序列化和反序列化
序列化:可以将对象转化成一个字节序列,便于存储。
反序列化:将序列化的字节序列还原
优点:可以实现对象的"持久性”, 所谓持久性就是指对象的生命周期不取决于程序。
序列化需要:
所需类:ObjectInputStream和ObjectOutputStream
方法: readObject()和writeObject();
序列化方式一: 实现Serializable接口(隐式序列化)
通过实现Serializable接口,这种是隐式序列化(不需要手动),这种是最简单的序列化方式,会自动序列化所有非static和 transient关键字修饰的成员变量。
-
class Student implements Serializable{
-
private String name;
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private
int age;
-
public
static
int QQ =
1234;
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private
transient String address =
"CHINA";
-
-
Student(String name,
int age ){
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this.name = name;
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this.age = age;
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}
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public String toString() {
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return
"name: " + name +
"\n"
-
+
"age: " + age +
"\n"
-
+
"QQ: " + QQ +
"\n"
-
+
"address: " + address;
-
-
}
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public void SetAge(int age) {
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this.age = age;
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}
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}
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public
class SerializableDemo {
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public static void main(String[] args) throws IOException, ClassNotFoundException {
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//创建可序列化对象
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System.out.println(
"原来的对象:");
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Student stu =
new Student(
"Ming",
16);
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System.out.println(stu);
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//创建序列化输出流
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ByteArrayOutputStream buff =
new ByteArrayOutputStream();
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ObjectOutputStream out =
new ObjectOutputStream(buff);
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//将序列化对象存入缓冲区
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out.writeObject(stu);
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//修改相关值
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Student.QQ =
6666;
// 发现打印结果QQ的值被改变
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stu.SetAge(
18);
//发现值没有被改变
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//从缓冲区取回被序列化的对象
-
ObjectInputStream in =
new ObjectInputStream(
new ByteArrayInputStream(buff.toByteArray()));
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Student newStu = (Student) in.readObject();
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System.out.println(
"序列化后取出的对象:");
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System.out.println(newStu);
-
-
}
-
}
打印结果:
原来的对象:
name: Ming
age: 16
QQ: 1234
address: CHINA
序列化后取出的对象:
name: Ming
age: 16
QQ: 6666
address: null
发现address(被transient)和QQ(被static)也没有被序列化,中途修改QQ的值是为了以防读者误会QQ被序列化了。因为序列化可以保存对象的状态,但是QQ的值被改变了,说明没有被序列化。static成员不属于对象实例,可能被别的对象修改没办法序列化,序列化是序列对象。对于address被反序列化后由于没有对应的引用,所以为null。而且Serializable不会调用构造方法。
PS:细心的可能发现序列化很诱人,可以保存对象的初始信息,在以后可以回到这个初始状态。
序列化方式二:实现Externalizable接口。(显式序列化)
Externalizable接口继承自Serializable, 我们在实现该接口时,必须实现writeExternal()和readExternal()方法,而且只能通过手动进行序列化,并且两个方法是自动调用的,因此,这个序列化过程是可控的,可以自己选择哪些部分序列化
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public
class Blip implements Externalizable{
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private
int i ;
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private String s;
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public Blip() {}
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public Blip(String x, int a) {
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System.out.println(
"Blip (String x, int a)");
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s = x;
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i = a;
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}
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public String toString() {
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return s+i;
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}
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@Override
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public void writeExternal(ObjectOutput out) throws IOException {
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// TODO Auto-generated method stub
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System.out.println(
"Blip.writeExternal");
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out.writeObject(s);
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out.writeInt(i);
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//
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}
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@Override
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public void readExternal(ObjectInput in) throws IOException, ClassNotFoundException {
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// TODO Auto-generated method stub
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System.out.println(
"Blip.readExternal");
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s = (String)in.readObject();
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i = in.readInt();
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}
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public static void main(String[] args) throws FileNotFoundException, IOException, ClassNotFoundException {
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System.out.println(
"Constructing objects");
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Blip b =
new Blip(
"A Stirng",
47);
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System.out.println(b);
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ObjectOutputStream o =
new ObjectOutputStream(
new FileOutputStream(
"F://Demo//file1.txt"));
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System.out.println(
"保存对象");
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o.writeObject(b);
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o.close();
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//获得对象
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System.out.println(
"获取对象");
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ObjectInputStream in =
new ObjectInputStream(
new FileInputStream(
"F://Demo//file1.txt"));
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System.out.println(
"Recovering b");
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b = (Blip)in.readObject();
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System.out.println(b);
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}
-
-
}
打印结果为:
Constructing objects
Blip (String x, int a)
A Stirng47
保存对象
Blip.writeExternal
获取对象
Recovering b
Blip.readExternal
A Stirng47
当注释掉writeExternal和readExternal方法后打印结果为:
Constructing objects
Blip (String x, int a)
A Stirng47
保存对象
Blip.writeExternal
获取对象
Recovering b
Blip.readExternal
null0
说明:Externalizable类会调用public的构造函数先初始化对象,在调用所保存的内容将对象还原。假如构造方法不是public则会出现运行时错误。
序列化方式三:实现Serializable接口+添加writeObject()和readObject()方法。(显+隐序列化)
如果想将方式一和方式二的优点都用到的话,可以采用方式三, 先实现Serializable接口,并且添加writeObject()和readObject()方法。注意这里是添加,不是重写或者覆盖。但是添加的这两个方法必须有相应的格式。
- 1,方法必须要被private修饰 ----->才能被调用
- 2,第一行调用默认的defaultRead/WriteObject(); ----->隐式序列化非static和transient
- 3,调用read/writeObject()将获得的值赋给相应的值 --->显式序列化
-
public
class SerDemo implements Serializable{
-
public
transient
int age =
23;
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public String name ;
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public SerDemo(){
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System.out.println(
"默认构造器。。。");
-
}
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public SerDemo(String name) {
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this.name = name;
-
}
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private void writeObject(ObjectOutputStream stream) throws IOException {
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stream.defaultWriteObject();
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stream.writeInt(age);
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}
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private void readObject(ObjectInputStream stream) throws ClassNotFoundException, IOException {
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stream.defaultReadObject();
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age = stream.readInt();
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}
-
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public String toString() {
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return
"年龄" + age +
" " + name;
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}
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public static void main(String[] args) throws IOException, ClassNotFoundException {
-
SerDemo stu =
new SerDemo(
"Ming");
-
ByteArrayOutputStream bout =
new ByteArrayOutputStream();
-
ObjectOutputStream out =
new ObjectOutputStream(bout);
-
out.writeObject(stu);
-
ObjectInputStream in =
new ObjectInputStream(
new ByteArrayInputStream(bout.toByteArray()));
-
SerDemo stu1 = (SerDemo) in.readObject();
-
System.out.println(stu1);
-
}
-
}
打印结果为:
年龄23 Ming
注释掉stream.writeInt(age)和age= stream.readInt()后:
年龄0 Ming
方式三结合了显式和隐式序列化,Ming被正常序列化,由于age被trancient修饰,所以需要显式序列化。