); }
4.排序查询
@Test // HQL分页查询 public void fun5() { // 1 获得session Session session = HibernateUtils.openSession(); // 2.书写HQL语句 // String hql = "from cn.qlq.domain.Customer";// from 类名全路径 String hql = "from Customer order by cust_id desc";// 3.根据hql创建查询对象 Query query = session.createQuery(hql); /** * 类似于 limit start,pageSize; * 假设页大小是2 * 页号 起始值 页大小 * 1 0 2 * 2 2 2 */ //例如取第二页数据 query.setFirstResult(2); query.setMaxResults(2); // 4.根据查询对象获取查询结果 List<Customer> customers = query.list(); System.out.println(customers); }
5.聚合函数的使用:
@Test //聚集函数的使用 public void fun3() { // 1 获得session Session session = HibernateUtil.openSession(); // 2.书写HQL语句 String hql1 = "select count(*) from Customer";//统计总数 String hql2 = "select avg(cust_id) from Customer";//平均 String hql3 = "select sum(cust_id) from Customer";//和 String hql4 = "select max(cust_id) from Customer";//最大 String hql5 = "select min(cust_id) from Customer";//最小 // 3.根据hql创建查询对象 Query query = session.createQuery(hql4); // 4.根据查询对象获取查询结果 Number number = (Number) query.uniqueResult();//Number是所有数字类型的父类 System.out.println(number); }
6.投影检索---查询指定的属性,不查全部
(1)投影单个属性
@Test //投影单个 public void fun7() { // 1 获得session Session session = HibernateUtil.openSession(); // 2.书写HQL语句 String hql1 = "select cust_name from Customer";//整个项目只有一个类名可以省略包名 // 3.根据hql创建查询对象 Query query = session.createQuery(hql1); // 4.根据查询对象获取查询结果 List<String> objs = query.list();//那一列是什么类型用什么类型,也可以省去不写 System.out.println(objs); }
结果:
Hibernate: select customer0_.cust_name as col_0_0_ from cst_customer customer0_ [测试名称1, 测试名称2, 测试名称3, 测试名称4, 测试名称5, 测试名称6, 测试名称7]
(2)投影多列---映射为数组
@Test //投影多列 public void fun7() { // 1 获得session Session session = HibernateUtil.openSession(); // 2.书写HQL语句 String hql1 = "select cust_id,cust_name from Customer";//整个项目只有一个类名可以省略包名 // 3.根据hql创建查询对象 Query query = session.createQuery(hql1); // 4.根据查询对象获取查询结果 List<Object[]> objs = query.list();//那一列是什么类型用什么类型,也可以省去不写 System.out.println(objs); }
结果:
Hibernate: select customer0_.cust_id as col_0_0_, customer0_.cust_name as col_1_0_ from cst_customer customer0_ [[Ljava.lang.Object;@29bd3793, [Ljava.lang.Object;@458ba94d, [Ljava.lang.Object;@541821e6, [Ljava.lang.Object;@7c59ae2b, [Ljava.lang.Object;@63b9c8d4, [Ljava.lang.Object;@3a300972, [Ljava.lang.Object;@27bc3936]
(3)将投影映射为对象:(构造方式查询)
在原来的类中创建需要投影的属性的构造方法,同时需要显示的创建无参构造函数:
测试代码:
@Test //投影多列---映射为JavaBean public void fun7() { // 1 获得session Session session = HibernateUtil.openSession(); // 2.书写HQL语句 String hql1 = "select new Customer(cust_id,cust_name) from Customer";//整个项目只有一个类名可以省略包名 // 3.根据hql创建查询对象 Query query = session.createQuery(hql1); // 4.根据查询对象获取查询结果 List<Customer> objs = query.list();//那一列是什么类型用什么类型,也可以省去不写 System.out.println(objs); }
结果
Hibernate: select customer0_.cust_id as col_0_0_, customer0_.cust_name as col_1_0_ from cst_customer customer0_ [Customer [cust_id=7, cust_name=测试名称1], Customer [cust_id=8, cust_name=测试名称2], Customer [cust_id=9, cust_name=测试名称3], Customer [cust_id=10, cust_name=测试名称4], Customer [cust_id=11, cust_name=测试名称5], Customer [cust_id=12, cust_name=测试名称6], Customer [cust_id=13, cust_name=测试名称7]]
7.查询结果映射为map
@Test public void fun8() { // 1 获得session Session session = HibernateUtil.openSession(); // 2.书写HQL语句 String hql1 = "select cust_id,cust_name from Customer";//整个项目只有一个类名可以省略包名 // 3.根据hql创建查询对象 Query query = session.createQuery(hql1); query.setResultTransformer(Transformers.ALIAS_TO_ENTITY_MAP); // 4.根据查询对象获取查询结果 List<Map<String,Object>> objs = query.list();//那一列是什么类型用什么类型,也可以省去不写 System.out.println(objs); }
结果:
[{1=测试名称1, 0=7}, {1=测试名称2, 0=8}, {1=测试名称3, 0=9}, {1=测试名称4, 0=10}, {1=测试名称5, 0=11}, {1=测试名称6, 0=12}, {1=测试名称7, 0=13}]
3.HQL多表查询
多表查询分为交叉连接(笛卡尔积)、内连接(隐士内连接、显示内连接),外链接(左外连接和右外连接),测试语句如下:
package cn.qlq.HQL; import java.util.Arrays; import java.util.List; import org.hibernate.Query; import org.hibernate.Session; import org.hibernate.Transaction; import org.junit.Test; import cn.qlq.domain.Customer; import cn.qlq.util.HibernateUtil; //学习HQL语法(不常用) - 多表查询语法 public class Demo2 { //回顾-原生SQL // 交叉连接-笛卡尔积(避免) // select * from A,B // 内连接 // |-隐式内连接 // select * from A,B where b.aid = a.id // |-显式内连接 // select * from A inner join B on b.aid = a.id // 外连接 // |- 左外 // select * from A left [outer] join B on b.aid = a.id // |- 右外 // select * from A right [outer] join B on b.aid = a.id //--------------------------------------------------------------------- //HQL的多表查询 //内连接(迫切) //外连接 // |-左外(迫切) // |-右外(迫切) @Test //HQL 内连接 => 将连接的两端对象分别返回.放到数组中. public void fun0(){ Session session = HibernateUtil.openSession(); Transaction tx = session.beginTransaction(); //---------------------------------------------------- String hql = " from Customer c inner join c.linkMens "; Query query = session.createQuery(hql); List<Object[]> list = query.list(); for(Object[] arr : list){ System.out.println(Arrays.toString(arr)); } //---------------------------------------------------- tx.commit(); session.close(); } @Test //HQL 内连接 => 带查询条件,查询cust_id为9的数据 public void fun1(){ Session session = HibernateUtil.openSession(); Transaction tx = session.beginTransaction(); //---------------------------------------------------- String hql = " from Customer c inner join c.linkMens where cust_id = 9l"; Query query = session.createQuery(hql); List<Object[]> list = query.list(); for(Object[] arr : list){ System.out.println(Arrays.toString(arr)); } //---------------------------------------------------- tx.commit(); session.close(); } @Test //HQL 迫切内连接 => 帮我们进行封装.返回值就是一个对象 public void fun2(){ Session session = HibernateUtil.openSession(); Transaction tx = session.beginTransaction(); //---------------------------------------------------- String hql = " from Customer c inner join fetch c.linkMens "; Query query = session.createQuery(hql); List<Customer> list = query.list(); System.out.println(list); //---------------------------------------------------- tx.commit(); session.close(); } @Test //HQL 左外连接 => 将连接的两端对象分别返回.放到数组中. public void fun3(){ Session session = HibernateUtil.openSession(); Transaction tx = session.beginTransaction(); //---------------------------------------------------- String hql = " from Customer c left join c.linkMens "; Query query = session.createQuery(hql); List<Object[]> list = query.list(); for(Object[] arr : list){ System.out.println(Arrays.toString(arr)); } //---------------------------------------------------- tx.commit(); session.close(); } @Test //HQL 右外连接 => 将连接的两端对象分别返回.放到数组中. public void fun4(){ Session session = HibernateUtil.openSession(); Transaction tx = session.beginTransaction(); //---------------------------------------------------- String hql = " from Customer c right join c.linkMens "; Query query = session.createQuery(hql); List<Object[]> list = query.list(); for(Object[] arr : list){ System.out.println(Arrays.toString(arr)); } //---------------------------------------------------- tx.commit(); session.close(); } }
3.QBC深入学习
1.在线Criteria(由Session创建)
QBC(Query By Criteria)是Hibernate创提供的另一种检索对象的方式,它主要由Criteria接口、Criterion接口和Expression类组成。Criteria是HibernateAPI中的一个查询接口,它需要由session进行创建(由session创建的Criteria称为在线Criteria对象,查询哪个实体将哪个实体的class字节码对象传给session)。Criterion是Criteria的查询条件,在Criteria中提供了add(Criterion c)方法来添加查询条件。使用QBC检索对象的示例代码如下:
Criteria criteria = session.createCriteria(Customer.class); criteria.add(Restrictions.eq("cust_id", 1l)); Customer customer = (Customer) criteria.uniqueResult();
1.基本的查询所有
@Test // 查询所有 public void test1() { // 1 获得session Session session = HibernateUtil.openSession(); // 2.創建criteria进行查询 Criteria criteria = session.createCriteria(Customer.class); List<Customer> list = criteria.list(); System.out.println(list); }
2. 条件查询单个:
@Test // 根据ID查询单个,条件查询 public void test2() { // 1 获得session Session session = HibernateUtils.openSession(); // 2.創建criteria进行查询 Criteria criteria = session.createCriteria(Customer.class); criteria.add(Restrictions.eq("cust_id", 1l)); Customer customer = (Customer) criteria.uniqueResult(); System.out.println(customer); }
结果:
Customer [cust_id=1, cust_name=程序员111]
条件列表:
补充:QBC也可以传SQL条件,例如:
@Test // 根据ID查询单个,条件查询 public void test2() { // 1 获得session Session session = HibernateUtils.openSession(); // 2.創建criteria进行查询 Criteria criteria = session.createCriteria(Customer.class); criteria.add(Restrictions.sqlRestriction("cust_id = 1")); criteria.add(Restrictions.sqlRestriction("cust_name = '张三'")); Customer customer = (Customer) criteria.uniqueResult(); System.out.println(customer); }
结果:
user创建对象 Hibernate: select this_.cust_id as cust_id1_0_0_, this_.cust_name as cust_nam2_0_0_, this_.cust_source as cust_sou3_0_0_, this_.cust_industry as cust_ind4_0_0_, this_.isPerson as isPerson5_0_0_, this_.cust_level as cust_lev6_0_0_, this_.cust_linkman as cust_lin7_0_0_, this_.cust_phone as cust_pho8_0_0_, this_.cust_mobile as cust_mob9_0_0_ from cst_customer this_ where cust_id = 1 and cust_name = '张三' Customer [cust_id=1, cust_name=张三]
3.分页查询:
@Test // 分页查询 public void test3() { // 1 获得session Session session = HibernateUtils.openSession(); // 2.創建criteria进行查询 Criteria criteria = session.createCriteria(Customer.class); /** * 类似于 limit start,pageSize; * 假设页大小是2 * 页号 起始值 页大小 * 1 0 2 * 2 2 2 */ criteria.setFirstResult(2); criteria.setMaxResults(2); List<Customer> list = criteria.list(); System.out.println(list); }
结果:
[Customer [cust_id=3, cust_name=测试名称222], Customer [cust_id=4, cust_name=测试名称222]]
4.排序分组使用
@Test // 排序和分组 public void test5() { // 1 获得session Session session = HibernateUtils.openSession(); // 2.排序 Criteria criteria = session.createCriteria(Customer.class); criteria.addOrder(Order.desc("cust_id")); List<Customer> list = criteria.list(); System.out.println(list); System.out.println(); // 2.分组 Criteria criteria1 = session.createCriteria(Customer.class); criteria1.setProjection(Projections.groupProperty("cust_name")); List<Customer> list1 = criteria1.list(); System.out.println(list1); }
结果:
[Customer [cust_id=4, cust_name=测试名称222], Customer [cust_id=3, cust_name=测试名称222], Customer [cust_id=2, cust_name=新增数据], Customer [cust_id=1, cust_name=程序员111]]
[新增数据, 测试名称222, 程序员111]
5.聚集函数查询总数
@Test // 查询总数(聚集函数的使用) public void test4() { // 1 获得session Session session = HibernateUtils.openSession(); // 2.聚集函数查询总数 Criteria criteria = session.createCriteria(Customer.class); criteria.setProjection(Projections.rowCount()); Long count = (Long) criteria.uniqueResult(); System.out.println(count); // 3.聚集函数查询总数第二种方法 Criteria criteria1 = session.createCriteria(Customer.class); criteria1.setProjection(Projections.count("cust_id")); Long count1 = (Long) criteria.uniqueResult(); System.out.println(count1); // 4.聚集函数查询几个不同的姓名 Criteria criteria2 = session.createCriteria(Customer.class); criteria2.setProjection(Projections.countDistinct("cust_name")); Long count2 = (Long) criteria2.uniqueResult(); System.out.println(count2); }
结果:
4
4
3
6. Criteria 实现or语句查询
@Test // 根据ID查询单个,条件查询 public void test22() { // 1 获得session Session session = HibernateUtils.openSession(); // 2.創建criteria进行查询 Criteria criteria = session.createCriteria(Customer.class); criteria.add(Restrictions.or(Restrictions.eq("cust_name", "李四1"), Restrictions.eq("cust_name", "李四2"))); criteria.add(Restrictions.isNotNull("cust_name")); List list = criteria.list(); System.out.println(list); }
结果: (这种写法是一个 or ,相当于 where xxx=xx and( xxx = xxx or xxxx=xxxx or ....) )
user创建对象
Hibernate:
select this_.cust_id as cust_id1_0_0_, this_.cust_name as cust_nam2_0_0_, this_.cust_source as cust_sou3_0_0_, this_.cust_industry as cust_ind4_0_0_, this_.isPerson as isPerson5_0_0_, this_.cust_level as cust_lev6_0_0_, this_.cust_linkman as cust_lin7_0_0_, this_.cust_phone as cust_pho8_0_0_, this_.cust_mobile as cust_mob9_0_0_ from cst_customer this_ where ( this_.cust_name=? or this_.cust_name=? ) and this_.cust_name is not null
[Customer [cust_id=3, cust_name=李四1], Customer [cust_id=4, cust_name=李四2]]
第二种写法:(建议这种---多个or的时候清晰)
@Test // 根据ID查询单个,条件查询 public void test222() { // 1 获得session Session session = HibernateUtils.openSession(); // 2.創建criteria进行查询 Criteria criteria = session.createCriteria(Customer.class); criteria.add(Restrictions.isNotNull("cust_name")); Disjunction disjunction = Restrictions.disjunction(); disjunction.add(Restrictions.eq("cust_name", "李四1")); disjunction.add(Restrictions.eq("cust_name", "李四2")); criteria.add(disjunction); List list = criteria.list(); System.out.println(list); }
结果:
user创建对象 Hibernate: select this_.cust_id as cust_id1_0_0_, this_.cust_name as cust_nam2_0_0_, this_.cust_source as cust_sou3_0_0_, this_.cust_industry as cust_ind4_0_0_, this_.isPerson as isPerson5_0_0_, this_.cust_level as cust_lev6_0_0_, this_.cust_linkman as cust_lin7_0_0_, this_.cust_phone as cust_pho8_0_0_, this_.cust_mobile as cust_mob9_0_0_ from cst_customer this_ where this_.cust_name is not null and ( this_.cust_name=? or this_.cust_name=? ) [Customer [cust_id=3, cust_name=李四1], Customer [cust_id=4, cust_name=李四2]]
所以当只需要一个or条件时可以用Restrictions.or();当用到多个or条件时,就需要用到Restrictions.disjunction();
2.离线Criteria(DetachedCriteria--可以凭空创建)
补充:
Spring 的框架提供了getHibernateTemplate().findByCriteria(detachedCriteria) 方法可以很方便地根据DetachedCriteria来返回查询结果。
1.DetachedCriteria介绍以及简单用法
应用场景一般是动态条件查询,我们可以在web层或者service层根据业务创建DetachedCriteria对象并封装动态条件传到dao层,dao层根据DetachedCriteria对象获取在线Criteria查询数据库,实现解耦。使用步骤大概如下:
(1)创建DetachedCriteria对象的方式有两种:
//第一种方法:传入class DetachedCriteria dc = DetachedCriteria.forClass(Customer.class);//查询哪个对象将哪个对象的字节码传进去 //第二种方法:传入全类名(必须携带包名) DetachedCriteria dc = DetachedCriteria.forEntityName("cn.qlq.domain.Customer");//
(2)DetachedCriteria对象封装查询条件与Criteria对象一样:
dc.add(Restrictions.idEq(7l));
(3)通过DetachedCriteria构造在线Criiteria对象方法:(需要Session环境)
// 1 获得session Session session = HibernateUtil.openSession(); // 2.通过DetachedCriteria构造Criteria对象 Criteria criteria = dc.getExecutableCriteria(session);//获取在线criteria对象
(4)通过Criteria进行查询:(与原来一样)
//1.查询集合 // List<Customer> list = criteria.list(); //2.查询单个对象 Object uniqueResult = criteria.uniqueResult();
2.在线Criteria与线下Criteria(DetachedCriteria)区别:
在线Criteria的查询图解如下:
离线Criteria图解如下:
线下Criteria测试代码:
@Test public void test1() { /*******************S Web层或者service层 **************************/ //0.构造DetachedCriteria对象封装查询条件 //第一种方法:传入class // DetachedCriteria dc = DetachedCriteria.forClass(Customer.class);//查询哪个对象将哪个对象的字节码传进去 //第二种方法:传入全类名(必须携带包名) DetachedCriteria dc = DetachedCriteria.forEntityName("cn.qlq.domain.Customer");// dc.add(Restrictions.idEq(7l)); /*******************E Web层或者service层 **************************/ /********************S Dao层************************************/ // 1 获得session Session session = HibernateUtil.openSession(); // 2.通过DetachedCriteria构造Criteria对象 Criteria criteria = dc.getExecutableCriteria(session);//获取在线criteria对象 List<Customer> list = criteria.list(); System.out.println(list); /********************E Dao层************************************/ }
结果:
Hibernate: select this_.cust_id as cust_id1_0_0_, this_.cust_name as cust_nam2_0_0_, this_.cust_source as cust_sou3_0_0_, this_.cust_industry as cust_ind4_0_0_, this_.cust_level as cust_lev5_0_0_, this_.cust_linkman as cust_lin6_0_0_, this_.cust_phone as cust_pho7_0_0_, this_.cust_mobile as cust_mob8_0_0_ from cst_customer this_ where this_.cust_id = ? [Customer [cust_id=7, cust_name=测试名称1]]
user创建对象Hibernate: select this_.cust_id as cust_id1_0_0_, this_.cust_name as cust_nam2_0_0_, this_.cust_source as cust_sou3_0_0_, this_.cust_industry as cust_ind4_0_0_, this_.isPerson as isPerson5_0_0_, this_.cust_level as cust_lev6_0_0_, this_.cust_linkman as cust_lin7_0_0_, this_.cust_phone as cust_pho8_0_0_, this_.cust_mobile as cust_mob9_0_0_ from cst_customer this_ where cust_id = 1 and cust_name = '张三'Customer [cust_id=1, cust_name=张三]