`
andymu1117
  • 浏览: 37944 次
  • 性别: Icon_minigender_1
  • 来自: 大连
社区版块
存档分类
最新评论

Hibernate持久化对象

    博客分类:
  • WEB
阅读更多

一,持久化对象:
1,置于session管理下的对象叫做持久化状态
2,新建对象叫做临时状态
3,被session释放的对象叫游离状态

例子:

package basic;

import java.util.Iterator;
import java.util.List; import org.hibernate.Query;
import org.hibernate.Session;
import org.hibernate.SessionFactory;
import org.hibernate.Transaction;
import org.hibernate.cfg.Configuration; * hibernate基本操作
* @author chengzh */
public class Test { private static SessionFactory sessionFactory = null;
static{ Configuration config = new Configuration();
//利用配置类对象类构造一个数据存储源,指定配置文件来由buildSessionFactory方法
//构造sessionFactory,必须告诉具体配置文件路径.
sessionFactory = config.configure("basic/hibernate.cfg.xml").buildSessionFactory(); } public void test1() throws Exception{
//通过sessionFactory得到持久化容器session(相当于JDBC里面获得一个连接)
Session session =sessionFactory.openSession(); Transaction tx=null;
try{
//通过session获得一个事务
tx=session.beginTransaction(); Student stu=new Student("zhangshan1",20); session.save(stu);
System.out.println(stu);//持久化状态
stu.setName("wangwu");
// session.delete(stu);//执行delete后,又回到临时状态,只有在持久和游离状态是才能作删除操作
tx.commit();//提交后,对上面操作全部更新
}catch(Exception e){
   tx.rollback();
   throw e; public void saveStudent(Student student) throws Exception{
Session session = sessionFactory.openSession();
Transaction tx = null;
try{
   tx = session.beginTransaction();
   session.save(student);
   tx.commit();
}catch(Exception e){
   tx.rollback();
   throw e;
}finally{
   session.close(); } public void findAllStudent() throws Exception{
Session session = sessionFactory.openSession();
Transaction tx = null;
try{
   tx = session.beginTransaction();
   //Query查询类也可删除,为HQL语言,对类对象作操作,Student可以加上包名
   Query query = session.createQuery("from Student as s order by s.age asc");
   List list = query.list();
   for(Iterator it = list.iterator();it.hasNext();){
    System.out.println(it.next());    tx.commit();
}catch(Exception e){
   tx.rollback();
   throw e;
}finally{
   session.close(); } public void findStudent(String name) throws Exception{
Session session = sessionFactory.openSession();
Transaction tx = null;
try{
   tx = session.beginTransaction();
//由session得到查询器Query.为HQL语言,对类对象作操作,Student可以加上包名
   Query query = session.createQuery("from Student as s where s.name=:stuName order by s.age asc");
   query.setString("stuName",name);
//由Query的对象来查询数据库,并且将查询上结果以对象的形式返回.存入集合
   List list = query.list();
   for(Iterator it = list.iterator();it.hasNext();){
    System.out.println(it.next());    tx.commit();
}catch(Exception e){
   tx.rollback();
   throw e;
}finally{
   session.close(); } public void loadAndUpdateStudent(Long id) throws Exception{
//根据一个ID号加载一个对象,加载完后会放入session的池中,进入持久化状态
Session session = sessionFactory.openSession();
Transaction tx = null;
try{
   tx = session.beginTransaction();
   //当池中没数据时对数据库操作,根据ID号,把对象加载到session池中,之后    Student student = (Student)session.load(Student.class,id);
   //对name进行更新,
   //student.setName("new1");
   System.out.println(student);    //提交到数据库中.使session容器一直处在最新状态.
   tx.commit();
   session.close();    Session session2 = sessionFactory.openSession();
   Transaction tx2 = session2.beginTransaction();
   student.setName("lisi");
   session2.update(student);//只有从在游离状态时,才能做Update操作.之后下面变成持久状态
   tx2.commit();//持久化状态
   session2.close();//关闭后又回到游离状态.
}catch(Exception e){
   tx.rollback();
   throw e;
}finally{
   //session.close(); } public void deleteAllStudents() throws Exception {
// 执行delete后,又回到临时状态,只有在持久和游离状态是才能作删除操作
Session session = sessionFactory.openSession();
Transaction tx = null;
try {
   tx = session.beginTransaction();
   Query query = session.createQuery("delete Student as s");
   query.executeUpdate();
   tx.commit();

} catch (Exception e) {
   if (tx != null) {
    tx.rollback();    throw e;
} finally {
   // No matter what, close the session
   session.close(); }

public static void main(String[] args) throws Exception {
// TODO Auto-generated method stub
Test test = new Test();
// Student student = new Student("s1",20);
// test.saveStudent(student);
// test.findAllStudent();
// test.findStudent("s1");
test.loadAndUpdateStudent(new Long(2));
// test.deleteAllStudents();
// test.test1();
//关闭sessionFactory
sessionFactory.close(); }

二,五大类型的OID生成方式:

1,sequence :序列化,依赖于数据库,对id号生成有序的数字,xml例子在第一天里面有.
2,increment:由hibernate生成,与数据库无关,每次操作,把最大的ID号自动加1.
<?xml version="1.0"?>
<!DOCTYPE hibernate-mapping PUBLIC
"-//Hibernate/Hibernate Mapping DTD 3.0//EN"
"/home/soft01/heguanhua/dtd/hibernate-mapping-3.0.dtd">
<hibernate-mapping>
<class name="basic.Student" table="student1">
<id name="id" column="id" type="long">
<generator class="increment"/>
</id>
<property name="name" column="name" type="string"/>
<property name="age" column="age" type="int"/>
</class>
</hibernate-mapping>
3,identity:要求数据库支持自动增长字段.

<?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>
<class name="basic2.Student" table="student1">
<id name="id" column="id" type="long">
   <generator class="identity"/>
</id>
<property name="name" column="name" type="string"/>
<property name="age" column="age" type="int"/>
</class>
</hibernate-mapping>

4,assign:表示由程序提供主键的生成.
<?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>
<class name="basic3.Student" table="STUDENT_na1">
<id name="name" column="name" type="string">
   <generator class="assigned"/>
</id>
<property name="age" column="age" type="int"/>
</class>
</hibernate-mapping>

5,hilo生成方式:

<?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>
<class name="basic1.Student" table="student1">
<id name="id" column="id" type="long">    <generator class="hilo">
    <param name="table">hi_value</param>
                <param name="column">next_value</param>
                <param name="max_lo">100</param>
   </generator>    <!--
   <generator class="increment"/>
    -->
</id>
<property name="name" column="name" type="string"/>
<property name="age" column="age" type="int"/>
</class>
</hibernate-mapping>

三,一对多的单向关联

数据库的建立:
CREATE TABLE STUDENT2 ID    bigint primary key,
NAME VARCHAR(20),
AGE   int
)

CREATE TABLE Course2 ID   bigint primary key,
Name VARCHAR(20),
SCORE   int,
Student_id bigint not null
);

alter table Course2 add constraint course2_stu2_fk
foreign key(student_id) references student2(id);

hibernate.cfg.xml 和 course.hbm.xml两个文件与双向关联类似.这里不多写.
Student1.hbm.xml文件为:
HYPERLINK "Student1.hbm.xml"HYPERLINK "Student1.hbm.xml"
HYPERLINK "Student1.hbm.xml"<?xml version="1.0"?>
HYPERLINK "Student1.hbm.xml"<!DOCTYPE hibernate-mapping PUBLIC
HYPERLINK "Student1.hbm.xml" "-//Hibernate/Hibernate Mapping DTD 3.0//EN"
HYPERLINK "Student1.hbm.xml" "http://hibernate.sourceforge.net/hibernate-mapping-3.0.dtd">
HYPERLINK "Student1.hbm.xml"<hibernate-mapping>
HYPERLINK "Student1.hbm.xml" <class name="onetomany.t1.Student" table="student2">
HYPERLINK "Student1.hbm.xml" <id name="id" column="id" type="long">
HYPERLINK "Student1.hbm.xml"   <generator class="increment"/>
HYPERLINK "Student1.hbm.xml" </id>
HYPERLINK "Student1.hbm.xml" <property name="name" column="name" type="string"/>
HYPERLINK "Student1.hbm.xml" <property name="age" column="age" type="int"/>
HYPERLINK "Student1.hbm.xml" </class>
HYPERLINK "Student1.hbm.xml"</hibernate-mapping>

Student类与course类缺省,以下是测试类:

package onetomany.t1;

import java.util.Iterator;
import java.util.List;

import org.hibernate.Query;
import org.hibernate.Session;
import org.hibernate.SessionFactory;
import org.hibernate.Transaction;
import org.hibernate.cfg.Configuration;

public class Test {
private static SessionFactory sessionFactory = null;
static {
Configuration config = new Configuration();
sessionFactory = config.configure("onetomany/t1/hibernate.cfg.xml")
    .buildSessionFactory();

}

public void saveStudentAndCourse() throws Exception {
Session session = sessionFactory.openSession();
Transaction tx = null;
try {
   tx = session.beginTransaction();
   Student student = new Student("t1", 20);
   session.save(student);
   Course course1 = new Course("math", 60,student);
   Course course2 = new Course("english", 90,student);
   session.save(course1);
   session.save(course2);
   tx.commit();

} catch (Exception e) {
   if (tx != null) {
    tx.rollback();    throw e;
} finally {
   session.close(); } public void saveStudentAndCourseCaseCade() throws Exception {
Session session = sessionFactory.openSession();
Transaction tx = null;
try {
   tx = session.beginTransaction();
   Student student = new Student("t1", 20);
   Course course1 = new Course("math", 60,student);
   Course course2 = new Course("english", 90,student);
   session.save(course1);
   session.save(course2);
   tx.commit();

} catch (Exception e) {
   if (tx != null) {
    tx.rollback();    throw e;
} finally {
   session.close(); }
public Student findStudent(Long id) throws Exception{
Session session = sessionFactory.openSession();
Transaction tx = null;
try {
   tx = session.beginTransaction();
   Student student = (Student)session.load(Student.class,id);
   tx.commit();
   return student;
} catch (Exception e) {
   if (tx != null) {
    tx.rollback();    throw e;
} finally {
   session.close(); } public List findCourseByStudent(Student student) throws Exception{
Session session = sessionFactory.openSession();
Transaction tx = null;
try {
   tx = session.beginTransaction();
   Query query = session.createQuery("from Course as c where c.student.id="+student.getId());
   List courses = query.list();
   tx.commit();
   return courses;
} catch (Exception e) {
   if (tx != null) {
    tx.rollback();    throw e;
} finally {
   session.close(); }

/**
* @param args
* @throws Exception public static void main(String[] args) throws Exception {
// TODO Auto-generated method stub
Test test = new Test();
test.saveStudentAndCourse();
// test.saveStudentAndCourseCaseCade();
Student stu = test.findStudent(new Long(505));
List list = test.findCourseByStudent(stu);
for(Iterator it = list.iterator();it.hasNext();){
   Course course = (Course)it.next();
   System.out.println(course.getCouseName()); sessionFactory.close();
}

四,双向一对多关联:

1,HYPERLINK "http://hibernate.cfg.xml/"hibernate.cfg.xml:

<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE hibernate-configuration PUBLIC
"-//Hibernate/Hibernate Configuration DTD 3.0//EN"
"/home/soft01/heguanhua/dtd/hibernate-configuration-3.0.dtd">
<hibernate-configuration>
    <session-factory>
        <property name="hibernate.connection.driver_class">com.mysql.jdbc.Driver</property>
        <property name="hibernate.connection.password">root</property>
        <property name="hibernate.connection.url">jdbc:mysql://localhost:3306/tarena</property>
        <property name="hibernate.connection.username">root</property>
<property name="hibernate.dialect">org.hibernate.dialect.MySQLDialect</property>
<property name="hibernate.show_sql">true</property>
<mapping resource="day2/Student.hbm.xml"/>
<mapping resource="day2/Course.hbm.xml"/>
</session-factory>
</hibernate-configuration>

2,HYPERLINK "http://student.hbm.xml/"student.hbm.xml

<?xml version="1.0"?>
<!DOCTYPE hibernate-mapping PUBLIC
"-//Hibernate/Hibernate Mapping DTD 3.0//EN"
"/home/soft01/heguanhua/dtd/hibernate-mapping-3.0.dtd">
<hibernate-mapping>
<class name="day2.Student" table="student1">
<id name="id" column="id" type="long">
   <!-- 由increment生成OID 把表中最大的ID号每次自动加一 -->
   <generator class="increment"/>
</id>
<property name="name" column="name" type="string"/>
<property name="age" column="age" type="int"/>
<!-- 双向一对多,用集合来映射多个课程 -->
<!-- name="courses" 学生类中集合 课程名 -->
<!-- lazy="false" :加载学生类的时候,是否加载与学生关联的课程对象,
            当值为false时是指需要加载 -->
        <!-- cascade :级联更新,当删除或存取学生对象时
        把对应关联的课程对象也做删除或存取操作 -->
        <!-- inverse的意义:当学生的一方的inverse设置为true,能够或避免
            重复的update操作来提升程序性能 -->
<set
        name="courses"
        lazy="false"
        cascade="all-delete-orphan"
        inverse="true"
        >
        <!-- 表示指定course的外键是什么 -->
        <key column="Student_id" />
        <!-- 指定一对多的对象的类型为course -->
        <one-to-many class="day2.Course" />
     </set>
</class>
</hibernate-mapping>

3,course.hbm.xml文件:

<?xml version="1.0"?>
<!DOCTYPE hibernate-mapping PUBLIC
"-//Hibernate/Hibernate Mapping DTD 3.0//EN"
"/home/soft01/heguanhua/dtd/hibernate-mapping-3.0.dtd">
<hibernate-mapping>
<class name="day2.Course" table="course">
<id name="id" column="id" type="long">
   <generator class="increment"/>
</id>
<property name="couseName" column="name" type="string"/>
<property name="score" column="SCORE" type="int"/>
<!-- 从课程来说是多对一的关系 -->
<!-- 下面的column: 指定外键 -->
<!-- cascade: 级联更新,保存或更新课程时,同时保存或更新与课程有关联的
   学生信息 -->
<!-- class: 学生属性所存取的对象存取的类型 -->
<!-- student属性不能为空 -->
<many-to-one

   name="student"
   column="Student_id"
   cascade="save-update"
   class="day2.Student"
   not-null="true"
/>
</class>
</hibernate-mapping>

Student持久化对象类:

package day2;

import java.util.*;
public class Student { private Long id;
private String name;
private int age;
private Set courses;
public Student(String name, int age, Set courses) {
   super();
   // TODO Auto-generated constructor stub
   this.name = name;
   this.age = age;
   this.courses = courses;
}

public Student(){ } public int getAge() {
   return age; public void setAge(int age) {
   this.age = age; public Long getId() {
   return id; public void setId(Long id) {
   this.id = id; public String getName() {
   return name; public void setName(String name) {
   this.name = name; @Override
public String toString() {
   // TODO Auto-generated method stub
   return "id "+id+" name "+name+" age"+age;
}

public Set getCourses() {
   return courses;
}

public void setCourses(Set courses) {
   this.courses = courses;
} }

5,Course持久化对象类:

package day2;

public class Course {
private Long id;
private String couseName;
private int score; private Student student; public Course(String couseName, int score) {
super();
// TODO Auto-generated constructor stub
this.couseName = couseName;
this.score = score;
}

public Course(){ @Override
public String toString() {
// TODO Auto-generated method stub
return " id "+id+" courseName "+couseName+" score = "+score; public String getCouseName() {
return couseName; public void setCouseName(String couseName) {
this.couseName = couseName; public Long getId() {
return id; public void setId(Long id) {
this.id = id; public int getScore() {
return score; public void setScore(int score) {
this.score = score; public Student getStudent() {
return student; public void setStudent(Student student) {
this.student = student; }

6,测试类:

package day2;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;

import org.hibernate.Query;
import org.hibernate.Session;
import org.hibernate.SessionFactory;
import org.hibernate.Transaction;
import org.hibernate.cfg.Configuration;

public class Test {
private static SessionFactory sessionFactory = null;
static {
Configuration config = new Configuration();
sessionFactory = config.configure("day2/hibernate.cfg.xml")
    .buildSessionFactory();

} * Student.hbm.xml中将inverse="false",会重复执行多余的SQL语句,因此
* 在映射一多对的双向关联时,应该将inverse设置为true; * @throws Exception public void saveStudentAndCourseCascade() throws Exception {
Session session = sessionFactory.openSession();
Transaction tx = null;
try {
   tx = session.beginTransaction();
   //一对多的关系,一个学生有多个课程.用SET来存取.
   Student student = new Student("t3",20, new HashSet());    Course course = new Course("math",60);
   //设置课程对象,里面的Student属性.
   course.setStudent(student);    student.getCourses().add(course);
   /**提交学生对象到数据库中,查看session池中是否存在有要插入student和
    * course对象的相同的值,因为映射文件的Cascade定义了级联操作.把student
    * 对象插入时,根据映射文件的定义规则.把与之有关的course对象也相应的加载
    * 到数据库和session池中.    session.save(student);
   tx.commit();
} catch (Exception e) {
   if (tx != null) {
    // Something went wrong; discard all partial changes
    tx.rollback();    e.printStackTrace();
} finally {
   // No matter what, close the session
   session.close(); } /**
* 注意cascade="all-delete-orphan" ,    1,保存或更新Student时,级联保存或更新所有关联的Course对象,相当于cascade=“save-update”
   2,当删除时,相当于"delete"
   3,删除不再和Student对象关联的所有Course对象
* @throws Exception public void deleteStudent() throws Exception {
Session session = sessionFactory.openSession();
Transaction tx = null;
try {
   tx = session.beginTransaction();
   Student student = (Student)session.load(Student.class,new Long(12));    //把学生删除时,与之关联的课程对象也跟着删除.
   session.delete(student);
   tx.commit();
   System.out.println(student);
} catch (Exception e) {
   if (tx != null) {
    tx.rollback();    e.printStackTrace();
} finally {
   session.close(); } public void removeCourseFromStudent() throws Exception{
     Session session = sessionFactory.openSession();
     Transaction tx = null;
     try {
       tx = session.beginTransaction();
       Student student=(Student)session.load(Student.class,new Long(13));
       //把课程对象的值都迭代出来,通过学生类中的课程Set来找出所有的课程.
       Course course=(Course)student.getCourses().iterator().next();        student.getCourses().remove(course);        course.setStudent(null);
       tx.commit();

     }catch (Exception e) {
       if (tx != null) {
         tx.rollback();         e.printStackTrace();
     } finally {
       session.close();    } * @param args
* @throws Exception public static void main(String[] args) throws Exception {
// TODO Auto-generated method stub
Test test = new Test();
test.saveStudentAndCourseCascade();
// test.deleteStudent();
// test.removeCourseFromStudent();
sessionFactory.close();
}

分享到:
评论

相关推荐

    Hibernate持久化对象的生命周期

    Hibernate的核心概念之一就是持久化对象的生命周期,这涉及到对象在数据库中的状态及其与Session的关系。 首先,我们来看一下Hibernate中持久化对象的三种基本状态: 1. **瞬时对象(Transient Objects)**: - ...

    Hibernate 操纵持久化对象

    **标题:Hibernate 操纵持久化对象** 在Java开发中,Hibernate是一个强大的对象关系映射(ORM)框架,它简化了数据库与Java对象之间的交互。本篇将详细讲解如何使用Hibernate来操纵持久化对象,这对于深入理解...

    精通hibernate持久化对象技术.pdf

    ### 精通Hibernate持久化对象技术 #### Hibernate概述 Hibernate是一种开源的对象关系映射(Object Relational Mapping,ORM)框架,它为Java应用程序提供了一种简单、灵活的方式来与数据库进行交互。通过...

    hibernate持久化对象生命周期[参照].pdf

    本文将深入探讨Hibernate中的持久化对象生命周期,包括瞬时对象、持久化对象和游离对象的状态转换及其特性。 1. 瞬时对象(Transient Objects) 瞬时对象是指通过`new`操作符创建但尚未与数据库记录关联的Java对象...

    精通Hibernate:Java对象持久化技术详解

    4. **HQL(Hibernate Query Language)**:面向对象的查询语言,类似于SQL,但更接近Java的语法,用于检索和操作持久化对象。 5. **第二级缓存**:Hibernate支持查询结果的缓存,可以显著提高系统性能,特别是对于...

    Hibernate操作持久化对象

    Hibernate 操作持久化对象是Java开发中用于简化数据库交互的重要工具。它是一个开源的Java持久化框架,由Gavin King创建,并逐渐发展成为Java世界中主流的持久化解决方案。Hibernate的核心在于提供对象-关系映射(ORM...

    精通Hibernate:Java对象持久化详解.zip

    《精通Hibernate:Java对象持久化详解》是一本深入解析Hibernate技术的专著,它主要针对Java开发者,旨在帮助他们理解和掌握Java对象持久化的精髓。Hibernate作为一款强大的对象关系映射(ORM)框架,极大地简化了...

    深入学习Hibernate持久化对象的三个状态

    在理解Hibernate持久化对象的三个状态之前,首先要明白Hibernate是一个对象关系映射(ORM)框架,它将数据库操作转化为对Java对象的操作。这三个状态决定了对象与数据库之间的一致性及生命周期,分别是: 1. **瞬时...

    精通Hibernate:Java对象持久化技术详解.pdf

    《精通Hibernate:Java对象持久化技术详解》这本书深入剖析了Hibernate这一流行的Java对象关系映射(ORM)框架,旨在帮助开发者全面理解并熟练掌握Hibernate的使用。Hibernate是Java开发中的重要工具,它简化了...

    hibernate持久化技术详解.孙卫琴.代码2

    **hibernate持久化技术详解** Hibernate是一款强大的Java对象关系映射(ORM)框架,它为开发者提供了在Java应用中操作数据库的强大工具。通过Hibernate,开发者可以将数据库操作转化为对Java对象的操作,大大降低了...

    精通Hibernate:Java持久化对象技术详解[第二版]

    《精通Hibernate:Java持久化对象技术详解[第二版]》是一部深入探讨Hibernate框架的专业书籍,旨在帮助Java开发者熟练掌握和运用这一强大的ORM(Object-Relational Mapping)工具。Hibernate是Java开发领域中广泛...

    精通Hibernate:java对象持久化技术

    【精通Hibernate:Java对象持久化技术】主要涵盖了Java应用程序的分层体系结构、软件模型以及对象持久化的概念,特别是如何使用Hibernate这一ORM框架进行持久化操作。以下是详细的知识点解析: 1. **应用程序分层...

    Hibernate数据持久化技术

    在JDO中,首先需要编写POJO,然后通过一个名为Enhancer的工具在编译后阶段对POJO的字节码进行增强,生成对应的持久化对象。这意味着JDO的转换过程发生在编译期间,而Hibernate的转换是在运行时。 Hibernate的优点...

    精通 Hibernate:Java 对象持久化技术详解 第2版

    精通 Hibernate:Java 对象持久化技术详解 第2版 学习Hibernate必备得一本书

    精通 Hibernate_Java 对象持久化技术详解(第2版).pdf

    精通 Hibernate_Java 对象持久化技术详解(第2版).pdf

    Java 精通Hibernate对象持久化技术权威指南

    《Java精通Hibernate对象持久化技术权威指南》是一本深度探讨Java开发中如何高效地使用Hibernate进行对象持久化的专业书籍。本书旨在帮助Java开发者熟练掌握Hibernate框架,实现数据库操作的简化和自动化,提升软件...

    精通 Hibernate:Java 对象持久化技术详解(第2版).part2

     8.3 Java对象在Hibernate持久化层的状态  8.3.1 临时对象的特征  8.3.2 持久化对象的特征  8.3.3 被删除对象的特征  8.3.4 游离对象的特征  8.4 Session接口的详细用法  8.4.1 Session的save()和persist()...

    精通 Hibernate:Java 对象持久化技术详解(第2版).part1

    一共有三个分卷。全部下载才能解压。 这本书不错,值得一看。

    Hibernate 数据持久化

    总结来说,Hibernate的数据持久化机制是通过ORM技术将Java对象与数据库表进行绑定,使得开发者可以通过简单的对象操作实现对数据库的复杂操作。理解并熟练运用Hibernate,不仅可以提高开发效率,还能使应用程序更加...

Global site tag (gtag.js) - Google Analytics