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深入剖析Java編程中的序列化

來(lái)源:本站原創(chuàng)|時(shí)間:2020-01-10|欄目:Java編程|點(diǎn)擊:

 Java提供一種機(jī)制叫做序列化,通過(guò)有序的格式或者字節(jié)序列持久化java對(duì)象,其中包含對(duì)象的數(shù)據(jù),還有對(duì)象的類(lèi)型,和保存在對(duì)象中的數(shù)據(jù)類(lèi)型。

所以,如果我們已經(jīng)序列化了一個(gè)對(duì)象,那么它可以被讀取并通過(guò)對(duì)象的類(lèi)型和其他信息進(jìn)行反序列化,并最終獲取對(duì)象的原型。

ObjectInputStream 和 ObjectOutputStream對(duì)象是高級(jí)別的流對(duì)象,包含序列化和反序列化的方法。

ObjectOutputStream 擁有很多序列化對(duì)象的方法,最常用的是:
 

private void writeObject(ObjectOutputStream os) throws IOException
 {
   
 }

類(lèi)似的 ObjectInputStream 提供如下方法:
 

 private void readObject(ObjectInputStream is) throws IOException, ClassNotFoundException
 {
   
 }

那么哪里會(huì)需要序列化呢?序列化通常在需要通過(guò)網(wǎng)絡(luò)傳輸數(shù)據(jù),或者保存對(duì)象到文件的場(chǎng)合使用。這里說(shuō)的數(shù)據(jù)是對(duì)象而不是文本。

現(xiàn)在的問(wèn)題是,我們的網(wǎng)絡(luò)架構(gòu)和硬盤(pán)都只能識(shí)別二進(jìn)制和字節(jié),而不能識(shí)別Java對(duì)象。

序列化就是把Java對(duì)象中的value/states翻譯為字節(jié),以便通過(guò)網(wǎng)絡(luò)傳輸或者保存。另外,反序列化就是通過(guò)讀取字節(jié)碼,并把它翻譯回java對(duì)象。

serialVersionUID概念

serialVersionUID 是用于保證同一個(gè)對(duì)象(在序列化中會(huì)被用到)可以在Deserialization過(guò)程中被載入。serialVersionUID 是用于對(duì)象的版本控制。你可以參考serialVersionUID in java serialization獲取更多信息。

對(duì)于序列化:

步驟如下:

讓我們看一個(gè)列子:

在 src->org.arpit.javapostsforlearning 創(chuàng)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;
 }
}

就如你所見(jiàn)的,如果你需要序列化任何類(lèi),那么你 必須實(shí)現(xiàn) Serializable 接口 ,這個(gè)接口是標(biāo)記接口(marker interface)。


Java中的標(biāo)記接口(marker interface)就是一個(gè)沒(méi)有任何字段或者方法的接口,簡(jiǎn)單的來(lái)說(shuō),java中把空接口叫做標(biāo)記接口(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();
 }
 }
}

對(duì)于反序列化:
步驟是

在包src->org.arpit.javapostsforlearning中,創(chuàng)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.運(yùn)行:
首先運(yùn)行SerializeMain.java,然后運(yùn)行 DeserializeMain.java,你會(huì)得到如下的結(jié)果:
 

Deserialized Employee...
Emp id: 101
Name: Arpit
Department: CS

就這樣,我們序列化了一個(gè)employee對(duì)象,并對(duì)它進(jìn)行反序列化。這看起來(lái)和簡(jiǎn)單,但是如果其中包含對(duì)象引用,繼承,那么情況就會(huì)變得復(fù)雜。接下來(lái)讓我們一個(gè)接一個(gè)的看一下例子,看看如何在各種場(chǎng)合中實(shí)現(xiàn)序列化。

案例1 - 如果對(duì)象引用了其他對(duì)象,那該如何

我們已經(jīng)看過(guò)最簡(jiǎn)單的序列化例子,現(xiàn)在看看,如何處理對(duì)象中引用了其他對(duì)象的場(chǎng)合。我們?cè)撊绾涡蛄谢??引用?duì)象也會(huì)被序列化嗎?對(duì)的,你不需要顯式的序列化引用對(duì)象。當(dāng)你序列化任何對(duì)象,如果它包含引用對(duì)象,那么Java序列化會(huì)自動(dòng)序列化該對(duì)象的整個(gè)對(duì)象圖。例如,Employee現(xiàn)在引用了一個(gè)address對(duì)象,并且Address也引用了其他對(duì)象(例如,Home),那么當(dāng)你序列化Employee對(duì)象的時(shí)候,所有其他引用對(duì)象,例如address和home將會(huì)被自動(dòng)地被序列化。讓我們來(lái)創(chuàng)建Address類(lèi),并它Address的對(duì)象作為引用,添加到employee類(lèi)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,創(chuàng)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,創(chuàng)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());
 }
}

運(yùn)行它:
當(dāng)你運(yùn)行SerializeDeserializeMain.java。你會(huì)得到這樣的結(jié)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)

我們將解釋哪里出錯(cuò)了。我忘記了說(shuō),Address 類(lèi)也必須是serializable。那么Address類(lèi)必須繼承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;
 }
}

再次運(yùn)行:
當(dāng)你再次運(yùn)行SerializeDeserializeMain.java。你可以得到如下的結(jié)果
 

Deserialized Employee...
Emp id: 101
Name: Arpit
Department: CS
City :Pune

案例2:如果我們不能訪問(wèn)引用對(duì)象的源代碼(例如,你不能訪問(wèn)上面的Address類(lèi)的源碼)

如果我們不能訪問(wèn)到address類(lèi),那么我們?cè)撊绾卧贏ddress類(lèi)中實(shí)現(xiàn)serializable 接口?是否有另外的途徑來(lái)實(shí)現(xiàn)呢?對(duì)的,你可以創(chuàng)建另外一個(gè)類(lèi),并繼承Address,然后讓它繼承serializable 接口,但是對(duì)于下面的情況,這個(gè)方案會(huì)失?。?/p>

    如果引用類(lèi)被定義為final
    如果引用類(lèi)引用了另外一個(gè)非可序列化的對(duì)象

那么,我們?cè)撊绾涡蛄谢疎mployee對(duì)象?解決的辦法是,標(biāo)記transient。如果你不需要序列化任何字段,只需把它標(biāo)記為transient。
 
transient Address address
在Employee類(lèi)中,標(biāo)記了address為transient之后,運(yùn)行程序。你會(huì)得到nullPointerException,因?yàn)樵诜葱蛄谢^(guò)程中,Address引用將會(huì)是null。


案例3 - 如果我仍然需要保存引用對(duì)象的狀態(tài)呢?(例如address對(duì)象)

如果你在反序列化過(guò)程中,標(biāo)記了address為transient,它將會(huì)返回null結(jié)果。但是如果你仍然需要保存它的狀態(tài),你就需要序列化address對(duì)象。 Java序列化提供一個(gè)機(jī)制,如果你有特定簽名的private方法,那么它們就會(huì)在序列化和反序列化過(guò)程中被調(diào)用,所以我們將重寫(xiě)Employee類(lèi)的writeObject和readObject方法,然后它們就會(huì)在Employee對(duì)象序列化/反序列化過(guò)程中被調(diào)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(); }
 }
}

另外有一點(diǎn)需要牢記的,ObjectInputStream讀取數(shù)據(jù)的順序和ObjectOutputStream寫(xiě)入數(shù)據(jù)的順序是一致的.

在包org.arpit.javapostsforlearning 中創(chuàng)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中創(chuàng)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());
 }
}

運(yùn)行 :
當(dāng)你運(yùn)行SerializeDeserializeMain.java.你會(huì)得到如下的結(jié)果: 
 

Deserialized Employee...
Emp id: 101
Name: Arpit
Department: CS
City :Pune

現(xiàn)在我們就得到了address對(duì)象的狀態(tài),就如它被序列化前的一樣。

序列化中的繼承:

現(xiàn)在我們看看繼承是如何影響序列化的。不管父類(lèi)是不是可序列化,這將引出很多個(gè)例子。如果父類(lèi)是非可序列化的,我們將如何處理,并且它是如何工作的。讓我們看看例子。

我們將創(chuàng)建一個(gè)Person.java,作為 Employee的父類(lèi)。

案例4: 如果父類(lèi)是可序列化的

如果父類(lèi)可序列化,那么所有的繼承類(lèi)將是可序列化的。

案例5: 如果父類(lèi)為非可序列化呢?

如果父類(lèi)為非可序列化的 ,那么我們的處理辦法會(huì)很不一樣。

    如果父類(lèi)為非可序列化的,那么它必然不會(huì)有參數(shù)構(gòu)造函數(shù)。

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 中創(chuàng)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包中創(chuàng)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());
 }
}

運(yùn)行:

當(dāng)你運(yùn)行SerializeDeserializeMain.java后,你會(huì)得到如下的輸出,如果父類(lèi)是非可序列化的,那么在反序列化過(guò)程中,所有繼承于父類(lèi)的實(shí)例變量值,將會(huì)通過(guò)調(diào)用非序列化構(gòu)造函數(shù)來(lái)初始化。 這里 name繼承于person,所以在反序列化過(guò)程中,name將會(huì)被初始化為默認(rèn)值。


案例6 - 如果父類(lèi)是可序列化,但你不需要繼承類(lèi)為可序列化

如果你不希望繼承類(lèi)為可序列化,那么你需要實(shí)現(xiàn) writeObject() 和readObject() 方法,并且需要拋出NotSerializableException 異常。

案例7 - 可否序列化靜態(tài)變量?

不能。因?yàn)殪o態(tài)變量是類(lèi)級(jí)別的,不是對(duì)象級(jí)別的,當(dāng)你序列化一個(gè)對(duì)象的時(shí)候,是不能序列化靜態(tài)變量。


總結(jié):

  •     序列化是java對(duì)象的values/states轉(zhuǎn)化為字節(jié)并在網(wǎng)絡(luò)中傳輸或者保存它的過(guò)程。另外反序列化是把字節(jié)碼翻譯為對(duì)應(yīng)的對(duì)象的過(guò)程。
  •     序列化的好處是,JVM的獨(dú)立性,也就是說(shuō),一個(gè)對(duì)象可以在一個(gè)平臺(tái)中被序列化,然后在另外一個(gè)不同的平臺(tái)反序列化。
  •     如果你需要序列化任何對(duì)象,你必須實(shí)現(xiàn)標(biāo)記接口Serializable。
  •     Java中的標(biāo)記接口(Marker interface)就是沒(méi)有字段或者方法的接口,或者更簡(jiǎn)單的說(shuō),空接口
  •     serialVersionUID 是用于保證同一個(gè)對(duì)象(在序列化中會(huì)被用到)可以在Deserialization過(guò)程中被載入。serialVersionUID 是用于對(duì)象的版本控制。
  •     當(dāng)你需要序列化任何包含引用對(duì)象的對(duì)象,那么Java會(huì)自動(dòng)序列化該對(duì)象的整個(gè)對(duì)象圖。
  •     如果你不希望序列化某個(gè)字段,你可以標(biāo)記它為trasient
  •     如果父類(lèi)為可序列化,那么它的繼承類(lèi)也將是可序列化的。
  •     如果父類(lèi)為非可序列化,那么在反序列化過(guò)程中,所有繼承于父類(lèi)的實(shí)例變量值將會(huì)通過(guò)調(diào)用非可序列化的構(gòu)造器來(lái)初始化。
  •     如果你需希望子類(lèi)為可序列化的,那么你需要實(shí)現(xiàn)writeObject() 和 readObject() 方法,并在這兩個(gè)方法中拋出NotSerializableException異常
  •     你不能序列化靜態(tài)變量。

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