说到Java的基本数据类型必须谈到的两个类是DataInputStream和DataOutputStream。它们提供了对Java基本数据类型的操作,但是这些方法事实上是在两个重要的接口中定义的DataInput和DataOutput,它们的功能就是把二进制的字节流转换成Java的基本数据类型,同时还提供了从数据中使用UTF-8编码构建String的功能。有一个重要的类RandomAccessFile实现了DataInput和DataOutput两个接口使得他能够对文件同时进行写和读的操作。
在DataInputStream和DataOutputStream两个类中的方法都很简单,基本结构为readXXXX()和writeXXXX()其中XXXX代表基本数据类型或者String。在这里不多讲述,不过值得一提的是我们有必要读读java中unicode的编码规则,在API doc中有比较详细的介绍。通常我们的对象有很多都是由java的基本数据类型构成的,比如一个人的信息包括姓名,电子信箱,电话号码和性别等。其实我们可以用DataInputStream中的方法和DataOutputStream中的方法按照一定的序列把数据写入流中再按照相同的序列把他们读取出来,这就是我们自己实现的序列化,这可以用在数据传输中,比如在J2ME联网程序中使用序列化机制传输数据。下面我们看看如何自己实现序列化,首先我们要有两个构造函数其中一个参数为空。
public Account()
{
}
public Account(String userName, String email, int age, boolean gender)
{
this.userName = userName;
this.email = email;
this.age = age;
this.gender = gender;
}
当我们进行序列化的时候也很简单,我们只是往DataOutputStream中按照顺序写入对象的成员变量。例如
public void serialize(DataOutputStream dos) throws IOException
{
dos.writeUTF(userName);
dos.writeUTF(email);
dos.writeInt(age);
dos.writeBoolean(gender);
}
当我们进行反序列化的时候则按照相同的顺序从DataInputStream里面读取数据并赋值给成员变量。例如
public static Account deserialize(DataInputStream dis) throws IOException
{
Account account = new Account();
account.userName = dis.readUTF();
account.email = dis.readUTF();
account.age = dis.readInt();
account.gender = dis.readBoolean();
return account;
}
为了便于调试我们还提供一个toString()的方法打印出对象的实际信息。这是个好的习惯。
public String toString()
{
return "UserName = " + userName + " Email = " + email + " age = " + age
+ " gender = " + (gender ? "male" : "female");
}
为了测试序列化我们编写下面的程序进行测试,代码比较简单。
package com.j2medev.mingjava;
import java.io.*;
public class TestDataIO
{
public static void main(String[] args) throws IOException
{
Account account = new Account("mingjava","[email protected]",25,true);
System.out.println("before serialization.........");
System.out.println(account.toString());
ByteArrayOutputStream baos = new ByteArrayOutputStream();
DataOutputStream dos = new DataOutputStream(baos);
account.serialize(dos);
DataInputStream dis = new DataInputStream(new ByteArrayInputStream(baos.toByteArray()));
Account sAccount = Account.deserialize(dis);
System.out.println("after serialization..........");
System.out.println(sAccount.toString());
dos.close();
dis.close();
}
}
package com.j2medev.mingjava;
import java.io.*;
public class Account
{
private String userName = "";
private String email = "";
private int age = 0;
private boolean gender = false;
public Account()
{
}
public Account(String userName, String email, int age, boolean gender)
{
this.userName = userName;
this.email = email;
this.age = age;
this.gender = gender;
}
public void serialize(DataOutputStream dos) throws IOException
{
dos.writeUTF(userName);
dos.writeUTF(email);
dos.writeInt(age);
dos.writeBoolean(gender);
}
public static Account deserialize(DataInputStream dis) throws IOException
{
Account account = new Account();
account.userName = dis.readUTF();
account.email = dis.readUTF();
account.age = dis.readInt();
account.gender = dis.readBoolean();
return account;
}
public String toString()
{
return "UserName = " + userName + " Email = " + email + " age = " + age
+ " gender = " + (gender ? "male" : "female");
}
}
编译运行程序在控制台输出:
before serialization.........
UserName = mingjava Email = [email protected] age = 25 gender = male
after serialization..........
UserName = mingjava Email = [email protected] age = 25 gender = male
序列化成功,后面我将讲述如何在J2ME联网中使用序列化机制。
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