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What is meant by "object serialization"? Can you please explain it with some examples?

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9 Answers 9

up vote 102 down vote accepted

Serialization is the conversion of an object to a series of bytes, so that the object can be easily saved to persistent storage or streamed across a communication link. The byte stream can then be deserialised - converted into a replica of the original object.

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is this obligatory ? do I must serialize data before sending it? what format is it converted to ? –  Francisco Corrales Morales Jul 31 at 14:42
    
@FranciscoCorralesMorales - Behind the scenes, all data will be serialized before it is sent over a stream. How much you need to do, and what format it will be in, are both dependent on which platform and libraries you are using. –  TarkaDaal Jul 31 at 15:03
    
@FranciscoCorralesMorales How you are saying it? i mean you are saying the format depends on platform and libraries.I really want to know the format. –  sunny Aug 31 at 19:52

You can think of serialization as the process of converting an object instance into a sequence of bytes (which may be binary or not depending on the implementation).

It is very useful when you want to transmit one object data across the network, for instance from one JVM to another.

In Java, the serialization mechanism is built into the platform, but you need to implement the Serializable interface to make an object serializable.

You can also prevent some data in your object from being serialized by marking the attribute as transient.

Finally you can override the default mechanism, and provide your own; this may be suitable in some special cases. To do this, you use one of the hidden features in java.

It is important to notice that what gets serialized is the "value" of the object, or the contents, and not the class definition. Thus methods are not serialized.

Here is a very basic sample with comments to facilitate its reading:

import java.io.*;
import java.util.*;

// This class implements "Serializable" to let the system know
// it's ok to do it. You as programmer are aware of that.
public class SerializationSample implements Serializable {

    // These attributes conform the "value" of the object.

    // These two will be serialized;
    private String aString = "The value of that string";
    private int    someInteger = 0;

    // But this won't since it is marked as transient.
    private transient List<File> unInterestingLongLongList;

    // Main method to test.
    public static void main( String [] args ) throws IOException  { 

        // Create a sample object, that contains the default values.
        SerializationSample instance = new SerializationSample();

        // The "ObjectOutputStream" class have the default 
        // definition to serialize an object.
        ObjectOutputStream oos = new ObjectOutputStream( 
                               // By using "FileOutputStream" we will 
                               // Write it to a File in the file system
                               // It could have been a Socket to another 
                               // machine, a database, an in memory array, etc.
                               new FileOutputStream(new File("o.ser")));

        // do the magic  
        oos.writeObject( instance );
        // close the writing.
        oos.close();
    }
}

When we run this program, the file "o.ser" is created and we can see what happened behind.

If we change the value of: someInteger to, for example Integer.MAX_VALUE, we may compare the output to see what the difference is.

Here's a screenshot showing precisely that difference:

alt text

Can you spot the differences? ;)

There is an additional relevant field in Java serialization: The serialversionUID but I guess this is already too long to cover it.

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What is ‘instance' in do the magic part? –  raam86 Oct 2 '12 at 22:53
1  
@raam86 instance is the object being serialized. You may think in the main method as a separate program which creates an object of type SerializationSample –  OscarRyz Oct 3 '12 at 14:31
    
Where Does is it declared? –  raam86 Oct 3 '12 at 14:38
1  
@raam86 is the first statement in the main method: SerializationSample instance = new SerializationSample(); then the output is created and the object written to that output. –  OscarRyz Oct 3 '12 at 14:44
    
Oh. Didnt folow close enough. Great!! –  raam86 Oct 3 '12 at 16:15

I liked the way @OscarRyz presents. Although here i am continuing the story of serialization which was originally written by @articlestack.

Even though knowing about the robot class structure and having serialized data Earth's scientist were not able to deserialize the data which can make robots working.

Exception in thread "main" java.io.InvalidClassException:
SerializeMe; local class incompatible: stream classdesc
:

Mars's scientists were waiting for the complete payment. Once the payment was done Mars's scientists shared the serialversionUID with Earth's scientists. Earth's scientist set it to robot class and everything became fine.

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Serialization is the process of converting an object's state to bits so that it can be stored on a hard drive. When you deserialize the same object, it will retain its state later. It lets you recreate objects without having to save the objects' properties by hand.

http://en.wikipedia.org/wiki/Serialization

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"...so that it can be stored on a hard drive." Or transferred via a binary protocol. –  Jim Anderson Jan 15 '09 at 19:10

Serialization means persisting objects in java. If you want to save the state of the object and want to rebuild the state later (may be in another JVM) serialization can be used.

Note that the properties of an object is only going to be saved. If you want to resurrect the object again you should have the class file, because the member variables only will be stored and not the member functions.

eg:

ObjectInputStream oos = new ObjectInputStream(                                 
                                 new FileInputStream(  new File("o.ser")) ) ;
SerializationSample SS = (SearializationSample) oos.readObject();

The Searializable is a marker interface which marks that your class is serializable. Marker interface means that it is just an empty interface and using that interface will notify the JVM that this class can be made serializable.

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Serialization is taking a "live" object in memory and converting it to a format that can be stored somewhere (eg. in memory, on disk) and later "deserialized" back into a live object.

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Serialization is the process of saving an object in a storage medium (such as a file, or a memory buffer) or to transmit it over a network connection in binary form. The serialized objects are JVM independent and can be re-serialized by any JVM. In this case the "in memory" java objects state are converted into a byte stream. This type of the file can not be understood by the user. It is a special types of object i.e. reused by the JVM (Java Virtual Machine). This process of serializing an object is also called deflating or marshalling an object.

The object to be serialized must implement java.io.Serializable Interface. Default serialization mechanism for an object writes the class of the object, the class signature, and the values of all non-transient and non-static fields.

class ObjectOutputStream extends java.io.OutputStream implements ObjectOutput,

ObjectOutput interface extends the DataOutput interface and adds methods for serializing objects and writing bytes to the file. The ObjectOutputStream extends java.io.OutputStream and implements ObjectOutput interface. It serializes objects, arrays, and other values to a stream. Thus the constructor of ObjectOutputStream is written as:

ObjectOutput ObjOut = new ObjectOutputStream(new FileOutputStream(f));

Above code has been used to create the instance of the ObjectOutput class with the ObjectOutputStream( ) constructor which takes the instance of the FileOuputStream as a parameter.

The ObjectOutput interface is used by implementing the ObjectOutputStream class. The ObjectOutputStream is constructed to serialize the object.

Deserializing an Object in java

The opposite operation of the serialization is called deserialization i.e. to extract the data from a series of bytes is s known as deserialization which is also called inflating or unmarshalling.

ObjectInputStream extends java.io.InputStream and implements ObjectInput interface. It deserializes objects, arrays, and other values from an input stream. Thus the constructor of ObjectInputStream is written as:

ObjectInputStream obj = new ObjectInputStream(new FileInputStream(f));

Above code of the program creates the instance of the ObjectInputStream class to deserialize that file which had been serialized by the ObjectInputStream class. The above code creates the instance using the instance of the FileInputStream class which holds the specified file object which has to be deserialized because the ObjectInputStream() constructor needs the input stream.

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Serialization is the process of turning a Java object into byte array and then back into object again with its preserved state. Useful for various things like sending objects over network or caching things to disk.

Read more from this short article which explains programming part of the process quite well and then move over to to Serializable javadoc. You may also be interested in reading this related question.

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I found this good answer from here :-

Imagine you want to save the state of one or more objects. If Java didn’t have serialization, you’d have to use one of the I/O classes to write out the state of the instance variables of all the objects you want to save. The worst part would be trying to reconstruct new objects that were virtually identical to the objects you were trying to save. You’d need your own protocol for the way in which you wrote and restored the state of each object, or you could end up setting variables with the wrong values. For example, imagine you stored an object that has instance variables for height and weight. At the time you save the state of the object, you could write out the height and weight as two ints in a file, but the order in which you write them is crucial. It would be all too easy to re-create the object but mix up the height and weight values—using the saved height as the value for the new object’s weight and vice versa. The purpose of Serialization is to help us achieve whatever complicated scenario we just witnessed in an easier manner.

Working with ObjectOutputStream and ObjectInputStream

The magic of basic serialization happens with just two methods: one to serialize objects and write them to a stream, and a second to read from the stream and deserialize the object.

ObjectOutputStream.writeObject() - serialize and write

ObjectInputStream.readObject() - read and deserialize

The java.io.ObjectOutputStream and java.io.ObjectInputStream classes are considered to be higher-level classes in the java.io package, and as we learned in the previous chapter that means that you’ll wrap them around lower-level classes, such as java.io.FileOutputStream and java.io.FileInputStream. Here’s a small program that creates an object, serializes it, and then deserializes it:

import java.io.*;

class Car implements Serializable { } // 1

public class SerializeCar {
public static void main(String[] args) {
Car c = new Car(); // 2
try {
FileOutputStream fs = new FileOutputStream("testSer.ser");
ObjectOutputStream os = new ObjectOutputStream(fs);
os.writeObject(c); // 3
os.close();
} Catch (Exception e) { e.printStackTrace(); }

try {
FileInputStream fis = new FileInputStream("testSer.ser");
ObjectInputStream ois = new ObjectInputStream(fis);
c = (Car) ois.readObject(); // 4
ois.close();
} Catch (Exception e) { e.printStackTrace(); }
}
}

Let’s take a look at the key points in this example:

  1. We declare that the Car class implements the Serializable interface. Serializable is a marker interface; it has no methods to implement.

  2. We make a new Car object, which as we know is serializable.

  3. We serialize the Car object c by invoking the writeObject() method. First, we had to put all of our I/O-related code in a try/Catch block. Next we had to create a FileOutputStream to write the object to. Then we wrapped the FileOutputStream in an ObjectOutputStream, which is the class that has the magic serialization method that we need. Remember that the invocation of writeObject() performs two tasks: it serializes the object, and then it writes the serialized object to a file.

  4. We de-serialize the Car object by invoking the readObject() method. The readObject() method returns an Object, so we have to cast the deserialized object back to a Car. Again, we had to go through the typical I/O hoops to set this up. - See more

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