**
** ORM:Object–Relation–Mapping對象關系映射
對象指的就是java的實體對象; 關系指的是關系型數據庫。(Oracle、DB2、MySQL、SqlServer) ORM的主要思想就是將程序中的對象和數據庫中的數據實現自動映射 轉換。利用ORM工具,在查詢時,可以自動將記錄封裝成Java對象返 回。在更新、插入操作時,可以將對象自動寫入數據表。對于中間的 SQL+JDBC操作細節,完全封裝在工具底層hibernate幾個架構 1)POJO類
public class hibernate_test { public String name; public int age; public String sex; public hibernate_test() { } public String getName() { return name; } public void setName(String name) { this.name = name; } public int getAge() { return age; } public void setAge(int age) { this.age = age; } public String getSex() { return sex; } public void setSex(String sex) { this.sex = sex; } @Override public String toString() { return "hibernate_test [name=" + name + ", age=" + age + ", sex=" + sex + "]"; }}2)hibernate_cfg.xml
<?xml version="1.0"?><!DOCTYPE hibernate-mapping PUBLIC "-//Hibernate/Hibernate Mapping DTD 3.0//EN""http://hibernate.sourceforge.net/hibernate-mapping-3.0.dtd"><hibernate-mapping package="hibernate_001"> <class name="hibernate_test" table="HIBERNATE_TEST"> <id name="name" type="java.lang.String"> <column name="NAME" /> </id> <PRoperty name="age" type="int"> <column name="AGE" /> </property> <property name="sex" type="java.lang.String"> <column name="SEX" /> </property> </class> </hibernate-mapping>3)*.hbm.xml
<hibernate-configuration><session-factory> <!--指定連接數據庫用的驅動--> <property name="connection.driver_class"></property> <property name="connection.url"></property> <!--指定連接數據庫的用戶名--> <property name="connection.username">用戶名</property> <property name="connection.passWord">密碼</property> <!-- SQL dialect oracle方言--> <property name="dialect">org.hibernate.dialect.Oracle10gDialect</property> <!-- Echo all executed SQL to stdout --> <property name="show_sql">true</property> <!-- Drop and re-create the database schema on startup --> <property name="hbm2ddl.auto">create</property> <!-- 配置文件地址 --> <mapping resource="xxx"/></session-factory></hibernate-configuration>使用hibernate的優勢 :不再需要大量的sql語句 ,實體類跟數據庫之間實現自動映射轉換
hibernate調用API **1.創建 Configuration對象 2.創建session工廠 3.通過工廠創建會話對象 4.獲取事物對象 5.進行操作,提交,結束及關閉Session**
Configuration cfg=new Configuration();SessionFactory sf=cfg.configure().buildSessionFactory();Session session=sf.openSession();session.beginTransaction();常用的ID generator 1.identity 遞增 2.sequence 只限oracle 3.native 跨數據庫時使用 4.assigned 用戶自定義id
其他如foreign,sequence,Hilo
hibernate7大關聯映射 不多作介紹,詳見:
http://blog.csdn.net/t1012665655/article/details/54574441
hibernate緩存機制
“session緩存”即hibernate的一級緩存,sessionfactory即二級緩存,同時二級緩存適合存放 :常量數據,幾乎不再修改的數據,非并發訪問的數據
詳見:
http://www.cnblogs.com/wean/archive/2012/05/16/2502724.html
Hibernate查詢(摘錄)
*a.HQL查詢
Hibernate Query LanguageHQL與SQL語句結構相似,SQL語句是面向數據表和字段進行查詢,而HQL語句是面向Hibernate映射過來的對象進行查詢,因此HQL被稱為是一種面向對象查詢語言HQL和SQL共同點: --都支持select,from,where,order by,having,group by等子句。 --都支持運算符表達式,例如+,-,*,/,>,<等 --都支持in,not in,between and,like等過濾條件關鍵字 --都支持分組函max,min,sum,avg,countHQL和SQL不同點: --HQL是大小寫敏感的,類名和屬性名嚴格區分大小寫 --HQL不支持select * 寫法 --HQL不支持join...on...中的on子句,因為join...on發生在多表操作,而 Hibernate中對于有關系的多張表已將將關聯映射寫在了xxx.hbm.xml 中,在查詢時會自動加上join..on --HQL不支持表名和字段名public class TestHQL { Configuration cfg=new Configuration(); SessionFactory sFactory=cfg.configure().buildSessionFactory(); //@Test public void save(){ Session session=sFactory.openSession(); session.beginTransaction(); //設置10個板塊 for (int i = 0; i < 10; i++) { Categroy categroy=new Categroy(); categroy.setName("c"+i); session.save(categroy); } //設10個主題 for (int i = 0; i <10; i++) { Categroy c=new Categroy(); c.setId(1); Topic topic=new Topic(); topic.setCategroy(c); topic.setName("t"+i); session.save(topic); } //設10個對應回復 /*for (int i = 0; i < 10; i++) { Topic t=new Topic(); t.setId(1); Msg msg=new Msg(); msg.setMess("m"+i); msg.setTopic(t); session.save(msg); }*/ session.getTransaction().commit(); session.close(); } //@Test public void Test01(){ Session session=sFactory.openSession(); session.beginTransaction(); Query query=session.createQuery("from Categroy"); List<Categroy> categroys=query.list(); for(Categroy c:categroys){ System.out.println(c.getName()); } session.getTransaction().commit(); session.close(); } /** *查詢多個屬性,動態構建一個對象,必須要有有參,無參構造器 * */ // @Test public void Test02(){ Session session=sFactory.openSession(); session.beginTransaction(); String sql="select new Topic(id,name,categroy) from Topic"; Query query=session.createQuery(sql); List<Topic> topics=query.list(); for(Topic c:topics){ System.out.println(c); } session.getTransaction().commit(); session.close(); } /** * 對象查詢,條件查詢 * 參數的順序從0開始 */ // @Test public void test03(){ Session session = sFactory.openSession(); String hql = "select * from Dept where name=?"; Query query = session.createQuery(hql); query.setString(0,"hfz"); List<Topic> topics = query.list(); for (Topic d :topics) { System.out.println(d); } session.getTransaction().commit(); session.close(); } /** * 對象查詢,條件查詢 */ //@Test public void test04(){ Session session = sFactory.openSession(); String hql = "select * from Dept where name=? and id=?"; Query query = session.createQuery(hql); query.setString(0,"hfz").setInteger(1,1).list(); List<Topic> topics = query.list(); for (Topic d :topics) { System.out.println(d); } session.getTransaction().commit(); session.close(); } /** * 查詢所有板塊信息 * 分頁查詢 * setFirstResult();確定查詢的起點 * setMaxResult();確定查詢的條數 */ @Test public void test05(){ Session session = sFactory.openSession(); int currentPage = 5; int pageSize = 5; List<Categroy> categroys = session.createQuery("from Categroy"). setFirstResult((currentPage-1)*pageSize). setMaxResults(pageSize).list(); for (Categroy c : categroys) { System.out.println(c.getName()); } session.getTransaction().commit(); session.close(); } }當然,現在與之類似的mybatis也用的越來越多,倆者的對比也是沒玩沒了,到最后無非還是那句話,能抓老鼠的貓就是一只好貓 引用mybatis作者的話即:
If you are starting a new project and you’re in full control of your object model and database design, Hibernate is a good choice of O/R tool. If you are accessing any 3rd party databases (e.g. vendor supplied), or you’re working with a legacy database, or even just a really poorly designed database, then an O/R mapper might not be capable of handling the situation. That’s were an SQL Mapper comes in handy
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