java提供一种机制叫做序列化,通过有序的格式或者字节序列持久化java对象,其中包含对象的数据,还有对象的类型,和保存在对象中的数据类型。
所以,如果我们已经序列化了一个对象,那么它可以被读取并通过对象的类型和其他信息进行反序列化,并最终获取对象的原型。
objectinputstream 和 objectoutputstream对象是高级别的流对象,包含序列化和反序列化的方法。
objectoutputstream 拥有很多序列化对象的方法,最常用的是:
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private void writeobject(objectoutputstream os) throws ioexception
{
}
类似的 objectinputstream 提供如下方法:
private void readobject(objectinputstream is) throws ioexception, classnotfoundexception
{
}
那么哪里会需要序列化呢?序列化通常在需要通过网络传输数据,或者保存对象到文件的场合使用。这里说的数据是对象而不是文本。
现在的问题是,我们的网络架构和硬盘都只能识别二进制和字节,而不能识别java对象。
序列化就是把java对象中的value/states翻译为字节,以便通过网络传输或者保存。另外,反序列化就是通过读取字节码,并把它翻译回java对象。
serialversionuid概念
serialversionuid 是用于保证同一个对象(在序列化中会被用到)可以在deserialization过程中被载入。serialversionuid 是用于对象的版本控制。你可以参考serialversionuid in java serialization获取更多信息。
对于序列化:
步骤如下:
让我们看一个列子:
在 src->org.arpit.javapostsforlearning 创建employee.java
1.employee.java
package org.arpit.javapostsforlearning;
import java.io.serializable;
public class employee implements serializable{
int employeeid;
string employeename;
string department;
public int getemployeeid() {
return employeeid;
}
public void setemployeeid(int employeeid) {
this.employeeid = employeeid;
}
public string getemployeename() {
return employeename;
}
public void setemployeename(string employeename) {
this.employeename = employeename;
}
public string getdepartment() {
return department;
}
public void setdepartment(string department) {
this.department = department;
}
}
就如你所见的,如果你需要序列化任何类,那么你 必须实现 serializable 接口 ,这个接口是标记接口(marker interface)。
java中的标记接口(marker interface)就是一个没有任何字段或者方法的接口,简单的来说,java中把空接口叫做标记接口(marker interface)
2.serializemain.java
package org.arpit.javapostsforlearning;
import java.io.fileoutputstream;
import java.io.ioexception;
import java.io.objectoutputstream;
public class serializemain {
/**
* @author arpit mandliya
*/
public static void main(string[] args) {
employee emp = new employee();
emp.setemployeeid(101);
emp.setemployeename("arpit");
emp.setdepartment("cs");
try
{
fileoutputstream fileout = new fileoutputstream("employee.ser");
objectoutputstream outstream = new objectoutputstream(fileout);
outstream.writeobject(emp);
outstream.close();
fileout.close();
}catch(ioexception i)
{
i.printstacktrace();
}
}
}
对于反序列化:
步骤是
在包src->org.arpit.javapostsforlearning中,创建 deserializemain.java
3.deserializemain.java
package org.arpit.javapostsforlearning;
import java.io.ioexception;
import java.io.objectinputstream;
public class deserializemain {
/**
* @author arpit mandliya
*/
public static void main(string[] args) {
employee emp = null;
try
{
fileinputstream filein =new fileinputstream("employee.ser");
objectinputstream in = new objectinputstream(filein);
emp = (employee) in.readobject();
in.close();
filein.close();
}catch(ioexception i)
{
i.printstacktrace();
return;
}catch(classnotfoundexception c)
{
system.out.println("employee class not found");
c.printstacktrace();
return;
}
system.out.println("deserialized employee...");
system.out.println("emp id: " + emp.getemployeeid());
system.out.println("name: " + emp.getemployeename());
system.out.println("department: " + emp.getdepartment());
}
}
4.运行:
首先运行serializemain.java,然后运行 deserializemain.java,你会得到如下的结果:
deserialized employee... emp id: 101 name: arpit department: cs
就这样,我们序列化了一个employee对象,并对它进行反序列化。这看起来和简单,但是如果其中包含对象引用,继承,那么情况就会变得复杂。接下来让我们一个接一个的看一下例子,看看如何在各种场合中实现序列化。
案例1 - 如果对象引用了其他对象,那该如何
我们已经看过最简单的序列化例子,现在看看,如何处理对象中引用了其他对象的场合。我们该如何序列化?引用对象也会被序列化吗?对的,你不需要显式的序列化引用对象。当你序列化任何对象,如果它包含引用对象,那么java序列化会自动序列化该对象的整个对象图。例如,employee现在引用了一个address对象,并且address也引用了其他对象(例如,home),那么当你序列化employee对象的时候,所有其他引用对象,例如address和home将会被自动地被序列化。让我们来创建address类,并它address的对象作为引用,添加到employee类中。
employee.java:
package org.arpit.javapostsforlearning;
import java.io.serializable;
public class employee implements serializable{
int employeeid;
string employeename;
string department;
address address;
public int getemployeeid() {
return employeeid;
}
public void setemployeeid(int employeeid) {
this.employeeid = employeeid;
}
public string getemployeename() {
return employeename;
}
public void setemployeename(string employeename) {
this.employeename = employeename;
}
public string getdepartment() {
return department;
}
public void setdepartment(string department) {
this.department = department;
}
public address getaddress() {
return address;
}
public void setaddress(address address) {
this.address = address;
}
}
在 org.arpit.javapostsforlearning 包中,创建address.java
address.java:
package org.arpit.javapostsforlearning;
public class address {
int homeno;
string street;
string city;
public address(int homeno, string street, string city) {
super();
this.homeno = homeno;
this.street = street;
this.city = city;
}
public int gethomeno() {
return homeno;
}
public void sethomeno(int homeno) {
this.homeno = homeno;
}
public string getstreet() {
return street;
}
public void setstreet(string street) {
this.street = street;
}
public string getcity() {
return city;
}
public void setcity(string city) {
this.city = city;
}
}
在包 org.arpit.javapostsforlearning中,创建serializedeserializemain.java
serializedeserializemain.java:
package org.arpit.javapostsforlearning;
import java.io.fileinputstream;
import java.io.fileoutputstream;
import java.io.ioexception;
import java.io.objectinputstream;
import java.io.objectoutputstream;
public class serializedeserializemain {
/**
* @author arpit mandliya
*/
public static void main(string[] args) {
employee emp = new employee();
emp.setemployeeid(101);
emp.setemployeename("arpit");
emp.setdepartment("cs");
address address=new address(88,"mg road","pune");
emp.setaddress(address);
//serialize
try
{
fileoutputstream fileout = new fileoutputstream("employee.ser");
objectoutputstream outstream = new objectoutputstream(fileout);
outstream.writeobject(emp);
outstream.close();
fileout.close();
}catch(ioexception i)
{
i.printstacktrace();
}
//deserialize
emp = null;
try
{
fileinputstream filein =new fileinputstream("employee.ser");
objectinputstream in = new objectinputstream(filein);
emp = (employee) in.readobject();
in.close();
filein.close();
}catch(ioexception i)
{
i.printstacktrace();
return;
}catch(classnotfoundexception c)
{
system.out.println("employee class not found");
c.printstacktrace();
return;
}
system.out.println("deserialized employee...");
system.out.println("emp id: " + emp.getemployeeid());
system.out.println("name: " + emp.getemployeename());
system.out.println("department: " + emp.getdepartment());
address=emp.getaddress();
system.out.println("city :"+address.getcity());
}
}
运行它:
当你运行serializedeserializemain.java。你会得到这样的结果:
java.io.notserializableexception: org.arpit.javapostsforlearning.address at java.io.objectoutputstream.writeobject0(unknown source) at java.io.objectoutputstream.defaultwritefields(unknown source) at java.io.objectoutputstream.writeserialdata(unknown source) at java.io.objectoutputstream.writeordinaryobject(unknown source) at java.io.objectoutputstream.writeobject0(unknown source) at java.io.objectoutputstream.writeobject(unknown source)
我们将解释哪里出错了。我忘记了说,address 类也必须是serializable。那么address类必须继承serialzable接口。
address.java:
import java.io.serializable;
public class address implements serializable{
int homeno;
string street;
string city;
public address(int homeno, string street, string city) {
super();
this.homeno = homeno;
this.street = street;
this.city = city;
}
public int gethomeno() {
return homeno;
}
public void sethomeno(int homeno) {
this.homeno = homeno;
}
public string getstreet() {
return street;
}
public void setstreet(string street) {
this.street = street;
}
public string getcity() {
return city;
}
public void setcity(string city) {
this.city = city;
}
}
再次运行:
当你再次运行serializedeserializemain.java。你可以得到如下的结果
deserialized employee... emp id: 101 name: arpit department: cs city :pune
案例2:如果我们不能访问引用对象的源代码(例如,你不能访问上面的address类的源码)
如果我们不能访问到address类,那么我们该如何在address类中实现serializable 接口?是否有另外的途径来实现呢?对的,你可以创建另外一个类,并继承address,然后让它继承serializable 接口,但是对于下面的情况,这个方案会失败:
如果引用类被定义为final
如果引用类引用了另外一个非可序列化的对象
那么,我们该如何序列化employee对象?解决的办法是,标记transient。如果你不需要序列化任何字段,只需把它标记为transient。
transient address address
在employee类中,标记了address为transient之后,运行程序。你会得到nullpointerexception,因为在反序列化过程中,address引用将会是null。
案例3 - 如果我仍然需要保存引用对象的状态呢?(例如address对象)
如果你在反序列化过程中,标记了address为transient,它将会返回null结果。但是如果你仍然需要保存它的状态,你就需要序列化address对象。 java序列化提供一个机制,如果你有特定签名的private方法,那么它们就会在序列化和反序列化过程中被调用,所以我们将重写employee类的writeobject和readobject方法,然后它们就会在employee对象序列化/反序列化过程中被调用。
employee.java:
package org.arpit.javapostsforlearning;
import java.io.ioexception;
import java.io.objectinputstream;
import java.io.objectoutputstream;
import java.io.serializable;
public class employee implements serializable{
int employeeid;
string employeename;
string department;
transient address address;
public int getemployeeid() {
return employeeid;
}
public void setemployeeid(int employeeid) {
this.employeeid = employeeid;
}
public string getemployeename() {
return employeename;
}
public void setemployeename(string employeename) {
this.employeename = employeename;
}
public string getdepartment() {
return department;
}
public void setdepartment(string department) {
this.department = department;
}
public address getaddress() {
return address;
}
public void setaddress(address address) {
this.address = address;
}
private void writeobject(objectoutputstream os) throws ioexception, classnotfoundexception
{
try {
os.defaultwriteobject();
os.writeint(address.gethomeno());
os.writeobject(address.getstreet());
os.writeobject(address.getcity());
}
catch (exception e)
{ e.printstacktrace(); }
}
private void readobject(objectinputstream is) throws ioexception, classnotfoundexception
{
try {
is.defaultreadobject();
int homeno=is.readint();
string street=(string) is.readobject();
string city=(string) is.readobject();
address=new address(homeno,street,city);
} catch (exception e) { e.printstacktrace(); }
}
}
另外有一点需要牢记的,objectinputstream读取数据的顺序和objectoutputstream写入数据的顺序是一致的.
在包org.arpit.javapostsforlearning 中创建address.java
address.java:
package org.arpit.javapostsforlearning;
import java.io.serializable;
public class address {
int homeno;
string street;
string city;
public address(int homeno, string street, string city) {
super();
this.homeno = homeno;
this.street = street;
this.city = city;
}
public int gethomeno() {
return homeno;
}
public void sethomeno(int homeno) {
this.homeno = homeno;
}
public string getstreet() {
return street;
}
public void setstreet(string street) {
this.street = street;
}
public string getcity() {
return city;
}
public void setcity(string city) {
this.city = city;
}
}
在包org.arpit.javapostsforlearning中创建serializedeserializemain.java
serializedeserializemain.java:
package org.arpit.javapostsforlearning;
import java.io.fileinputstream;
import java.io.fileoutputstream;
import java.io.ioexception;
import java.io.objectinputstream;
import java.io.objectoutputstream;
public class serializedeserializemain {
/**
* @author arpit mandliya
*/
public static void main(string[] args) {
employee emp = new employee();
emp.setemployeeid(101);
emp.setemployeename("arpit");
emp.setdepartment("cs");
address address=new address(88,"mg road","pune");
emp.setaddress(address);
//serialize
try
{
fileoutputstream fileout = new fileoutputstream("employee.ser");
objectoutputstream outstream = new objectoutputstream(fileout);
outstream.writeobject(emp);
outstream.close();
fileout.close();
}catch(ioexception i)
{
i.printstacktrace();
}
//deserialize
emp = null;
try
{
fileinputstream filein =new fileinputstream("employee.ser");
objectinputstream in = new objectinputstream(filein);
emp = (employee) in.readobject();
in.close();
filein.close();
}catch(ioexception i)
{
i.printstacktrace();
return;
}catch(classnotfoundexception c)
{
system.out.println("employee class not found");
c.printstacktrace();
return;
}
system.out.println("deserialized employee...");
system.out.println("emp id: " + emp.getemployeeid());
system.out.println("name: " + emp.getemployeename());
system.out.println("department: " + emp.getdepartment());
address=emp.getaddress();
system.out.println("city :"+address.getcity());
}
}
运行 :
当你运行serializedeserializemain.java.你会得到如下的结果:
deserialized employee... emp id: 101 name: arpit department: cs city :pune
现在我们就得到了address对象的状态,就如它被序列化前的一样。
序列化中的继承:
现在我们看看继承是如何影响序列化的。不管父类是不是可序列化,这将引出很多个例子。如果父类是非可序列化的,我们将如何处理,并且它是如何工作的。让我们看看例子。
我们将创建一个person.java,作为 employee的父类。
案例4: 如果父类是可序列化的
如果父类可序列化,那么所有的继承类将是可序列化的。
案例5: 如果父类为非可序列化呢?
如果父类为非可序列化的 ,那么我们的处理办法会很不一样。
如果父类为非可序列化的,那么它必然不会有参数构造函数。
person.java
package org.arpit.javapostsforlearning;
public class person {
string name="default";
string nationality;
public person()
{
system.out.println("person:constructor");
}
public person(string name, string nationality) {
super();
this.name = name;
this.nationality = nationality;
}
public string getname() {
return name;
}
public void setname(string name) {
this.name = name;
}
public string getnationality() {
return nationality;
}
public void setnationality(string nationality) {
this.nationality = nationality;
}
}
在包org.arpit.javapostsforlearning 中创建employee.java
employee.java:
package org.arpit.javapostsforlearning;
import java.io.serializable;
public class employee extends person implements serializable{
int employeeid;
string department;
public employee(int employeeid,string name,string department,string nationality)
{
super(name,nationality);
this.employeeid=employeeid;
this.department=department;
system.out.println("employee:constructor");
}
public int getemployeeid() {
return employeeid;
}
public void setemployeeid(int employeeid) {
this.employeeid = employeeid;
}
public string getdepartment() {
return department;
}
public void setdepartment(string department) {
this.department = department;
}
}
在org.arpit.javapostsforlearning包中创建serializedeserializemain.java
serializedeserializemain.java:
package org.arpit.javapostsforlearning;
import java.io.fileinputstream;
import java.io.fileoutputstream;
import java.io.ioexception;
import java.io.objectinputstream;
import java.io.objectoutputstream;
public class serializedeserializemain {
/**
* @author arpit mandliya
*/
public static void main(string[] args) {
//serialize
employee emp = new employee(101,"arpit","cs","indian");
system.out.println("before serializing");
system.out.println("emp id: " + emp.getemployeeid());
system.out.println("name: " + emp.getname());
system.out.println("department: " + emp.getdepartment());
system.out.println("nationality: " + emp.getnationality());
system.out.println("************");
system.out.println("serializing");
try
{
fileoutputstream fileout = new fileoutputstream("employee.ser");
objectoutputstream outstream = new objectoutputstream(fileout);
outstream.writeobject(emp);
outstream.close();
fileout.close();
}catch(ioexception i)
{
i.printstacktrace();
}
//deserialize
system.out.println("************");
system.out.println("deserializing");
emp = null;
try
{
fileinputstream filein =new fileinputstream("employee.ser");
objectinputstream in = new objectinputstream(filein);
emp = (employee) in.readobject();
in.close();
filein.close();
}catch(ioexception i)
{
i.printstacktrace();
return;
}catch(classnotfoundexception c)
{
system.out.println("employee class not found");
c.printstacktrace();
return;
}
system.out.println("after serializing");
system.out.println("emp id: " + emp.getemployeeid());
system.out.println("name: " + emp.getname());
system.out.println("department: " + emp.getdepartment());
system.out.println("nationality: " + emp.getnationality());
}
}
运行:
当你运行serializedeserializemain.java后,你会得到如下的输出,如果父类是非可序列化的,那么在反序列化过程中,所有继承于父类的实例变量值,将会通过调用非序列化构造函数来初始化。 这里 name继承于person,所以在反序列化过程中,name将会被初始化为默认值。
案例6 - 如果父类是可序列化,但你不需要继承类为可序列化
如果你不希望继承类为可序列化,那么你需要实现 writeobject() 和readobject() 方法,并且需要抛出notserializableexception 异常。
案例7 - 可否序列化静态变量?
不能。因为静态变量是类级别的,不是对象级别的,当你序列化一个对象的时候,是不能序列化静态变量。
总结:
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